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Session programme

BG

BG – Biogeosciences

Programme group chairs: Helmuth Thomas, Helge Niemann, Cornelia Rumpel, Lutz Merbold, Angelo Pio Rossi, Giuliana Panieri, Tobias Himmler

MAL33/BG
Vladimir Ivanovich Vernadsky Medal Lecture by Kurt O. Konhauser
Convener: Giuliana Panieri
Abstract
| Thu, 11 Apr, 11:30–12:30
 
Room C
DM2/BG ECS
Division meeting for Biogeosciences (BG)
Convener: Giuliana Panieri
Thu, 11 Apr, 12:45–13:45
 
Room L2
SAL1

Public information:
During the sixties, the new Plate Tectonics paradigm was established. At a recent international meeting (Collège de France, Paris, 2018), discussions arose on whether for the first time it would be possible to relate without ambiguity plate tectonics and mantle dynamics.
In this presentation, the author shares this point of view and explains why he does so.

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Co-organized as BG/GD/SM/TS
Convener: Carlo Laj | Co-convener: Chris King (deceased)
Tue, 09 Apr, 19:00–20:00
 
Room E1

BG1 – General Biogeosciences

BG1.1

This session is open to all contributions in biogeochemistry and ecology where stable isotope techniques are used as analytical tools, with a focus on stable isotopes of light elements (C, H, O, N, S, ...). We welcome studies from both terrestrial and aquatic (including marine) environments as well as methodological and experimental, theoretical and modeling studies that introduce new approaches or techniques (including natural abundance work, labeling studies, multi-isotope approaches, clumped and metal isotopes).

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Co-organized as GMPV7.12/HS11.54/OS3.8/SSS12.15, co-sponsored by EAG
Convener: Michael E. Böttcher | Co-conveners: Kirstin Dähnke, Gerd Gleixner, Nikolaus Gussone
Orals
| Tue, 09 Apr, 08:30–10:15, 10:45–12:30
 
Room L2
Posters
| Attendance Tue, 09 Apr, 16:15–18:00
 
Hall A
BG1.2

Stable isotopes and other novel tracers, such as carbonyl sulfide (COS) and clumped isotopes, help to identify and quantify biological, chemical and physical processes that drive Earth's biogeochemical cycling, atmospheric processes and biosphere-atmosphere exchange. Recent developments in analytical measurement techniques now offer the opportunity to investigate these tracers at unprecedented temporal and spatial resolution and precision.

This session includes contributions from field and laboratory experiments, latest instrument developments as well as theoretical and modelling activities that investigate and use the isotope composition of light elements (C, H, O, N) and their compounds as well as other novel tracers for biogeochemical and atmospheric research.

Topics addressed in this session include:
- Stable isotopes in carbon dioxide (CO2), water (H2O), methane (CH4) and nitrous oxide (N2O)
- Novel tracers and biological analogues, such as COS
- Polyisotopocules ("clumped isotopes")
- Intramolecular stable isotope distributions ("isotopomer abundances")
- Analytical, method and modelling developments
- Flux measurements
- Quantification of isotope effects
- Non-mass dependent isotopic fractionation and related isotope anomalies

We are really excited to announce our solicited speakers:

Dr Laura Meredith
The University of Arizona
@DrLauraMeredith
http://www.laurameredith.com/

Prof. Thomas Röckmann
Utrecht University
https://www.uu.nl/staff/TRoeckmann/Profile

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Co-organized as AS5.28
Convener: Lisa Wingate | Co-conveners: Matthias Cuntz, Jan Kaiser, Alexander Knohl
Orals
| Tue, 09 Apr, 14:00–15:45
 
Room L2
Posters
| Attendance Tue, 09 Apr, 10:45–12:30
 
Hall A
CL1.21

Stable and radiogenic isotopic records have been successfully used for
investigating various settings, such as palaeosols, lacustrine, loess, caves, peatlands, bogs, arid, evaporative and marine environments. We are
looking for contributions using isotopes along with mineralogical, sedimentological, biological, paleontological and chemical records in
order to unravel the past and present climate and environmental changes.
The session invites contributions presenting an applied as well as a
theoretical approach. We welcome papers related to both reconstructions
(at various timescales) as well as on fractionation factors, measurement, methods, proxy calibration, and verification.

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Co-organized as BG1.4/SSP2.13
Convener: Ana-Voica Bojar | Co-conveners: Octavian G. Duliu, Andrzej Pelc, Christophe Lecuyer, Grzegorz Skrzypek
Orals
| Wed, 10 Apr, 16:15–18:00
 
Room 0.14
Posters
| Attendance Wed, 10 Apr, 14:00–15:45
 
Hall X5
BG1.5

Stable isotopes give a powerful tool used in many applications (biogeochemistry, atmospheric science, greenhouse gases, paleoclimate, hydrogeology, geology, forensics etc) and, as such, isotope data should fit-for-purpose. To produce reliable data and make trustworthy interpretations, data produced in different laboratories should be comparable (be on the same scale) and compatible (be within target uncertainty). However, the uncertainty provided often involves only the measurement repeatability on a few runs. There are no commonly agreed ways of uncertainty estimations and some uncertainty components may be missing from considerations. Thereafter, use of basic quality control tools such as performance charts, quality control materials and lab-to-lab comparisons is of high importance. This multi-disciplinary session aims to address aspects related to the quality of stable isotope data starting from calibrations, uncertainty estimation as well as various tools used for quality control.

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Co-organized as AS5.27
Convener: Sergey Assonov | Co-conveners: Philip Dunn, Grzegorz Skrzypek, David Soto
Orals
| Tue, 09 Apr, 16:15–18:00
 
Room L2
Posters
| Attendance Tue, 09 Apr, 08:30–10:15
 
Hall A
BG1.7

Anthropogenic disturbance of the nitrogen (N) cycle has more than doubled the amount of reactive N circulating in the biosphere. Exchange of nitrogen gases between land and atmosphere are strongly affecting Earth’s atmospheric composition, air quality, climate change and human health. This session seeks to improve our understanding on how global changes impact N biogeochemistry in terrestrial and aquatic ecosystems and what atmospheric interactions will be most important in influencing the climate. We seek to link microbiological nitrogen processes and surface nitrogen gases flux with ecosystem dynamics, air quality and atmospheric chemistry. We will cover fluxes of various nitrogen gases and the underlying transformation processes in soils and sediments, e.g., fixing of atmospheric dinitrogen, release of nitrous acid (HONO), nitric oxide (NO), nitrogen dioxide (NO2), nitrous oxide (N2O) and ammonia (NH3) as well as interactions with ozone, volatile organic compounds, free radicals as well as aerosols in the atmosphere, and further impact on air quality. Further, the interactions of N cycling with other element cycles (e.g., carbon, phosphorus) in ecosystems and terrestrial-aquatic linkages, and feedbacks to biodiversity loss and water pollution will be explored. We welcome a wide range of studies including methods development and application of new devices, observational, experimental, and modeling approaches.

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Convener: Dianming Wu | Co-conveners: Tuula Larmola, Ming Chang, Yuepeng Pan, Sari Juutinen, Sami Ullah
Orals
| Mon, 08 Apr, 08:30–12:30
 
Room 2.25
Posters
| Attendance Mon, 08 Apr, 16:15–18:00
 
Hall A
BG1.8 | PICO

Ongoing climate change and a shorter return period of climate and hydrological extremes has been observed to affect the distribution and vitality of ecosystems. In many regions, available water is a crucial point of survival. Risk can be enhanced by the exposure and/or by the vulnerability of the affected ecosystem.
The session focuses on the complex assessment of all determining factors through a joint utilization of a broad spectrum of databases and methods (e.g. field and laboratory measurements, remote sensing, modelling and monitoring techniques) that can provide a suitable basis for developing long-term strategies for adaptation.
The session should provide a multidisciplinary platform for sharing experiences and discussing results of local and catchment scale case studies from a wider range of relevant fields such as
• observed impacts and damage chains in natural ecosystems induced by climate and hydrological extremes;
• correlation between the underlying environmental factors (e.g. climate, water holding capacity, soil characteristics) and the distribution/vitality of ecosystems;
• integrated application or comparison of databases and methods for the identification and complex assessment of ecosystem responses to abiotic stress factors;
• expected tendencies of abiotic risk factors affecting and limiting the survival of the vulnerable species.
Contributions are encouraged from international experiences, ongoing research activities as well as national, regional and local initiatives.

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Co-organized as CL4.40/HS10.14/NH1.36/SSS13.3
Convener: Borbála Gálos | Co-conveners: Zoltán Gribovszki, Adrienn Horváth, Dejan Stojanovic, Jan Szolgay
PICOs
| Thu, 11 Apr, 14:00–15:45
 
PICO spot 4
GI2.3

Non-destructive testing (NDT) methods have been increasingly used over the last decades in a wide range of engineering and geosciences applications. New theoretical developments, technological advances in both hardware and software resources as well as the progress achieved in surveying, data processing and interpretation have led to a tremendous growth of equipment reliability, allowing outstanding data quality and accuracy. To this effect, the potential of many optical, acoustic, electric and electromagnetic NDT methods for stand-alone use has been greatly investigated to date. Hence, these pieces of equipment have become popular for assessment and monitoring purposes in many fields of application.
Nevertheless, the requirements of a comprehensive site investigation may be complex and time-consuming and may involve multiple expertise and many pieces of equipment. The challenge is to step forward and provide effective integration between data outputs with different physical quantities, scale domains and resolutions. In this regard, enormous development opportunities relating to data fusion, integration and correlation between different NDT methods and theories are to be further investigated in the near future.
Within this framework, this Session primarily aims at disseminating contributions from state-of-the-art NDT methods and numerical developments, promoting the integration of existing equipment and the development of new algorithms, surveying techniques, methods and prototypes for effective monitoring and assessment of survey sites. Non-destructive testing techniques of interest are related – but not limited to – the application of acoustic emission (AE) testing, electromagnetic testing (ET), ground penetrating radar (GPR), geoelectric methods (GM), laser testing methods (LM), magnetic flux leakage (MFL), microwave testing, magnetic particle testing (MT), neutron radiographic testing (NR), radiographic testing (RT), thermal/infrared testing (IRT), ultrasonic testing (UT), seismic methods (SM), vibration analysis (VA), visual and optical testing (VT/OT).
The Session will focus on the application of different NDT methods and theories and will be related – but not limited to – the following investigation areas:
- advanced data fusion;
- advanced interpretation methods;
- design and development of new surveying equipment and prototypes;
- assessment and monitoring methods for site investigations;
- assessment and monitoring protocols and procedures for site investigations;
- comprehensive and inclusive information data systems for the monitoring and assessment of survey sites;
- numerical simulation and modelling of data outputs with different physical quantities, scale domains and resolutions;
- advances in NDT methods, numerical developments and applications (stand-alone use of existing and state-of-the-art NDTs).

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Co-organized as BG1.9/EMRP2.25/NH11.1
Convener: Andrea Benedetto | Co-conveners: Morteza (Amir) Alani, Andreas Loizos, Francesco Soldovieri, Fabio Tosti
Orals
| Tue, 09 Apr, 14:00–18:00
 
Room 0.96
Posters
| Attendance Wed, 10 Apr, 08:30–10:15
 
Hall X1
GI3.2

Airborne observations are one major link to get an overall picture of processes within the Earth environment during measurement campaigns. This includes application to derive atmospheric parameters, surface properties of vegetation, soil and minerals and dissolved or suspended matter in inland water and the ocean. Ground based systems and satellites are other key information sources to complement the airborne data sets. All these systems have their pros and cons, but a comprehensive view of the observed system is generally best obtained by means of a combination of all three. Aircraft operations strongly depend on weather conditions either to obtain the atmospheric phenomenon of interest or the required surface-viewing conditions and hence require sophisticated flight planning. They can cover large areas in the horizontal and vertical space with adaptable temporal sampling. Future satellite instruments can be tested and airborne platforms and systems are widely used in the development process. The validation of operational satellite systems and applications is a topic that has come increasingly into focus with the European Copernicus program in recent years. The large number of instruments available on aircraft enables a broad and flexible range of applications. The range includes sensors for meteorological parameters, trace gases and cloud/aerosol particles and more complex systems like high spectral resolution lidar, hyperspectral imaging at wavelengths from the visible to thermal infra-red and synthetic aperture radar. The development of smaller state-of-the-art instruments, the combination of more and more complex sets of instruments simultaneously on one platform, with improved accuracy and high data acquisition speed together with high accuracy navigation and inertial measurements enables more complex campaign strategies even on smaller aircraft or unmanned aerial vehicles (UAV). This will further increase the capabilities of the existing fleet of airborne research.

This session will bring together aircraft operators and the research community to present
• an overview of the current status of airborne related research
• recent airborne field campaigns and their outcomes
• multi-aircraft campaigns
• satellite calibration/validation campaigns
• sophisticated airborne instrument setups and observations
• advanced airborne instrument developments
• UAV applications
• future plans for airborne research

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Co-organized as AS5.4/BG1.11/HS9.1.8/OS4.26
Convener: Thomas Ruhtz | Co-conveners: Philip Brown, Paola Formenti
Orals
| Mon, 08 Apr, 14:00–18:00
 
Room 0.96
Posters
| Attendance Mon, 08 Apr, 10:45–12:30
 
Hall X1
AS3.4

Atmosphere and Cryosphere are closely linked and need to be investigated as an interdisciplinary subject. Most of the cryospheric areas have undergone severe changes in last decades while such areas have been more fragile and less adaptable to global climate changes. This AS-CR session invites model- and observational-based investigations on any aspects of linkages between atmospheric processes and snow and ice on local, regional and global scales. Emphasis is given on the Arctic, high latitudes and altitudes, mountains, sea ice, Antarctic regions. In particular, we encourage studies that address aerosols (such as Black Carbon, Organic Carbon, dust, volcanic ash, diatoms, bioaerosols, bacteria, etc.) and changes in the cryosphere, e.g., effects on snow/ice melt and albedo. The session also focus on dust transport, aeolian deposition, and volcanic dust, including health, environmental or climate impacts at high latitudes, high altitudes and cold Polar Regions. We emphasize contributions on biological and ecological sciences including dust-organisms interactions, cryoconites, bio-albedo, eco-physiological, biogeochemical and genomic studies. Related topics are light absorbing impurities, cold deserts, dust storms, long-range transport, glaciers darkening, polar ecology, and more. The scientific understanding of the AS-CR interaction needs to be addressed better and linked to the global climate predictions scenarios.

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Co-organized as BG1.12/CL2.17/CR3.08
Convener: Pavla Dagsson Waldhauserova | Co-conveners: Biagio Di Mauro, Marie Dumont, Outi Meinander, Krzysztof Zawierucha
Orals
| Fri, 12 Apr, 16:15–18:00
 
Room 0.31
Posters
| Attendance Fri, 12 Apr, 10:45–12:30
 
Hall X5
GI4.4 Media

Progressively stricter requirements in geophysical prospecting, in urban and inter-urban monitoring make it important to look continuously for innovative solutions to new and old complex problems. In particular, investigation and monitoring of pollution, hydrological resources, energy efficiency, cultural heritage, cities and transportation infrastructures nowadays require technological and methodological innovations of geophysical and sensing techniques in order to properly understand the limits of the current state of art and to identify where possible the most convenient strategies to overcome limitations of current approaches. This goal can be achieved either with more advanced solutions in a general sense or with dedicated solutions, particularly suitable for the specific problem at hand.
Integrated prospecting, refined data processing, new models, hardware innovations, new ICT information and telecommunications systems can and should cooperate with each other in this sense. It is important that the scientific community finds a moment for considering the connection between adjacent aspects of the same problem, e.g. to achieve improved geophysical data, safe and reliable environmental and structural monitoring, improved processing as much as possible.
The session “ Innovative instrumentations, techniques, geophysical methods and models for near surface geophysics, cities and transportation infrastructures aims to propose one such moment, where multidisciplinary and interdisciplinary competences can interact with each other, possibly finding possible new ways to cooperate and to exchange experiences reciprocally to reach sustainable solutions.

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Co-organized as BG1.13/EMRP2.30/HS11.27/NH11.3/SSS12.10
Convener: Raffaele Persico | Co-conveners: Mario Marchetti, Salvatore Piro, F.C. Ponzo
Orals
| Fri, 12 Apr, 08:30–10:15
 
Room M1
Posters
| Attendance Fri, 12 Apr, 10:45–12:30
 
Hall X1
AS3.19 | PICO

The session focuses on the variability of the tropospheric and stratospheric chemical composition on diurnal, seasonal and longer timescales and looks at the processes driving this variability. Special emphasis is put on the scientific value of high-quality long-term measurement data sets and supporting model simulations. Both approaches contribute to improved understanding of the mechanisms that control the variability of atmospheric chemical composition (including multiple gaseous species). Presentations related to the projections of the atmospheric composition are welcome in this session as well.
Researchers are invited to present novel scientific results from mid- and long-term observational time series from various programmes and networks such as the Global Atmosphere Watch (GAW) Programme, European Monitoring and Evaluation Programme (EMEP), Network for the Detection of Atmospheric Composition Change (NDACC), Southern Hemisphere Additional Ozonesondes (SHADOZ), Advanced Global Atmospheric Gases Experiment (AGAGE), National Oceanic and Atmospheric Administration (NOAA), regular airborne (e.g. CARIBIC, IAGOS, CONTRAIL) and other campaigns as well as satellite data and model simulations. Data relevant to tropospheric and stratospheric composition, in particular related to ozone depletion, climate change and air quality as well as firn data on past atmospheric composition are welcome. We welcome contributions from multi-year modeling studies and inter-comparison exercises which address past and future tropospheric or stratospheric composition changes, carried out in the framework of international projects and initiatives. The session will be dedicated in particular to the celebration of the 30th anniversary of the GAW Programme.

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Co-organized as BG1.14/GI3.10
Convener: Oksana Tarasova | Co-conveners: Pedro Jimenez-Guerrero, Euan Nisbet, Andrea Pozzer, Sophie Szopa
PICOs
| Wed, 10 Apr, 08:30–12:30, 14:00–18:00
 
PICO spot 5a
GM1.6 | PICO

#FlumeFriday is a twitter hashtag established by the HYDRALAB+ project, to share insights and expertise from all types of physical modelling experiments and to build an active online community to support hydraulic experimentalists. #FlumeFriday provides an opportunity to improve the communication of scientific results to the public and to broaden societal involvement in laboratory activities. Since its inception in March 2016, participants and followers of the hashtag have grown extensively with worldwide participation, and many different types of experiment represented in posts.

This online community provides an opportunity to bring together the scientists involved in experimental work who come from many different disciplines including, but not limited to, geologists, geographers, biologists, engineers, geochemists and sedimentologists. These experts bring complementary field, laboratory, numerical and modelling skills to understand the processes controlling environmental flow dynamics using both established and novel instrumentation and techniques.

In this session, we welcome submissions from all our past, present and future #FlumeFriday contributors to share more details about their innovative and novel approaches to experimental modelling, including any interesting and unusual results.

We would also encourage contributions focused on methodologies, instrumentation and techniques, both established and innovative, to share knowledge on how to overcome difficulties and improve results. A particular emphasis is put on recent advances or new challenges associated with the idea of using low-cost and easy-to-find materials as hydro/morphodynamic or bio/geochemical markers or surrogates. The sharing of new strategies and initiatives to support an open science approach in experimental hydraulics is also welcome.

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Co-organized as BG1.15/GI2.8/HS11.58/SSP3.18
Convener: Hannah Williams | Co-conveners: Carla Faraci, Rachel Hale, Stuart McLelland, Rosaria Ester Musumeci
PICOs
| Fri, 12 Apr, 10:45–12:30
 
PICO spot 1
AS4.20 Media

The interaction of processes between the land surface, the planetary boundary layer (PBL), and the free troposphere are crucial for the understanding of weather and climate including extremes such as heavy precipitation and droughts. This requires an advanced understanding and modeling of the exchange of momentum, water, energy, and carbon at interfaces. In this session, we present and discuss current research activities contributing to this understanding, including L-A interaction and feedback to the diurnal cycle of the PBL, clouds, and precipitation as well as surface fluxes such as evapotranspiration and entrainment. We accept observational and modeling approaches to address these challenges. With respect to the observations, emphasis is put on the application of new sensor synergies, e.g., using active remote sensing for studying land surface exchange processes and entrainment at the PBL top, which have been addressed in field campaigns. With respect to theoretical understanding and modeling, we are focusing on new insights by feedback diagrams and grey zone experiments down to the large eddy simulation scale.

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Co-organized as BG1.16/CL4.29/HS11.28
Convener: Volker Wulfmeyer | Co-conveners: Wim Thiery, Matthias Mauder, Linda Schlemmer, Chiel van Heerwaarden, Diego G. Miralles, Adriaan J. (Ryan) Teuling, Sonia I. Seneviratne
Orals
| Tue, 09 Apr, 16:15–18:00
 
Room 0.11
Posters
| Attendance Wed, 10 Apr, 16:15–18:00
 
Hall X5
AS2.1

The session is addressed to experimentalists and modellers working on land surface fluxes from local to regional scales. The programme is open to a wide range of new studies in micrometeorology. The topics include the development of new devices, measurement techniques and experimental design methods, as well as novel findings on surface layer theory and parametrization at the local scale. The theoretical parts encompass soil-vegetation-atmosphere transport, internal boundary-layer theories and flux footprint analyses, etc.. Of special interest are comparisons of experimental data, parametrizations and models. This includes energy and trace gas fluxes (inert and reactive) as well as water, carbon dioxide and other GHG fluxes. Specific focus is given to outstanding problems in land surface boundary layer descriptions such as complex terrain, energy balance closure, stable stratification and night time fluxes, as well as to the dynamic interactions with atmosphere, plants (in canopy and above canopy) and soils including the scale problems in atmosphere and soil exchange processes.

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Co-organized as BG1.18/HS11.6/SSS13.1, co-sponsored by iLEAPS
Convener: Christoph Thomas | Co-conveners: Marc Aubinet, Andreas Ibrom
Orals
| Mon, 08 Apr, 16:15–18:00
 
Room 0.11
Posters
| Attendance Mon, 08 Apr, 14:00–15:45
 
Hall X5
AS3.33

Volatile Organic Compounds (VOCs) in the atmosphere are globally dominated by a number of primary emission sources. These include biogenic sources (e.g. emissions from plants, flowers) or microbial VOCs (mVOCs), as well as anthropogenic and pyrogenic emissions. Once in the atmosphere, VOCs are oxidized and serve as precursors of secondary organic aerosol. They also contribute to the formation of tropospheric ozone, and can affect atmospheric oxidants. Mechanistic understanding of chemical pathways and surface-atmosphere exchange in rural and urban environments requires synergy between measurements at different spatiotemporal scales including laboratory oxidation experiments, embracing the broad diversity of VOC sources in the atmosphere. From a direct health perspective the largest human exposure to VOCs is likely not outdoors but in the indoor atmosphere. The use of solvents and consumer-care products by humans have also emerged as a prominent source of outdoor atmospheric VOCs. Extension of the range of VOCs measured in urban environments reveal large contributions of longer-chain semivolatile VOCs, and recent measurement technologies for extremely low volatility compounds (ELVOC) have bridged the gas-aerosol phase continuum.
We encourage a wide range of submissions of contributions based on in-situ measurements of VOCs at different scales, outdoors and indoors, flux measurements of emission and deposition processes, satellite observations, laboratory experiments and modeling.

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Co-organized as BG1.20, co-sponsored by iLEAPS
Convener: Pawel Misztal | Co-conveners: Thomas Karl, Ben Langford, Janne Rinne
Orals
| Wed, 10 Apr, 14:00–18:00
 
Room 0.60
Posters
| Attendance Wed, 10 Apr, 10:45–12:30
 
Hall X5
ITS3.1/SSS1.4/EOS3.2/BG1.21/ESSI3.8/HS11.32/NH9.22 Media

Citizen science (the involvement of the public in scientific processes) is gaining momentum in one discipline after another, thereby more and more data on biodiversity, earthquakes, weather, climate, health issues among others are being collected at different scales that can extend the frontiers of knowledge. Successful citizen observatories can potentially be scaled up in order to contribute to larger environmental and policy strategies and actions (such as the European Earth Observation monitoring systems) and to be integrated in GEOSS and Copernicus. Making credible contributions to science can empower citizens to actively participate in environmental decision making, can raise awareness about environmental issues and can help bridge the science-society gap. Often, citizen science is seen in the context of Open Science, which is a broad movement embracing Open Data, Open Access, Open Educational Resources, Open Source, Open Methodology, and Open Peer Review to transparently publish and share scientific research - thus leveraging Citizen Science and Reproducible Research.

Both, open science in general and citizen science in particular, pose great challenges for researchers, and to support the goals of the various openness initiatives, this session looks at what is possible nowadays and what is ready for application in geosciences. Success stories, failures, best practices and solutions will be presented, in addition to various related networks. We aim to show how researchers, citizens, funding agencies, governments and other stakeholders can benefit from citizen science and open science, acknowledging the drawbacks and highlighting the opportunities available for geoscientists.

In this session, we are looking for successful approaches of working with citizen science and open science to bridge the gap between a multitude of stakeholders in research, policy, economy, practice and society at large by finding emerging environmental issues and empowering citizens. This session shall be an open space to exchange experiences and to present either successful examples or failed efforts. Learning from others and understanding what to adopt and what to change help the participants in their own undertakings and new initiatives, so that they become future success stories.

We want to ask and find answers to the following questions:
Which approaches can be used in Earth, Planetary and Space Sciences?
What are the biggest challenges and how to overcome them?
What kind of citizen scientist involvement and open science strategies exist?
How to ensure transparency in project results and analyses?
How to evaluate successful bridging of the science-society-gap?

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Co-organized as SSS1.4/EOS3.2/BG1.21/ESSI3.8/HS11.32/NH9.22
Convener: Taru Sandén | Co-conveners: Daniel Dörler, Steffen Fritz, Florian Heigl, Amanda Whitehurst, Martin Hammitzsch
Orals
| Fri, 12 Apr, 08:30–12:30
 
Room N1
Posters
| Attendance Fri, 12 Apr, 14:00–15:45
 
Hall X1
CL3.03 | PICO

Carbon budgets are a finite quantity of carbon that can be emitted whilst holding warming below some given temperature level, such as the 1.5 and 2.0ºC temperature limits specified in the Paris Agreement. Carbon budgets emerge from the near-proportional relationship between total anthropogenic emissions of CO2 and change in global mean temperature seen in virtually all Earth System Models. This relationship is known as the Transient Climate Response to Cumulative CO2 Emissions (TCRE). Carbon budgets and the associated cumulative emissions framework have recently been used to: estimate the fraction of known fossil fuel reserves that can be burnt, attribute historical responsibility for climate change, and to scrutinize national emissions commitments towards meeting the Paris Agreement goal.

The session invites contributions examining a wide range of aspects related to carbon budgets and the TCRE framework, including: the governing mechanisms that lead to the emergence of TCRE, how carbon budgets are affected by previously unquantified feedbacks (e.g. permafrost carbon feedback, wetland methane feedback) and non-CO2 forcings (e.g. aerosols, non-CO2 greenhouse gases ext.), quantification of the remaining carbon budget to reach given temperature goals (for example, from the Paris Agreement), uncertainties associated with these budgets, the role of pathway dependence, and the behaviour of TCRE in response to artificial CO2 removal from the atmosphere. Contributions from the fields of climate policy and economics focused on applications of carbon budgets are also encouraged.

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Co-organized as BG1.24
Convener: Andrew MacDougall | Co-conveners: Joeri Rogelj, Katarzyna (Kasia) Tokarska
PICOs
| Mon, 08 Apr, 16:15–18:00
 
PICO spot 5a
HS1.2.9

Data assimilation is becoming more important as a method to make predictions of Earth system states. Increasingly, coupled models for different compartments of the Earth system are used. This allows for making advantage of varieties of observations, in particular remotely sensed data, in different compartments. This session focuses on weakly and strongly coupled assimilation of in situ and remotely sensed measurement data across compartments of the Earth system. Examples are data assimilation for the atmosphere-ocean system, data assimilation for the atmosphere-land system and data assimilation for the land surface-subsurface system. Optimally exploiting observations in a compartment of the terrestrial system to update also states in other compartments of the terrestrial system still has strong methodological challenges. It is not yet clear that fully coupled approaches, where data are directly used to update states in other compartments, outperform weakly coupled approaches, where states in other compartments are only updated indirectly, through the action of the model equations. Coupled data assimilation allows to determine the value of different measurement types, and the additional value of measurements to update states across compartments. Another aspect of scientific interest for weakly or fully coupled data assimilation is the software engineering related to coupling a data assimilation framework to a physical model, in order to build a computationally efficient and flexible framework.

We welcome contributions on the development and applications of coupled data assimilation systems involving models for different compartments of the Earth system like atmosphere and/or ocean and/or sea ice and/or vegetation and/or soil and/or groundwater and/or surface water bodies. Contributions could for example focus on data value with implications for monitoring network design, parameter or bias estimation or software engineering aspects. In addition, case studies which include a precise evaluation of the data assimilation performance are of high interest for the session.

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Co-organized as AS4.26/BG1.28/NP5.6/OS4.24/SSS11.9
Convener: Harrie-Jan Hendricks Franssen | Co-conveners: Gabriëlle De Lannoy, Lars Nerger, Insa Neuweiler, Clemens Simmer, Rafael Pimentel, Chiara Corbari, Eric Wood (deceased)
Orals
| Fri, 12 Apr, 10:45–12:30
 
Room 2.15
Posters
| Attendance Fri, 12 Apr, 14:00–15:45
 
Hall A
ITS6.4/BG1.29/EOS7.3/AS4.52/CL2.27/HS10.13/SSS13.30 Media

Cities all over the world are facing rising population densities. This leads to increasing fractions of built-up and sealed areas, consequencing in a more and more altered and partly disrupted water balance - both in terms of water quantities and qualities. On top, climate change is altering precipitation regimes.

This session focuses on according urban ecohydrological problems and approaches to solve them spanning from technical to nature-based solutions in different time and spatial scales from the building to the whole city.

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Co-organized as BG1.29/EOS7.3/AS4.52/CL2.27/HS10.13/SSS13.30
Convener: Thomas Nehls | Co-conveners: Simone Fatichi, Günter Langergraber, Gabriele Manoli, Athanasios Paschalis
Orals
| Tue, 09 Apr, 08:30–10:15, 10:45–12:30
 
Room N1
Posters
| Attendance Wed, 10 Apr, 10:45–12:30
 
Hall A
BG1.30

Using a wide range of sensors and platforms, remote sensing allows examining and gathering information about an object or a place from a distance. A key development in remote sensing has been the increased availability of data with very high-temporal, spatial and spectral resolution. In the last decades, several types of remote sensing data, including optical, radar, LiDAR from terrestrial, UAV, aerial and satellite platform, have been used to detect, classify, evaluate and measure the Earth surface, including different vegetation covers and forest structure. For the forest sector, such information allow the efficient monitoring of changes over time and space, in support of sustainable forest management, forest, and carbon inventory or for monitoring forest health and their disturbances. Remote Sensing data can provide both qualitatively and quantitatively information about forest ecosystems. In a qualitative analysis forest cover types and species composition can be classified, whereas the quantitative analysis can measure and estimate different forest structure parameters related to single trees (e.g., DBH, height, basal area, timber volume, etc.) and to the whole stand (e.g. number of trees per unit area, distribution, etc.). However, to meet the various information requirements, different data sources should be adopted according to the application, the level of detail required and the extension of the area under study. The integration of in-situ measurements with satellite/airborne/UAV imagery, Structure from Motion, LiDAR and geo-information systems offer new possibilities, especially for interpretation, mapping and measuring of forest parameters and will be a challenge for future research and application. This session explores the potentials and limitations of several types of remote sensing applications in forestry, with the focus on the identification and integration of different methodologies and techniques from different sensors and in-situ data for providing qualitative and quantities forest information.

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Co-organized as GI3.13
Convener: Livia Piermattei | Co-conveners: Christian Ginzler, Xinlian Liang, Eva Lindberg, Emanuele Lingua
Orals
| Wed, 10 Apr, 08:30–12:30
 
Room 2.31
Posters
| Attendance Wed, 10 Apr, 16:15–18:00
 
Hall A
GI1.3

The nature of science has changed: it has become more interconnected, collaborative, multidisciplinary, and data intensive. Accordingly, the main aim of this session is to create a common space for interdisciplinary scientific discussion, where EGU-GA delegates involved in geoscientific networks can share ideas and present the research activities carried out in their networks. The session represents an invaluable opportunity for different networks and their members to identify possible synergies and establish new collaborations, find novel links between disciplines, and design innovative research approaches.

Part of the session will be focused on COST (European Cooperation in Science and Technology) Actions*. The first edition of the session (successfully held in 2018) was actually entirely dedicated to the COST networking programme and hosted scientific contributions stemming from 25 Actions, covering different areas of the geosciences (sky, earth and subsurface monitoring, terrestrial life and ecosystems, earth's changing climate and natural hazards, sustainable management of resources and urban development, environmental contaminants, and big data management). Inspiring and fruitful discussions took place; the session was very well attended. We are looking forward to continuing the dialogue this year and to receiving new contributions from COST Action Members.

Another part of the session will be dedicated to the activities of other national and international scientific networks, associations, as well teams of scientists who are carrying out collaborative research projects.

Finally, the session is of course open to everyone! Accordingly, abstracts authored by scientists not involved in wide scientific networks are most welcome, too! In fact, in 2018 we received a good number of such abstracts, submitted by individual scientists or small research teams who wished to disseminate the results of their studies in front of the multidisciplinary audience that characterizes this session, as an alternative to making a presentation in a thematic session. This may be a productive way to broaden the perspective and find new partners for future interdisciplinary research ventures. We hope to receive this kind of abstracts this year, as well.


-- Notes --

* COST (www.cost.eu) is a EU-funded programme that enables researchers to set up their interdisciplinary research networks (the “Actions”), in Europe and beyond. COST provides funds for organising conferences, workshops, meetings, training schools, short scientific exchanges and other networking activities in a wide range of scientific topics. Academia, industry, public- and private-sector laboratories work together in Actions, sharing knowledge, leveraging diversity, and pulling resources. Every Action has a main objective, defined goals and clear deliverables. This session was started as a follow up initiative of COST Action TU1208 “Civil engineering applications of Ground Penetrating Radar” (2013-2017, www.GPRadar.eu).

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Co-organized as AS4.13/BG1.33/CL4.42/GD1.7/GM12.7/GMPV7.16/NH11.15/NP9.4/SM1.10/SSP1.7/SSS13.20/ST4.9
Convener: Lara Pajewski | Co-conveners: Simona Fontul, Aleksandar Ristic
Orals
| Mon, 08 Apr, 16:15–18:00
 
Room 2.44
Posters
| Attendance Mon, 08 Apr, 14:00–15:45
 
Hall X1
GI3.4

This session invites contributions on the latest developments and results in lidar remote sensing of the atmosphere, covering
• new lidar techniques as well as applications of lidar data for model verification and assimilation,
• ground-based, airborne, and space-borne lidar systems,
• unique research systems as well as networks of instruments,
• lidar observations of aerosols and clouds, thermodynamic parameters and wind, and trace-gases.
Atmospheric lidar technologies have shown significant progress in recent years. While, some years ago, there were only a few research systems, mostly quite complex and difficult to operate on a longer-term basis because a team of experts was continuously required for their operation, advancements in laser transmitter and receiver technologies have resulted in much more rugged systems nowadays, many of which are already operated routinely in networks and some even being automated and commercially available. Consequently, also more and more data sets with very high resolution in range and time are becoming available for atmospheric science, which makes it attractive to consider lidar data not only for case studies but also for extended model comparison statistics and data assimilation. Here, ceilometers provide not only information on the cloud bottom height but also profiles of aerosol and cloud backscatter signals. Scanning Doppler lidars extend the data to horizontal and vertical wind profiles. Raman lidars and high-spectral resolution lidars provide more details than ceilometers and measure particle extinction and backscatter coefficients at multiple wavelengths. Other Raman lidars measure water vapor mixing ratio and temperature profiles. Differential absorption lidars give profiles of absolute humidity or other trace gases (like ozone, NOx, SO2, CO2, methane etc.). Depolarization lidars provide information on the shapes of aerosol and cloud particles. In addition to instruments on the ground, lidars are operated from airborne platforms in different altitudes. Even the first space-borne missions are now in orbit while more are currently in preparation. All these aspects of lidar remote sensing in the atmosphere will be part of this session.

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Co-organized as AS5.6/BG1.34/NH6.16/PS5.8
Convener: Andreas Behrendt | Co-conveners: Adolfo Comeron, Paolo Di Girolamo, Doina Nicolae, Andreas Fix
Orals
| Thu, 11 Apr, 08:30–12:30
 
Room 0.96
Posters
| Attendance Thu, 11 Apr, 14:00–15:45
 
Hall X1
HS6.7 | PICO

Remote sensing techniques are widely used to estimate and monitor the relationship between vegetation dynamics and the water cycle. Measurements of vegetation water content, transpiration and water stress contribute to a better global understanding of the water movement in the soil-plant system, which is critical for the detection and monitoring of droughts and their impact on biomass. With the number of applications and (planned) missions increasing, this session aims to bring researchers together to discuss the current state in the remote observation of the interactions between vegetation and hydrology. We aim to (1) discuss novel research and findings, (2) exchange views on what should be done to push the field forward, and (3) identify current major challenges.

We encourage authors to submit presentations on:
• Modelling studies,
• Remote sensing data analyses,
• New hypothesis,
• Enlightening opinions.

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Co-organized as BG1.36
Convener: Mariette Vreugdenhil | Co-conveners: Joris Timmermans, Tim van Emmerik, Julia K. Green, Leon T. Hauser, Philip Marzahn, Brianna Pagán, Arturo Sanchez-Azofeifa
PICOs
| Mon, 08 Apr, 08:30–12:30
 
PICO spot 5b
ITS2.7/HS11.71/BG1.37/ERE6.8/GMPV3.6

Geofluids (i.e. fluids located in the subsurface) are increasingly becoming of interest due to their significant role as natural resources. These fluids span a vast range of geological environments including groundwater drinking resources, shale gas and oil, deep/shallow geothermal resources and hydrothermal mineral resources. Despite being valuable resources, geofluids are both vulnerable to contamination or may themselves represent a potential source of contamination through externally-driven mechanisms, as in the case of shale gas extraction, CO2 leaking or land use for agriculture purposes. Ont he other hand geofluids themselves can be a source of natural contamination as in the geogenic contamination of groundwater resources containing elevated levels of trace elements including arsenic (As), chromium (Cr), iron (Fe), and uranium (U), amongst others. Strategic management of geofluids and protection of geological resources related to them is indispensable for the future sustainable development of these societal and economically important resources. The characterization of geofluids and their behaviour in natural or artificial (human-driven) circumstances requires a deep understanding of complex physical, geochemical and microbiological processes. They are influenced directly by geological setting, structural evolution, and fluid flow systems.

The aim of this session is to foster scientific discussion between those with interest in a range of geofluid systems to better understand the role which these fluids have as socio-environmental and economic resources. The session emphasises the importance of lithological & mineralogical characterizationof various systems including in aquifers for a range of geogenic contaminants in groundwater, specifically addressing the source pathways and mobilisation mechanisms. The session also welcomes work including fluid flow, hydrology, geochemistry, environmental tracers, microbial investigations and both numerical and statistical modelling in support of fluid and resource management.

The session is supported by the RGFC-IAH (‘Regional Groundwater Flow Commission’ of International Association of Hydrogeologists) and the EU H2020 ENeRAG (‘Excellency Network Building for Comprehensive Research and Assessment of Geofluids’) project.

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Co-organized as HS11.71/BG1.37/ERE6.8/GMPV3.6, co-sponsored by IAH-RGFC
Convener: Daniele Pedretti | Co-conveners: Alex Russell, Ádám Tóth, Frank McDermott, Marie-Amélie Petre
Orals
| Mon, 08 Apr, 10:45–12:30
 
Room L7
Posters
| Attendance Mon, 08 Apr, 14:00–15:45
 
Hall A
ITS5.4/GI2.7/AS4.43/BG1.39/ERE5.6/GMPV6.4/HS11.65/NH8.7/OS4.33/SSS8.7

The session gathers geoscientific aspects such as dynamics, reactions, and environmental/health consequences of radioactive materials that are massively released accidentally (e.g., Fukushima and Chernobyl nuclear power plant accidents, wide fires, etc.) and by other human activities (e.g., nuclear tests).

The radioactive materials are known as polluting materials that are hazardous for human society, but are also ideal markers in understanding dynamics and chemical/biological/electrical reactions chains in the environment. Thus, the radioactive contamination problem is multi-disciplinary. In fact this topic involves regional and global transport and local reactions of radioactive materials through atmosphere, soil and water system, ocean, and organic and ecosystem, and its relation with human and non-human biota. The topic also involves hazard prediction and nowcast technology.

By combining >30 year (halftime of Cesium 137) monitoring data after the Chernobyl Accident in 1986, >5 year dense measurement data by the most advanced instrumentation after the Fukushima Accident in 2011, and other events, we can improve our knowledgebase on the environmental behavior of radioactive materials and its environmental/biological impact. This should lead to improved monitoring systems in the future including emergency response systems, acute sampling/measurement methodology, and remediation schemes for any future nuclear accidents.

The following specific topics have traditionally been discussed:
(a) Atmospheric Science (emissions, transport, deposition, pollution);
(b) Hydrology (transport in surface and ground water system, soil-water interactions);
(c) Oceanology (transport, bio-system interaction);
(d) Soil System (transport, chemical interaction, transfer to organic system);
(e) Forestry;
(f) Natural Hazards (warning systems, health risk assessments, geophysical variability);
(g) Measurement Techniques (instrumentation, multipoint data measurements);
(h) Ecosystems (migration/decay of radionuclides).

The session consists of updated observations, new theoretical developments including simulations, and improved methods or tools which could improve observation and prediction capabilities during eventual future nuclear emergencies. New evaluations of existing tools, past nuclear contamination events and other data sets also welcome.

Public information:
The release of radioactive materials by human activity (such as nuclear accidents) are both severe hazard problem as well as ideal markers in understanding geoscience at all level of the Earth because it cycles through atmosphere, soil, plant, water system, ocean, and lives. Therefore, we must gather knowledge from all geoscience field for comprehensive understanding.

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Co-organized as GI2.7/AS4.43/BG1.39/ERE5.6/GMPV6.4/HS11.65/NH8.7/OS4.33/SSS8.7
Convener: Masatoshi Yamauchi | Co-conveners: Nikolaos Evangeliou, Yasunori Igarashi, Liudmila Kolmykova, Daisuke Tsumune
Orals
| Mon, 08 Apr, 14:00–15:45
 
Room N1
Posters
| Attendance Mon, 08 Apr, 16:15–18:00
 
Hall X1
ITS4.8/AS4.46/BG1.41/CL3.13/CR1.12/GM5.6 Media

The Tibetan Plateau and surrounding mountain regions, known as the Third Pole, cover an area of > 5 million km2 and are considered to be the water tower of Asia. The Pan Third Pole expands on both the north-south and the east-west directions, going across the Tibetan Plateau, Pamir, Hindu Kush, Iran Plateau, Caucasian and Carpathian, and covering an area of about 20 million km2. Like the Arctic and Antarctica, the Pan Third Pole’s environment is extremely sensitive to global climate change. In recent years, scientists from around the globe have increased observational, remote sensing and numerical modeling research related to the Pan Third Pole in an effort to quantify and predict past, current and future scenarios. Co-sponsored by TPE (www.tpe.ac.cn), this session is dedicated to studies of Pan Third Pole atmosphere, cryosphere, hydrosphere, and biosphere and their interactions with global change. Related contributions are welcomed.

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Co-organized as AS4.46/BG1.41/CL3.13/CR1.12/GM5.6
Convener: Yaoming Ma | Co-conveners: Fahu Chen, Franco Salerno, Bob Su, Fan Zhang
Orals
| Tue, 09 Apr, 08:30–10:15, 10:45–12:30
 
Room L7
Posters
| Attendance Wed, 10 Apr, 08:30–10:15
 
Hall X5
CL4.29.2

Changes in seasonal timing affect species and ecosystem response to environmental change. Observations of plant and animal phenology as well as remote sensing and modeling studies document complex interactions and raise many open questions.

We invite contributions with cross-disciplinary perspectives that address seasonality changes based on recent plant and animal phenological observations, pollen monitoring, historical documentary sources, or seasonality measurements using climate data, remote sensing, flux measurements or modeling studies. Contributions across all spatial and temporal scales are welcome that compare and integrate seasonality changes, study effects of long-term climate change or single extreme events, emphasize applications and phenology informed decision-making, discuss species interactions and decoupling, advance our understanding of how seasonality change affects carbon budgets and atmosphere/biosphere feedbacks, and integrate phenology into Earth System Models.

We emphasize phenology informed applications for decision-making and environmental assessment, public health, agriculture and forest management, mechanistic understanding of the phenological processes, and effects of changing phenology on biomass production and carbon budgets. We also welcome contributions addressing international collaboration and program-building initiatives including citizen science networks and data analyses.

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Co-organized as AS4.29/BG1.42, co-sponsored by PEP725 and ISB-PC
Convener: Iñaki Garcia de Cortazar-Atauri | Co-conveners: Ellen Denny, Marie Keatley, Christina Koppe, Helfried Scheifinger
Orals
| Wed, 10 Apr, 08:30–12:30
 
Room 0.49
Posters
| Attendance Wed, 10 Apr, 14:00–15:45
 
Hall X5
CL3.12.2

One of the big challenges in Earth system science consists in providing reliable climate predictions on sub-seasonal, seasonal, decadal and longer timescales. The resulting data have the potential to be translated into climate information leading to a better assessment of multi-scale global and regional climate-related risks.
The latest developments and progress in climate forecasting on subseasonal-to-decadal timescales will be discussed and evaluated in this session. This will include presentations and discussions of predictions for a time horizon of up to ten years from dynamical ensemble and statistical/empirical forecast systems, as well as the aspects required for their application: forecast quality assessment, multi-model combination, bias adjustment, downscaling, etc.
Following the new WCPR strategic plan for 2019-2029, prediction enhancements are solicited from contributions embracing climate forecasting from an Earth system science perspective. This includes the study of coupled processes, impacts of coupling and feedbacks, and analysis/verification of the coupled atmosphere-ocean, atmosphere-land, atmosphere-hydrology, atmosphere-chemistry & aerosols, atmosphere-ice, ocean-hydrology, ocean-ice, ocean-chemistry and climate-biosphere (including human component). Contributions are also sought on initialization methods that optimally use observations from different Earth system components, on assessing and mitigating the impacts of model errors on skill, and on ensemble methods.
We also encourage contributions on the use of climate predictions for climate impact assessment, demonstrations of end-user value for climate risk applications and climate-change adaptation and the development of early warning systems.

A special focus will be put on the use of operational climate predictions (C3S, NMME, S2S), results from the CMIP5-CMIP6 decadal prediction experiments, and climate-prediction research and application projects (e.g. EUCP, APPLICATE, PREFACE, MIKLIP, MEDSCOPE, SECLI-FIRM, S2S4E).

Solicited talk:
Multi-year prediction of ENSO
By Jing-Jia Luo from the Institute for Climate and Application Research (ICAR), Nanjing University of Science Information and Technology, China

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Co-organized as BG1.43/HS11.66/NH1.30/NP5.9/OS1.30
Convener: Andrea Alessandri | Co-conveners: Louis-Philippe Caron, Yoshimitsu Chikamoto, June-Yi Lee, Stéphane Vannitsem
Orals
| Tue, 09 Apr, 08:30–10:15
 
Room F2
Posters
| Attendance Tue, 09 Apr, 10:45–12:30
 
Hall X5
HS6.5

Ensuring long-term water sustainability for increasing human populations is a common goal for water resource managers. Measuring evapotranspiration (ET) at watershed or river-reach scales, upland or urban areas is required to estimate how much water can be apportioned for human needs while maintaining healthy vegetation and habitat for wildlife.
Consequently, much research has been devoted to this topic. However although there have been many advances in meteorological equipment and observations, more universal recognition of the impact of climate and land cover changes on evaporation and hydrology, and the increased accessibility of many parts of the world, evaporation from much of the globe remains elusive to quantify. This is particularly true in areas with few meteorological observations, in regions where precipitation is particularly hard to predict such as in arid and semi-arid or mountain environments. ET measurements are often made on local scales, but scaling up has been problematic due to spatial and temporal variability.
There are challenges associated with handling temporal variability over complex agro-climatic regions and in places with strong effects of unpredictable climate oscillations. For instance, crop/plant coefficients vary seasonally, particularly for riparian, upland vegetation, and urban greenery; traditional approaches of ET estimation commonly neglect the heterogeneity of microclimate, density, species, and phenology that have often led to gross overestimates of plant water use.
In this session, we want to focus on quantifying evapotranspiration dynamics in diverse climates and environments as a tool for improving hydrologic assessments and predictions at a catchment scale. Remote sensing products in many cases are the only spatially distributed information available to account for seasonal climate and vegetation variability and are thus extremely valuable data sources for ET estimation on larger scales.
We invite researchers to contribute theoretical and empirical ET model applications for a variety of dryland vegetation associations and other sensitive environments. We welcome studies that estimate ET using both prognostic and diagnostic approaches from process-based models that rely on the integration of precipitation and soil-vegetation dynamics to a more direct estimation of ET using e.g. remote sensing based data streams. Applications in drought-prone forests, rangelands, mountain and urban areas at a range of spatial and temporal scales are encouraged.

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Co-organized as BG1.44/ESSI1.12/GI3.12
Convener: Pamela Nagler | Co-conveners: Claire Brenner, Chris Jarchow, Hamideh Nouri, Gabriel Senay, Natalie Ceperley, Mathew Herrnegger
Orals
| Fri, 12 Apr, 14:00–15:45, 16:15–18:00
 
Room B
Posters
| Attendance Fri, 12 Apr, 10:45–12:30
 
Hall A
ITS5.6/GM6.2/BG1.46/CL2.28/ERE8.8/GI1.9/NH9.28/SSS13.27

The originality of the session is to emphasize on the central position of human activities in environmental research (both terrestrial and atmospheric), as a driving factor and/or a response, by combining different spatio-temporal scales.
Continental environments (under various climatic conditions) experience profound societal and physical changes, which prompt scientists to investigate the complex interactions between environmental functioning and human activities.
The complexity originates from the multiplicity of factors involved and resulting spatial and temporal variabilities, of their multiple origins in time (historical integration) and/or legacy.
As a consequence, causal links in this societal-environmental relationship are difficult to establish but, it is fundamental to understand these causal links to adapt, conserve, protect, preserve and restore the functioning of the environment as well as human activities. From this point of view, the geographical approach highlights the relationships (or their absence) through the expression of the spatial and temporal trajectories of the processes studied by clarifying the observation of signals.
The ensuing issues on the relevance of indicators used in different supports of nowadays research (imagery, archives, models ...) are raised as a methodological open up.
In this context, oral and poster presentations dealing with any studies related to the following issue(s) are welcome:
- human forcing on the environments and environmental resilience
- response of socio-systems to environmental changes
- scenarios, prospective and retrospective models of the evolution of environments and human activities
- management modes (adaptive management) of anthropised continental environments, reciprocity, mutual benefits (ecosystem services), positive feedback

The session may include the following methodological aspects:
- in situ metrology,
- statistical and numerical modeling,
- spatio-temporal analysis,
- remote Sensing,
- surveys,
- landscape analysis,
- paleoenvironmental approach,
at various scales:
- spatial scales, from the station and site through watershed,
- time scales from the event to the Holocene.

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Co-organized as GM6.2/BG1.46/CL2.28/ERE8.8/GI1.9/NH9.28/SSS13.27
Convener: Armelle Decaulne | Co-conveners: Anne-Julia Rollet, Olivier Planchon, Thorsteinn Saemundsson, Etienne Cossart
Orals
| Wed, 10 Apr, 10:45–12:30
 
Room N1
Posters
| Attendance Wed, 10 Apr, 16:15–18:00
 
Hall X2
ITS3.5/PS1.6/BG1.47/CL3.11/ERE1.3/HS11.25 | PICO

The Sustainable Development Goals (SDGs) (or Global Goals for Sustainable Development) are a collection of 17 global goals set by the United Nations Development Programme.The formal name for the SDGs is: "Transforming our World: the 2030 Agenda for Sustainable Development." That has been shortened to "2030 Agenda." The goals are broad and interdependent, yet each has a separate list of targets to achieve. Achieving all 169 targets would signal accomplishing all 17 goals. The SDGs cover social and economic development issues including poverty, hunger, health, education, global warming, gender equality, water, sanitation, energy, urbanization, environment and social justice.
For this interdisciplinary session, we invite contributions discussing How Earth, Planetary and Space Scientists can address UN Sustainable Development Goals . We shall discuss the relevance of fields of research disciplines covered by EGU, and how they can inform and support society government bodies, and stakeholders for the SDGs.
The session will include invited and contributed oral papers, as well as interactive posters, and panel discussions.

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Co-organized as PS1.6/BG1.47/CL3.11/ERE1.3/HS11.25
Convener: Bernard Foing | Co-convener: Germaine Van der Sanden
PICOs
| Thu, 11 Apr, 16:15–18:00
 
PICO spot 4
BG1.48

The Arctic has experienced much greater warming than the global average in recent decades. Current climate models project that this Arctic warming trend will continue in this century. At present, more than 15% its land is underlain with permafrost and contains a large amount of vulnerable carbon. Further, the region accounts for about one half of the world’s wetlands and has large area of aquatic ecosystems including lakes and ponds, which are a major source of atmospheric methane (CH4). Permafrost degradation has been observed in the region. With thawing permafrost, in dry areas of terrestrial ecosystems under well-drained conditions, soil decomposition is dominated by aerobic reactions, leading to carbon dioxide (CO2) release, while in wet areas under poorly-drained conditions, more CH4 is produced through methanogenesis process. In addition, thawing lakes and ponds have also been observed as a major CH4 emission source. This session calls for either field investigations or modeling studies that focus on elucidating processes of and controls to carbon cycling and quantifying CO2 and CH4 emissions from land and aquatic ecosystems and their impacts on the global climate system.

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Convener: Qianlai Zhuang | Co-conveners: Torsten Sachs, Narasinha J. Shurpali
Orals
| Wed, 10 Apr, 14:00–15:45
 
Room 2.44
Posters
| Attendance Wed, 10 Apr, 16:15–18:00
 
Hall A
CR7.2 Media

Snow and ice can capture and store contaminants both local and global in origin. The decrease in glacier cover, snow cover and sea ice in response to climate affects cycling of airborne impurities in polar and alpine environments, accelerating and enhancing their release. In this context snow and ice act as a secondary source for numerous organic and inorganic atmospheric contaminants that were deposited on their surface during recent decades, including persistent organic pollutants, radioactive species, microplastics, pesticides, and heavy metals. The release of contaminants from snow and ice to glacier forefields, rivers and seas might pose a hazard to these ecosystems and to human health, particularly under accelerated melt conditions.

Identification and assessment of this hazard relies, for each contaminant class, on the understanding of processes that control their accumulation, release and downstream transport. The physical and chemical forms in which contaminants are removed from the atmosphere and hydrosphere may further affect their interactions with mineral substances and biota. Existing studies suggest that the contaminant release process is not linear, and that interactions between meltwater, supraglacial debris and glacial microbiology may be crucial in the accumulation and transport of contaminants in glacier catchments. For example, evidence is mounting that cryoconite can efficiently accumulate radionuclides from anthropogenic sources to potentially hazardous levels in glaciers around the world. At the same time, the high biological activity present in cryoconite could enhance the degradation of organic pollutants, with important implications for remediation. A portion of contaminants released from glaciers may also be stored in their proglacial zones as shown by the very high concentrations of radionuclides found by several recent studies. The effects of contaminant transport on the pro-glacial environment and downstream communities remain uncertain, but improved understanding of the impacts of contaminants in land ice, sea ice, and snow is clearly warranted.

The session aims to contribute to the development of this emerging and interdisciplinary field, welcoming presentations from across cryospheric, hydrological, and biogeochemical sciences, and other research areas.

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Co-organized as BG1.49/HS2.3.7
Convener: Caroline Clason | Co-conveners: Ewa Poniecka, Przemyslaw Wachniew
Posters
| Attendance Mon, 08 Apr, 10:45–12:30
 
Hall X4
BG1.52

Spatially continuous data in biogeosciences are urgently requested to assess patterns and trends in ecosystem dynamics. Remote sensing is a powerful tool to provide such data and methods for its application to estimate ecosystem variables evolved rapidly during the recent years. New sensors deliver large hyperspectral, LiDAR and Radar datasets requesting new approaches to dealing with Big Data. In this context, machine learning algorithms are frequently used to link large remote sensing data to ecosystem variables. In this session, we welcome contributions which present novel approaches of mapping, monitoring and modelling ecosystem characteristics combining machine learning with remotely sensed data with a special focus on products to estimate ecosystem processes, functions and services.

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Convener: Lukas Lehnert | Co-conveners: Hanna Meyer, Elias Symeonakis
Posters
| Attendance Wed, 10 Apr, 10:45–12:30
 
Hall A
SSS5.15

Terrestrial and aquatic ecosystems of the boreal to polar regions face tremendous alterations due to a fast changing climate. Besides geophysical and hydrological impacts like vanishing permafrost, coastal erosion and altered runoff, biogeochemical cycles are highly affected by the ongoing changes. Although we are completely aware of the importance of high latitude ecosystems for instance for carbon sequestration, we have a restricted understanding of the biogeochemical processes especially in terrestrial ecosystems. This session aims to bring together scientists working on terrestrial and aquatic ecosystems in the high latitudes, both in Arctic, Antarctic, and Boreal regions, reaching from microbiological functioning and stoichiometric constraints of organic matter turnover and nutrient cycling (e.g. nitrogen, phosphorus) to carbon stabilization and trace gas emissions. We further welcome contributions on interactions between vegetation, microbiota and soils and/or sediments, and the exchange between terrestrial and aquatic systems. Let’s come to together and share results, views and concepts to better understand biogeochemical cycling in boreal and polar regions.

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Co-organized as BG1.54
Convener: Carsten W. Mueller | Co-conveners: Kathrin Rousk, Michael Gundale, Ryan Sponseller
Orals
| Mon, 08 Apr, 14:00–18:00
 
Room G1
Posters
| Attendance Tue, 09 Apr, 08:30–10:15
 
Hall X1
BG1.56

Plant traits extend the range of earth observations to the level of individual organisms, providing a link to ecosystem function and modeling in the context of rapid global changes. However, overcoming the differences in temporal and spatial scales between plant trait data and biogeochemical cycles remains a challenge.

This session will address the role of plant species traits, biodiversity, acclimation and adaptation in the biogeochemical cycles of water, carbon, nitrogen and phosphorus. We welcome conceptual, observational, experimental and modeling approaches, and studies from the local to the global scale, including e.g. remote sensing observations.

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Convener: Jens Kattge | Co-conveners: Michael Bahn, Oskar Franklin, Han Wang
Orals
| Thu, 11 Apr, 14:00–18:00
 
Room 2.44
Posters
| Attendance Thu, 11 Apr, 10:45–12:30
 
Hall A
BG1.57 Media

Fire is a global phenomenon influencing ecosystem functioning, carbon stocks and fluxes, and atmospheric composition, with large impacts on human health, safety and economy. The relative importance of climate, vegetation and humans as drivers of fire activity varies across spatial and temporal scales. Multiscale and interdisciplinary assessments of fire behavior are required to understand global climate-fire feedbacks, as well as regional interactions between vegetation and humans, and fire.
Fire influences the global carbon cycle among others through its carbon emissions and post-fire ecosystem carbon sequestration. In addition, black carbon (also known as pyrogenic carbon, charcoal, soot) is a crucial component in the carbon cycle, yet uncertainties remain regarding sizes, losses and fluxes between land, rivers, oceans and atmosphere.
Remote sensing provides baseline information for all stakeholders involved in monitoring of biomass burning at different scales and for understanding how ecosystems respond to fires. However, there are still large uncertainties in satellite-based active fire, burned area, and fire emissions estimates, in part due to the complexity and diversity of the ecosystems affected. Building on the environmental significance and scientific challenges described above, this session will bring together fire scientists working on biomass burning monitoring and early warning systems. The aim of this session is to improve the understanding of interactions between fire, vegetation, carbon, climate and humans. We invite contributions developing or using remote sensing datasets, in situ observations, charcoal records, laboratory experiments and modeling approaches. We welcome studies that help to improve our understanding of (1) the relative importance of climate, vegetation and humans on fire occurrence across spatial and temporal scales (2) the impacts of fire on vegetation, atmosphere and society, (3) feedbacks between fire, vegetation and climate, and (4) the role of fire in the carbon cycle, with special focus on the transfer of black carbon and other fire markers from terrestrial ecosystems to aquatic environments, and their biogeochemical fate in these environments, (5) innovative use of remote sensing technologies (LIDAR, infrared cameras, drones) for fuel characterization, fire detection and monitoring; (6) algorithms/models applicable to regional-to-global scale fire analyses exploring active fire detection and characterization (e.g., fire radiative power, area affected, combustion phase), burned area mapping, atmospheric emissions and smoke transport, (7) fire product validation and error assessment, (8) analytical tools designed to enhance situational awareness among fire practitioners and early warning systems, addressing specific needs of operational fire behavior modeling.

Invited speakers:
Emilio Chuvieco, University of Alcala
Elena Kukavskaya, Sukachev Institute of Forest, Russian Academy of Sciences

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Co-organized as AS4.45/NH1.38
Convener: Sander Veraverbeke | Co-conveners: Renata Libonati, Gitta Lasslop, Duarte Oom, Ioannis Bistinas, Alysha Inez Coppola, Angelica Feurdean, Carrie Masiello
Orals
| Fri, 12 Apr, 10:45–12:30
 
Room 2.44
Posters
| Attendance Fri, 12 Apr, 14:00–15:45
 
Hall A
EOS10.1

State-of-the-art environmental research infrastructures become increasingly complex and costly, often requiring integration of different equipment, services, and data, as well as extensive international collaboration. Clear and measurable impact of the research Infrastructures is therefore needed in order to justify such investments (from member states and the EU) - whether it is an impact in terms of knowledge, developments in the environmental field of science, new innovative approaches, capacity-building or other socio-economic impacts. Moreover, improving the impact supports the long-term sustainability of the research infrastructures.

This session aims at discussing how to best monitor, interpret, and assess the efficiency and impact of environmental and Earth system research infrastructures. Even more importantly, the session seeks a breadth of contributions, with focus on ways to increase and improve the impact of research infrastructures, not only through the scientific outcomes they produce, but also, for example, through increasing the number of touchpoints with other actors in the society, or awareness of the services they offer- whether this is enhanced by lobbying, direct cooperation with industrial partners, or any other action. Talks on how to enhance the impact through the strategic communications activities are especially welcome.

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Co-organized as AS5.25/BG1.59/GI1.8/OS4.34/SM5.8
Convener: Katri Ahlgren | Co-convener: Magdalena Brus
Orals
| Wed, 10 Apr, 10:45–12:30
 
Room L8
Posters
| Attendance Wed, 10 Apr, 08:30–10:15
 
Hall X4
SSS12.6

Ecosystems, their abiotic and biotic compartments as well as their internal processes and interactions can be interpreted as the result of numerous evolutionary steps during system development. Understanding ecosystem development can be regarded, therefore, as crucial for understanding ecosystem functioning. This session will highlight research in this field within two parts.

The first part of this session is dedicated to experimental approaches to disentangle these complex processes and interactions of the Critical Zone. Well-known flagship sites in this sense are, e.g., Biosphere2 in the USA or Hydrohill in China. In addition, post-mining landscapes worldwide offer multiple opportunities for establishing artificial experimental sites for various purposes. Many experimental sites are based on hydrological catchments as integrative landscape units. Other large-scale experiments focus on selected parts of ecosystems which were modified or transplanted. This part of the session tries to create a global overview on large-scale landscape experiments on ecohydrological, pedological, biogeochemical or ecological processes within the Critical Zone.

The second part is related to the co-evolution of spatial patterns of vegetation, soils and landforms. These patterns are recognized as sources of valuable information that can be used to infer the state and function of ecosystems. Complex interactions and feedbacks between climate, soils and biotic factors are involved in the development of landform-soil-vegetation patterns, and play an important role on the stability of landscapes. In addition, large shifts in the organization of vegetation and soils are associated with land degradation, frequently involving large changes in the functioning of landscapes. This part of the session will focus on ecogeomorphological and ecohydrological aspects of landscapes, conservation of soil resources, and the restoration of ecosystem functions.

Invited talks will be given by Dr. Abad Chabbi (Director of Research at the French National Institute for Agricultural Research, INRA) on “Challenges, insights and perspectives associated with combining observation and experimentation research infrastructure“. Part two of the session is proud to announce the invited talk of Prof. Praveen Kumar (Lovell Professor of Civil and Environmental Engineering, University of Illinois, USA, Director of the US NSF Critical Zone Observatory for Intensively Managed Landscapes) on "Co-evolution of landscape and carbon profile through depth: understanding the interplay between transport and biochemical dynamics".

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Co-organized as BG1.60/GI4.14/GM5.11/HS11.4
Convener: Werner Gerwin | Co-conveners: Mariano Moreno de las Heras, Laura Meredith, Jin Lin, Patricia Saco, Jantiene Baartman, Jose Rodriguez
Orals
| Fri, 12 Apr, 10:45–12:30, 14:00–15:45, 16:15–18:00
 
Room G1
Posters
| Attendance Fri, 12 Apr, 08:30–10:15
 
Hall X1
GMPV4.3

The Oman Drilling Project (OmanDP; 2016-2018) has recovered 3200 m of diamond drillcore that sample three intervals within the gabbroic lower crust, the crust-mantle transition, partially serpentinised peridotite undergoing active alteration, and the transition from the mantle into the underlying metamorphic sole of the Samail ophiolite in Oman, arguably the best-preserved ophiolite. Most of the boreholes have been geophysically logged and the cores have undergone extensive IODP standard core description onboard the DV Chikyu, supplemented with X-ray CT and high resolution infrared scanning of the entire core. These cores and boreholes can be used to investigate the full spectrum of processes operating during the formation and modification of oceanic crust and shallow mantle. These processes involve mass and energy transfer between all the major components of the Earth system (the mantle, the crust, the hydrosphere, the atmosphere and the biosphere) and occur over a broad range of temperatures, depths and tectonic settings. In this session, we invite abstracts relating to the Oman Drilling Project including core analysis, geophysical logging and microbial studies as well as studies related to the Samail ophiolite and the oceanic lithosphere in general.

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Co-organized as BG1.61/TS9.13
Convener: Michelle Harris | Co-conveners: Marguerite Godard, Damon Teagle
Orals
| Tue, 09 Apr, 16:15–18:00
 
Room -2.91
Posters
| Attendance Tue, 09 Apr, 08:30–10:15
 
Hall X2
AS4.36

In both climate modelling and numerical weather prediction, numerical models of the Earth System are used extensively. For the both the atmosphere and ocean such models consist of a fluid dynamics solver (dynamical core) coupled to physics parameterizations to represent processes that occur below the grid scale (physics). Over time these models have become capable of sophisticated simulations, incorporating such features as multi-scale prediction, structure-preserving discretization and a detailed treatment of physics. New work is constantly being undertaken to improve the accuracy and efficiency of these models, both the dynamical core and the physics.

This session encompasses the development, testing and application of novel numerical techniques for Earth system models, including new discretizations, test cases, advection schemes, vertical discretizations, adaptive multi-scale models, physics-dynamics coupling, global and regional climate and NWP models, structure-preserving discretizations and parameterizations (that are not covered in other sessions).

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Co-organized as BG1.62/CL5.08/NP1.3/OS4.23
Convener: Christopher Eldred | Co-conveners: Werner Bauer, Christiane Jablonowski, Christian Kühnlein
Orals
| Thu, 11 Apr, 10:45–12:30
 
Room 0.60
Posters
| Attendance Thu, 11 Apr, 14:00–15:45
 
Hall X5
CL1.18 | PICO

As the number of palaeoclimate data from glacial, marine, and continental archives is growing continuously, large-scale compilation and cross-comparison of these data is the imperative next phase in paleoclimate research. Large data sets require meticulous database management and new analysis methodologies to unlock their potential for revealing supra-regional and global trends in palaeoclimate conditions. The compilation of large scale datasets from proxy archives faces challenges related to record quality and data stewardship. This requires record screening and formulation of principles for quality check, as well as transparent communication.

This session aims to bring together contributions from paleoclimatic studies benefiting from the existence of such large data sets, e.g., providing a novel perspective on a proxy and the represented climate variables from the local to the global scale. We want to bridge the gap between data generation and modelling studies. In particular, comparing such large proxy-based datasets with climate modelling data is crucial for improving our understanding of palaeoclimate archives (e.g., bias effects and internal processes), to identify signal and noise components and their temporal dynamics, and to gain insight into the quality of model data comparisons.

We encourage submissions on data compilations, cross-comparison and modelling studies utilizing data repositories and databases (e.g., SISAL, PAGES2k, ACER, EPD), including, but not limited to:
-Comparative studies using one or several archives (e.g., including tests of temporal and spatial synchronicity of past regional to global climate changes)
-Proxy system models (and their tuning)
-Model data comparisons (including isotope enabled models or local calibration studies)
-Integrative multi-proxy/multi archive approaches at multiple study sites
-Large scale age model comparisons and record quality assessment studies, including methods aimed at cross validation between different records and variable spatial and temporal scales.

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Co-organized as AS4.28/BG1.63/HS11.19/NP4.10/SSP2.10
Convener: Franziska Lechleitner | Co-conveners: Yuval Burstyn, Laia Comas-Bru, Sophie Warken, Kira Rehfeld
PICOs
| Fri, 12 Apr, 14:00–15:45
 
PICO spot 5a
GI3.7

This session aims at bringing together multidisciplinary studies that address the current state of Arctic observing systems, including strategies to improve them in the future. We invite contributions covering atmosphere, ocean, cryosphere and terrestrial spheres, or combinations thereof, by use of remote sensing, in situ observation technologies, and modeling. Particular foci are placed on (i) the analysis of strengths, weaknesses, gaps in spatial/temporal coverage, and missing monitoring parameters in existing observation networks and databases, and (ii) studies describing the development and/or deployment of new sensors or observation platforms that extend the existing observing infrastructure with multidisciplinary measurements. This session will be supported by the EU-H2020 project INTAROS, and welcomes contributions from other pan-Arctic networks (e.g. INTERACT, GTN-P, NEON, ICOS, SIOS, IASOA, AOOS), multi-disciplinary campaigns (e.g. ABoVE, NGEE Arctic, Arctic Ocean 2018, RV Polarstern cruises) or databases.

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Co-organized as AS5.15/BG1.65/CL5.20/CR2.14/OS1.17/SSS13.21
Convener: Roberta Pirazzini | Co-conveners: Andreas P. Ahlstrøm, Agnieszka Beszczynska-Möller, Mathias Göckede, Stein Sandven
Orals
| Thu, 11 Apr, 08:30–10:15
 
Room M1
Posters
| Attendance Thu, 11 Apr, 10:45–12:30
 
Hall X1
BG1.66

Karst areas with carbonate bedrock comprise approximately 20 % of ice-free land on earth and provide water resources for about 25% of the Earth’s population, as well as under-pinning substantial food production. The critical zone extends from the base of the groundwater system to the top of the vegetation canopy, and comprises a complex system of coupled chemical, biological, physical and geological processes, which together support life at the Earth’s surface. Human impacts including intensive land use, contamination, and consequences of climate change have brought severe changes to the functioning of the critical zone. Owing to the inherent vulnerability of many karst ecosystems to disturbance, these are often particularly severe in karst areas. This has resulted in many emerging challenges for soil science, hydrology and related disciplines to understand how land-management practices impact biogeochemical cycles, and consequently the ability of the karst critical zone to provide future ecosystem services. The special characteristics of the critical zone in karst areas include heterogeneity of aquifer properties, thin soil profiles with a direct soil-rock contact, and unique weathering processes. This results in challenges to biogeochemical cycles studies in karst systems, requiring novel techniques and different approaches to non-karst areas.

Critical zone science is necessarily interdisciplinary. This session strongly encourages work drawing on a range of disciplines that will further our understanding of biogeochemical cycling in the karst critical zone. This will provide the knowledge base on which future management of karst areas is based, in order to secure their ability to provide ecosystem services. Work from all relevant disciplines is encouraged, including soil science, water quality, geology, karst hydrology, ecology, agronomy, and ecosystem services in karstic systems, which may draw from both long-term monitoring and high resolution study of occasional or extreme events. Work may include modelling, experimentation, reviews or a combination of the three.

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Co-organized as HS11.70/SSS6.6
Convener: Fu-Jun Yue | Co-conveners: Sarah Buckerfield, Yongjun Jiang, Siliang Li, Susan Waldron
Orals
| Fri, 12 Apr, 08:30–10:15
 
Room 2.44
Posters
| Attendance Fri, 12 Apr, 10:45–12:30
 
Hall A
AS3.22

Accurate and precise atmospheric measurements of greenhouse gas (GHG) concentrations reveal the rapid and unceasing rise of global GHG concentrations due to human activity. The resulting increases in global temperatures, sea-level, glacial retreat, and other negative impacts are clear. In response to this evidence, nations, states, and cities, private enterprises and individuals have been accelerating GHG reduction efforts while meeting the needs of global development. The urgency, complexity and economic implications of GHG reductions demand strategic investment in science-based information for planning and tracking emission reduction policies and actions. In response, the World Meteorological Organization (WMO) Global Atmosphere Watch Program (GAW) and its partners have initiated the development of an Integrated Global Greenhouse Gas Information System (IG3IS). IG3IS combines atmospheric GHG concentration measurements and human-activity data in an inverse modeling framework to help decision-makers take better-informed action to reduce emissions of greenhouse gases and pollutants that reduce air quality. This service is based on existing and successful measurement and analysis methods and use-cases for which the scientific and technical skill is proven or emerging.
This session intends to gather presentations from researchers and decision-makers (user-community) on the development, implementation and use of atmospheric measurement-based “top-down” and data-driven “bottom-up” GHG emission inventory estimates, and the combination of both approaches, explicit in space and time, to deliver actionable emissions information at scales where human activity occurs and emission reduction is most effective. This session is part of the EGU General Assembly 2019 30th anniversary celebration of the WMO’s Global Atmosphere Watch Program and its commitment to science-based services.

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Co-organized as BG1.67/CL3.02/ERE1.6
Convener: Phil DeCola | Co-conveners: Tomohiro Oda, Oksana Tarasova
Orals
| Fri, 12 Apr, 14:00–15:45, 16:15–18:00
 
Room 0.11
Posters
| Attendance Fri, 12 Apr, 08:30–10:15
 
Hall X5
BG1.68

The European countries are often recognised as the cradle of some of the world’s most important cultural heritage in stone. The cultural, artistic and social importance of stone monuments and lithic works of art evidences the general need to safeguard our praiseworthy cultural heritage. Unfortunately, we are confronted with some problems concerning their conservation, such as the increase of atmospheric contamination, the complex interactions between physical, chemical and biological factors, vandalism, lack of maintenance, and inefficient conservation treatments. This session will focus on the novel approaches that have been recently developed in the field of stone cultural heritage. The new emerging technologies, together with the variety of strategies, methodologies and biotechnological approaches available today show the wide range of possibilities that can be applied to stone heritage conservation. We invite studies devoted to: (i) novel tools for the identification of microorganisms and metabolites responsible for stone biodeterioration; (ii) biomaterials used for the preservation of granite and limestone materials; (iii) natural products from plants or microorganisms as innovative bioactive compounds for controlling biodeterioration; (iv) biotechnological approaches for the preservation of stone-built heritage and removal of sulphates, nitrates or organic substances from stone walls; (v) bioremediation strategies for building restoration. Experimental design setups, laboratory-based assays and field tests are also welcomed.

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Co-organized as ERE7.3/NH2.4
Convener: Patricia Sanmartín | Co-conveners: Ana Z. Miller, Domenico Pangallo, Guadalupe Piñar Larrubia
Posters
| Attendance Wed, 10 Apr, 10:45–12:30
 
Hall A
CL4.16.2 Media

Tipping elements in the Earth's climate system are continental-scale subsystems that are characterized by a threshold behavior. It has been suggested that these include biosphere components (e.g. the Amazon rainforest and coral reefs), cryosphere components (e.g. the Greenland and Antarctic ice sheets) and large-scale atmospheric and oceanic circulations (e.g. the thermohaline circulation, ENSO and Indian summer monsoon). Once operating near a threshold or tipping point, these components can transgress into a qualitatively different state by small external perturbations. The large-scale environmental consequences could impact the livelihoods of millions of people.

In this session, we aim to bring together experts presenting and discussing the state-of-the-art research on tipping elements in the Earth's climate system, both in empirical data and numerical modelling of past, present and future climate. Among other topics, issues to be addressed in this session include critical thresholds for specific tipping elements, typical time scales of tipping, interactions and feedbacks between tipping elements, the potential for tipping cascades as well as environmental and socio-economic impacts of tipping.

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Co-organized as AS4.64/BG1.69/CR1.15/NP1.7/OS1.35
Convener: Ricarda Winkelmann | Co-conveners: Victor Brovkin, Henk A. Dijkstra, Jonathan Donges, Timothy Lenton
Orals
| Tue, 09 Apr, 14:00–18:00
 
Room 0.49
Posters
| Attendance Tue, 09 Apr, 10:45–12:30
 
Hall X5
SC1.3 ECS

Research, especially for early career scientists, starts with the spark of an idea and is then often challenged by empirical or methodological road bumps and seemingly dead ends. A diverse range of challenges face those in earth science research, particularly for early career scientists (ECS). Challenges include (1) access difficulties, whether for field sites, equipment or data, (2) problems of scaling and extrapolation and (3) a lack of methodological understanding or knowledge. In this short course, we will raise engaging discussions, which aim to solve challenges, suggest new research approaches and methods, and encourage networks and possibilities for in-depth discussions amongst early career scientists at international conferences.

This short course will start with 2 minute ‘pop-up’ presentations outlining the questions or challenges submitted by attendees. These pop-ups are followed by chaired group discussions in which short course participants engage to crowd solve the presented challenges. To wrap up the session, solutions and suggestions from each topical group are presented to the whole session in a final discussion. A summary on last years’ crowd solving efforts can be found in the EGU GM blog post https://blogs.egu.eu/divisions/gm/2018/04/25/diving-under-the-scientific-iceberg/.

This short course lives by your input: i) by stating a research idea or challenge you would like to share, and ii) by participating in the discussion during the short course. To organize and prepare the discussions, please send a short statement of your idea or challenge related to geomorphic research, and your motivation for solving it (3-4 sentences) to geomorph-problems@geographie.uni-bonn.de, by March 1, 2019. The contributions within the short course are free of charge. If you want to discuss a specific problem, but rather stay anonymous, please let us know. We are all early career scientists and expect a non-hierarchic, respectful and constructive environment for the discussions, which will hopefully go some way to identifying and engaging with problems which face ECS geomorphologists.

Session organizers: Anne Voigtländer, Johannes Buckel, Eleanore Heasley, Felix Nieberding, Liseth Perez, Anna Schoch, Harry Sanders, Richard Mason,...

Public information:
We encourage meeting up before the short course during the Networking Time ~18h - so grab another drink and join us near room -2.62!

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Co-organized as BG1.70/EMRP2.61/GM12.6/GMPV7.17
Convener: Anne Voigtländer | Co-conveners: Johannes Buckel, Eleanore Heasley, Felix Nieberding, Liseth Perez
Wed, 10 Apr, 19:00–20:30
 
Room -2.62
SC1.9

With the start of the SENTINEL era, a major challenge for users is the efficient extraction of valuable information from an unprecedented amount of data. To provide data products that allow scientists, commercial users and decision makers to efficiently exploit these novel data, new methods are required to estimate land surface information from data retrieval, and to provide novel approaches and data dissemination. In this view, the MULTIPLY platform enables users to synergistically combine different satellite observations (including optical and SAR) together with additional a priori knowledge to provide inferences on land surface quantities (such as leaf area index, soil moisture, radiative fluxes, pigment concentrations, etc.) , as well as provide tools for information extraction and visualisation.
The platform uses state-of-the-art physical models of radiative transfer between the atmosphere and the land surface. The models allow for a coherent interpretion of different observation types. Additional information that constrains the inversion is also included as priors, which include not only expert or database-derived estimates of parameters but also dynamic models. This results in a continuous (in space and time) stream of parameters at high resolution (10s of m) that characterise the land surface, together with an estimate of their uncertainties.

This course is aimed at scientists, who require consistent and gap-free retrieval of land surface parameters, but are confronted with the limitations of current state-of-art approaches. Using a mix of hands-on demonstrators with the MULTIPLY platform, as well as theoretical background information, the course will deal with
• The basic concepts behind radiative transfer models
• The integration of a priori knowledge to land surface parameter retrieval.
• Combining observations and prior information in a Bayesian retrieval scheme
The course will focus on the specific challenges of current state-of-art approaches, and show the potential of MULTIPLY as a beyond-state-of-art framework, and highlight the platform as a useful tool for ecologists, agronomists and climate scientists who require timely information about the state of the land surface.

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Co-organized as BG1.71
Convener: Joris Timmermans | Co-conveners: Jose Gomez-Dans, Gerardo López Saldaña, Peter van Bodegom
Fri, 12 Apr, 10:45–12:30
 
Room -2.85
SC1.15

With the eddy covariance (EC) technique, net fluxes of carbon dioxide (CO2) and other trace gases as well as water and energy fluxes can be measured at the ecosystem level. These flux measurements are a main source for understanding biosphere-atmosphere interactions and feedbacks by cross-site analysis, model-data integration, and up-scaling.
However, analysis of the the half-hourly data requires intensive post-processing.
The attendees get teaching and hands-on training in standard post-processing routines of estimating the u*-threshold, gap-filling, flux-partitioning, aggregating results to days, seasons, and years, and error propagation using the open REddyProc R package with a focus on CO2 fluxes.

To help design a better lecture tell us your expectations at the following survey:
https://survey3.gwdg.de/index.php?r=survey/index&sid=19&lang=en

Participants should come with a laptop with installed recent versions of R, RStudio, and REddyProc.
https://www.biogeosciences-discuss.net/bg-2018-56/
https://www.bgc-jena.mpg.de/bgi/index.php/Services/REddyProcWeb

Public information:
8:30 Basic Carbon fluxes: uStar threshold, gapFilling, flux-partitioning
9:30 Uncertainty estimation and common challenges

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Co-organized as BG1.72
Convener: Thomas Wutzler | Co-conveners: Antje Lucas-Moffat, Mirco Migliavacca, M. Reichstein, Ladislav Šigut
Fri, 12 Apr, 08:30–10:15
 
Room -2.85
SC1.46

R is probably the most important statistical computing language in academia. With more than 10,000 packages it has been extended in many directions, including a huge support for geospatial data (see https://cran.r-project.org/web/views/Spatial.html and Bivand, Pebesma, and Gómez-Rubio 2013). R’s flexibility and statistical capabilities have made it attractive for people working in Earth, planetary and space sciences and a need for geographic data science.

This course will introduce the audience to R’s geographical capabilities, building on the book Geocomputation with R (https://geocompr.robinlovelace.net/) by the workshop authors (Lovelace, Nowosad, and Muenchow 2018). It will cover four topics and provide a solid foundation for attendees to apply R to a range of geographic data:

1. R’s implementation of the two most important spatial data models - vector (Pebesma 2018) and raster (Hijmans 2017).
2. Spatial data visualization with R.
3. Bridges to dedicated GIS software such as QGIS.
4. Statistical learning with geographic data.

Understanding data models is vital for working with geographic data in R. Maps, based on the data, can display complex information in a beautiful way while allowing for first inferences about spatial relationships and patterns. R has already become a Geographic Information System (GIS) (Bivand, Pebesma, and Gómez-Rubio 2013) - a system for the analysis, manipulation and visualization of geographic data (Longley et al. 2015). However, R was not designed as a GIS, and therefore computing large amounts of geographic data in R can be cumbersome. Even more important, R is missing hundreds of geoalgorithms which are readily available in common Desktop GIS. To deal with these shortcomings R packages have been developed allowing R to interface with GIS software. As an example, we will introduce the RQGIS package (Muenchow, Schratz, and Brenning 2017) for this purpose but also comment on other R-GIS bridges such as RSAGA (Brenning, Bangs, and Becker 2018) and rgrass7 (Bivand 2017). We will use RQGIS to compute terrain attributes (catchment area, catchment slope, SAGA wetness index, etc.) which we will subsequently use to model and predict spatially landslide susceptibility with the help of statistical learning techniques such as GLMs, GAMs and random forests (James et al. 2013). Hence, we show by example how to combine the best of two worlds: the geoprocessing power of a GIS and the (geo-)statistical data science power of R. The short course will consist of a mixture of presentations, live code demos and short interactive exercises if time allows.

Learning objectives
By the end of this workshop, the participants should:

- Know how to handle the two spatial data models (vector and raster) in R.
- Import/export different geographic data formats.
- Know the importance of coordinate reference systems.
- Be able to visualize geographic data in a compelling fashion.
- Know about geospatial software interfaces and how they are integrated with R (GEOS, GDAL, QGIS, GRASS, SAGA).
- Know about the specific challenges when modeling geographic data.

Software requirements
1. Latest version of R and RStudio
2. R packages: sf, raster, RQGIS, RSAGA, spData, tmap, tidyverse, mlr
3. QGIS (including SAGA and GRASS), please follow our installation guide (http://jannes-m.github.io/RQGIS/articles/install_guide.html) to make sure that RQGIS can work with QGIS

References
Bivand, Roger. 2017. Rgrass7: Interface Between GRASS 7 Geographical Information System and R. https://CRAN.R-project.org/package=rgrass7.

Bivand, Roger S., Edzer Pebesma, and Virgilio Gómez-Rubio. 2013. Applied Spatial Data Analysis with R. 2nd ed. New York: Springer.

Brenning, Alexander, Donovan Bangs, and Marc Becker. 2018. RSAGA: SAGA Geoprocessing and Terrain Analysis. https://CRAN.R-project.org/package=RSAGA.

Hijmans, Robert J. 2017. Raster: Geographic Data Analysis and Modeling. https://CRAN.R-project.org/package=raster.

James, Gareth, Daniela Witten, Trevor Hastie, and Robert Tibshirani, eds. 2013. An Introduction to Statistical Learning: With Applications in R. Springer Texts in Statistics 103. New York: Springer.

Longley, Paul, Michael Goodchild, David Maguire, and David Rhind. 2015. Geographic Information Science & Systems. Fourth edition. Hoboken, NJ: Wiley.

Lovelace, Robin, Jakub Nowosad, and Jannes Muenchow. 2018. Geocomputation with R. The R Series. CRC Press.

Muenchow, Jannes, Patrick Schratz, and Alexander Brenning. 2017. “RQGIS: Integrating R with QGIS for Statistical Geocomputing.” The R Journal 9 (2): 409–28.

Pebesma, Edzer. 2018. “Simple Features for R: Standardized Support for Spatial Vector Data.” The R Journal. https://journal.r-project.org/archive/2018/RJ-2018-009/index.html.

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Co-organized as BG1.73/ESSI1.19/GM12.4/NH10.5/NP10.7
Convener: Jannes Muenchow | Co-conveners: Robin Lovelace, Jakub Nowosad
Wed, 10 Apr, 08:30–10:15
 
Room -2.62
SC1.50 ECS

In times of climate change, current debates about carbon dynamics make waves in both the science and policy community. Several international policy frameworks* spearhead global efforts to streamline state governments, industry, and civil society into agreements for a sustainable development while mitigating climate change. The contribution of science to this process is critical to better prepare, implement, and measure the ambitious goals. Geoscientists from all fields are welcome to join this debate at the science-policy interface.

We will start with a scientific introduction on a topic of increasing focus in the policy-sphere; land and soil carbon dynamics, highlighting recent findings on carbon fluxes, whether it be source or sink. After discussing how these relate with policy guidelines, from our second speaker we will learn how scientific findings enter the policy arena, how policy organizations work, and why targeted-reports are crucially important for policy-makers. Our third speaker will present on how policies are turned into agreements at national or regional scales. To conclude, in an open discussion, the keynote speakers and audience will have the opportunity to discuss how the policy frameworks can boost science, which burning research needs are missing out, and how to explore career opportunities, especially for early career scientists. During the discussion, the expertise of the audience will be crowdsourced in an exercise on how to get involved and integrate your research ideas into policy-making decisions.

* like the Sustainable Development Goals, the Intergovernmental Panel on Climate Change, the 4 per 1000 Initiative and others

Public information:
Speakers:
- Scientific perspective by Prof. Dr. Claire Chenu (AgroParisTech)
- European science-policy interface by Panos Panagos, PhD MBA (European Commission)
- IPCC science-policy interface by Chris Lennard, PhD (University of Cape Town, lead author chapter 2 IPCC Special Report on Land and Climate)
- Policy end users by Rebecca Hood-Nowotny, PD MBA Ph.D. (BOKU)

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Co-organized as BG1.74/SSS13.35
Convener: Steffen A. Schweizer | Co-conveners: Sarah Connors, Chloe Hill, Taru Sandén, Christian Schneider
Tue, 09 Apr, 10:45–12:30
 
Room -2.31

BG2 – Terrestrial Biogeosciences

BG2.2

The assessment of forest vulnerability and resilience in the sight of global ecological, social and economic changes is a relevant issue. In recent decades, forest vulnerability is rapidly increasing worldwide and forecasting changes in tree health is becoming a challenge. Forest dieback episodes have been recorded in all biomes affecting different tree and shrub species. These dieback cases are revealing the high vulnerability of some species, particularly conifers, manifested as a loss in tree vigour, growth decline and sometimes tree death. Tree mortality commonly involves multiple, interacting factors, ranging from drought to insect pests and diseases, often making the determination of a single cause unrealistic. The need of understanding and predicting changes in tree mortality, growth and recruitment in response to dieback is essential to improve vegetation and C cycle models. Furthermore how adaptive forest management may be applied to improve the resistence and resiliance of forest stands subjected to dieback and mortality events needs to be better understood.
There is a common agreement on the key role of interdisciplinary research and the combined use of complementary tools to improve the monitoring and projection of forest vulnerability and dieback.
This session focuses on efforts to improve our understanding on: i) causes and mechanisms related to forest vulnerability and dieback; ii) potential changes in tree species composition, forest structure and extent of dieback under current and future climate change scenarios; iii) evaluation of which functional anatomical traits and hydraulic properties make some tree species or stands and tree populations more prone to environmental-induced dieback and decline IV) assesment of the role and interaction of insect disease and other abiotic factors on mortality; v) how trees die from drought and how to quantitatively assess tree mortality rates and the magnitude of tree mortality episodes associated to climate change events.
Contributions will focus on an integrated multi-scale (from cells to plant communities, ecosystems and global approaches), multi-temporal (from xylogenesis to long-term forecasting) and interdisciplinary (microscopy and individual Plant physiology to remote) frameworks. Contributions will focus also on modelling the mechanisms or relationships that use climate variability and trends as main drivers for forest planning and management.

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Convener: Francesco Ripullone | Co-conveners: Giovanna Battipaglia, Jesus Julio Camarero, Veronica De Micco, Fabrizio D Aprile
Orals
| Fri, 12 Apr, 16:15–18:00
 
Room 2.31
Posters
| Attendance Fri, 12 Apr, 08:30–10:15
 
Hall A
BG2.3

Natural disturbances are a primary driver of forest dynamics, thus shaping their composition and structure, and determining succession trajectories. Humans have always interacted with natural disturbances, and are in turn affected by the hazards posed by these events.
With the multitude of functions and services simultaneously and increasingly required from forest ecosystems, it is crucial to improve our understanding of the impact of natural disturbances on forests, also in light of the potential alterations introduced by different global change drivers, mostly due to anthropogenic activities.
Further attention is required to the many ways in which multiple disturbances (of biotic, abiotic and anthropogenic origin) interact with each other, thereby modifying the likelihood of occurrence and the effects of one another.
Despite an increasing awareness of the fundamental ecological role of natural disturbances, forest management still requires solid scientific input on how to increase the resistance and resilience of forests, and manage naturally disturbed landscapes to promote forest regeneration.
This complex situation calls for multi-scale, multi temporal, and multidisciplinary studies, taking advantage of field (in-situ) and remote sensing approaches, in order to capture the large heterogeneity and variability of the patterns and processes involved. In this session, we invite contributions from all fields in order to promote knowledge on disturbance ecology and to implement sustainable forest management.

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Convener: Emanuele Lingua | Co-conveners: Frédéric Berger, Alexandro B Leverkus, Raffaella Marzano, Tom Nagel
Orals
| Fri, 12 Apr, 14:00–15:45
 
Room 2.31
Posters
| Attendance Fri, 12 Apr, 10:45–12:30
 
Hall A
BG2.4

The Amazon forest is the world’s largest intact forest landscape. Due to its large biodiversity, carbon storage capacity, and role in the hydrological cycle, it is an extraordinary interdisciplinary natural laboratory of global significance. In the Amazon rain forest biome, it is possible to study atmospheric composition and processes, biogeochemical cycling and energy fluxes at the geo-, bio-, atmosphere interface under near-pristine conditions for a part of the year, and under anthropogenic disturbance of varying intensity the rest of the year. Understanding its current functioning at process up to biome level is elemental for predicting its response upon changing climate and land use, and the impact this will have on global scale.

This session aims at bringing together scientists who investigate the functioning of the Amazon and comparable intact forest landscapes across spatial and temporal scales by means of remote and in-situ observational, modeling, and theoretical studies. Particularly welcome are also presentations of novel, interdisciplinary approaches and techniques that bear the potential of paving the way for a paradigm shift.

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Co-organized as AS3.35/HS11.64/SSS10.12
Convener: Jošt Valentin Lavrič | Co-conveners: Alessandro Araujo, Carlos Alberto Quesada, Matthias Sörgel
Orals
| Fri, 12 Apr, 10:45–12:30
 
Room 2.31
Posters
| Attendance Fri, 12 Apr, 08:30–10:15
 
Hall A
BG2.6

Forest ecosystems are changing under climate change, and forests in mountain regions could be particularly sensitive to those changes. This poses substantial challenges to forest and landscape management, as mountain forests provide important ecosystem functions and services, such as water purification and protection from natural hazards. Yet, our understanding of how mountain forests might be impacted from climate change is still patchy. The aim of the session consequently is to compile current knowledge on climate change impacts on mountain forests ecosystems across the globe. Mountain forests are defined in a broad sense, covering all biomes from the tropics to the boreal zone. Potential topics might include, but are not limited to, changing disturbance regimes, impacts on ecosystem functions and services, changing structure and growth, and effects of human land use and changing societal demands on mountain forests. We hope to gather a broad transect of mountain forests ecosystems, synthesizing current challenges and future trends of mountain forest research.

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Convener: Cornelius Senf | Co-conveners: Olalla Díaz-Yáñez, Juha Honkaniemi
Posters
| Attendance Thu, 11 Apr, 14:00–15:45
 
Hall A
BG2.7

Higher temperature and altered precipitation regimes will affect the exchange of energy, carbon, water and nutrients between plants and the environment. Both, the gradual increase in temperature as well as the increased frequency of extreme events such as hot droughts will have strong impact on plants and terrestrial ecosystem functioning. To persist and thrive under projected climate conditions, plants will need to undergo rapid adjustments in their functions, including developmental, morphological and physiological shifts. Although clearly acknowledged, the hydrological and biogeochemical consequences of climate change impacts, plants acclimation responses and their potential role in increasing plants resistance to extreme climate events are not yet fully understood.

In this session, we would like to bring together speakers from different ecoregions that are currently conducting research on forest responses to drought and warming. We invite contributions in tree physiology, forest ecology, hydrological and biogeochemical processes that span a range of scales going from local to global studies. Cross-disciplinary approaches are particularly encouraged. Contributions may address any geographic area of the world from the cellular to the landscape level and use in-situ manipulative experiments, field observations, remote-sensing and modelling approaches. With this session, we want to encourage discussion between plant physiologists, forest ecologists, soil biogeochemists, ecosystem scientists and large-scale modelers in the context of how shifts in forest functions and structures under warming and drying conditions could inform us on the future of these ecosystems under projected climate.

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Convener: Charlotte Grossiord | Co-conveners: Arthur Geßler, Jean-Marc Limousin, Martina Pollastrini, Alberto Vilagrosa
Orals
| Thu, 11 Apr, 10:45–12:30
 
Room 2.44
Posters
| Attendance Thu, 11 Apr, 08:30–10:15
 
Hall A
BG2.8

Exchange of important greenhouse gases (GHGs) methane (CH4) and nitrous oxide (N2O) in forest ecosystems has traditionally focused on gas flux measurements between the soil and the atmosphere only. Soils act as substantial sources and sinks of both gases. However, the processes underlying the production and consumption of these gases are still not fully known and their understanding is a pre-supposition for improving the estimations of the gas fluxes within the soil-plant-atmosphere system. Over the last years, it has become evident that trees may play an important, and until recently overlooked, role in the net exchange of these GHGs in forests. Trees can contribute to ecosystem exchange by uptake and transport of soil-produced CH4 and N2O to the atmosphere, in-situ production (and perhaps consumption?) of both gases in plant tissues, and alternation of carbon- and nitrogen-turn-over in adjacent soil. However, the contribution of these individual processes to the net ecosystem GHGs exchange is still unclear and seems to depend on tree species, forest ecosystem type, environmental parameters and seasonal dynamics. Wetland tree species may be important CH4 sources, whereas some upland tree species are even known to be sinks for CH4. High N2O emissions have been particularly detected from trees grown under increased N2O concentrations in soils. The question thus remains whether mature trees exchange N2O with the atmosphere under low soil N2O concentration. First studies detected even N2O uptake by upland trees.
This session seeks to bring together scientists working on the exchange of CH4 and N2O in forest ecosystems at any relevant scale, and from the full climatic and hydrological forest range. We therefore welcome contributions on microbial processes in soils, plant tissues and microtopographic forms; measurements of soil gases and modelling of gas transport, incl. innovative approaches for soil gas sampling; gas transport processes in soils and trees incl. methodological aspects (application of stable/radioactive isotopes); flux measurements on the forest floor/soil, on cryptogams, on tree stems and at the leaf and canopy level; micrometeorological measurements using flux towers, and satellite, inverse and numerical modelling studies that seek to integrate our understanding of CH4 and N2O exchange in soils, trees and forest ecosystems. To understand the complexity of gas turn-over and transport processes in soils and trees in its entirety, related studies on other important gases as carbon dioxide (CO2), and biogenic volatile organic compounds (BVOC) and nitrous acid (HONO), which are important precursors of atmospheric chemistry, will be also included in the session.

Key-note speaker: Prof. Dr. Ülo Mander, University of Tartu, Estonia


The following sessions were merged into this session:
BG2.8 Forests and the CH4 and N2O cycles
BG2.51 Transport processes of trace gases in soils: measurements, modelling and ecological implications

Public information:
To have some time together after our session we reserved a table at the Brandauers Bierbögen at 19:30 on Thursday 11.04 to meet, chat and discuss ideas and life, and have something to eat and drink.

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Convener: Katerina Machacova | Co-conveners: Martin Maier, Kaido Soosaar, Bernard Longdoz, Mari Pihlatie, Jukka Pumpanen, Nicholas Nickerson
Orals
| Thu, 11 Apr, 08:30–10:15
 
Room 2.44
Posters
| Attendance Thu, 11 Apr, 10:45–12:30
 
Hall A
BG2.10

Plant ecosystems exchange reactive trace gases, such as nitrogen oxides (NOx), ozone, and volatile organic compounds (VOCs), and particles. While some of these compounds are anthropogenically produced, many are biotic in origin and are emitted in-situ or produced from rapid photochemistry in the canopy. The oxidation products include low-volatility organic compounds that readily partition to the aerosol phase, particularly in the presence of anthropogenic pollutants such as ammonium, nitrate and sulphate. In addition to being strong sources, soil and leaves represent major sinks of these reaction products, with deposition to the surface also as a function of surface wetness and uptake into the leaf via the stomata. The canopy region thus represents a dynamic and rapidly changing environment in which a myriad biological, chemical and physical processes occur over very short time and spatial scales. Advanced techniques of flux measurements provide good knowledge of the overall net fluxes of these compounds above canopies, while additional in-canopy measurements enable more detailed study and understanding of the individual processes and reactions driving these fluxes. These rapidly advancing measurements can support parametrization of models for a mechanistic understanding of in-canopy dynamics of deposition and emission of these reactive gases, which can in turn allow fuller interpretation of in-situ measurements and inform the design of field experiments to test specific hypotheses. This session, sponsored by ILEAPS (Integrated Land Ecosystem Atmosphere Process Study), encourages the submission of contributions based on in-situ measurements and/or modeling that improve our understanding of biosphere-atmosphere exchange of reactive gases and aerosols and in-canopy processes.

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Co-organized as AS3.34
Convener: Silvano Fares | Co-conveners: Kirsti Ashworth, Laurens Ganzeveld
Posters
| Attendance Fri, 12 Apr, 16:15–18:00
 
Hall A
BG2.11

Tropical ecosystems play an important role for the regional and global climate system through the exchange of greenhouse gases (GHG), water and energy and provide important ecosystem services that we as humans depend on, such as wood, foods, and biodiversity. Historic and recent human activities have, however, resulted in intensive transformation of tropical ecosystems impacting on the cycling of nutrients, carbon, water, and energy.

Here we invite contributions that provide insights on how land-use and land-use change influences biogeochemical cycles and ecohydrology in tropical ecosystems at the plot, landscape, and continental scale. Examples include nitrogen and carbon cycles in soil and vegetation, the exchange of GHG between soil and atmosphere as well as ecosystem and atmosphere, changes in the energy balance, impacts on the water cycle, scaling issues from plots to country to continent; and the influence of management activities (i.e. fertilization, drainage, etc.) on GHG fluxes.

The session covers forests, but also managed land-use systems such as agriculture, pastures or oil palm plantations. Experimental studies (chamber or eddy covariance flux measurements, stable isotopes, sap flux), inventories, as well as remote sensing or modelling studies are welcomed.

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Co-organized as AS4.19/SSS5.12
Convener: Arturo Sanchez-Azofeifa | Co-conveners: Sebastian Doetterl, Marijn Bauters, Jenny Farmer, Christian Stiegler
Orals
| Fri, 12 Apr, 14:00–15:45
 
Room 2.44
Posters
| Attendance Fri, 12 Apr, 10:45–12:30
 
Hall A
BG2.12

The terrestrial vegetation carbon balance is controlled not just by photosynthesis, but by respiration, carbon allocation, turnover (comprising litterfall, background mortality and disturbances) and wider vegetation dynamics. However, these processes have proved extremely challenging to observe and quantify at large scales and over long time periods. Existing large-scale empirical products of vegetation carbon fluxes and stocks have large uncertainties and/or data gaps. Furthermore, the observed changes in vegetation properties are often the result of a number of interacting processes and can be driven by changes in CO2, climate, natural disturbances or human activities. Thus, our current understanding of the environmental controls on vegetation dynamics and properties, and in turn their impact on carbon stocks in biomass and soils, is limited and the behaviour of large-scale vegetation models remains underconstrained. This gives rise to high uncertainty as to whether terrestrial vegetation will continue to act as a carbon sink under future environmental changes, or whether increases in autotrophic respiration or carbon turnover, e.g. through accelerated background tree mortality or by more frequent and more severe disturbance events (e.g. drought, fire, insect epidemics), will counteract this negative feedback to climate change. We welcome contributions that make use of observational approaches, vegetation models, or model-data integration techniques to advance understanding of the effects of environmental change on vegetation dynamics and carbon stocks and fluxes at local, regional or global scales and/or at long time scales.
Keynote: Prof Shaun Quegan, University of Sheffield.

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Convener: Thomas Pugh | Co-conveners: Gitta Lasslop, Matthias Forkel, Martin Thurner, Kailiang Yu, Yunpeng Luo, Catarina Moura, Rene Orth
Orals
| Fri, 12 Apr, 08:30–10:15
 
Room 2.31
Posters
| Attendance Fri, 12 Apr, 10:45–12:30
 
Hall A
BG2.13

Global terrestrial carbon and water budgets are changing with an unprecedented rate. Observations and simulations of the terrestrial carbon and water budget are fundamental to forecasting the biosphere-atmosphere interaction under a changing climate. Although in reality, physical and physiological processes underlying carbon and water fluxes occur over a continuum of scales, most research efforts address a single scale. Therefore, the estimated change systematically depends on the scale of observation and is a significant contributor to the output uncertainties. This, along with the ever-increasing variety of observation methods, simulation and computation techniques, pose a challenge to inform process understanding by observations that are captured at multiple spatial and temporal scales.
In this session, we aim to review challenges associated with scaling processes of carbon and water fluxes from the leaf to the ecosystem, and eventually global scale. More specifically, we call for recent efforts in the systematic quantification of uncertainties associated with different scales in modelling exercises, transferability between measurement captured at the leaf (e.g. gas exchange), tree (e.g. sap flux, dendrometers) to ecosystem level (eddy covariance towers, UAVs, aircrafts and satellites), and modelling studies, which help in bridging observational datasets from multiple temporal and spatial scales.

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Convener: Mana Gharun | Co-conveners: Benjamin Stocker, Corinna Rebmann, Arthur Geßler
Posters
| Attendance Fri, 12 Apr, 10:45–12:30
 
Hall A
BG2.14

Despite more than 100 years of research into the biochemistry and ecology of microbial N transformations, our understanding of how plants, microbiota and their physical environment shape the N cycle remains fragmentary. At the same time, we are in the midst of a global experiment, augmenting the N cycle to unprecedented levels. Relevant current research addresses, but is not limited to, N transformation processes connecting stable and reactive pools in terrestrial and aquatic ecosystems, the balance between N retaining and dissipating processes, transport and fate of reactive N in the environment and emission and uptake of gaseous N.
This session is open for contributions advancing our understanding of N-transformation processes on all scales, ranging from the micro-site to the watershed. Both field and laboratory studies are welcome. We are particularly interested in contributions reflecting recent methodological advancements in measuring (or inferring) N-transformation rates and their underlying biotic and abiotic components. Studies addressing spatiotemporal variabilities (“hot spots” and “hot moments”) and modeling approaches aiming to overcome variability and scale boarders are highly welcome.

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Convener: Peter Dörsch | Co-conveners: Linda Hink, Christoph Müller, Reinhard Well
Orals
| Mon, 08 Apr, 14:00–15:45
 
Room 2.25
Posters
| Attendance Mon, 08 Apr, 10:45–12:30
 
Hall A
BG2.15

Human activities are altering a range of environmental conditions, including atmospheric CO2 concentration, climate, and nutrient inputs. However, understanding and predicting their combined effect on ecosystem structure and functioning and biogeochemical cycles is challenging. Divergent future projections of terrestrial ecosystem models reflect open questions about fundamental processes and missing observational constraints. Models are routinely tested and calibrated against data from ecosystem flux measurements, remote sensing, atmospheric inversions and ecosystem inventories. While these constrain the current mean state of the terrestrial biosphere, they provide limited information on the sensitivity of ecophysiological, biogeochemical, and hydrological processes to environmental changes. Observational and ecosystem manipulation studies (e.g., Free-Air Carbon Dioxide Enrichment (FACE), nutrient addition or warming experiments) can provide unique insights and inform model development and evaluation.

This session focuses on how ecosystem processes respond to changes in CO2 concentration, atmospheric conditions, water and nutrient availability. It aims at fostering the interaction between experimental and modelling communities by advancing the use of observational and experimental data for model evaluation and calibration. We encourage contributions from syntheses of multiple experiments, model intercomparisons and evaluations against ecosystem manipulation experiments, pre-experimental modelling, or the use of observations from "natural experiments". Contributions may span a range of scales and scopes, including plant ecophysiology, soil organic matter dynamics, soil microbial activity, nutrient cycling, plant-soil interactions, or ecosystem dynamics.

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Convener: Benjamin Stocker | Co-conveners: Teresa Gimeno, Karin Rebel, Sönke Zaehle
Orals
| Wed, 10 Apr, 14:00–18:00
 
Room 2.31
Posters
| Attendance Wed, 10 Apr, 10:45–12:30
 
Hall A
BG2.17

From pole to pole, peatlands contain up to 30% of the world’s soil carbon pool, illustrating their role in the global carbon cycle. Currently peatlands are under various pressures such as changing climate, land-use or nutrient loading with unknown consequences for their functioning as carbon sinks and stores and the uptake or release of the greenhouse gasses carbon dioxide (CO2), methane (CH4) and nitrous oxide (N2O). Simultaneously, increasing amount of restoration activities, aiming to return peatlands back to their original state are ongoing. It is, however, not clear how the carbon reservoir will react to these pressures and how resilient these ecosystems are. This session will focus on the observed or predicted changes on the biogeochemistry at peatlands, caused by climate change, nutrient loading or land-use. We invite studies concentrating, for example, on the effects of climate change on GHG flux or nutrient dynamics on pristine and managed peatlands, impact of drainage or restoration and subsequent vegetation succession on biogeochemistry, atmosphere-biosphere interaction, or studies on carbon stock changes demonstrating the impact of land-use or climate change. Experimental and modelling studies of both high- and low latitude peatlands are welcomed.

Invited speakers:
Klaus-Holger Knorr, Professor, University of Münster, Germany
Franziska Koebsch, Dr., Rostock Universität, Germany
Michael Waddington, Professor, McMaster University, Canada
Minna Väliranta, Dr, University of Helsinki, Finland

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Convener: Annalea Lohila | Co-conveners: Gareth Clay, Maxim Dorodnikov, Mats Nilsson, Frans-Jan W. Parmentier
Orals
| Mon, 08 Apr, 10:45–12:30, 14:00–18:00
 
Room L2
Posters
| Attendance Mon, 08 Apr, 08:30–10:15
 
Hall A
BG2.18

Terrestrial ecosystems can be either greenhouse gas (GHG) sources or sinks. Ecosystem management in i.e. forests, croplands, grassland, mires, rangelands amongst others largely affect the net GHG exchange, encouraging both sources and sinks, or even leading to changes in the sign of the net GHG budget. With this session we aim at understanding how management activities in terrestrial ecosystems modify GHG exchanges of the three major GHGs: carbon dioxide (CO2), methane (CH4) and nitrous oxide (N2O). We are particularly looking for in-situ measurements (both short and long-term) on either a single GHG, or studies that jointly assess the three of them. Direct comparison studies of managed vs. unmanaged systems are further encouraged. We further invite contributions that aim at combining measurements with modeling approaches, and/or those that are trying to disentangle how management practices modify the processes responsible for GHG production and consumption at the soil, plant or ecosystem level. As an output if this session we anticipate, (1) learning about individual approaches currently being used to better understand the effects of management activities on GHG budgets, and (2) to consolidate information and develop standardized guidelines for existing and future studies allowing for direct comparison of individual results.

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Convener: Ana Meijide | Co-conveners: Bert Gielen, Lukas Hoertnagl, Lutz Merbold
Orals
| Mon, 08 Apr, 16:15–18:00
 
Room 2.25
Posters
| Attendance Mon, 08 Apr, 10:45–12:30
 
Hall A
BG2.19

The Critical Zone comprises the Earth's permeable near-surface layer from the top of the canopy to the bottom of the groundwater(see also: criticalzone.org/national/research/the-critical-zone-1national). It is the Zone where hydrosphere, atmosphere, pedosphere and geosphere interact with the biosphere. This fragile skin of the Earth, which supports the life and survival of humans maintaining food production and drinking water quality, is endangered by threats like climate change and land use change.

This multidisciplinary session will bring together scientists from all disciplines that contribute to our understanding of the Critical Zone from the molecular to the global scale and from fast to slow processes. We invite empirical and theoretical studies, as well as presentation of novel methods, aiming to reveal the processes connecting surface and subsurface und assessing the depth of the surface influence and potential feedbacks.

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Co-organized as SSS13.4
Convener: Gerd Gleixner | Co-conveners: Pascal Boeckx, Martina Herrmann, Anke Hildebrandt
Posters
| Attendance Mon, 08 Apr, 10:45–12:30
 
Hall A
GM7.2

Denudation, including both chemical and mechanical processes, is of high relevance for Earth surface and landscape development and the transfers of solutes, nutrients and sediments from slope and headwater systems through the main stem of drainage basin systems to ocean basins. Denudational slope and fluvial processes are controlled by a range of environmental drivers and can be significantly affected by man-made activities. Only if we have a better quantitative knowledge of drivers, mechanisms and rates of Holocene to contemporary denudational processes across a range of different climatic environments, an improved assessment of the possible effects of global environmental changes (e.g., higher frequencies of extreme rainfall events, accelerated permafrost thawing, rapid glacier retreat), anthropogenic impacts and other disturbances (e.g., land use, fires, earthquakes) on denudation can be achieved.

This session combines contributions on denudational hillslope and fluvial processes, sedimentary budgets and landscape responses to environmental changes in different morphoclimates, including both undisturbed and anthropogenically modified landscapes. The presented studies apply a diverse set of tools and data analyses, including up to date field measurements and monitoring techniques, remotely sensed/GIS-based analyses, modelling, geochemical and fingerprinting measurements and techniques, dendrochronological approaches, and cosmogenic radionuclide dating.

This session is organized by the I.A.G./A.I.G. Working Group on Denudation and Environmental Changes in Different Morphoclimatic Zones (DENUCHANGE).

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Co-organized as BG2.20/NH3.24/SSS13.12
Convener: Katja Laute | Co-conveners: Achim A. Beylich, Małgorzata Mazurek, Ana Navas, Olimpiu Pop
Orals
| Mon, 08 Apr, 14:00–15:45
 
Room 0.31
Posters
| Attendance Mon, 08 Apr, 10:45–12:30
 
Hall X2
GM7.1 | PICO

Analysing the geomorphic response to environmental change is crucial to improve the understanding, interpretation and prediction of surface process activity. Environmental drivers such as land cover and land use change, climate variability and tectonic activity are mutable in space and time, which renders the analysis of their impact on Earth surface dynamics anything but trivial. In turn, geomorphic processes have a strong impact on both natural ecosystems and artificially transformed land surfaces, with consequences ranging from increasing environmental diversity to economic damage.
This session aims to cluster latest advances in land surface research that address interrelationships between land cover dynamics, climate, evolving topography and geomorphic processes. Herein, the focus is set on the analysis, modelling and prediction of land surface processes that are linked to:
1) Natural and anthropogenic land cover dynamics, including land use changes, management practices, cultivation of field crops or grassland management, soil reinforcement of different vegetation types and parameterisation of prediction models.
2) Climate variability on a variety of spatial and temporal scales, from freeze-thaw cycles, monsoonal precipitation and extreme climatic events to Plio-Pleistocene glacial cycles and Late-Pleistocene to Holocene climatic changes.
Studies are welcome that pay heed on the geomorphic response to changes in land cover or climate, as well as the resulting feedbacks between land cover, climate and Earth surface dynamics over different temporal and spatial scales.

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Co-organized as BG2.21/NH3.25/SSS13.11
Convener: Elmar Schmaltz | Co-conveners: Günther Prasicek, Stefan Steger, Jörg Robl, Pierre Valla
PICOs
| Mon, 08 Apr, 16:15–18:00
 
PICO spot 1
SSS11.1

Soil biogeochemical data-modeling integration focuses on:
- soil hydrology and its links with soil respiration and biogeochemistry
- biogeochemical processes studied in feedbacks with soil structure and by high-resolution imaging
- biogeochemical models development and up-scaling issues

Water is a critical driver for soil biogeochemical processes. Hydrologic connections within the soil pore network facilitate flow and transport that enable microbial processing of soil organic materials, and other redox-associated biogeochemical processes. As extreme events such as droughts and storms increase in frequency, a focused understanding of the coupling between water, microorganisms, and biogeochemistry is needed to improve both empirical understanding and simulation models of C cycling processes at all scales. Dormant microorganisms may revive, or functional shifts in microbial activities may occur, that can be related to changing hydrologic states. Studies that couple hydrology to soil structure, microbial C cycling and biogeochemistry are welcome, as are those that emphasize ‘omics-based diagnostics or metrics for monitoring and predicting soil microbial community activities and biodiversity in response to hydrologic changes.

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Co-organized as BG2.22
Convener: Vanessa Bailey | Co-conveners: Alexandra Kravchenko, Fernando Moyano, Claudia Cagnarini, Carsten W. Mueller, Katerina Georgiou
Orals
| Thu, 11 Apr, 08:30–12:30, 14:00–15:45
 
Room G1
Posters
| Attendance Thu, 11 Apr, 16:15–18:00
 
Hall X1
SSS12.1

Analytical methods are the foundation of every scientific discipline. Therefore have they very important role in soil science and in all other related disciplines. From the choice of analytical method there depends the accuracy of researches and quality of the findings, and according to this the novelty and usefulness for society. Today we can see the usage of a very wide spectrum of methods and techniques in soil science from quite simple classical methods up to high-precision methods based on high-tech instruments. The wise usage of analytical methods and techniques allows the investigation of the processes and mechanisms in soils and to assess the status of the environment. Unfortunately, the importance of their utilisation in soil analysis is often underestimated. The main purpose of our session is to emphasize the importance of the analytical methods used to achieve the results in soil research.

The aim of this session is to present the usage of different laboratory methods and techniques in soil research and give possibility for researchers to exchange their experiences. The special goal of this session will be to promote a wider use of innovative analytical methods and hyphenated instrumental techniques for separation and determination of chemical and biochemical compounds of both known and unknown structures in mineral and organic soils, sediments, substrates and composts. Modern analytical methods and hyphenated techniques can be utilized for the investigation of the processes and mechanisms in soils like formation, transformation, and conversion.
The session is an opportunity to present the works describing the usage of wide range of equipment, from smartphones to MS in the analysis of soils. The session is not limited to these techniques or methods. Works describing the methods of soil physical analysis are accepted also. The studies connected with methodology of soil chemical analysis and particularly soil organic matter are welcome.

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Co-organized as BG2.28/NH3.26
Convener: Tonu Tonutare | Co-conveners: Viia Lepane, Manfred Sager
Orals
| Tue, 09 Apr, 16:15–18:00
 
Room G1
Posters
| Attendance Wed, 10 Apr, 08:30–10:15
 
Hall X1
SSS6.1

Soil structure, function and ecosystem services are discussed within each soil discipline: biology, chemistry and physics and it is recognised that each one of these soil disciplines have great importance in determining the overall soil health and characteristics. Moreover, there is an interrelationship between soil biota and the chemical and physical properties of the soil. For example, soil chemical composition can influence the survival of organisms in the soil and in return, soil organisms may change soil pH, aggregate stability and rate of organic matter decomposition. Healthy, bio-diverse, fertile soil that is rich in nutrients and elements required for food security and proper human nutrition can lead to personal physical fitness as well as social wellbeing for both the individual and broader society. Despite sessions and discussions within each soil discipline, there is very little talk between disciplines and one of the main reasons is the difficulties of the members of one discipline to understand the jargon used by another.
The aim of this session is to bring experts and ECSs from the different soil disciplines to present on soil structure, function and ecosystem services where the only rule is that jargon is not allowed! Our main objective is to facilitate discussion and feed soil information between the biology, chemistry and physics disciplines.
We have dedicated our session to the work of Professor Lily Pereg who was the initiator of this session and President of Soil System Sciences Division at EGU until she died tragically and unexpectedly earlier this year.

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Co-organized as BG2.29/HS8.3.17
Convener: Taru Sandén | Co-conveners: Brigitta Szabó, Karen Vancampenhout, Eric C. Brevik, Bahar S. Razavi, Lily Pereg (deceased)
Orals
| Fri, 12 Apr, 08:30–10:15
 
Room -2.47
Posters
| Attendance Fri, 12 Apr, 10:45–12:30
 
Hall X1
SSS9.2

The soil environment hosts a vast array of interfaces, ranging from those between microbes and aggregates, bulk soils and roots, to the interactions of soils with the bedrock and atmosphere. A range of physical, biological and chemical processes occur at these interfaces across different spatial and temporal scales, sustaining a wealth of ecosystem functions and services.

Soil systems are therefore dynamic environments. The behaviour and response of these complex systems to short-term perturbation and long-term environmental change pose fascinating challenges for soil scientists. Many of the major drivers of environmental change are anthropic in origin, including accelerated climatic change and shifts in land use and management. To ensure soils continue to provide valuable functions and services it is vitally important that we study the wide variety of soil interfaces and understand how the processes occurring across them may respond to current and potential future environmental change scenarios.

In this session we hope to bring together researchers at all career stages from different sub-disciplines of soil science to discuss these interactions and how these are affected by broader changes within the environment. Soil systems encompass an exceptional array of biogeochemical components; as such we welcome studies from a wide range of researchers using empirical or modelling-based approaches. We especially encourage contributions which present research encompassing different components of the soil system and the interactions between soil processes and the wider environment.

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Co-organized as BG2.33
Convener: Daniel Evans | Co-conveners: Emily Dowdeswell-Downey, Chris McCloskey, Phil Haygarth
Orals
| Wed, 10 Apr, 08:30–10:15
 
Room -2.47
Posters
| Attendance Wed, 10 Apr, 16:15–18:00
 
Hall X1
SSS8.2

Pre-anthropogenic evolution of biosphere based on mechanisms of struggle for life created dynamic stability of the Earth ecosystems comprised of species with maximum matching to all the biogeochemical niches. Intellect specific of only one species changed biosphere to support civilizations but at the same time interfered natural processes and transformed the state of the organized natural biogeochemical cycles. As a result, soil as the main basis of nutrients and biomass production is subjected to physical and chemical degradation and needs reclamation. To survive and develop as a species, Man should escape short-term decisions and use his knowledge and scientifically based approaches to find the ways for stable existence in changeable noosphere.
The main idea of the present session is to discuss the problem of optimization of eco-geochemical state of anthropized soil to improve the quality of agricultural and forestry production and, finally, human health in conditions of inevitable man-made contamination.
We invite specialists in soil science and all stakeholders to:
1) present their ideas and experience in assessment of the ecological and health risk due to soil contamination in their regions, countries and localities;
2) discuss how we should evaluate soil contamination in conditions of: a) natural nutrients deficiency; b) soil over-fertilization; soil pollution;
3) clear up what levels of elements concentration may be treated as pollution and demonstrate theoretical approaches and modern technologies that may be considered optimum in reclamation of technogenically transformed soils to improve their ecological quality and to contribute to human health.

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Co-organized as BG2.36/HS11.52
Convener: Elena Korobova | Co-conveners: Maria Manuela Abreu, Jaume Bech, Erika Santos
Orals
| Mon, 08 Apr, 14:00–15:45
 
Room -2.20
Posters
| Attendance Mon, 08 Apr, 16:15–18:00
 
Hall X1
CL4.27

Agriculture is an important sector of any economy of the world. Agriculture productions are highly dependent on the climate change and variability. Changes in hydro-meteorological variables can influence crop yield and productivity at many places. Further, climate change can influence nutrient levels, soil moisture, water availability and other terrestrial parameters related to the agricultural productivity. Changes in the frequency and severity of droughts and floods could pose challenges for farmers and ranchers and threaten food safety. Further, changes in climate can influence meteorological conditions and thus can influence the crop growth pattern. It may also influence irrigation scheduling and water demand of the crops. The effects of climate change also need to be considered along with other evolving factors that affect agricultural production, such as changes in farming practices and technology.

The purpose of the proposed session is to gather scientific researchers related to this topic aiming to highlight ongoing researches and new applications in the field of climate change and agriculture. In this framework, original works concerned with the development or exploitation of advanced techniques for understanding the impact of climate change on agriculture will be invited.

The conveners of this session will encourage both applied and theoretical research in this area.

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Co-organized as BG2.37
Convener: R K Mall | Co-conveners: George P. Petropoulos, A. Sahai, Rabi N Sahoo, Prashant Kumar Srivastava
Orals
| Thu, 11 Apr, 16:15–18:00
 
Room L2
Posters
| Attendance Thu, 11 Apr, 14:00–15:45
 
Hall X5
HS8.3.6

The continuum approach is a classical framework to describe and understand the soil—water dynamics and the soil effective—stress state in unsaturated soils. This approach is greatly dependent on the soil—water constitutive laws, viz soil—water retention curve, relative hydraulic conductivity, and those derived by these two principal ones. They link the real soil and its model. Advancements along their development and the comprehension of their role stand at the intersection of experimental measurements, mathematical representation and modelling, numerical solutions, theoretical understandings and practical applications. The growing possibility of monitoring soil moisture with rather simple tools has allowed to perform many field experiments devoted to understand the links between environmental variables and soil moisture. Also, climate change research has boosted this field of knowledge. Many terrestrial critical zone observatories have been installed, therefore new information both at the local and at the catchment scale is now available. Many open issues still exist in understanding the role of soil moisture in the environment, in combination with other factors such as soil and air temperature, air humidity, carbon and nitrogen availability, etc. Also, it is necessary the study of the structure of time and spatial variability of soil moisture itself, for example to combine the different scales of measurements. Usually soil moisture is measured at the local scale, but hydrogeophysics allows to have larger scale measurements and micrometeorological tools such as eddy covariance provide even larger scale estimation of gas and energy fluxes. The cosmic ray have increasing applications and the remote sensing images are powerful tools, therefore interesting issues regard the spatial upscaling, and the sampling frequency.

We invite contributions related to the understanding of the soil--water constitutive laws and to soil moisture monitoring, both finalised to understand the effects of its time and spatial variability, and to study soil moisture itself.

Scientists working both in the biogeosciences, and in soil sciences field are encouraged to participate, for example with study related to the implications of soil moisture on carbon and nitrogen dynamics, as well as on root and plant growth. The growing possibility of monitoring soil moisture with rather simple tools has allowed to perform many field experiments devoted to understand the links between environmental variables and soil moisture. Also, climate change research has boosted this field of knowledge. Many terrestrial critical zone observatories have been installed, therefore new information both at the local and at the catchment scale is now available.

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Co-organized as BG2.39/SSS7.11
Convener: Stefano Barontini | Co-conveners: Davide Canone, Fatma Wassar, Amro Negm, Benye Xi
Orals
| Thu, 11 Apr, 08:30–10:15
 
Room 2.95
Posters
| Attendance Thu, 11 Apr, 14:00–15:45
 
Hall A
CL1.38 Media

Tree rings are a key terrestrial archive providing insight into past climate conditions at annual and intra-annual resolution and from local to hemispheric scales. Tree ring proxies are also important indicators of plant physiological responses to changing environments and of long-term ecological processes. In this broad context we welcome contributions using one or more of the following approaches to either study the impact of environmental change on growth and physiology of trees and forest ecosystems or to assess and reconstruct past environmental change: (i) traditional dendrochronological methods including studies based on tree ring width and density, (ii) stable isotopes in tree rings and related plant compounds, (iii) dendrochemistry, (iv) quantitative wood anatomy, (v) sap flow, dendrometer and related monitoring data analyses, and (vi) mechanistic modelling, all at different temporal and spatial scales.

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Co-organized as BG2.41
Convener: Kerstin Treydte | Co-conveners: Giovanna Battipaglia, Jan Esper, Andrea Hevia Cabal
Orals
| Fri, 12 Apr, 08:30–12:30
 
Room 0.14
Posters
| Attendance Fri, 12 Apr, 16:15–18:00
 
Hall X5
SSS5.3

Dissolved and particulate organic carbon (DOM, POM) are key components of the global C cycle and important as potential sources of CO2, and for the long-term preservation of carbon stabilized in subsoils and sediments. DOM and POM are key sources of energy for microbial metabolism within terrestrial ecosystems, the aquatic continuum, and ultimately the ocean. Despite recent evidence showing this lateral transport of carbon is linked to anthropogenic perturbations, efforts to integrate DOM and POM fluxes across the terrestrial-aquatic continuum are just emerging. A comprehensive understanding of the dynamics of DOM and POM in terrestrial and aquatic ecosystems remains challenging due to complex interactions of biogeochemical and hydrological processes at different scales, i.e. from the molecular to the landscape scale.
This session aims to improve our understanding of organic matter processing at the interface of terrestrial and aquatic ecosystems. We solicit contributions dealing with amounts, composition, reactivity and fate of DOM and POM and its constituents (i.e. C, N, P, S) in soils, lakes, rivers and the coastal ocean as well as the impact of land use change and climatic change on these processes. For example, it is important to recognize the key role of peatlands as sources of organic matter for many streams and rivers as well as soil erosion induced lateral fluxes of sediment and carbon at the catchment scale when assessing C dynamics across the terrestrial-aquatic continuum. Therefore, we aim to bring together scientists from various backgrounds, but all devoted to the study of dissolved and/or particulate organic matter using a broad spectrum of methodological approaches (e.g. molecular, spectroscopic, isotopic, 14C, other tracers, and modeling).

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Co-organized as BG2.42/HS11.1
Convener: Karsten Kalbitz | Co-conveners: Nuria Catalan Garcia, Dolly Kothawala, Filip Oulehle
Orals
| Tue, 09 Apr, 08:30–10:15, 10:45–12:30
 
Room -2.20
Posters
| Attendance Tue, 09 Apr, 14:00–15:45
 
Hall X1
BG2.43

Globally, 10–20% of peatlands have been drained for agriculture or forestry, and they emit close to 5% of global anthropogenic CO2 emissions. There are countries in Europe that have more than 60% of their agricultural emissions originating from cultivated organic soils, and the fate of South-East Asian peatlands is of global concern. Drainage causes losses of specialized species and further ecosystem services such as nutrient retention. However, most peatland-rich countries address peatlands poorly in national emission reporting and climate change mitigation strategies.
Innovative mitigation measures that sustain economically viable biomass production while reducing negative environmental impacts including greenhouse gas emissions, fire risk and supporting ecosystem services of organic soils are currently vigorously studied. Management measures include, but are not limited to, productive use of wet peatlands (“paludiculture”), improved water management in conventional agriculture and innovative approaches in conservation-focused rewetting projects. Production systems where peatland water table is 40 cm below the surface or higher, can generate food (e.g. fish, berries, mushrooms), feed (e.g. fodder for livestock), fiber (for construction, furniture) and fuel, and raw materials for chemical industry. How to implement these innovations in practice and integrate them into national GHG inventories remains a challenge.
We invite studies addressing peat-preserving management practices on organic soils as well as their implementation into GHG inventories. Work on all spatial scales from the laboratory to the national level addressing biogeochemical as well as biological aspects and both experimental and modelling studies are welcome. Especially research on development of traditional systems with details on commodities with viable value chains and income generation would be of interest. Furthermore, we invite contributions that address policy coherence and identify policy instruments for initiating and implementing new management practices on organic soils.
This session is organized as a joined effort of Global Research Alliance “Peatland Management” working group, Global Peatlands Initiative, Greifswald Mire Center, Thünen Institute and RePeat (REstoration and prognosis of PEAT formation in fens - linking diversity in plant functional traits to soil biological and biogeochemical processes 2016-2019; BiodiVErSA) and PeatWise (Wise use of drained peatlands in a bio-based economy: development of improved assessment practices and sustainable techniques for mitigation of greenhouse gases 2017-2020; FACCE ERA-GAS) – projects.

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Co-organized as HS10.16/SSS13.6
Convener: Hanna Silvennoinen | Co-conveners: Björn Klöve, Wiktor Kotowski, Franziska Tanneberger, Bärbel Tiemeyer
Orals
| Mon, 08 Apr, 08:30–10:15
 
Room L2
Posters
| Attendance Mon, 08 Apr, 14:00–15:45
 
Hall A
BG2.46

Managed agricultural ecosystems (grassland and cropland) are an important source and/or sink for greenhouse gases (GHG) as well as reactive trace gases. Due to the simultaneous influence of management activities (e.g. fertilizer application, harvest, grazing) and various environmental drivers, the flux patterns are often complex and difficult to attribute to individual drivers. Management related mitigation options may result in trade-offs between different GHG (CO2, CH4, N2O) or between emission of GHG and reactive gases like NH3.
The session addresses experimentalists and modelers working on fluxes and exchange processes on plot, field, landscape, and regional scale. It is open to a wide range of studies including the development and application of new devices, methods, and model approaches as well as field observations and process studies.
Particularly welcome are studies on the full carbon, nitrogen or GHG budgets, as well as studies comparing GHG and reactive gas exchange. We also encourage contributions about N2O, NH3 and NO emission factors.

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Convener: Christof Ammann | Co-conveners: Christian Brümmer, Pauline Buysse, Eiko Nemitz, Matthias Sörgel
Orals
| Wed, 10 Apr, 08:30–10:15
 
Room 2.15
Posters
| Attendance Wed, 10 Apr, 10:45–12:30
 
Hall A
BG2.47

Gross photosynthetic CO2 uptake is the single largest component of the global carbon cycle and a crucial variable for monitoring and understanding global biogeochemical cycles and fundamental ecosystem services. Nowadays routine measurements of the net biosphere-atmosphere CO2 exchange are conducted at the ecosystem scale in a large variety of ecosystem types across the globe. Gross photosynthetic and ecosystem respiratory fluxes are then typically inferred from the net CO2 exchange and used for benchmarking of terrestrial biosphere models or as backbones for upscaling exercises. Uncertainty in the responses of photosynthesis and respiration to the climate and environmental conditions is a major source of uncertainty in predictions of ecosystem-atmosphere feedbacks under climate change. On the other hand transpiration estimates both at ecosystem to global scales are highly uncertain with estimates ranging from 20 to 90 % of total evapotranspiration. The most important bottleneck to narrow down the uncertainty in transpiration estimates is the fact that direct measurements of transpiration are uncertain and techniques like eddy covariance measure only the total evapotranspiration.
During the last decade, technological developments in field spectroscopy, near surface remote sensing, isotope flux measurements and quantum cascade lasers have enabled alternative approaches for constraining ecosystem-scale photosynthesis, respiration and transpiration. On the other hand a variety of approaches have been developed to directly assess the gross fluxes of CO2 and transpiration by using both process based and empirical models, and machine learning techniques.
In this session we aim at reviewing recent progress made with novel approaches of constraining ecosystem gross photosynthesis, respiration and transpiration and at discussing their weaknesses and future steps required to reduce the uncertainty of present-day estimates. To this end we are seeking contributions that use emerging constrains to improve the ability to quantify respiration and photosynthesis processes, transpiration and water use efficiency, at scales from leaf to ecosystem and global. Particularly welcome are studies reporting advancements and new developments in CO2 and evapotranspiration flux partitioning from eddy covariance data, the use of carbonyl sulfide, stable isotopes approaches, with a special attention on sun-induced fluorescence, whose studies at various scales have flourished in the last years, addressing a large panel of fundamental challenges. The assessment of photosynthesis from space-based measurements of fluorescence will also be the focus of the FLEX mission, currently under implementation by the European Space Agency. This session welcomes presentations contributing to a better knowledge on vegetation fluorescence, including its measurement, modelling, interpretation, new instruments and applications from local to global scales. Modelling studies which enhance our fundamental understanding of ecosystem-atmosphere CO2 exchange at global scale or make use of these emerging new constraints in data assimilation schemes are also welcome.

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Convener: Georg Wohlfahrt | Co-conveners: Timothy Hilton, Mirco Migliavacca, Karolina Sakowska, Fabienne Maignan, Roberto Colombo, Yves Goulas, Yongguang Zhang
Orals
| Wed, 10 Apr, 08:30–12:30
 
Room L2
Posters
| Attendance Wed, 10 Apr, 14:00–15:45
 
Hall A
BG2.48

Monitoring and modeling of vegetation and ecosystem dynamics is fundamental in diagnosing and forecasting Earth system states and feedbacks. However, the underlying ecosystem processes are still relatively poorly described by Earth system models. Confronting terrestrial biogeochemical models at multiple temporal and spatial scales with an ever-increasing amount and diversity of Earth observation data is therefore needed.

To this end, the rapidly growing amount of satellite data has fostered the development of novel global satellite products of vegetation and ecosystem properties (such as fluorescence, microwave vegetation optical depth, biomass, multi-sensor climate data records, new high resolution products), which complement more traditional products, like NDVI, LAI or fAPAR. In this session, we present the most recent advances in:

(1) the production of global land surface biophysical and biochemical variables from satellite observations;

(2) assessment of plausibility, validation and intercomparisons of these products;

(3) their use in studying global ecosystem dynamics related to, e.g., climate variability and change;

(4) benchmarking and improvement of global vegetation models through statistical analysis and model-data integration techniques.

The latter may consider methodological foci or include applications related to the monitoring and modeling of terrestrial vegetation and ecosystem dynamics for timescales from days to decades, also including multiple data streams.

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Convener: Jean-Christophe Calvet | Co-conveners: Nuno Carvalhais, Wouter Dorigo, Matthias Forkel, Mariette Vreugdenhil
Orals
| Tue, 09 Apr, 08:30–10:15, 10:45–12:30
 
Room 2.25
Posters
| Attendance Tue, 09 Apr, 16:15–18:00
 
Hall A
BG2.49

Carbon allocation is a key process in ecosystems: it is coupled with plant growth, fuels metabolism and plays a crucial role for carbon sequestration in standing biomass and soil organic matter. While the importance of carbon allocation for plant and ecosystem functioning and the carbon balance is widely recognized, we still lack a comprehensive understanding of the underlying mechanisms, responses to global changes and wider biogeochemical implications. Open questions include: 1) what drives carbon allocation in plants and ecosystems?; 2) what is the fate of newly assimilated carbon?; 3) what determines the allocation of nonstructural carbon to growth, metabolism and storage?, 4) how does carbon allocation affect nutrient and water relations in plant and ecosystems?; and 5) how do allocation patterns change under changing environmental conditions and what are the consequences for biogeochemical cycles? This session invites contributions from observational, experimental and modelling studies.

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Convener: Michael Bahn | Co-conveners: Mariah Carbone, Daniel Epron, Henrik Hartmann, Andrew Richardson
Orals
| Tue, 09 Apr, 14:00–15:45
 
Room 2.25
Posters
| Attendance Tue, 09 Apr, 10:45–12:30
 
Hall A
BG2.50

Silicon (Si) is crucial in numerous biochemical and geochemical processes. Earlier scientific literature on Si cycling focused on abiotic weathering processes, while in recent years, scientists have become more aware of the significant role of biotic controls. Silicon plays a key role in processes governing soil formation and soil-plant feedback interactions. Vegetation, soil organisms, including fauna, microorganisms and fungi, strongly affect Si dynamic in terrestrial ecosystems but the mechanisms are still poorly understood. In particular, Si has numerous beneficial effects on both plant structure, function as well as resilience to biotic and abiotic stresses motivating studies focusing on Si functional ecology and silica biomineralization. The global Si cycle is receiving increased attention because of its links with the carbon cycle as well as other major biogeochemical cycles and toxic elements. A better understanding of the terrestrial Si cycle is thus critical, especially as drastic and subtle changes in the terrestrial Si cycle are occurring worldwide in response to global change.
This session aims at compiling recent work focusing on biogeochemical Si cycling under global change, its functions in terrestrial ecosystems as well as its evolution in the recent past. This session bridges advances from soil sciences, ecology, plant physiology, agronomy, biogeochemistry (including isotopes studies) and paleontology. We invite studies tackling biotic and abiotic interactions at different time and spatial scales affecting the Si cycle and its interactions with other biogeochemical cycles. We encourage interdisciplinary studies as well as contributions from both field and laboratory experiments encompassing biogeochemical processes, molecular mechanisms to improve our understanding of the role of Si in ecosystem processes. Meta-analyses and paleo-environmental studies using phytoliths are also welcome.

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Convener: Camille Delvigne | Co-conveners: Julia Cooke, Jean-Thomas Cornelis, Anika Klotzbücher, Jörg Schaller
Orals
| Tue, 09 Apr, 16:15–18:00
 
Room 2.25
Posters
| Attendance Tue, 09 Apr, 14:00–15:45
 
Hall A
BG2.52

Sustainable agriculture is needed to ensure that both present and future societies will be food secure without exacerbating adverse environmental change. Current agricultural production systems are already challenged by several factors, such as climate change, availability and accessibility of water and other inputs, socio-economic conditions, and changing and increasing demand for agricultural products. Agriculture is also expected to contribute to climate change mitigation, to minimize pollution of the environment, and to preserve biodiversity.
Assessing all these challenges requires studying alternative land management options at local to global scales and to assess agricultural production systems rather than individual products.
This session will focus on the modeling of agricultural systems under global change, addressing challenges in adaptation to and mitigation of climate change, sustainable intensification, and environmental impacts of agricultural production across scales. We welcome contributions on methods and data, assessments of climate impacts and adaptation options, environmental impacts, GHG mitigation, and economic evaluations.

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Convener: Christoph Müller | Co-conveners: Christian Folberth, Femke Lutz, Sara Minoli
Orals
| Wed, 10 Apr, 10:45–12:30
 
Room 2.15
Posters
| Attendance Wed, 10 Apr, 08:30–10:15
 
Hall A
SSS8.1 | PICO

Mining and industrial activities, particularly in the past, have left waste deposit sites and contaminated former fertile soils in many countries. Due to future shortage of arable areas as well as raw materials, the recovery of raw materials as well as remediation for future agricultural utilization, and prevention of hazardous leachings to the groundwater continues to be a goal of current and future research. Bioremediation and biomining techniques are considered as cost-effective and environmentally friendly, “green” technologies for the in situ restoration of the health and productive capacity of soils, mitigating environmental impacts of impaired soils, and last but not least, the gain of raw materials (e.g. by phytoextraction). However, optimization of these technologies requires a sound understanding of related biogeochemical processes and the consequences of site management.
This session aims to bring together contributions of all aspects of biomining and bioremediation research including the effects of rhizosphere processes, soil management and microbial leaching.
This includes, among others:

-advances in the understanding of functions of plant-soil-microbe interactions in the rhizosphere

-factors influencing the mobility and leaching of target elements or soil contaminants

-distribution of target elements inside the organisms

-final recovery of metals from accumulator plants or leachates

We welcome presentations of laboratory and field research results as well as theoretical studies. We intend to bring together scientists from multiple disciplines. Young researchers are especially encouraged to submit their contributions.

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Co-organized as BG2.57
Convener: Oliver Wiche | Co-conveners: Fabian Giebner, Christin Moschner, Balázs Székely
PICOs
| Tue, 09 Apr, 16:15–18:00
 
PICO spot 3
BG2.60

Land use and land cover change (LULCC) has the capacity to alter the climate by disrupting land-atmosphere fluxes of carbon, water and energy. Much attention has been devoted to the biogeochemical impacts of LULCC, yet there is an increasing awareness that the biogeophysical mechanisms should also be considered in climate change assessments of LULCC impacts on weather and climate. Characterizing biogeophysical land-climate interactions remains challenging due to their complexity and uncertainty. While from the biogeochemical perspective converting forest into grassland leads to warming the climate, from the biogeophysical side it typically entails a rapid increase in albedo and a concomitant decrease in evapotranspiration that may ultimately lead to a cooling or a warming effect, depending on which of the two processes dominates and depending on the size and pattern of the LULCC perturbation. Recent advances exploiting Earth system modelling and Earth observation tools are opening new possibilities to better describe LULCC and its effects at multiple temporal and spatial scales. This session welcomes studies that improve our general understanding of climate perturbations connected to LULCC from both biogeophysical and biogeochemical standpoints, and particularly those focusing on their intersection. Both observation-based and model-based analyses at local to global scales are welcome.

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Convener: Gregory Duveiller | Co-conveners: Ryan Bright, Edouard Davin, Alan Di Vittorio, Julia Pongratz
Orals
| Fri, 12 Apr, 16:15–18:00
 
Room 2.44
Posters
| Attendance Fri, 12 Apr, 14:00–15:45
 
Hall A
NH6.7

Significant recent changes in climate are linked to an increase in the frequency and intensity of extreme weather and weather-related events such as heat and cold waves, floods, wind and snow storms, droughts, wildfires, tropical storms, dust storms, etc. This underscores the critical need for: (i) monitoring such events; (ii) evaluating the potential risks to the environment and to society, and; (iii) planning in terms of adaptation and/or mitigation of the potential impacts. The intensity and frequency of such extreme weather and climate events follow trends expected of a warming planet, and more importantly, such events will continue to occur with increased likelihood and severity.

Agricultural and forested areas cover large surfaces over many countries and are a very important resource that needs to be protected and managed correctly for both the environment and the local communities. Therefore, potential impacts deriving from a changing climate and from more frequent and intense extreme events can pose a serious threat to economic infrastructure and development in the coming decades, and also severely undermine food, fodder, water, and energy security for a growing global population.

Remote Sensing that includes the use of space, aerial and proximal sensors provide valuable tools to monitor, evaluate and understand ecosystem response and impacts at local, regional, and global scales based on spatio-temporal analysis of long-term imagery and related environmental data. Further, studies allowing the quantitative or qualitative evaluation of the risks, including integrating environmental and socio-economical components are particularly important for the stakeholders and decision-makers at all administrative levels. Thus, it is important to better understand links between climate change/extreme events in relation to associated risks for better planning and sustainable management of our resources in an effective and timely manner.

Relevant abstracts will be encouraged to submit a full paper to a related special issu in the journal NHESS (Natural Hazards and Earth System Sciences - https://www.nat-hazards-earth-syst-sci.net/special_issue980.html).

We especially encourage, but not limit, the participation of Early Career Scientists interested in the field of Natural Hazards.

The session is organized in cooperation with NhET (Natural hazard Early career scientists Team).

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Co-organized as BG2.61/GI3.21/SSS13.17
Convener: Jonathan Rizzi | Co-conveners: Luigi Lombardo, Mahesh Rao, Wenwu Zhao
Posters
| Attendance Mon, 08 Apr, 10:45–12:30
 
Hall X3
SSS8.5 Media

The world annual consumption of pesticides has amounted to 2.7 × 106 tons in recent years. Agricultural land is the first recipient of pesticides after its application; even if the pesticides are applied in accordance with the regulations, only a minor amount reaches its objectives, while the rest represent possible environmental contaminants and short or long-term harvest products, with a wide range of possible negative impacts. For many pesticides or their degradation products, soils become the non-point source of groundwater contamination (leaching of soluble compounds and compounds linked to colloids) and / or surface water (runoff of soluble compounds, compounds bound to colloids and soil particles, transport from groundwater). On the other hand, these pesticides represent a potential risk for soil biota, such as nematodes, microorganisms and plants.
The purpose of the session is to share the knowledge generated by researchers whose interest lies in the role of soil in the destination and the behavior of emerging contaminants, including pesticides.
This session will include contributions from different areas:
1. Development, validation and application of analytical methods for pesticides and their degradation / transformation products in water, soil, sediment, air and food samples for direct consumption or fresh consumption.
2. Studies of adsorption, desorption, physical transport, synergies, etc. between soil and organic pollutants of agricultural production (pesticides, pharmaceutical products, other emerging pollutants, which favor their environmental availability.
3. Field tests, monitoring and modeling of environmental destinations of pesticides.
4. Effects of mixtures of pesticides and pesticides on non-target organisms and interactions of various classes of pesticides detected in the natural environment.
5. Evaluation of risks of environmental contamination by pesticides.
6. Assessments regarding climate change on the fate and behavior of pesticides.
The scientific session “Soils as a non-point source of contamination by pesticides or their degradation products” will provide an opportunity to research teams working in different parts of the world to discuss their findings within the settings of a large conference.

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Co-organized as BG2.67/HS8.3.15
Convener: Virginia Aparicio | Co-conveners: Mikhail Borisover, Glenda Garcia-Santos, Violette Geissen, Manfred Sager
Orals
| Mon, 08 Apr, 16:15–18:00
 
Room -2.20
Posters
| Attendance Mon, 08 Apr, 10:45–12:30
 
Hall X1
HS10.6

During the passage of precipitation through the soil-plant-atmosphere interface, water and solutes are redistributed by the plant canopy, subsurface flow and transport processes. Many of these dynamic interactions between vegetation and soil are not yet well understood. This session brings together the vibrant community addressing a better understanding of ecohydrological processes taking place between the canopy and the root zone. Innovative methods investigating throughfall, stemflow, hydraulic redistribution, and root water uptake in various environments shed light on how water and solutes are routed in the thin layer covering the terrestrial ecosystems. The session further covers open questions and new opportunities within the ecohydrological community regarding methodological developments such as the analysis of stable isotope, soil moisture, throughfall or solute dynamics.

Invited speakers:
Daniele Penna (University of Florence, Italy)
Darryl Carlyle-Moses (Thompson Rivers University, Canada)

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Co-organized as BG2.70/SSS4.16
Convener: Natalie Orlowski | Co-conveners: Josie Geris, Anke Hildebrandt, Matthias Sprenger, Jan Friesen, Miriam Coenders-Gerrits
Orals
| Fri, 12 Apr, 14:00–15:45, 16:15–18:00
 
Room 2.25
Posters
| Attendance Fri, 12 Apr, 10:45–12:30
 
Hall A

BG3 – Marine Biogeosciences

BG3.1

The coastal ocean has been increasingly recognized as a dynamic component of the global carbon budget. This session aims at fostering our understanding of the roles of coastal environments and of exchange processes, both natural or perturbed, along the terrestrial / coastal sea / open ocean continuum in global biogeochemical cycles. During the session recent advancements in the field of coastal and shelf biogeochemistry will be discussed. Contributions focusing on carbon and nutrient and all other element's cycles in coastal, shelf and shelf break environments, both pelagic and sedimentary, are invited.

This session is multidisciplinary and is open to observational, modelling and theoretical studies in order to promote the dialogue. The session will comprise subsections on coastal carbon storage, and on benthic biogeochemical processes.

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Co-organized as OS3.7
Convener: Helmuth Thomas | Co-conveners: William Austin, Alberto V. Borges, Arthur Capet
Orals
| Thu, 11 Apr, 08:30–12:30, 14:00–15:45
 
Room C
Posters
| Attendance Wed, 10 Apr, 16:15–18:00
 
Hall A
BG3.2 | PICO

Biological and ecological experimental studies in laboratory and nature, and their applications to the paleo- and future understanding of marine environments

In order to discuss Earth marine realms and answer questions about biotic evolution and ecosystem functioning in the Past, Present and Future, scientists try to take various laboratory- or natural-based experimental approaches. This includes experiments controlling environmental variables, experiments with stable or radioactive isotopic biomarkers, breeding experiments, genetic analyses (e.g. ancient DNA), or so-called natural laboratories (e.g. the Lessepsian invasion via the Suez Canal or natural CO2 vents functioning as ocean acidification analogues). Altogether, they unriddle faunal and ecosystem functional responses to changing connectivity patterns, habitat change or global change threats. These experimental approaches are effective to make clear how biotic evolution takes place in nature, how ecosystems also act as functional labs and how Earth systems have moved and can move dynamically. They enable us to make more robust projections into the future or decipher past ecosystem trajectories with potential analogues to future change. In this session we welcome contributions that use experimental approaches in this context, but also discussing biogeochemical proxies that fix information of past environmental change during biomineralization in calcareous or siliceous tests.

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Co-organized as SSP4.8, co-sponsored by JpGU
Convener: Petra Heinz | Co-conveners: Hiroshi Kitazato, Takashi Toyofuku, Marlene Wall, Martin Zuschin
PICOs
| Wed, 10 Apr, 14:00–15:45
 
PICO spot 5b
OS1.5

The Southern Ocean, which stretches from Antarctic ice-shelf cavities to the northern fringe of the Antarctic Circumpolar Current, is a key region for water mass formation and for the uptake, storage and lateral exchanges of heat, carbon and nutrients. At present, the Southern Ocean acts as a sink of anthropogenic carbon and heat and as a source of natural carbon, but its role in future climate conditions remains uncertain. Processes on the Antarctic continental shelf also need to be better understood in order to assess the ocean’s role in Antarctic ice loss and the resulting meltwater impact on sea level. To reduce these uncertainties, it is critical to investigate the mechanisms underlying Southern Ocean's internal variability and its response to external forcing. Recent advances in observational technology, data coverage, circulation theories, and numerical models are providing a deeper insight into the three-dimensional patterns of Southern Ocean change. This session will discuss the current state of knowledge and novel findings concerning Southern Ocean circulation, water mass formation and pathways, mixing and mesoscale dynamics, ocean-ice-atmosphere interactions, sea ice changes, inflow of warm water to ice shelf cavities, and biological productivity, as well as the heat, nutrient and carbon budgets. This includes work on all spatial scales (from local to basin-scale to circumpolar) and temporal scales (past, present and future). We particularly invite cross-disciplinary topics involving physical and biological oceanography, glaciology, or biogeochemistry.

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Co-organized as BG3.3/CL2.04
Convener: Lavinia Patara | Co-conveners: Torge Martin, Xylar Asay-Davis, Dani Jones, Ralph Timmermann, Christian Turney
Orals
| Fri, 12 Apr, 14:00–15:45, 16:15–18:00
 
Room L4/5
Posters
| Attendance Fri, 12 Apr, 10:45–12:30
 
Hall X4
OS1.7

The seasonal reversal of monsoon winds and concurrent ocean currents, relatively deep thermocline along the equator due to the lack of steady easterlies, low-latitude connection to the neighboring Pacific and a lack of northward heat export due to the position of the Asian continent make the Indian Ocean unique among the other tropical ocean basins. These characteristics shape the Indian Ocean’s very dynamic intraseasonal, seasonal, and interannual variability, as well as its air-sea interactions. They also make the basin and its surrounding regions, which are home to a third of the global population, particularly vulnerable to anthropogenic climate change, and robust warming and trends in heat and freshwater fluxes have been observed in recent decades. Advances have recently been made in our understanding of the Indian Ocean’s circulation, interactions with adjacent ocean basins, and its role in regional and global climate. Nonetheless, significant gaps remain in understanding, observing, modeling, and predicting Indian Ocean variability and change across a range of timescales.

This session invites contributions based on observations, modelling, theory, and palaeo proxy reconstructions in the Indian Ocean that focus on understanding and predicting the links between Indian Ocean variability and monsoon systems on (intra)seasonal to interannual timescales, interactions and exchanges between the Indian Ocean and other ocean basins, decadal variability and its prediction, response to climate change, extreme events, as well as interactions between physical, biogeochemical, and ecological processes. Contributions are also sought that address research on the Indian Ocean grand challenges, as formulated by the Climate and Ocean: Variability, Predictability, and Change (CLIVAR), the Sustained Indian Ocean Biogeochemistry and Ecosystem Research (SIBER), and the International Indian Ocean Expedition 2 (IIOE-2) programs.

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Co-organized as AS1.36/BG3.4/CL4.03
Convener: Caroline Ummenhofer | Co-conveners: Yan Du, Neena Joseph Mani, Jérôme Vialard
Orals
| Wed, 10 Apr, 14:00–18:00
 
Room 1.85
Posters
| Attendance Thu, 11 Apr, 08:30–10:15
 
Hall X4
OS3.1

The oceanic components of the global cycles of Carbon, Oxygen, Nitrogen and other macro/micronutrients are still not well constrained while they are undergoing unprecedented changes as a result of anthropogenic pressures. Studies of past and present observations as well as of future projections reveal biogeochemical perturbations at all spatio-temporal scales and emphasize complex interactions between ocean physics and biology, all of which are crucial to understand in order to anticipate their implications and future changes for biogeochemical cycling and ocean sustainability. Such knowledge is essential to the development of solutions for the monitoring of the ocean biogeochemical state, for the management of marine living resources and for various research as well as operational applications. This session will bring together researchers that use a range of novel techniques, including observations (e.g. in-situ measurements, remote sensing, global syntheses), experiments (e.g. laboratory and mesocosms), and modeling approaches (e.g. Earth System models, coupled biogeochemical-circulation models, theoretical models) to further improve our understanding of the biological carbon-pump, the biogeochemical cycles in the ocean and their connections to climate, as well as to increase the potential for operational applications.

We welcome contributions (1) dealing with the cycling of Carbon, Oxygen, and Nitrogen in the ocean, dissolved and particulate stoichiometry and elemental ratios, oceanic primary production, ocean acidification, exchange processes at the air-sea interface, role of sea-ice in global biogeochemical cycles and synthesis studies using global compiled data sets; (2) exploring innovative approaches to model-data fusion (e.g. novel methods in data assimilation, assimilation of data from novel in-situ or remote platforms, assimilation of up- or downstream products of ocean color remote sensing), model skill assessment, downscaling from large to regional domains, and case studies of research and operational applications (e.g. HAB prediction, episodic hypoxia, etc…); (3) focusing on a range of spatial scales (regional to global).

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Co-organized as BG3.6
Convener: Vincent Rossi | Co-conveners: Maribel I. García-Ibáñez, Siv K Lauvset, Raquel Vaquer-Sunyer
Orals
| Thu, 11 Apr, 16:15–18:00
 
Room L4/5
Posters
| Attendance Fri, 12 Apr, 08:30–10:15
 
Hall X4
OS3.2 | PICO

Deoxygenation in the marine environment is a critical global issue. Dissolved oxygen concentrations are indicators of ecosystem health as measures of biological productivity, remineralisation, and global climate trends. Oxygen deficient regions are present around the world, as persistent open ocean oxygen minimum zones or seasonal features in shelf seas.

Despite significant uncertainty under future climate scenarios, Earth system models predict deoxygenation across many ocean basins and shelf seas. This deoxygenation has a compound effect on oxygen deficient environments, causing shoaling, expansion, intensification and critical shifts in biogeochemical cycling pathways.

We must develop a better understanding of how physical, chemical and biological processes interact to impact low oxygen regions under changing oxygen conditions and climates. What are the interactions and feedbacks with biological communities and biochemical processes? How will these changes impact the marine environment at regional and global scales?

We invite contributions that investigate ocean deoxygenation and its physical, chemical and/or biological drivers, using observational or model-based approaches at regional or global scales.

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Co-organized as BG3.8
Convener: Bastien Queste | Co-conveners: Laure Resplandy, Charlotte Williams, Andrew Babbin
PICOs
| Tue, 09 Apr, 16:15–18:00
 
PICO spot 4
OS1.11 | PICO

Highly productive Eastern Boundary Upwelling Systems (EBUS) play a key role in the global carbon and nitrogen cycles. They also sustain intense fishery activities that could be affected by climate change. EBUS are characterized by a complex interplay of biological, chemical and physical processes taking place in sediments, water column and at the air-sea interface. In particular, physical processes range from regional scales to mesoscale eddies, submesoscale filaments and fronts, down to internal waves and microscale turbulence. They drive the transport of solutes such as nutrients, carbon and oxygen, as well as particulate matter and living organisms. A recent improvement in computational power and new techniques such as multi-nesting approaches, made possible to increase the resolution of regional ocean models down to some hundred meters, allowing to resolve these processes on the fine scale. New observational techniques such as airborne, underway, and autonomous technologies allow for high-resolution adaptive multidisciplinary campaigns. Recent progress in biological/microbial techniques and application of new chemical sensor techniques allow deciphering of biogeochemical patterns with unprecedented high resolution.

Interdisciplinary observational and modeling studies investigating physical, biological and chemical aspects of the major EBUS are welcome. In particular studies which combine observational and modeling efforts, new data analysis techniques and focusing on climate change impacts are of interest.

NEWS: We are glad to announce that Monique Messie (https://www.mbari.org/messie-monique/) will give a solicited contribution to our session.

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Co-organized as AS4.17/BG3.9
Convener: Soeren Thomsen | Co-conveners: Elisa Lovecchio, Véra Oerder, Rodrigue Anicet Imbol Koungue
PICOs
| Wed, 10 Apr, 10:45–12:30
 
PICO spot 4
OS3.4 Media

Due to the growing pressures on marine natural resources and the ecosystem services demand, the interest of scientific and politic world is moving to ensure the conservation of marine ecosystems and environmental sustainable development of anthropogenic activities. Recently the principal European policies meet these issues, focusing on maintaining/ reaching the good environmental status (GES) of water bodies (WFD/MSFD) and solving the conflicts between anthropogenic pressures and marine ecosystems (MSP).
Some of the anthropogenic activities could have a potential impact on marine environment altering the marine ecosystems equilibrium. Since the dynamical processes influence the pollutants dispersion, it is compelling to analyse the ecosystems status through the study of abiotic variables distribution at proper spatial and temporal resolution.
From this perspective a large amount of data obtained by global observation systems (e.g. GOOS, EMODNET…) is needed to properly analyse the environmental quality both in the coastal and open ocean areas.
The session focuses on marine ecosystems, abiotic and biotic factors affecting their dynamics, highlighting the effects of anthropogenic impacts.
The following topics will be discussed: quantitative analysis of the effects of pollution on biota considering their natural and anthropogenic sources; benthic and pelagic community dynamics; economic evaluation of natural capital.
In this session multidisciplinary approaches using data coming from multiple sources (mathematical model, in-situ and remote observations) are encouraged.
Studies regarding the marine strategy descriptors, with the aim to develop methods, technologies and best practices to maintain/restore biodiversity and to guarantee a sustainable marine resources use, are also welcome.

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Co-organized as BG3.11
Convener: Marco Marcelli | Co-conveners: Paola Del Negro, Markus Weinbauer
Orals
| Tue, 09 Apr, 08:30–10:15
 
Room 1.85
Posters
| Attendance Tue, 09 Apr, 14:00–15:45
 
Hall X4
GM5.1

Biota affect hydrology, sediment transport, weathering and soil formation over variable temporal and spatial scales and thereby influence, hillslope, fluvial, coastal, and aeolian landscape form and dynamics. In turn, geomorphological and hydrological processes have large impacts on ecological processes by shaping topography and affecting water availability, which determines biological diversity and succession. Despite some advances, the conceptualisation and quantification of the processes, rates and feedbacks between geomorphology, hydrology and ecology are still limited.

Understanding these feedbacks between biological, hydrological and geomorphological processes is becoming increasingly important as new ‘building with nature’ projects emerge and also increasingly find their way into management (i.e. restoration projects). Physical, chemical and biological processes are in a constant state of flux, vary across both temporal and spatial scales and are regulated or enhanced by anthropogenic activities. Understanding of the biogeomorphological and ecohydrological effects of anthropogenic activities/ approaches and their wider socio-economic implications, remains largely rudimentary particularly in systems that are sensitive to human-induced or natural environmental change (e.g. high-mountain and polar environments, deserts, hillslopes, rivers and wetlands, salt marshes and deltas). As a result, there is a need to develop understanding around i) the magnitude and temporal persistence of anthropogenic stressors and their effects, ii) ecosystem resilience to anthropogenic stressors (including critical transitions in ecosystem state), and iii) new sustainable approaches to catchment management, such as utilization of ecosystem engineers for habitat improvements.

This session seeks contributions that are investigating biogeomorphologic interactions across all spatial and temporal scales, including experimental, field and computational/numerical modelling studies. We especially encourage interdisciplinary studies on river, and delta biogeomorphology, animal influences on geomorphic processes, chronologies of biogeomorphological change, and hillslope processes. Emphasis will be given to novel research on biogeomorphological feedbacks, on the quantification of feedbacks and associated rates, the linkage between terrestrial and aquatic environments, and the investigation of the resilience of coupled eco-hydro-geomorphic systems to human impact and climate change.

Public information:
We are happy to have two keynote speakers this year, one for fluvial biogeomorphology with Borbála Hortobágyi presenting on riparian plant response and effect traits on alluvial bars and one for coastal biogeomorphology with Olivier Gourgue presenting a new bio-geomorphic model approach accounting for subgrid-scale heterogeneity of biogenic structures.

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Co-organized as BG3.12/HS9.2.12
Convener: Annegret Larsen | Co-conveners: Nico Bätz, Jana Eichel, Wietse van de Lageweg, Andrew Pledger, Christian Schwarz, Thorsten Balke
Orals
| Tue, 09 Apr, 14:00–18:00
 
Room 0.31
Posters
| Attendance Wed, 10 Apr, 08:30–10:15
 
Hall X2
ITS5.2/OS4.13/EOS10.2/BG3.18/GM6.6/HS11.63 Media

Plastic contamination has been reported in all realms of the environment from the tropics to the polar oceans. The consequences of this contamination may be severe for ecosystems and could adversely affect ecosystem services such as fisheries and even human health. Our poor knowledge of plastics sources, their composition, sizes, pathways, hot spots of accumulation and ultimate fate prevents an assessment of environmental risks and the development of appropriate mitigation strategies. In order to understand current distributions of plastics and the way they evolve in space and time, much better observations and common consistent measuring methods are required but simultaneously, observations must be combined with computational models from their sources on land to rivers, estuaries, oceans and sea ice. This requires improved standardized accurate observations and the development of advanced modelling capabilities to quantify and predict contamination levels.

The session aims to set up a forum for multi-disciplinary discussions to create a global picture of plastic contamination in the environment and to suggest approaches for future research, monitoring and mitigation of plastic pollutions impacts. The session will provide a framework to advise legislators and industry on the best ways to reduce the risks of serious damage from this contaminant.

This session will draw together data on plastic contamination across all sizes of plastics, from nano- and micro-plastics to large plastic fragments, and across all environments and locations. It will combine observations with state-of-the-art computational modelling to promote the fast advance of research and improve our understanding of how plastic pollution affects environments worldwide. We invite contributions on new methods and field observations, laboratory experiments, novel modelling approaches, related scientific initiatives and projects. New ideas for citizen-science involvement and for mitigation strategies to reduce plastic contamination of the environment are especially welcome.

Invited speaker: Prof. Dr. Erik van Sebille

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Co-organized as OS4.13/EOS10.2/BG3.18/GM6.6/HS11.63
Convener: Jörg-Olaf Wolff | Co-conveners: Richard Lampitt, Simon Dixon, Jessica Hickie, Alice Horton, Ilka Peeken, Anna Rubio, Stefanie Rynders
Orals
| Mon, 08 Apr, 08:30–12:30
 
Room N1
Posters
| Attendance Mon, 08 Apr, 16:15–18:00
 
Hall X4
NH5.4 Media

Marine geological processes cover a range of different disciplinary fields and their understanding usually requires an interdisciplinary approach. The interaction of geological, physical oceanographic, chemical and biological mechanisms in marine geological processes ranging from sediment erosion and deposition, to hydrothermal and fluid flow systems, to early diagenesis and geomicrobiology, is of specific interest. Such processes may take place in shallow or deep, in tropical and glacial environments, and they may be natural or partly human-influenced. Climate-induced perturbations in marine geological processes have occurred in present and past, and potentially will also occur in the future. Several of these processes may also have a profound human impact, such as tsunamis generated by tectonic or mass-slumping events, coastal erosion in response to changed currents or river discharge, and sediment gravity flow in deep waters affecting human infrastructures. /We encourage comprehensive and interdisciplinary abstracts within the broad field of marine geology and with direct relevance to marine processes or deposits concerned with rocks, sediments, and geo-physical and geo-(bio)chemical processes that affect them.

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Co-organized as BG3.20/CL4.39/OS4.30/SSP3.13
Convener: Gert J. De Lange | Co-conveners: Edward Anthony, Shu Gao, Michele Rebesco
Orals
| Wed, 10 Apr, 16:15–18:00
 
Room M2
Posters
| Attendance Wed, 10 Apr, 08:30–10:15
 
Hall X3
CL2.17.2 | PICO

The regional climate change assessment reports for the Baltic (BACC I and II) and North Sea regions (NOSCCA) have recently estimated the extent and impact of climate change on the environments of the North and Baltic Sea regions. A major outcome of these reports is the finding that climate change is one of multiple drivers, which have a continuing impact on terrestrial, aquatic and socio-economic (resp. human) environments. These drivers interact with regional climate change in ways, which are not completely understood.
This session invites contributions, which focus on the connections and interrelations between climate change and other drivers of environmental change, be it natural or human-induced, in different regional seas and coastal regions. Observation and modelling studies are welcome, which describe processes and interrelations with climate change in the atmosphere, in marine and freshwater ecosystems and biogeochemistry, coastal and terrestrial ecosystems as well as human systems. In particular, studies on socio-economic factors like aerosols, land cover, fisheries, agriculture and forestry, urban areas, coastal management, offshore energy, air quality and recreation, and their relation to climate change, are welcome.
The aim of this session is to provide an overview over the current state of knowledge of this complicated interplay of different factors, in different coastal regions all over the world.

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Co-organized as BG3.24/HS11.23/NH5.17/OS2.21
Convener: Marcus Reckermann | Co-conveners: Ute Daewel, Helena Filipsson, Markus Meier, Markus Quante
PICOs
| Fri, 12 Apr, 16:15–18:00
 
PICO spot 5a

BG4 – Geomicrobiology and Extreme environments

BG4.1

Methane is a potent greenhouse gas with ever-rising atmospheric concentrations. While anthropogenic sources are comparably well understood, it is still a major scientific challenge to understand and quantify the contribution of natural sources. One reason for this knowledge gap is that (bio)geochemical and geological controls on methane dynamics in aquatic and terrestrial systems as well as the spatial distribution of methane in marine and aquatic sediments, soils and permafrost areas is not well constrained.
The topics of the session will include:
- methane formation (biological and geological processes
- subsurface fluid flow and methane/hydrocarbon transport mechanisms
- ‘marine’ methane-rich systems: e.g. gas hydrates, shallow gas, cold seep-related systems
- ‘terrestrial’ methane-rich systems: e.g. wet lands (natural & artificial), lakes (from puddles to inland seas), permafrost areas and rivers
- methane-associated (bio)geochemical reactions, microbial communities and food web structures
- methane-derived carbonates and microbe-mineral interactions
- monitoring of methane emission
- methane in paleo environments

The session will highlight the significance of (geo)physical, geological, (bio/geo)chemical and (micro)biological controls on methane release in ocean, permafrost, wetlands, lake and river environments.
We will also discuss recent advances on gas hydrate properties & occurrences in sediments.
We aim at gathering scientists from the fields of geology, (bio/geo)chemistry, (geo)physics, modeling, (micro)biology and ecology, to evaluate our current knowledge of aquatic and terrestrial methane dynamics, interactions between element cycles and ecosystems, environmental controls and mechanisms.
A further intention is to create synergies between marine and terrestrial sciences for a multifaceted view on methane dynamics.
This session is also an invitation to scientists from the wider field of environmental geo- and/or bio-engineering dealing with natural methane emissions as an alternative energy source.
We also welcome specialists designing instruments for monitoring methane.

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Convener: Helge Niemann | Co-convener: Alina Stadnitskaia
Orals
| Wed, 10 Apr, 16:15–18:00
 
Room 2.44
Posters
| Attendance Wed, 10 Apr, 14:00–15:45
 
Hall A
SSP3.3

Mineral nucleation and growth processes are well studied for material science and industry applications under controlled laboratory conditions, but our understanding of these complex multistage pathways in natural environments is still rather incomplete. Monitoring precise and quantitative environmental parameters over long time periods is often difficult, imposing great uncertainties on growth processes and physicochemical properties of minerals used to reconstruct Earth’s history, such as microbialites, speleothems, or authigenic cements. Recent findings suggest that nano-clusters, colloidal particles, organic matter or microbes may be fundamental to nucleation and growth processes, especially if kinetics are sluggish at Earth surface temperatures. Thus, it is imperative to investigate mineral formation at the nano- and micro-scale within a broad, interdisciplinary perspective.
In this session we welcome oral and poster presentations from multiple fields including sedimentology, mineralogy, geochemistry, physical chemistry, biology and engineering that contribute to a better understanding of mineral nucleation and growth processes. Contributions may include process-oriented studies in modern systems, the ancient rock record, experiments, computer simulations, and high-resolution microscopy and spectroscopy techniques. We intend to reach a wide community of researchers sharing the common goal of improving our understanding of the fundamental processes underlying mineral formation, which is essential to read our Earth’s geological archive.

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Co-organized as BG4.3/GMPV3.7
Convener: Patrick Meister | Co-conveners: Cornelius Fischer, Silvia Frisia, Denis Gebauer, Dorothee Hippler
Orals
| Tue, 09 Apr, 16:15–18:00
 
Room -2.47
Posters
| Attendance Wed, 10 Apr, 08:30–10:15
 
Hall X1
ITS3.8/BG3.23/AS4.32/OS1.33

In spring and summer 2018, Central and Northern Europe faced a severe drought with rainfall deficits beginning as early as April and lasting until late August in some regions (partly combined with a heat wave in July and August). Due to higher spring temperatures and high radiation the Baltic Sea showed a very unusal low pCO2 signal since late April and a spectacular summer bloom this year. The impact on terrestrial ecosystems became obvious through crop failure and forest fires. This transdiciplinary session calls for scientific results from Earth Observation showing the impact of the drought and for presentations from the interface between science a climate action e.g. adaptation strategies, questions on measuring, reporting and verification of inventories or general communication of climate change to societies.

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Co-organized as BG3.23/AS4.32/OS1.33, co-sponsored by ICOS
Convener: Werner Leo Kutsch | Co-convener: Philippe Ciais
Orals
| Thu, 11 Apr, 08:30–10:15
 
Room N1
Posters
| Attendance Thu, 11 Apr, 14:00–15:45
 
Hall A
SSP3.1

During the past decades numerous sediment records have become available from lakes and paleolakes through shallow and (ICDP) deep drilling. These records have proven to be valuable archives of past climate and environmental change, and tectonic and volcanic activity. We invite contributions emphasizing quantitative and spatial assessments of rates of change, causes and consequences of long- and short-term climate variability, impact, magnitude, and frequency of tectonic and volcanic activity as deduced from sedimentological, geochemical, biological, and chronological tools.

Solicited speaker: Christine Y. Chen (MIT, USA): “Establishing robust lake sediment chronologies: Lessons from U/Th dating the deep drill core from Lake Junín, Peru”

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Co-organized as BG4.4/CL1.29, co-sponsored by IAS and SEPM
Convener: Hendrik Vogel | Co-conveners: Daniel Ariztegui, Marc De Batist, Martin Melles, Jasper Moernaut
Orals
| Mon, 08 Apr, 08:30–10:15
 
Room D3
Posters
| Attendance Mon, 08 Apr, 10:45–12:30
 
Hall X1
SSS4.10

Soils host a vast biodiversity across various kingdoms, with multiple interactions within and between communities and with the surrounding environment. In this session, we will investigate how biodiversity in soils responds on biotic and abiotic factors across various spatial scales. We will study the functional roles of these communities in processes like nutrient and water cycling, trace gas exchange with the atmosphere, soil erosion, mineral weathering, and vascular plant germination and growth. We will put one special focus on extracellular polymeric substances (EPS) and their role in promoting microbial adhesion to surfaces, reducing cellular desiccation, protecting against antibiotics or toxic molecules, and even acting as a final source of nutrition under extreme scarcity. The amount, composition and functionality of EPS in soils, biological soil crusts, sediments or other porous media will be investigated. Responses of soil communities to land use and climate change as well as other potential threats will also be included in this session. Besides temperate soil communities, we will focus on biological soil crusts occurring in hot and cold deserts around the world, and biofilms forming in coastal regions of freshwater and marine environments.

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Co-organized as BG4.5
Convener: Bettina Weber | Co-conveners: Alessandra Adessi, Roey Angel, Philipp Porada, Cordula Vogel
Orals
| Mon, 08 Apr, 08:30–10:15
 
Room -2.32
Posters
| Attendance Mon, 08 Apr, 10:45–12:30
 
Hall X1
GMPV3.4

Hydrothermal systems, mud volcanoes, hybrid environments such as sediment-hosted hydrothermal systems and piercement structures in general are among the most spectacular geological phenomena on Earth. Several studies demonstrated that these structures play a key role in the evolution of our planet and the cycles of life during several geological eras. Active piercements are usually characterized by deep-rooted plumbing systems and complex geochemical reactions where life can adapt to thrive in extremely harsh environments making them ideal targets for deep biosphere exploration. The geophysical signals associated to such environments are often ambiguous and difficult to interpret. The elevated pore pressures often encountered at depth and the high flow rates make these structures ideal natural laboratories to capture precursors of seismic events and dynamically triggered geological processes. Piercement structures have often been reported to respond to earthquakes and external forcing.

This session welcomes contributions from geophysical, geochemical, microbial, geological, numerical and laboratory studies to promote a better understanding of modern and palaeo piercement phenomena. In particular we call for studies related to 1) investigations controlling pre-existing geological structures; 2) the geochemical reactions occurring at depth and at the surface including microbiological studies; 3) the investigation of such systems with geophysical methods; 4) experimental and numerical studies; 5) the survey and the monitoring of these settings and environments to learn the dynamics of the extinct systems from the active ones; 6) the study of palaeo piercements as well as their effects on palaeo climate.

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Co-organized as BG4.6
Convener: Matteo Lupi | Co-convener: Adriano Mazzini
Orals
| Fri, 12 Apr, 08:30–10:15
 
Room -2.91
Posters
| Attendance Fri, 12 Apr, 10:45–12:30
 
Hall X2

BG5 – Palaeo Biogeosciences

SSP2.5

This session aims to showcase an interesting diversity of state-of-art advances in all aspects of Cambrian to Cretaceous paleoceanography, paleoclimatology and stratigraphy. Within this broad topic we intend to invite an exciting range of contributions including, but not limited to, organic and inorganic geochemistry, sedimentology, (micro-)paleontology, and modelling. Inter- or multidisciplinary studies are also encouraged. The session will potentially be organized into thematic blocks to allow more in-depth exploration and discussion of topics.

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Co-organized as BG5.2/CL1.03
Convener: Jens O. Herrle | Co-conveners: David Bajnai, Cinzia Bottini, Stefan Huck, Christopher Fielding, Daniel Le Heron, Pierre Dietrich
Orals
| Mon, 08 Apr, 10:45–12:30, 14:00–18:00
 
Room D3
Posters
| Attendance Tue, 09 Apr, 14:00–15:45
 
Hall X1
CL1.22

In recent decades, quantitative methods have become increasingly important in the field of palaeoenvironmental, palaeoclimatic and palaeohydrological reconstruction, due to the need for comparison between different records and to provide boundary conditions for computational modelling. Continental environmental archives (e.g. speleothems, lakes, land snails, rivers, or peatlands) are often highly temporally resolved (subdecadal to seasonal) and may provide more direct information about atmospheric and hydrological processes than marine archives. The wide variety of archive types available on land also allows for intercomparison and ground-truthing of results from different techniques and different proxies, and multi-proxy reconstructions from the same archive can disentangle local and supra-regional environmental conditions. This approach is particularly useful for the reconstruction of hydrological dynamics, which are challenging to reconstruct due to their high spatial variability, signal buffering, nonlinearities and uncertainties in the response of available paleoclimate archives and proxies. For example, climate-independent factors such as land cover change can affect the local to regional water availability recorded in proxies.

This session aims to highlight recent advances in the use of innovative and quantitative proxies to reconstruct past environmental change on land. We present studies of various continental archives, including but not limited to carbonates (caves, paleosols, snails), sediments (lakes, rivers, alluvial fans), and biological proxies (tree rings, fossil assemblages, plant biomarkers). We particularly include studies involving the calibration of physical and chemical proxies that incorporate modern transfer functions, forward modeling and/or geochemical modeling to predict proxy signals, and quantitative estimates of past temperature and palaeohydrological dynamics. We also include reconstructions of temperature and hydrologic variability over large spatial scales and paleoclimate data assimilation. This session will provide a forum for discussing recent innovations and future directions in the development of terrestrial palaeoenvironmental proxies on seasonal to multi-millennial timescales.

This session aims to highlight recent advances in the use of innovative and quantitative proxies to reconstruct past environmental change on land. We welcome studies of any continental archive, including but not limited to carbonates (caves, paleosols, snails), sediments (lakes, rivers, alluvial fans), ice, and biological proxies (tree rings, fossil assemblages, plant biomarkers). We particularly encourage studies involving the calibration of physical and chemical proxies that incorporate modern transfer functions, forward modeling and/or geochemical modeling to predict proxy signals, and quantitative estimates of past temperature and precipitation amounts. We also welcome reconstructions of temperature and hydrologic variability over large spatial scales, including paleoclimate data assimilation studies. This session will provide a forum for discussing recent innovations and future directions in the development of terrestrial palaeoenvironmental proxies on seasonal to multi-millennial timescales.

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Co-organized as AS4.3/BG5.3/CR5.8/GM8.5/HS11.35
Convener: Bethany Fox | Co-conveners: Sebastian F.M. Breitenbach, Elisabeth Dietze, Ola Kwiecien, Jessica Oster
Orals
| Thu, 11 Apr, 14:00–18:00
 
Room F2
Posters
| Attendance Thu, 11 Apr, 10:45–12:30
 
Hall X5
GD1.2

Processes responsible for formation and development of the early Earth (> 2500Ma) are not
well understood and strongly debated, reflecting in part the poorly preserved, altered, and
incomplete nature of the geological record from this time.
In this session we encourage the presentation of new approaches and models for the development of Earth's early crust and mantle and their methods of interaction. We encourage contributions from the study of the preserved rock archive as well as geodynamic models of crustal and mantle dynamics so as to better understand the genesis and evolution of continental crust and the stabilization of cratons.
We invite abstracts from a large range of disciplines including geodynamics, geology, geochemistry, and petrology but also studies of early atmosphere, biosphere and early life relevant to this period of Earth history.

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Co-organized as AS4.61/BG5.4/CL1.01/GMPV1.6/TS1.6
Convener: Ria Fischer | Co-conveners: Peter A. Cawood, Nicholas Gardiner, Antoine Rozel, Jeroen van Hunen
Orals
| Tue, 09 Apr, 08:30–10:15
 
Room -2.91
Posters
| Attendance Wed, 10 Apr, 10:45–12:30
 
Hall X2

BG6 – Freshwater Biogeosciences

BG6.1

The last two decades have brought a major technological advancement in collection of water quality and biogeochemical data in rivers, lakes and engineered systems using automated in situ wet-chemistry analysers, optical sensors and lab-on-a-chip instruments. Furthermore, our ability to characterise different fractions of natural organic matter has increased thanks to a range of analytical methods e.g. fluorescence and absorbance spectroscopy, mass spectrometry and chromatography combined with new data mining tools (Self-organising maps, PARAFAC analysis). Matching the water quality measurement interval with the timescales of hydrological responses (from minutes to hours) led to discovery of new hydrochemical and biogeochemical patterns in streams along with improved understanding of the underlying processes e.g. concentration-discharge hysteresis and diurnal cycling. We are now at the frontier of further advancing this understanding for a wide range of solutes and particulates in streams, rivers and lakes using rapidly developing technology of wet-chemistry analysers, optical sensors and lab-on-the-chip instruments. We need to understand better how organic matter links with other biogeochemical cycles (e.g. phosphorus, nitrogen, sulphur and iron) and processes in aquatic systems. In particular there is a growing need to monitor the advances in application of novel organic matter characterisation tools, understanding the origins, pathways, transformations and environmental fate of organic matter in aquatic environments and identification of robust numerical and statistical tools for data processing and modelling. This is an exciting opportunity to gain new knowledge of hydrochemical and ecological functioning of freshwater and engineered systems.

Previously in this session:
EGU 2018:
https://meetingorganizer.copernicus.org/EGU2018/session/26401

EGU 2017:
http://meetingorganizer.copernicus.org/EGU2017/session/24958

EGU 2016:
http://meetingorganizer.copernicus.org/EGU2016/session/20013

EGU 2015:
http://meetingorganizer.copernicus.org/EGU2015/session/17101
Keynote lecture: Diane McKnight

EGU 2014:
http://meetingorganizer.copernicus.org/EGU2014/session/15261
Keynote lecture: Darren Reynolds

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Co-organized as HS10.12
Convener: Magdalena Bieroza | Co-conveners: Diane McKnight, Chris Evans, Bethany Fox, Andrea Butturini, Per-Erik Mellander, Michael Rode
Orals
| Mon, 08 Apr, 10:45–12:30, 14:00–18:00
 
Room 2.31
Posters
| Attendance Mon, 08 Apr, 08:30–10:15
 
Hall A
BG6.3

According to the Stockholm Convention on persistent organic pollutants (POPs), these compounds are resistant to chemical, biological, and photolytic environmental degradation. POPs are stable and persistent, long-distance transportable, bioaccumulative, biomagnifiable in the food chain, and could pose significant impact on human health and the environment. Currently, there is a rising concern about the presence of new organic synthetic compounds in the environment, the so-called new or emerging contaminants, which include the emerging POPs (ePOPs) that are either, very recently or not yet regulated.
Research about the source, occurrence, distribution, fate and toxicity of ePOPs is pivotal for understanding their impact and environmental behavior. The final destiny of most of ePOPs is water or aquatic ecosystems, which can be reached in different ways: improper disposal, release through domestic wastewater systems, through agriculture and industry or after passing through wastewater treatment plants that do not effectively eliminate them. Once ePOPs are released into waterbodies, they may also come into contact with solid particulate matter (suspended or deposited in sediment, which is considered as a sink of many POPs) or they can be bioaccumulated in aquatic organisms, and finally in humans.
In 2009, polybrominated diphenyl ethers (PBDEs) and perfluorooctane sulfonyl fluoride/perfluorooctane sulfonate (POSF/PFOS) were added to the list of Stockholm Convention and hexabromocyclododecanes (HBCDs) listed as candidate. The ePOPs include these substances as well as several others widely used in industrial processes and consumer products, such as perfluoroalkyl substances (PFASs), non-PBDEs or novel brominated flame retardants (NBFRs), organophosphate flame retardants (PFRs), dechlorane plus and related compounds, short-chain chlorinated paraffin and GenX that have been proposed as a replacement alternative for banned formulations.
It is a vital scientific challenge to disentangle the impact of human development and its relationship with the presence of ePOPs in aquatic ecosystems, as well as their possible effects on populations that source their waters or organisms that inhabit them. This session aims at giving an overview of the current research and state of knowledge on contamination of these ecosystems with ePOPs and identifying the factors affecting their distribution and fate, as well as examples of sustainable mitigation/remediation practices, and research needs, that help to regulate and control ePOPs contamination of aquatic ecosystems. Contributions from all areas of biogeosciences: biology, ecology, chemistry (analytical, bio, environmental, …), toxicology, etc. are invited to contribute to this multidisciplinary session.

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Convener: Julian Campo | Co-conveners: Damià Barceló, Y. Picó
Posters
| Attendance Mon, 08 Apr, 14:00–15:45
 
Hall A
BG6.4

Inland waters and wetlands (both brackish and fresh) form networks that represent vital conduits through the landscape; receiving, transporting, transforming and emitting carbon. To better constrain the role of freshwater networks within the global carbon cycle, it is pivotal to study the exchange and transformation processes that take place at interfaces, both between the network’s aquatic compartments (as e.g., between anoxic and oxic waters) but also conterminous to the terrestrial and atmospheric realm (e.g., sediment-water, water-air). Such interfaces feature distinct physical and biogeochemical gradients and often represent biogeochemical “hot spots” in the landscape.

In this session, we will address the biological, biogeochemical and physical processes that control the cycling of carbon at aquatic interfaces, especially with regard to the formation and emission of the greenhouse gases CO2 and CH4, and associated redox driven processes.

We invite presentations on recent empirical and conceptual advancements at the forefront of carbon cycling along the land to ocean aquatic continuum, with a focus on processes that occur at aquatic interfaces. We encourage contributions that employ novel biogeochemical, molecular biological and modeling approaches directed towards obtaining a fundamental and mechanistic understanding of the active controls on carbon processing and storage across freshwater ecosystems.

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Convener: Maximilian Peter Lau | Co-conveners: Katrin Attermeyer, Tonya Del Sontro, Klaus-Holger Knorr, Antti J. Rissanen
Orals
| Mon, 08 Apr, 08:30–10:15
 
Room 2.31
Posters
| Attendance Mon, 08 Apr, 14:00–15:45
 
Hall A
HS10.8

Groundwater-surface water interfaces (e.g., hyporheic and benthic zones and riparian corridors) are integral components of the aquifer-river or aquifer-lake continuum. Interactions between groundwater and surface water lead to strong bi-directional influences between surface waters, aquifers and interconnecting hyporheic zones. A rapidly expanding number of research projects are now investigating the implications of hyporheic exchange on the transport and transformation of nutrients and contaminants within river networks, and on controls to heat, oxygen, and organic matter budgets available to microorganisms and macroinvertebrates in streambed sediments. However, there is still a need to better understand the links between physical, biogeochemical, and ecological process dynamics in groundwater-surface water interfaces and their implications for fluvial ecology or limnology, respectively. Furthermore, it is important to consider the response of hyporheic exchange fluxes to environmental and climatic controls at different spatial and temporal scales (e.g. river channel, alluvial aquifer, regional groundwater flow). We consider up- and downscaling and the development of a general conceptual framework and improved process understanding for groundwater-surface water interfaces as among the most urgent challenges of hyporheic zone research. Consequently, we particularly welcome contributions that aim to close these knowledge gaps and solicit both experimental and modelling studies with a focus on:

- The development and application of novel experimental methods to investigate physical, biogeochemical and ecological conditions at the groundwater-surface water interface in rivers, lakes, riparian corridors, and wetlands;

- Investigations of the role of hyporheic processes for the retention and natural attenuation of nutrients and pollutants, particularly with respect to impacts on surface water and groundwater quality;

- Hydrological, biogeochemical and ecological modelling approaches (e.g. transient storage models, coupled groundwater-surface water models etc.);

- Investigations of the implications of groundwater-surface water interactions for management and risk assessment frameworks with regard to the European Water Framework Directive.

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Co-organized as BG6.5
Convener: Jen Drummond | Co-conveners: Fulvio Boano, Jan Fleckenstein, Stefan Krause, Jörg Lewandowski
Orals
| Mon, 08 Apr, 14:00–18:00
 
Room 2.15
Posters
| Attendance Mon, 08 Apr, 10:45–12:30
 
Hall A
ITS5.5/HS10.11/BG6.6/GM5.5

In recent years there has been a growing emergence of interdisciplinary research areas concerned with investigating the dynamic and multifaceted interactions between biotic and abiotic components of aquatic ecosystems. Such is the acknowledged importance of these interactions, that quantifying and understanding the two-way feedbacks of interacting abiotic and biotic components is recognised as a key contemporary research challenge. However, the different terminology used by various disciplines highlights the separation rather than the overlap between disciplines. Further, in many instances the creation of new sub-disciplines (or research areas) is not developing the study field, but arguably is leading to the ‘reinvention of the wheel’ in parallel disciplines. Changing the traditional perspectives by bridging the gaps between disciplines is therefore key to bring considerable advances in aquatic research.
This session focuses on bringing together scientists from different backgrounds dealing with the effects of environmental (both biotic and abiotic) stressors on the aquatic biosphere, from individual organisms through to whole ecosystems with the aim of simulating truly interdisciplinary research. Several temporal scales ranging from a single event (e.g. response to hydropeaking, predatory attacks) to long term evolution (e.g. adaptation to climate change, ecosystem modification) may be considered. We expect strong contributions from researchers transcending a variety of disciplines such as geomorphology, engineering, ecology and environmental sciences. Emphasis is given to studies dealing with stressors driven by climate change or anthropogenic activities. In this context we particularly welcome contributions on consolidated or novel measurement techniques and modelling tools to assess the effects of environmental stressors (e.g. flow modifications, habitat alterations) on biota, such as vegetation, macroinvertebrates and fish, that cross disciplinary boundaries.

The session will include an invited keynote by Prof. Markus Holzner from ETH Zürich.

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Co-organized as HS10.11/BG6.6/GM5.5
Convener: Davide Vettori | Co-conveners: Kate Mathers, Riccardo Fornaroli
Orals
| Wed, 10 Apr, 14:00–15:45
 
Room N1
Posters
| Attendance Wed, 10 Apr, 16:15–18:00
 
Hall A
HS10.2

This session provides a scientific platform for exchange of findings from research that addresses the entire continuum of river and sea. We invite studies across geographical borders, along the freshwater-marine water continuum, and interdisciplinary studies that integrate physical, chemical, biological, geological observations/experiments, and modelling, and those that span the traditional silos of natural and social sciences.
River-Sea-Systems comprise river catchments, estuaries/deltas, lagoons and the coastal seas. They are dynamic products of interacting environmental and socio-economic processes. River-Sea-Systems provide natural capital and related ecosystem services that are fundamental to societal wellbeing. These systems, however, face compounding pressures from natural forces such as climate change and natural hazards, and from anthropogenic forces like urbanisation, shipping, energy generation, industrial development, water abstraction and damming, operating at local, national and global scales. The resulting pressures contribute to societal challenges such as eutrophication, hypoxia, pollution, change in hydrodynamics and morphodynamics (including disturbed sediment balances), loss of biodiversity, habitat depletion, sea level rise, and ultimately loss of ecosystem services. This impacts not only on the ‘planet’ but also on ‘people’ and ‘profit’. These pressures are likely to increase in the future with implications throughout the river-sea continuum with uncertain consequences for the resilience of the socio-ecological system.
We need to fully understand how River-Sea-Systems function. How are River-Sea-Systems changing due to human pressures? What is the impact of processes in the catchment on marine systems function, and vice versa? How can we discern between human-induced changes or those driven by natural processes from climate-induced variability? What will the tipping points of socio-ecologic system states be and what will they look like? How can we better characterise river-sea systems from the latest generation Earth observation to citizen science based observatories. How can we predict short and long term changes in River-Sea-Systems to manage them sustainably? What is the limit to which it is possible to predict the natural and human-influenced evolution of River-Sea-Systems?
Which policy responses would be desirable from a scientific perspective and how will the gaps between the existing European environmental policies be bridged (e.g. Water Framework Directive 2000, Marine Strategy Framework Directive 2008 and EU biodiversity policies)? How will links be made to the UN 2030 Agenda’s Sustainable Development Goals 6 (Clean Water & Sanitation) and 14 (Life below Water)?
The increasing demand to jointly enable intensive human use and environmental protection in river-sea systems requires holistic and integrative research approaches with the ultimate goal of enhanced system understanding. It is becoming widely recognised that there is a need to study River-Sea-Systems as an entire continuum, to provide scientifically underpinned information to enable better-informed and holistically engaged environmental protection of River-Sea systems, to maintain their ecosystem functioning and thus their capacity to provide ecosystem services.

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Co-organized as BG6.9/GM11.9/OS2.10
Convener: Jana Friedrich | Co-conveners: Debora Bellafiore, Andrea D'Alpaos, Panagiotis Michalopoulos, David Todd
Orals
| Mon, 08 Apr, 08:30–10:15
 
Room 2.44
Posters
| Attendance Mon, 08 Apr, 10:45–12:30
 
Hall A
GM11.7

Coastal wetland ecosystems, such as salt marshes, mangroves, seagrasses and tidal flats, are under increasing pressure and threat from natural and anthropogenic processes such as land claim, altered sediment regimes, increased storm magnitude and frequency, and relative sea level rise. Consequently, these ecosystems are declining globally, with evidence of degradation and isolation across the full variety of coastal wetland habitats. These environments provide numerous ecosystem services, including flood risk mediation, biodiversity provision and climate change mitigation through carbon storage. There is, therefore, a need to understand current processes and interactions in these environments, and how these may change in the future due to both natural and anthropogenic influences. This is particularly the case in ‘managed’ and restored wetlands, where tidal and/or riverine regimes are re-introduced and coastal wetlands allowed to migrate inland in response to sea level rise for the provision of the desired ecosystem services to be preserved and/or restored.
This session will bring together studies of coastal wetland ecosystems within open coast, estuarine, lagoon and delta environments, to enhance the understanding of the services provided, interactions between hydrodynamic conditions, sediment and ecology, and best future management practices. Studies of all processes occurring within coastal wetlands are invited. This includes, but is not exclusive to, sediment dynamics, hydrology, hydrodynamics, morphological characterisation, geotechnical analysis, ecological change and evolution, impact of climate change, sea level rise, anthropogenic and management implications. Multidisciplinary approaches and studies of wetland restoration and habitat loss compensation schemes are particularly encouraged, along with global to regional assessments of wetland migratory potential; studies on wetland migration dynamics and the characteristics and functions of restored wetlands; and governance and policy contexts for wetland migration. This session aims to enhance our understanding of wetland management, processes, interactions and the wetlands’ ability to migrate inland, allowing for improvement of our ability to quantify the responses of coastal wetlands and their ecosystem services to future sea level rise and anthropogenic activity.

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Co-organized as BG6.12/HS11.48/OS2.19
Convener: Jonathan Dale | Co-conveners: Helen Brooks, James Pollard, Ruth Reef, Mark Schuerch
Orals
| Thu, 11 Apr, 16:15–18:00
 
Room G2
Posters
| Attendance Fri, 12 Apr, 08:30–10:15
 
Hall X2

BG7 – Extraterrestrial biogeosciences and Earth analogs

PS1.9

The solar system terrestrial planets, and especially the Earth, provide the best opportunity to learn about the basic physical principles of rocky planets, which can then be applied to the evolution of exoplanets and their atmospheres. Similarly, knowledge of the diversity and properties of exoplanetary systems can provide important information about the formation and evolution of our own solar system. In this session, we will focus on general discussions of exoplanetary science, and especially the application of solar system based knowledge to exoplanets and understanding how the Earth can be understood in the exoplanetary context. Of particular interest are studies of atmospheric evolution due to surface-atmosphere interactions and atmospheric losses to space, as well as interactions between stars and planets. Topics include recent advances in observations of (exo)planets lying in the habitable zone, model studies calculating the habitable zone boundaries, factors affecting habitability including atmospheric processes (e.g. outgassing, escape), high energy particles, remote biosignatures and their spectra, planned missions such as JWST, PLATO, E-ELT, LUVOIR, HABEX and ELF and their impact on our knowledge of exoplanetary habitability.

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Co-organized as AS4.59/BG7.2/GD9.2
Convener: Colin Johnstone | Co-conveners: Lena Noack, Georg Feulner, Maria Schönbächler, Mareike Godolt
Orals
| Mon, 08 Apr, 08:30–10:15
 
Room L8
Posters
| Attendance Mon, 08 Apr, 14:00–15:45
 
Hall X4
GM5.3

Water is the defining feature of the habitable Earth; it is essential for all life as we know it. Evolution and maintenance of life in extremely water limited environments, which cover significant portions of the Earth, is not well understood. Akin to life, water-driven processes leave unique marks on the Earth’s surface. Mars is the only other planet currently known to bear the marks of water-driven surface processes, albeit fossil and of great age. The slow biotic and abiotic surface processes that may operate even in the virtual absence of liquid water are still essentially unknown. What is evident is that transient episodes of increased water availability can leave long lasting traces in extremely water limited environments. Intriguingly, those traces of bursts in Earth surface evolution have rarely been related to bursts in biological colonization/evolution, and vice versa, although both relate to the same trigger: water.

The objective of this session is to showcase research on the mutual evolutionary relationships between Earth surface processes and biota in arid to hyper-arid systems, where both biota and Earth surface process are severely and predominantly limited by the availability of water (rather than by extreme temperatures).
Solicited topics include (not exhaustive):
• fingerprints of biological activity at the (water) limit of the habitable Earth
• surface processes operating in the (virtual) absence of liquid water on Earth or extraterrestrial analogues (e.g. Mars)
• thresholds for biological colonization and concurrent fluvial transformation of landscapes
• tipping point(s) of biotically and abiotically controlled Earth surface systems
• chronometric and spatial information on the colonization and radiation of biota
terrestrial climatic records of (hyper-) arid regions on Earth

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Co-organized as BG7.4/CL4.38/PS4.7
Convener: Tibor J. Dunai | Co-conveners: Eduardo Campos, Cristina Dorador, Claudia Knief, Laura Evenstar
Orals
| Wed, 10 Apr, 08:30–12:30, 14:00–15:45
 
Room 0.31
Posters
| Attendance Thu, 11 Apr, 10:45–12:30
 
Hall X2

PGM – Programme group meetings (by invitation only)

PGM8
Sub-programme groups meeting BG (by invitation only)
Convener: Giuliana Panieri
Tue, 09 Apr, 16:15–18:00
 
Room 3.16

Union sessions of interest

US2

This year marks the 250th anniversary of the birth of Alexander von Humboldt (1769-1859), the intrepid explorer of the Andes and other regions in the world, and the most famous scientist of his time. Alexander von Humboldt is perhaps best known for his radical new vision of nature as a complex and interconnected global force, thereby becoming the founder of the field of biogeography and laying the ground for modern Earth-System Science approaches. It seems fitting to pay tribute to Alexander von Humboldt’s legacy by reviewing the state of the art in studies of the coupled lithosphere – atmosphere – hydrosphere – biosphere system with a focus on the Andean mountain belt. The Andes have become one of the main natural laboratories in the world to explore these questions and many recent studies have addressed its tectonic and geodynamic evolution, but also the two-way couplings between surface uplift, climatic evolution and biodiversity in the Andes and its foreland. This Union Session will bring together world-leading specialists on these questions with the aim to shed light on both suspected and unexpected couplings in the system.

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Convener: Peter van der Beek | Co-conveners: Mike Burton, Giuliana Panieri, Lily Pereg (deceased)
Orals
| Fri, 12 Apr, 08:30–12:15
 
Room E1
US3 Media|ECS

Over the whole Earth history, the climate has encountered tipping points, shifting from one regulated system to the other. This tilting motion affects both climate and the carbon cycle and has played a major role in the evolution of the Earth climate, at all timescales. Earth History has been ponctuated by large climate changes and carbon cycle reorganizations, from large climate variations occurring in deep times (snowball events, terrestrialisation, Mesozoic and early Cenozoic warm episodes, quaternary glacial cycles…) to past and on-going abrupt events. Many potential triggers of those climate and carbon cycle shifts have been proposed and tested through modeling studies, and against field data, such as those directly or indirectly linked with tectonics (plate motion, orogenesis, opening/closing of seaways, weathering…) and orbital forcing. Given that the Earth climate is currently experiencing an unprecedented transition under anthropogenic pressure, understanding the mechanisms behind the scene is crucial.

Our aim is to point out the most recent results concerning how a complex system as the climate of the Earth has undergone many tipping points and what is the specificity of the future climate changes. Therefore, within this session, we would like to encourage talks discussing advances in our record and modeling of the forces triggering and amplifying the changes of Earth climate and carbon cycle across spatial and temporal scales.

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Convener: Gilles Ramstein | Co-conveners: Ayako Abe-Ouchi, Richard Betts, Robert DeConto
Orals
| Fri, 12 Apr, 14:00–15:45, 16:15–18:00
 
Room E1
US4 ECS

In today’s changing world we need to tap the potential of every talented mind to develop solutions for a sustainable future. The existence of under-representation of different groups (cultural, national and gender) remains a reality across the fields of science, technology, engineering, and mathematics (STEM fields) around the world, including the geosciences. This Union Symposium will focus on remaining obstacles that contribute to these imbalances, with the goal of identifying best practices and innovative ideas to overcome obstacles.

EGU is welcoming six high-level speakers from the funding agencies and research centres on both sides of the Atlantic related to geosciences to present efforts and discuss initiatives to tackle both implicit and explicit biases. Speakers are:

Jill Karsten, AGU Diversity and Inclusion Task Force (confirmed)
Erika Marín-Spiotta, University of Wisconsin - Madison (confirmed)
Daniel Conley, Lund University (confirmed)
Giulio di Toro, University of Padua (confirmed)
Liviu Matenco, Utrecht University (confirmed)
Barbara Romanowicz, European Research Council (confirmed)

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Co-sponsored by AGU and JpGU
Convener: Claudia Jesus-Rydin | Co-conveners: Alberto Montanari, Robin Bell, Chiaki Oguchi, Lily Pereg (deceased)
Orals
| Thu, 11 Apr, 14:00–18:00
 
Room E1
US5

Atmospheric composition matters to climate, weather forecasting, human health, terrestrial and aquatic ecosystems, agricultural productivity, aeronautical operations, renewable energy production, and more. Hence research in atmospheric composition is becoming increasingly cross-cutting and linked to many disciplines including climate, biogeosciences, hydrology, natural hazards, computer and data sciences, socio-economic studies and many others. There is a growing need for atmospheric composition information and an improved understanding of the processes that drive changes in the composition and resulting impacts. While atmospheric composition research is advancing rapidly, there is a need to pay more attention to the translation of this research to support societal needs. Although translational research is a major focus of the health sciences and meteorology, it is in a relatively early stage in atmospheric composition. In this Union Symposium, we plan to highlight the need for, and to illustrate exciting advances in the translation of atmospheric composition research to support services. We will build upon work within the World Meteorological Organization and other communities related to the closer linkages of weather, atmospheric composition, and climate research and related services. We will also articulate the needs for advances in observing systems, models and a better understanding of fundamental processes. This session will also serve as a celebration of the 30 year anniversary of the WMO Global Atmosphere Watch programme and an opportunity for the broader community to envision partnerships needed to facilitate the effective translation of atmospheric composition research.

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Convener: Oksana Tarasova | Co-conveners: Marcos Andrade, Claudia Volosciuk
Orals
| Tue, 09 Apr, 10:45–12:15, 14:00–15:30
 
Room E1
GDB1 Media

In October 2018, the IPCC published its special report on impacts of global warming of 1.5 deg C. Another recent, highly publicised study suggests that the planet could pass an irreversible threshold into a so called “Hothouse Earth” state for a temperature increase of as low as 2 degrees C above pre-industrial temperatures, while other studies and commentaries have emphasised the urgency on climate action, arguing that 2020 must be a turning point for global fossil fuel emissions, to increase the chance of maintaining a safe operating space for the humans on the planet. In 2018, the IPCC celebrated its 30th anniversary. The importance of taking action on human-induced climate change has been emphasised with governments around the world since the 1990s yet CO2 concentrations continue to rise and international initiatives have, to date, had limited and insufficient impact to avert some of the most serious consequences of climate change.
How close are we to one or more critical thresholds (cliff edge)? Is there time to avert passing one or more of these thresholds? What can the geoscience community do to reduce the risks? How important is bottom up versus top down action to ensuring the least worst outcome? These are some of the questions we will debate with world experts in their field and authors of the thought papers on these topics.

Public information:
In October 2018, the IPCC published its special report on impacts of global warming of 1.5 deg C. Another recent, highly publicised study suggests that the planet could pass an irreversible threshold into a so called “Hothouse Earth” state for a temperature increase of as low as 2 degrees C above pre-industrial temperatures.

In 2018, the IPCC celebrated its 30th anniversary. The importance of taking action on human-induced climate change has been emphasised with governments around the world since the 1990s yet CO2 concentrations continue to rise and international initiatives have, to date, had limited and insufficient impact to avert some of the most serious consequences of climate change that may pose an existential threat to modern civilisation.

How close are we to one or more critical thresholds? Is there time to avert passing one or more of them? What can the geoscience community do to reduce the risks? How important is bottom up versus top down action to ensuring the least worst outcome? These are some of the questions we will debate with world experts in their field and authors of the thought papers on these topics.

The Great Debate panellists are:
Prof. Myles Allen is Professor of Geosystem Science in the Environmental Change Institute, University of Oxford. His research focuses on how human and natural influences on climate contribute to observed climate change and risks of extreme weather and in quantifying their implications for long-range climate forecasts. He was a Coordinating Lead Author on the Intergovernmental Panel on Climate Change Special Report on 1.5 degrees, having served on the IPCC’s 3rd, 4th and 5th Assessments, including the Synthesis Report Core Writing Team in 2014.

Prof. Sabine Fuss, Mercator Research Institute on Global Commons and Climate Change (MCC), Berlin. Sabine is an economist, currently leading a working group at the MCC. She holds a professorship on Sustainable Resource Management and Global Change at Humboldt University of Berlin. Her research interests are in sustainable development, land use change and climate change mitigation. She has been an IPCC Lead Author for the Special Report on 1.5°C global warming, serves on the steering committee of the Global Carbon Project and is a guest scholar at the International Institute for Applied Systems Analysis.

Erica Hope leads the cross-sectoral ‘2050 Task Force’ and governance programme of the European Climate Foundation (ECF) in Brussels, which seeks to build knowledge, political strategies and coalitions to drive the transition to a zero emissions society by mid-century. Erica has previously worked for the energy efficiency and UK programmes of the ECF, and before that led the policy and advocacy activities of NGO network Climate Action Network Europe on energy efficiency. From 2005-2009 she was researcher to Green MEP Caroline Lucas, and has also worked at the Institute for Public Policy Research in London.

Prof. Linda Steg is professor of environmental psychology at the University of Groningen. She studies factors influencing sustainable behaviour, the effects and acceptability of strategies aimed at promoting sustainable behaviour, and public perceptions of technology and system changes. She is member of Member of the Royal Netherlands Academy of Sciences (KNAW), and lead author of the IPCC special report on 1.5°C and AR6. She works on various interdisciplinary and international research programmes, and collaborates with practitioners working in industry, governments and NGOs.

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Convener: Jonathan Bamber | Co-conveners: Alberto Montanari, Didier Roche
Thu, 11 Apr, 10:45–12:30
 
Room E1
GDB2 ECS

The geosciences are currently used by policymakers in a wide variety of areas to help guide the decision-making process and ensure that the best possible outcome is achieved. While the importance of scientific advice and the use of evidence in the policymaking process is generally acknowledged by both policymakers and scientists, how scientific advice is integrated and who is responsible is still unclear.

EU Policymakers frequently highlight institutionalised processes for integrating scientific advice into policy such as European Commission's Group of Chief Scientific Advisors (SAM) and the EU Commission’s Register of Expert Groups. But how efficient and accessible are these mechanisms really?

Some emphasise the need for scientists to have their own policy networks in place so that they can share their research outcomes with policymakers who can then use it directly or pass it on to those responsible for relevant legislation. But from funding applications to teaching and even outreach activities – scientists are often already overloaded with additional tasks on top of their own research. Can they really be held responsible for keeping up with the latest policy news and maintaining a constantly changing network of policymakers as well?

This debate will feature a mixed panel of policymakers and geoscientists who have previously given scientific advice. Some key questions that the panel will debate include:
• How can the accessibility of current EU science-advisory mechanisms be improved?
• Are scientists doing enough to share their research?
• And who is responsible for ensuring that quality scientific evidence is used in policymaking?

Speakers will be encouraged to explain any science advisory mechanism that they highlight (e.g. SAM) to ensure that the debate is understood by all those in attendance.

While the panel and subsequent debate will have an EU focus, it is likely that many of the issues discussed will be applicable to countries around the world.

Public information:
David Mair: Head of Unit, Knowledge for Policy: Concepts & Methods, Joint Research Centre
Paul Watkinson: Chair of SBSTA (Subsidiary Body for Scientific and Technological Advice)
Kasey White: Director for Geoscience Policy, Geological Society of America
Günter Blöschl: Head of Institute of Hydraulic Engineering and Engineering Hydrology, Vienna University of Technology
Detlef van Vuuren: Professor in Integrated Assessment of Global Environmental Change at the Faculty of Geosciences, Utrecht University

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Convener: Chloe Hill | Co-conveners: Sarah Connors, Hazel Gibson
Mon, 08 Apr, 10:45–12:30
 
Room E1
GDB3 ECS

The ever more challenging work environments and increasing pressures on Early Career Scientists e.g. publish or perish, securing grant proposals, developing transferable skills and many more – and all while having a lack of job security. This puts a big strain on Early Career Scientists and this can lead to neglected mental well-being which in turn increases the risk of developing anxiety, depression or other mental health issues. The graduate survey from 2017 (https://www.nature.com/nature/journal/v550/n7677/full/nj7677-549a.html) shows that 12% of respondents had sought help or advice for anxiety or depression during their PhD.

In this debate we want to discuss: Is there a problem? How ECS can take control of their mental wellbeing and prioritise this in the current research environment? And what support would ECS like to see from organisations like EGU or their employers?

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Convener: Stephanie Zihms | Co-conveners: Raffaele Albano, Anita Di Chiara, Hazel Gibson, Mathew Stiller-Reeve
Thu, 11 Apr, 19:00–20:30
 
Room E1
GDB4 ECS

"What counts may not be countable and what is countable may not count". Assessments of scientists and their institutions tend to focus on easy-to-measure metrics related to research outputs such as publications, citations, and grants. However, society is increasingly dependent on Earth science research and data for immediate decisions and long-term planning. There is a growing need for scientists to communicate, engage, and work directly with the public and policy makers, and practice open scholarship, especially regarding data and software. Improving the reward and recognition structure to encourage broader participation of scientists in these activities must involve societies, institutions, and funders. EGU, AGU, and JPGU have all taken steps to improve this recognition, from developing new awards to starting journals around the topic of engaging the public to implementing FAIR data practices in the Earth, environmental, and space sciences, but far more is needed for a broad cultural change. How can we fairly value and credit harder-to-measure, these less tangible contributions, compared to the favoured metrics? And how can we shift the emphasis away from the "audit culture" towards measuring performance and excellence? This session will present a distinguished panel of stakeholders discussing how to implement and institutionalize these changes.

Public information:
Moderator:
Robin Bell - AGU President

Co-Moderator:
Helen M. Glaves - President of the EGU ESSI Division

Panelists:

Liz Allen – Director of Strategic Initiatives at F1000
Visiting Senior Research Fellow, Policy Institute, King's College London

Stephen Curry – Professor and Assistant Provost, Imperial College London
Chair, Declaration on Research Assessment (DORA)

Demetris Koutsoyiannis – Professor and former Dean, Faculty of Engineering, Technical University of
Athens, Past Editor in Chief of the Hydrological Sciences Journal of IAHS

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Co-sponsored by AGU and JpGU
Convener: Alberto Montanari | Co-conveners: Jonathan Bamber, Robin Bell, Hiroshi Kitazato, Lily Pereg (deceased)
Wed, 10 Apr, 10:45–12:30
 
Room E1
GDB5 Media

Public information:
Plan S, devised by a coalition of research funders with support from the European Commission and European Research Council, demands that by January 1, 2020 research supported by participating funders must be published in Open Access journals. Representatives from subscription-based and Open Access publishers, architects of Plan S, and researchers affected by it will debate questions surrounding the implementation of the plan and its consequences.

The panelists are David Sweeney, Heike Langenberg, Marc Schiltz and Brooks Hanson. They will present the case for and against mandatory OA followed by an open debate with questions and comments from the audience.

David Sweeney is Executive Chair of Research England, the biggest research funder in the UK. He has been invited to visit many countries to advise on research assessment and funding, particularly with respect to research impact. He is also co-chair of the Implementation Task Force for Plan S, the international initiative on full and immediate open access to research publications.

Heike Langenberg is the Chief Editor of Nature Geoscience. She started her editorial career in 1999 as an Associate, then Senior Editor at Nature handling manuscripts in the broad area of climate sciences. In 2007 she moved to Nature Geoscience to launch the journal in January 2008. A graduate in mathematics of the Philipps-Universität Marburg, Germany, she ventured into oceanography for her PhD at the University of Hamburg. Her postdoctoral research at various research institutes in Hamburg was focused on numerical simulations of the ocean and atmosphere at a regional scale.

Marc Schiltz is president of Science Europe, the European association of all major national public research funding and research performing organisations. In this role, he has contributed to setting the European agenda to foster Open Science and is one of the architects of Plan S. He is also leading the Luxembourg National Research Fund. He is a relentless advocate of science and research, serving on a number of external boards and committees, both at the national and international level. Having received a PhD in Crystallography from the University of Paris-Sud and an executive MBA from INSEAD, Marc has been active in research and higher education for more than 25 years and held research and faculty positions in several European countries.

Brooks Hanson is the Executive Vice President for Science for the American Geophysical Union (AGU), responsible for AGU’s publications, meetings, ethics and data programs, and Thriving Earth Exchange. He previously acted as Sr. Vice President for Publications at AGU, where he was responsible for AGU's portfolio of books and 21 journals and served as Deputy Editor for Physical Sciences at Science. Brooks received a Ph.D. in Geology from UCLA and held a post-doctoral appointment at the Department of Mineral Sciences at the Smithsonian Institution.

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Convener: Katja Fennel | Co-convener: Jonathan Bamber
Tue, 09 Apr, 16:15–18:00
 
Room E1
SCS1 Media|ECS

Wed, 10 Apr, 12:45-14:00 / Room E1

Public information:
The dialogue between scientists, institutions, policymakers and the general public is widely recognised as an essential step towards a fair and sustainable society. Nowadays, more than ever in human history, international cooperation is an essential requirement for protecting the planet, advancing science and ensuring an equitable development of the global economy.
Despite its importance, the above dialogue can be a challenge for scientists, who often cannot find a productive connection with governments and politicians. Scientific associations are a key link between researchers and policy makers, as they have the potential to establish a durable and profitable connection with institutions.
The EGU elected the dialogue with society as one of its priority missions. At its General Assembly, the EGU is launching an innovative symposium format, Science and Society (SCS), to host scientific forums specifically dedicated to connecting with high-level institutions and engaging the public and policymakers.
The conversation with Ilaria Capua and Mario Monti will focus on science and politics with a global perspective, and the impact of populism on European integrity and therefore scientific research. The discussion will elaborate on optimal strategies to deliver topical and clear scientific messages to key institutions.
Ilaria Capua is a virologist best known for her research on influenza viruses and her efforts promoting open access to genetic information on emerging viruses. In 2006, Science reported on Capua’s effort towards open access science, stating that she had “renewed the debate about how to balance global health against scientists’ needs to publish and countries’ demands for secrecy". She has been a member of the Italian parliament from 2013 to 2016 and a fake news victim. She is currently a full professor at the University of Florida in Gainesville, Florida, US, and director of the UF One Health Center of Excellence.
Mario Monti served as a European Commissioner from 1995 to 2004, with responsibility for the internal market, services, customs, taxation and competition. He was Prime Minister of Italy from 2011 to 2013, leading a government of national unity to cope with the Italian debt crisis. Monti has also been Rector and is currently President of Bocconi University in Milan. His publications deal mainly with monetary and financial economics, public finance, European integration, competition policy. He is currently lifetime member of the Italian Senate.
During the conversation, Ilaria Capua and Mario Monti will present their vision with two 15-minute talks that will be followed by 20 minutes dedicated to questions from the audience and answers.

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Conveners: Alberto Montanari, Jonathan Bamber
Wed, 10 Apr, 12:45–14:00
 
Room E1
SCS2 Media|ECS

Plastic pollution is recognized as one of the most serious and urgent problems facing our planet. Rates of manufacture, use and ultimately disposal of plastics continue to soar, posing an enormous threat to the planet’s oceans and rivers and the flora and fauna they support. There is an urgent need for global action, backed by sound scientific understanding, to tackle this problem.

This Union Symposium will address the problems posed to our planet by plastic pollution, and examine options for dealing with the threat.

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Convener: Jessica Hickie | Co-conveners: Bruce Newport, Christopher Hackney, David Todd, Tim van Emmerik
Orals
| Mon, 08 Apr, 14:00–17:45
 
Room E1
SCA1 ECS

The Games Night is a space to gather, socialise, and play some games. The catch is that all the games are based on Geoscience! Bring along your own games or try one of the others in the session and meet the people who created them. This will also be your chance to try games featured in the Games for Geoscience session.

Public information:
Confirmed games include -
Breath of the Wild, HEAT, Flash Flood! Vol. 2, Resilience, Druids & Defences, Wanted: Head of the Centre for Flood Forecasts (IMPREX serious game), Rivers Top Trumps.

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Convener: Christopher Skinner | Co-conveners: Rolf Hut, Sam Illingworth, Elizabeth Lewis, Jazmin Scarlett
Programme
| Wed, 10 Apr, 18:00–20:00
 
Foyer D
SCA2 ECS

Join us to help put some of the world's most vulnerable places on the map. A mapathon is a mapping marathon, where we get together to contribute to OpenStreetMap - the world's free map.
No experience is necessary - just bring your laptop and we will provide the training. Learn more about crowdsourcing, open data and humanitarian response - we will also provide some tips for how to host a mapathon at your home institution.

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Convener: Faith Taylor | Co-conveners: Hessel Winsemius, Joanne Wood, chen zhong
Thu, 11 Apr, 19:00–20:30
 
Room L4/5
SCA3

Plastic Oceans UK have been experts on plastic pollution for nearly a decade - solving the plastic crisis through their science, sustainability and education programmes. This all began with the award-winning documentary A Plastic Ocean, now available for streaming on Netflix.

Through changing attitudes, behaviours and practices on the use and value of plastics, we can stop plastic pollution reaching the ocean within a generation.

Come along to the screening of A Plastic Ocean to understand the impacts of plastic pollution around the world, what action we can take to stop plastics entering our natural world and pose your questions to the film's producer, Jo Ruxton, at the end of film.

http://plasticoceans.uk/

Public information:
Plastic Oceans UK have been experts on plastic pollution for nearly a decade - solving the plastic crisis through their science, sustainability and education programmes. This all began with the award-winning documentary A Plastic Ocean, now available for streaming on Netflix.

Through changing attitudes, behaviours and practices on the use and value of plastics, we can stop plastic pollution reaching the ocean within a generation.

Come along to the screening of A Plastic Ocean to understand the impacts of plastic pollution around the world, what action we can take to stop plastics entering our natural world and pose your questions to the film's producer, Jo Ruxton, at the end of film.

http://plasticoceans.uk/

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Convener: Fiona Tovey | Co-convener: Jessica Hickie
Tue, 09 Apr, 19:00–21:00
 
Room E2