Union-wide
Inter- and Transdisciplinary Sessions
Disciplinary sessions AS–GM
Disciplinary sessions GMPV–TS

Session programme

GM

GM – Geomorphology

Programme group chair: Daniel Parsons

MAL12

The Bagnold Medal Lectures from the medallists from 2020 and 2021 will be presented in this flagship GM session. The session will be introduced by the GM President, Daniel R. Parsons and citations given for each of the Medallists.

Convener: Daniel Parsons
Presentations
| Thu, 29 Apr, 18:00–20:00 (CEST)
DM11

Public information:
Progress within the GM Division was presented by the President of the Division, Daniel R. Parsons
Convener: Daniel Parsons
Thu, 22 Apr, 13:30–14:30 (CEST)
MAL1d
EGU 2020/2021 Alexander von Humboldt Medal Lectures
Conveners: Alberto Montanari, Helen Glaves
Presentations
| Fri, 23 Apr, 11:30–12:30 (CEST), 13:30–14:30 (CEST)
MAL1b
EGU 2020/2021 Alfred Wegener Medal Lectures
Conveners: Alberto Montanari, Helen Glaves
Presentations
| Wed, 21 Apr, 11:30–14:30 (CEST)

GM1 – General Geomorphology

Programme group scientific officer: Giulia Sofia

GM1.1 EDI

Landscapes, and how they change over time, provide the foundations of life and affect the ecosystems and human activities that can exist on Earth. Yet, there appears to be no single axis of causality between landscape and Earth surface processes, but rather, each entity can exert a simultaneous influence on the other over a wide range of temporal and spatial scales. We are just starting to realise and explore the modes, trajectories and effects of these coupled systems, and to trace and infer the often non-linear feedback mechanisms.
Geomorphology inevitably stands in the center of an emerging science devoted to the Earth's surface, where strong couplings link human dynamics, biology, biochemistry, geochemistry, geology, hydrology, geomorphology, soil science, and atmospheric dynamics, including past and ongoing climate changes.
Motivated by the importance of understanding Earth surface interactions, couplings and feedbacks on a rapidly changing globe, this session will bring together a series of invited speakers to provide insights and perspectives on this hot topic from across the field of geomorphology.

Including GM Division Outstanding ECS Award Lecture 2021
Convener: Giulia Sofia | Co-conveners: Daniel Parsons, Matteo Spagnolo, Andrea Zerboni
Presentations
| Thu, 29 Apr, 13:30–15:00 (CEST)
GM1.2 EDI

Biogeomorphology addresses the two-way interaction between biotic and abiotic elements that shape landscapes at various spatio-temporal scales. Yet, developing theory, methods and quantifying processes at the abiotic/biotic interface remains challenging due to the interdisciplinarity of biogeomorphology, integrating concepts from ecology, evolutionary biology, engineering, geomorphology, geology and Quaternary science. On the other side, there is an urgent need to understand the interactions among abiotic and biotic processes in natural and managed systems to adapt to for instance climate change.
Consequently, a wide range of interdisciplinary projects in fields related to biogeomorphology have emerged. Such projects have included field, computational, and laboratory studies across a wide range of scales to understand the effects of underlying physical and ecological processes on biogeomorphic interactions.
This session focuses on the lessons learned from such approaches: advantages, limitations, best practices, and the future of the discipline of biogeomorphology. Research topics include, but are not limited to: 1) Biogeomorphic processes, rates and feedbacks, 2) Organism-Habitat interaction, 3) Biota as ecosystem engineers, 4) Effects of biogeomorphic interactions on nutrient and pollutant transport, 5) Biogeomorphology for the development of nature-based-solutions.

Public information:
Biogeomorphology addresses the two-way interaction between biotic and abiotic elements that shape landscapes at various spatio-temporal scales. Yet, developing theory, methods and quantifying processes at the abiotic/biotic interface remains challenging due to the interdisciplinarity of biogeomorphology, integrating concepts from ecology, evolutionary biology, engineering, geomorphology, geology and Quaternary science. On the other side, there is an urgent need to understand the interactions among abiotic and biotic processes in natural and managed systems to adapt to for instance climate change.
Consequently, a wide range of interdisciplinary projects in fields related to biogeomorphology have emerged. Such projects have included field, computational, and laboratory studies across a wide range of scales to understand the effects of underlying physical and ecological processes on biogeomorphic interactions.
This session focuses on the lessons learned from such approaches: advantages, limitations, best practices, and the future of the discipline of biogeomorphology. Research topics include, but are not limited to: 1) Biogeomorphic processes, rates and feedbacks, 2) Organism-Habitat interaction, 3) Biota as ecosystem engineers, 4) Effects of biogeomorphic interactions on nutrient and pollutant transport, 5) Biogeomorphology for the development of nature-based-solutions.
Co-organized by BG3/NH8
Convener: Nico BätzECSECS | Co-conveners: Jana Eichel, Annegret LarsenECSECS, William Nardin, Wietse van de Lageweg
vPICO presentations
| Tue, 27 Apr, 15:30–17:00 (CEST)
GM1.3 EDI

Almost 30 years of developing the concept of geodiversity in geosciences provides a robust foundation for moving to the issue of synthesizing the existing knowledge and methods of assessing geodiversity and to disseminate the achievements of this concept.
1. The spatial and temporal scales. On what cartographic scale should the source materials be useful for determining the degree of geodiversity? Can geodiversity be considered on a local, regional, national, continental and global scale? Having in place geodiversity (stationary, at a given time of observation/assessment) and dynamic geodiversity at your disposal - how deep, how far can you reach the past and the future in geodiversity assessments of any area? Can geodiversity be determined in a palaeogeographic/geological context? How can you use geodiversity to describe geosites, geoparks, landscapes, and other forms of geoconservation? How to translate geodiversity values into geoheritage measures?
2. The lack of a standard for geodiversity assessment. Is the quality or quantity (number) of assessed geodiversity features important? How to transform qualitative assessments into quantitative assessments, so that you can easily compare different areas in terms of their substantive value, not to mention independence from the spatial and temporal scale? These issues are related to the problem of uncertainty in geodiversity assessments. This problem affects applied geodiversity studies as well, limiting further qualitative/qualitative assessment of abiotic ecosystem services. So what should be the standards of this geodiversity assessment to minimize errors in assessments?
3. If we find a consensus in establishing a standard for geodiversity assessment, how to apply the developed standard at geoconservation and geoheritage? How to consider such a standard universally acceptable? What forms of activity should best promote the idea of geodiversity? How to implement geodiversity assessments by professionals for different forms of geoconservation and geoheritage? Which ecosystem services should be taken into account in determining the importance of geodiversity for human life? How to make the society aware of the importance of geodiversity in their everyday life? How to extend the geodiversity values to preserve the state of the environment for future generations? How to link the idea of geodiversity with 17 UN SDG? Finally, how should geodiversity values be compared with biodiversity values?

Co-organized by EOS5/BG2, co-sponsored by IAG
Convener: Zbigniew Zwoliński | Co-conveners: Irene Maria BollatiECSECS, Marco Giardino, Alicja NajwerECSECS, Franziska SchrodtECSECS
vPICO presentations
| Mon, 26 Apr, 15:30–17:00 (CEST)
GM1.4 EDI

Geomorphic processes (e.g fluvial, erosion, slope, aeolian, glacial) shape landscape and affect sediment fluxes in a variety of environments across different spatial and temporal scales. Quantifying processes requires understanding both the effect of landscape components (natural and anthropic) and dynamics responsible for sediment/soil mobilization, storage and delivery (sources-pathways-sinks).
We welcome contributions using traditional methods and/or innovative techniques (e.g. field-based measurements, compositional analysis, GIS-based morphometry, remote sensing, sediment tracing or fingerprinting, cosmogenic and fallout radionuclides, statistical tools, modelling approaches…) for quantifying morphodynamic and sedimentary processes.
The session seeks contributions from any discipline investigating:
(i) topographic, lithologic, climatic and tectonic controls on sediment production and transport from source to sink;
(ii) connectivity and links among geomorphic components;
(iii) quantification of erosion/sedimentation/weathering rates and their variability in space and time;
(iv) environmental signal propagation in Sediment Routing Systems;
(v) redistribution processes through soil, sediment tracing and particle trajectory;
(vi) autogenic processes regulating sediment transport, temporary storage, and deposition;
(vii) interplay between geo-environmental and anthropic processes in geomorphic and sedimentary dynamics;
(viii) compositional analysis of the erosional products;
(ix) forward modelling of sedimentary and geomorphic response to climate change.
Multi- and inter-disciplinary studies are particularly encouraged. We hope to use the session to discuss different perspectives in the viewpoint of an integrated framework, filling the gaps among disciplines.

Co-organized by SSP3
Convener: Federica Lucà | Co-conveners: Luca Caracciolo, Gaetano Robustelli
vPICO presentations
| Mon, 26 Apr, 13:30–15:00 (CEST)
GM1.5

Two significant flow hazard cascades have been captured with unprecedented detail, with events in Elliot Creek and Bute Inlet (Canada) and the Chamoli and Uttarakhand (India) both occurring with the past few months. These events both have a suite of background observations and baseline datasets on which to contextually place and explore these flows end events in a depth and breadth of detail that is unprecedented, potentially unlocking new understanding of hazard cascades from source to sink.
We welcome contributions that (i) investigate the processes of production, mobilisation, transport, and deposition of sediment in these two events, (ii) explore the feedbacks between erosion and deposition of the flows through these systems, (iii) consider how these flows shape new understanding of hazards cascades through the source to sink linkages. We invite papers that are observational, analytical or modelling based in their approach, across a variety of temporal and spatial scales. We particularly welcome new and innovative methodologies that show potential to unlock new understanding.

Co-organized by CR5/NH3/SSP3
Convener: Dan Shugar | Co-conveners: Peter Talling, Sanem Acikalin, Gwyn Lintern, Kristen Cook, Anand K Pandey
vPICO presentations
| Wed, 28 Apr, 13:30–15:00 (CEST)

GM2 – Geomorphologist's Tools, Models and Methods

Programme group scientific officer: Andrea Madella

SC4.13 EDI

Age models are applied in paleoclimatological, paleogeographic and geomorphologic studies to understand the timing of climatic and environmental change. Multiple independent geochronological dating methods are available to generate robust age models. For example, different kinds of radio isotopic dating, magneto-, bio-, cyclostratigraphy and sedimentological relationships along stratigraphic successions or in different landscape contexts. The integration of these different kinds of geochronological information often poses challenges.
Age-depth or chronological landscape models are the ultimate result of the integration of different geochronological techniques and range from linear interpolation to more complex Bayesian techniques. Invited speakers, Sebastian Breitenbach from CL division and Rachel Smedley from the GM division, will share their experience in several modelling concepts and their application in a range of Quaternary paleoenvironmental and geomorphologic records. The Short Course will provide an overview of age models and the problems one encounters in climate science and geomorphology. Case studies and practical examples are given to present solutions for these challenges. It will prepare the participants from CL, GM and other divisions for independent application of suitable age-depth models to their climate or geomorphologic data. For registration please send a request via this email address (ecs-cl@egu.eu) prior to 15th April.

Public information:
Registration to this Short course is still open!! you can send a request (ecs-cl@egu.eu) and this will help us know the number of participants prior to the start of the SC. But there is no restriction for registration.
Co-organized by CL6/CR8/GM2/SSP5
Convener: Carole NehmeECSECS | Co-conveners: Andrea Madella, Janina J. Nett, Aayush Srivastava
Thu, 29 Apr, 09:00–10:00 (CEST)
HS1.1.2

Water is our planet’s most vital resource, and the primary agent in some of the biggest hazards facing society and nature. The twin pressures of population growth and a rapidly changing global climate act as multipliers of water’s value and of water-related hazards.

River streamflow is one of the most crucial hydrological variables for ecology, for people and industry, for flood risk management and for understanding long term changes to the hydrological regime. However, despite significant efforts, long-term, spatially dense monitoring networks remain scarce, and even the best monitoring networks can fail to perform when faced with extreme conditions, and lack the precision and spatial coverage to fully represent crucial aspects of the hydrological cycle.

Happily, a number of new technologies and techniques are emerging which show great potential to meet these challenges. In this context, this session focuses on:
1) Innovative methodologies for measuring/modelling/estimating river stream flows;
2) Real-time acquisition of hydrological variables;
3) Remote sensing for hydrological & morphological monitoring;
4) Measuring extreme conditions associated with a changing climate;
5) Measurement of sudden-onset extreme flows associated with catastrophic events;
6) Strategies to quantify and describe hydro-morphological evolution of rivers;
7) New methods to cope with data-scarce environments;
8) Inter-comparison of innovative & classical models and approaches;
9) Evolution and refinement of existing methods;
10) Guidelines and standards for hydro-morphological streamflow monitoring;
11) Quantification of uncertainties;
12) Development of expert networks to advance methods.

Contributions are welcome with an emphasis on innovation, efficiency, operator safety, and meeting the growing challenges associated with the changing climate, and with natural and anthropogenically driven disasters such as dam failures and flash floods.

Additionally, presentations will be welcomed which explore options for greater collaboration in advancing riverflow methods and which link innovative research to operational monitoring.

This session is sponsored by the COST Action CA16219, Harmonisation of UAS techniques for agricultural and natural ecosystems monitoring (HARMONIOUS).

Co-organized by GI4/GM2/NH1
Convener: Nick Everard | Co-conveners: Silvano F. Dal Sasso, Alexandre Hauet, Alonso PizarroECSECS
vPICO presentations
| Tue, 27 Apr, 11:00–12:30 (CEST)
HS9.3

Sedimentary processes in aquatic environments, including entrainment, transport and deposition of sediment by hydrodynamic mechanisms, are key features for various research disciplines, e.g. geomorphology and paleoclimatology or hydraulics and river engineering. An accurate evaluation of entrainment, transport and deposition rates, conditioning river channel morphology and bed composition, is fundamental for an adequate development of conceptual sediment budget models and for the calibration and validation of numerical tools.
The main goal of this session is to bring together the community of scientists, scholars and engineers, investigating, teaching and applying novel measurement techniques and monitoring concepts, which are crucial to determine sedimentary and hydro-morphological processes in rivers, lakes and reservoirs, estuaries as well as in coastal and maritime environments. Within the focus of this session are the evaluation and quantification of bed load and suspended load, flocculation, settling, and re-suspension of such processes relevant to morphological channel changes as bed form development, horizontal channel migration, bed armouring and colmation.
Contributions are welcome with a particular focus on single and combined measurement techniques, on post-processing methods as well as on innovative and advanced monitoring concepts for field applications. Furthermore, we welcome contributions containing recent results in a temporal and spatial scale on sediment budgets as well as on sedimentary and morphodynamics processes in open water environments.
Contributions may refer, but are not restricted, to:
- measurements of suspended sediment transport in open water environments, e.g. with optical, acoustical, traditional sampling methods or others;
- measurements of bed load transport, e.g. with bed load samplers, sediment traps, tracers or acoustic and optical methods;
- determination of sediment characteristics, e.g. with mechanical bed material samplers or freeze core technique;
- measurements of critical bed shear stress of cohesive sediments, e.g. with benthic flumes or miscellaneous devices;
- monitoring of morphological changes like lake and reservoir sedimentation, bank erosion or bed armouring, meandering migration, river bends evolution;
- measuring networks / multiple point datasets;
- monitoring concepts including case studies;
- in-situ as well as laboratory calibration of measurement data;

Co-organized by GM2
Convener: Stefan Achleitner | Co-conveners: Mário J Franca, Kordula Schwarzwälder, Axel Winterscheid
vPICO presentations
| Tue, 27 Apr, 13:30–15:00 (CEST)
ITS4.3/NH1 EDI

Smart monitoring and observation systems for hazards, including satellites, seismometers, global networks, uncrewed vehicles (e.g., UAV), and other linked devices, have become increasingly abundant. With these data, we observe our Earth’s restless nature and work towards improving our understanding of hazard processes such as landslides, debris flows, earthquakes, floods, storms, volcanic eruptions, and tsunamis. The large amount of data we have now accumulated with diverse measurements presents an opportunity for earth scientists to employ statistically driven approaches that speed up data processing, improve model forecasts, and give insights into the underlying physical processes. Such big-data approaches are supported by the wider scientific, computational, and statistical research communities who are constantly developing data science and machine learning techniques and software. Hence, data science and machine learning methods are rapidly impacting the fields of geohazards. In this session, we will see research into hazards spanning a broad range of time and spatial scales.

Co-organized by GM2/HS12/SM1
Convener: Hui TangECSECS | Co-conveners: Jonathan BedfordECSECS, Fabio Corbi, Michaela WennerECSECS
vPICO presentations
| Thu, 29 Apr, 11:45–12:30 (CEST)
GM2.7 EDI

Geomorphometry and geomorphological mapping are important tools used for understanding landscape processes and dynamics on Earth and other planetary bodies. The recent rapid advances in technology and data collection methods has made available vast quantities of geospatial data for such morphometric analysis and mapping, with the geospatial data offering unprecedented spatio-temporal range, density, and resolution, but it also created new challenges in terms of data processing and analysis.

This inter-disciplinary session on geomorphometry and landform mapping aims to bridge the gap between process-focused research fields and the technical domain where geospatial products and analytical methods are developed. The increasing availability of a wide range of geospatial datasets requires the continued development of new tools and analytical approaches as well as landform/landscape classifications. However, a potential lack of communication across disciplines results in efforts to be mainly focused on problems within individual fields. We aim to foster collaboration and the sharing of ideas across subject-boundaries, between technique developers and users, enabling us as a community to fully exploit the wealth of geospatial data that is now available.

We welcome perspectives on geomorphometry and landform mapping from ANY discipline (e.g. geomorphology, planetary science, natural hazard assessment, computer science, remote sensing). This session aims to showcase both technical and applied studies, and we welcome contributions that present (a) new techniques for collecting or deriving geospatial data products, (b) novel tools for analysing geospatial data and extracting innovative geomorphometric variables, (c) mapping and/or morphometric analysis of specific landforms as well as whole landscapes, and (d) mapping and/or morphometric analysis of newly available geospatial datasets. Contributions that demonstrate multi-method or inter-disciplinary approaches are particularly encouraged. We also actively encourage contributors to present tools/methods that are “in development”.

Co-organized by ESSI1/GI6/NH6/PS7
Convener: Giulia Sofia | Co-conveners: Benjamin Newsome-ChandlerECSECS, Susan Conway, Stuart GrieveECSECS, John K. Hillier
vPICO presentations
| Mon, 26 Apr, 09:00–12:30 (CEST)
GM2.8 EDI

Seismic techniques are becoming widely used to detect and quantitatively characterise a wide variety of natural processes occurring at the Earth’s surface. These processes include mass movements such as landslides, rock falls, debris flows and lahars; glacial phenomena such as icequakes, glacier calving/serac falls, glacier melt and supra- to sub-glacial hydrology; snow avalanches; water storage and water dynamics phenomena such as water table changes, river flow turbulence and fluvial sediment transport. Where other methods often provide limited spatial and temporal coverage, seismic observations allow recovering sequences of events with high temporal resolution and over large areas. These observational capabilities allow establishing connections with meteorological drivers, and give unprecedented insights on the underlying physics of the various Earth’s surface processes as well as on their interactions (chains of events). These capabilities are also of first interest for real time hazards monitoring and early warning purposes. In particular, seismic monitoring techniques can provide relevant information on the dynamics of flows and unstable slopes, and thus allow for the identification of precursory patterns of hazardous events and timely warning.

This session aims at bringing together scientists who use seismic methods to study Earth surface dynamics. We invite contributions from the field of geomorphology, cryospheric sciences, seismology, natural hazards, volcanology, soil system sciences and hydrology. Theoretical, field based and experimental approaches are highly welcome.

Solicited presenter: Kate Allstadt - USGS Geologic Hazards Science Center, Golden, CO, USA

Co-organized by GI5/NH4/SM5
Convener: Anne SchöpaECSECS | Co-conveners: Maarten Bakker, Wei-An ChaoECSECS, Velio Coviello (deceased), Andrea Manconi
vPICO presentations
| Tue, 27 Apr, 09:00–10:30 (CEST)
GM2.9 EDI

Numerical frameworks are essential for understanding and interpreting landscape evolution. Over recent decades, geochronological techniques such as luminescence dating, cosmogenic nuclides and thermochronology have improved in accuracy, precision and temporal range. Developments in geochronological methods, data treatment and landscape evolution models have provided new insights into the timing, duration and intensity of landscape evolution processes. This combination of temporal constraints and numerical models has enormous potential to improve our understanding of landscape evolution. The session aims to bring together new research in using geochronology and data science to investigate Quaternary landscape change.

This session includes studies of erosional rates and processes, sediment provenance, burial and transport times, bedrock exposure or cooling histories, landscape dynamics, and the examination of potential biases and discordances in geochronological data and model-data comparisons. We welcome contributions that apply novel geochronological techniques, combine different geochronological techniques, combine numerical age constraints with landscape evolution models to determine rates and timing of landscape change as well as stochastic events, or that highlight the latest developments and open questions in the application of geochronometers to landscape evolution problems.

Convener: Ann Rowan | Co-conveners: Georgina King, Sebastian Kreutzer, Duna Roda-BoludaECSECS, Christoph Schmidt
vPICO presentations
| Wed, 28 Apr, 15:30–16:15 (CEST)
GM2.10 EDI

A key goal within geomorphic research is understanding the processes linking topographic form, erosion rates, sediment production, transport and deposition, and external forcings such as tectonics, biotic or climatic. Numerical modelling, by allowing the creation of controlled analogues of natural systems, provides exciting opportunities to explore landscape evolution and generate testable predictions.

In this session, we invite contributions that use numerical modelling to investigate landscape evolution in a broad sense, and over a range of spatial and temporal scales. We welcome studies using models to constrain one or more of: erosion rates and processes, sediment production, transport and deposition, and biotic, climatic or tectonic forcings. We also particularly wish to highlight studies that combine numerical modelling with direct Earth surface process monitoring techniques, such as topographic, field, stratigraphic, geophysical or geochronological data. Contributions using numerical models to unravel the interaction between deep processes, such as mantle dynamics, or biotic processes with topographic patterns are further encouraged. There is no geographical restriction: studies may be focused on mountain environments or sedimentary basins, or they may establish links between the two.

Co-organized by SSP3
Convener: Boris GailletonECSECS | Co-conveners: Benjamin CampfortsECSECS, Fiona ClubbECSECS, Kimberly Huppert, Jörg Robl
vPICO presentations
| Mon, 26 Apr, 15:30–17:00 (CEST)
GM2.11 EDI

Recent advances in image collection, e.g. using uncrewed aerial vehicles (UAVs), and topographic measurements, e.g. using terrestrial or airborne LiDAR, are providing an unprecedented insight into landscape and process characterization in geosciences. In parallel, historical data including terrestrial, aerial, and satellite photos as well as historical digital elevation models (DEMs), can extend high-resolution time series and offer exciting potential to distinguish anthropogenic from natural causes of environmental change and to reconstruct the long-term evolution of the surface from local to landscape scale.

For both historic and contemporary scenarios, the rise of techniques with ‘structure from motion’ (SfM) processing has democratized data access and offers a new measurement paradigm to geoscientists. Photogrammetric and remote sensing data are now available on spatial scales from millimetres to kilometres and over durations of single events to lasting time series (e.g. from sub-second to decadal-duration time-lapse), allowing the evaluation of event magnitude and frequency interrelationships.

The session welcomes contributions from a broad range of geoscience disciplines such as geomorphology, cryosphere, volcanology, hydrology, bio-geosciences, and geology, addressing methodological and applied studies. Our goal is to create a diversified and interdisciplinary session to explore the potential, limitations, and challenges of topographic datasets for the reconstruction and interpretation of past and present 2D and 3D changes in different environments and processes. We further encourage contributions describing workflows that optimize data acquisition and processing to guarantee acceptable accuracies and to automate data application (e.g. geomorphic feature detection and tracking), and field-based experimental studies using novel multi-instrument and multi-scale methodologies. This session invites contributions on the state of the art and the latest developments in i) modern photogrammetric and topographic measurements, ii) remote sensing techniques as well as applications, iii) modelling technologies, and iv) data processing tools, for instance, using machine learning approaches.

Co-organized by GI1/HS1.1/NH6/SSS11
Convener: Livia PiermatteiECSECS | Co-conveners: Anette EltnerECSECS, Penelope HowECSECS, Mike James, Mark Smith
vPICO presentations
| Wed, 28 Apr, 16:15–17:00 (CEST)
GM2.12 EDI

The introduction of terrestrial cosmogenic nuclides as a geochronology technique provided an important quantitative tool that spurred large developments in geomorphology and it continues to be an essential tool in this field. Cosmogenic nuclides are produced primarily in the top two meters of Earth’s surface, meaning they can be used to provide important information on the exposure ages of features at the surface, like river terraces, fault scarps or glacial moraines, burial ages of deep deposits, as well as quantitative information on the rates of surface processes, like erosion or weathering. Continued technique development and creative applications both continue to expand the ways we can use cosmogenic nuclides.

This session explores both technique developments and novel applications of cosmogenic nuclides, inviting projects at any stage from early development to well-established methods applied to novel situations. We invite any type of cosmogenic nuclide technique developments, including new measurement methods, laboratory techniques, modelling, or theoretical advancements. All cosmogenic nuclide applications in any field are welcome, but we especially encourage contributions using multiple nuclides, combinations with other geochronology techniques, and other creative applications.

Public information:
The introduction of terrestrial cosmogenic nuclides as a geochronology technique provided an important quantitative tool that spurred large developments in geomorphology and it continues to be an essential tool in this field. Cosmogenic nuclides are produced primarily in the top two meters of Earth’s surface, meaning they can be used to provide important information on the exposure ages of features at the surface, like river terraces, fault scarps or glacial moraines, burial ages of deep deposits, as well as quantitative information on the rates of surface processes, like erosion or weathering. Continued technique development and creative applications both continue to expand the ways we can use cosmogenic nuclides.

This session explores both technique developments and novel applications of cosmogenic nuclides, inviting projects at any stage from early development to well-established methods applied to novel situations. We invite any type of cosmogenic nuclide technique developments, including new measurement methods, laboratory techniques, modelling, or theoretical advancements. All cosmogenic nuclide applications in any field are welcome, but we especially encourage contributions using multiple nuclides, combinations with other geochronology techniques, and other creative applications.
Convener: Shasta MarreroECSECS | Co-conveners: Steven Binnie, Andrew Hein, Susan Ivy-Ochs, Angel Rodes
vPICO presentations
| Wed, 28 Apr, 13:30–14:15 (CEST)
CL5.1.4 EDI

The Quaternary Period (last 2.6 million years) is characterized by frequent and abrupt climate swings that were accompanied by rapid environmental change. Studying these changes requires accurate and precise dating methods that can be effectively applied to environmental archives. A range of different methods or a combination of various dating techniques can be used, depending on the archive, time range, and research question. Varve counting and dendrochronology allow for the construction of high-resolution chronologies, whereas radiometric methods (radiocarbon, cosmogenic in-situ, U-Th) and luminescence dating provide independent anchors for chronologies that span over longer timescales. We particularly welcome contributions that aim to (1) reduce, quantify and express dating uncertainties in any dating method, including high-resolution radiocarbon approaches; (2) use established geochronological methods to answer new questions; (3) use new methods to address longstanding issues, or; (4) combine different chronometric techniques for improved results, including the analysis of chronological datasets with novel methods, e.g. Bayesian age-depth modeling. Applications may aim to understand long-term landscape evolution, quantify rates of geomorphological processes, or provide chronologies for records of climate change.

Co-organized by GM2/SSP2, co-sponsored by PAGES
Convener: Arne RamischECSECS | Co-conveners: Irka Hajdas, Andreas Lang, Kathleen Wendt
vPICO presentations
| Wed, 28 Apr, 15:30–17:00 (CEST)

GM3 – Weathering, Soils, and Sediment Transport

Programme group scientific officer: Giulia Sofia

NH3.2 EDI

Debris flows are among the most dangerous natural hazards that threaten people and infrastructures in both mountainous and volcanic areas. The study of the initiation and dynamics of debris flows, along with the characterization of the associated erosion/deposition processes, is of paramount importance for hazard assessment, land-use planning and design of mitigation measures, including early warning systems. In addition, the impacts of climate change on debris-flow activity must be considered and carefully analysed, as the number of mountain areas prone to these events may increase in future.
A growing number of scientists with diverse backgrounds are studying debris flows and lahars. The difficulties in measuring parameters related to their initiation and propagation have progressively prompted research into a wide variety of laboratory experiments and monitoring studies. However, there is a need of improving the quality of instrumental observations that would provide knowledge for more accurate hazards maps and modeling. Nowadays, the combination of distributed sensor networks and remote sensing techniques represents a unique opportunity to gather direct observations of debris flows to better constrain their physical properties.
Scientists working in the field of debris flows are invited to present their recent advancements. In addition, contributions from practitioners and decision makers are also welcome. Topics of the session include: field studies and documentation, mechanics of debris-flow initiation and propagation, laboratory experiments, modeling, monitoring, impacts of climate change on debris-flow activity, hazard and risk assessment and mapping, early warning, and alarm systems.

Co-organized by GM3/HS9
Convener: Marcel Hürlimann | Co-conveners: Velio Coviello (deceased), Xiaojun Guo, Sara Savi
vPICO presentations
| Fri, 30 Apr, 09:00–15:00 (CEST)
NH3.3 EDI

Rockfalls, rockslides and rock avalanches are among the primary hazards in steep terrain. To better understand the processes driving rock slope degradation, mechanisms contributing to the triggering, transport, and deposition of resulting rock slope instabilities, and mitigation measures for associated hazards, we must develop insight into both the physics of intact and rock mass failure and the dynamics of transport processes.

This session aims to bring together state-of-the-art methods for predicting, assessing, quantifying, and protecting against rock slope hazards. We seek innovative contributions from investigators dealing with all stages of rock slope hazards, from weathering and/or damage accumulation, through detachment, transport and deposition, and finally to the development of protection and mitigation measures. In particular, we seek studies presenting new theoretical, numerical or probabilistic modelling approaches, novel data sets derived from laboratory, in situ, or remote sensing applications, and state-of-the-art approaches to social, structural, or natural protection measures.

Co-organized by GM3
Convener: Michael Krautblatter | Co-conveners: Anne Voigtländer, Axel Volkwein, Matthew Westoby
vPICO presentations
| Thu, 29 Apr, 15:30–17:00 (CEST)
NH3.5 EDI

The global increase in damaging landslide events is raising the attention of governments, practitioners and scientists to develop functional, reliable and (when possible) low cost monitoring strategies. Several case studies have demonstrated how a well-planned monitoring system of landslides is of fundamental importance for long and short-term risk reduction.
Today, the temporal evolution of a landslide is addressed in several ways, encompassing classical and more complex in situ measurements or remotely sensed data acquired from satellite and aerial platforms. All these techniques are adopted for the same final scope: measure landslide motion over time, trying to forecast its future evolution or at least to reconstruct its recent past. Real time, near-real time and deferred time strategies can be profitably used for landslide monitoring, depending on the type of phenomenon, the selected monitoring tool, and the acceptable level of risk.
The session follows the general objectives of the International Consortium on Landslides, namely: (i) promote landslide research for the benefit of society, (ii) integrate geosciences and technology within the cultural and social contexts to evaluate landslide risk, and (iii) combine and coordinate international expertise.
Considering these key conceptual drivers, we aim to present successful monitoring experiences worldwide based on both in situ and/or remotely sensed data. The integration and synergic use of different techniques is welcome, as well as newly developed tools or data analysis approaches (focusing on big data management). We expect case studies in which multi-temporal and multi-platform monitoring data are exploited for risk management and Civil Protection aims with positive effects in social and economic terms.

Co-organized by GM3
Convener: Lorenzo SolariECSECS | Co-conveners: Peter Bobrowsky, Mateja Jemec Auflič, Federico Raspini, Veronica Tofani
vPICO presentations
| Mon, 26 Apr, 09:00–10:30 (CEST)
NH3.6

This session covers both new scientific approaches and state-of-the-art techniques for investigating landslides, including Earth Observation (EO), Geophysical Surveying (GS) and close-range Remote Sensing techniques (RS).

A series of remarkable technological progresses are driven new scientific opportunities to better understand landslide dynamics worldwide, including integrated information about rheological properties, water content, rate of deformation and time-varying changes of these parameters through seasonal changes and/or progressive slope damage.

This session welcomes innovative contributions and lessons learned from significant case studies and/or original methods aiming to increase our capability to detect, model and predict landslide processes at different scales, from site specific to regional studies, and over multiple dimensions (e.g. 2D, 3D and 4D).

A special emphasis is expected not only on the particularities of data collection from different platforms (e.g. satellite, aerial, UAV, Ground Based...) and locations (e.g. surface- and borehole-based geophysics) but also on new solutions for digesting and interpreting datasets of high spatiotemporal resolution, landslide characterization, monitoring, modelling, as well as their integration on real-time EWS, rapid mapping and other prevention and protection initiatives. Examples of previous submissions include using one or more of the following techniques: optical and radar sensors, new satellite constellations (including the emergence of the Sentinel-1A and 1B), Remotely Piloted Aircraft Systems (RPAS) / Unpiloted Aerial Vehicles (UAVs) / drones, high spatial resolution airborne LiDAR missions, terrestrial LIDAR, Structure-from-Motion (SfM) photogrammetry, time-lapse cameras, multi-temporal DInSAR, GPS surveying, Seismic Reflection, Surface Waves Analysis, Geophysical Tomography (seismic and electrical), Seismic Ambient Vibrations, Acoustic Emissions, Electro-Magnetic surveys, low-cost sensors, commercial use of small satellites, Multi-Spectral images, etc. Other pioneering applications using big data treatment techniques, data-driven approaches and/or open code initiatives for investigating mass movements using the above-described techniques will also be very welcomed.

GUEST SPEAKER (to be confirmed). Previous guest speakers include prof. J. Chambers (British Geological Survey - UK) and prof. D. Jongmans (Isterre, Université Grenoble Alpes - France).

Co-organized by GI5/GM3
Convener: Antonio Abellan | Co-conveners: Oriol Monserrat, Janusz Wasowski, Masahiro Chigira, Jan BurjanekECSECS
vPICO presentations
| Mon, 26 Apr, 11:00–12:30 (CEST), 13:30–15:00 (CEST)
NH3.9

Large rock slope instabilities have been recognised under very different geological and environmental conditions, lithological and geological domains, and on other planets. Slow to extremely fast moving, complex mass movements have been recognized, sometimes described as interrelated or as evolution stages of a same phenomenon. Many types of slope instabilities can be grouped within this broad class, presenting different types of hazard and risk. This phenomena, triggered by earthquakes, rainfall, snowmelt or deglaciation can originate relevant cascade events (e.g. tsunamis, landslide dams and overtopping, flooding).
Major aspects of these instabilities are still debated:
- distribution both on Earth and other planets;
- triggering and controlling factors and events;
- dating of initial movements and reactivation episodes;
- style and state of past and present activity;
- passive and/or active control of structural features;
- possible displacement evolution and modelling;
- hazard assessment inclusive of cascade events;
- influence of anthropogenic factors and effects on structures;
- role on the erosional and sediment yield regime;
- technologies for monitoring and warning systems, and the interpretation of monitoring data.
Study of these instabilities is interdisciplinar and multidisciplinar. Site investigation, geophysical survey and dating techniques can support geometrical and geomechanical characterization, recognition of activity episodes, monitoring data interpretation for warning thresholds. Different hydrologic boundary conditions and hydrochemistry are involved, both at failure and during reactivations. Modelling is a key element for understanding and evaluating instability and failure (initiation, propagation), triggering (rainfall, seismicity, volcanic eruption, deglaciation), collapse, and secondary failures as well as the effect on the local and regional geomorphological evolution (e.g. sediment yield). Cascade-like events are definitively a possible result and advanced modeling techniques are requested for studying these phenomena and for reliable and robust hazard zonation. Size and evolution of large instabilities require major efforts when assessing the potential impacts on structures and infrastructures, and human activities enforcing a deep understanding and modeling. On the other hand, instabilities on other planets can support indirect environmental and geomechanical characterization.

Co-organized by GM3
Convener: Giovanni Crosta | Co-conveners: Federico Agliardi, Masahiro Chigira, Irene Manzella
vPICO presentations
| Mon, 26 Apr, 15:30–17:00 (CEST)
NH3.11

Many natural hazards can interact with each other and lead to or exacerbate the effects of additional catastrophic events, such as landslides following earthquakes, floods following snow-avalanches or landslides and floods induced simultaneously by heavy rainfall. According to the 2019 IPCC special report, the frequency and magnitude of mountain hazards, i.e. snow avalanches, floods due to glacier lake outburst (GLOF), flash-floods, rockfalls and landslides, are projected to increase in a scale never seen, potentially impacting new locations and/or occurring in different seasons than previously. In combination with growth in the population and economy, this changing landscape of mountain hazards will dramatically increase the risk to local populations, leading to growing economic damages in mountainous regions. Prediction of the areas threatened by such processes are a key part of hazard assessment in mountainous regions. Whatever the material transported (debris, snow, etc.), the mass wasting process involves determining the initiation mechanisms, initial volume, physical transport, and probable entrainment processes and as well as deposition mechanisms. Because of the number of scientific disciplines needed to solve it, there is a substantial benefit from inter- and transdisciplinary research. This session aims to serve as a forum, allowing discussion and debate on the future development of the field. In particular, we encourage presentations ranging from innovative monitoring and documentation methods related to hazard processes in mountain settings to studies focusing on an improved mechanical understanding of the physical processes involved, including modelling, laboratory research, and theoretical studies.

Co-organized by GM3
Convener: Roland Kaitna | Co-conveners: Elisabeth Bowman, Kristen Cook, Zakaria GhazouiECSECS, Romain Le Roux-MalloufECSECS, Brian McArdell, Jim McElwaine, Arnaud WatletECSECS
vPICO presentations
| Fri, 30 Apr, 15:30–17:00 (CEST)
NH6.4 EDI

Many regions worldwide are coping with the climatic global change, which is modifying the water cycle and is increasing the occurrence of extreme hydro-meteorological events. Floods and landslides across a territory could increase significantly respect to actual and past scenarios, causing a modification of the susceptibility of a region and of the frequency of natural hazards.
The use of techniques able to monitor and to improve the prediction of these phenomena at different scales and in scarcely instrumented regions is fundamental. Soil moisture and rainfall estimates measured through remote sensing techniques can furnish reliable and widespread data at different scales. For satellite rainfall measures, state-of-the-art products cover time series of tens of years (e.g., TRMM Multisatellite Precipitation Analysis, Global Precipitation Measurement, EUMETSAT). Regarding soil moisture, different products can bring reliable measurements from a local/landscape to continental scales (e.g., SMMR, AMSR2, SMOS, SMAP, Metop/ASCAT, Sentinel). Innovative products, as soil moisture derived rainfall, allow to retrieve rainfall from different satellite soil moisture products or integrating field measurements of precipitation. Thanks to the improvement of the spatial and temporal resolutions of all of these products, they could become a fundamental tool also for early warning system strategies.
This session aims to collect and present researches concerning the most recent progress on the use of soil moisture and rainfall data from remote sensing for the monitoring and the prediction of landslides and floods. Those phenomena can cause hazards and risks towards population and anthropic elements. We encourage presentations related to:
• inter-comparison and inter-validation between land surface models, remote sensing approaches and in-situ validation networks;
• evaluation and trend analysis of soil moisture or rainfall satellite time series for monitoring landslides or floods and for identifying their possible triggering conditions;
• implementation of satellite measures of rainfall and soil moisture in physically-based or data-driven methods for the prediction of landslides and floods;
• use of remote sensing products of soil moisture and rainfall in early warning system tools;
• use of remote sensing products for investigating the effects of climatic global changes on the susceptibility and hazards towards landslides and floods.

Co-organized by GM3/HS6
Convener: Massimiliano BordoniECSECS | Co-conveners: Luca CiabattaECSECS, Anne FelsbergECSECS, Gabriella Petaccia, Lu ZhuoECSECS
vPICO presentations
| Thu, 29 Apr, 09:00–09:45 (CEST)
SSS9.3 EDI

Soil is the largest carbon (C) reservoir in terrestrial ecosystems with twice the amount of atmospheric C and three times the amount in terrestrial vegetation. Carbon related ecosystem services include retention of water and nutrients, promoting soil fertility and productivity and soil resistance to erosion. In addition, changes in the soil C can have strong implications for greenhouse gas emissions from soil with implications in environmental health.

Drivers controlling C pools and its dynamics are multiple (e.g. land use/vegetation cover, climate, texture and bedrock, topography, soil microbial community, soil erosion rates, soil and other environment management practices, etc. ) and some of them are mutually interacting. Also, rate of net soil C loss can be high in some environments due to both climatic constrains or management. Thus, investigation of C dynamics should be addressed with regards to the climate change and climatic extreme events to provide a better understanding of carbon stabilization processes and thus support decision making in soil management and climate adaptation strategies.

The present session highlights the importance of soil C changes, and the interaction among the mechanisms affecting C concentration and stocks in soil. Discussion about the proxies to measure and model C stocks, with special emphasis to cropping systems and natural/semi-natural areas, is encouraged. These proxies should be approached at varying the availability of soil and environment information, including, e.g., soil texture, rainfall, temperature, bulk density, land use and land management, or proximal and remote sensing properties. Studies presented in this session can aim to a wealth of aims, including soil fertility, provision of ecosystem services, and their changes, and the implication for economy, policy, and decision making.

Types of contribution appreciated include, but are not limited to, definitive and intermediate results; project outcomes; proposal of methods or sampling and modelling strategies, and the assessment of their effectiveness; projection of previous results at the light of climate change and climatic extremes; literature surveys, reviews, and meta-analysis. These works will be evaluated at the light of the organisation of a special issue in an impacted journal

Co-organized by BG3/GM3
Convener: Sergio Saia | Co-conveners: Jorge Alvaro-Fuentes, Viktoriia Hetmanenko, Laura QuijanoECSECS, Calogero Schillaci
vPICO presentations
| Fri, 30 Apr, 13:30–15:00 (CEST)
SSS11.4 EDI

Well-designed experiments, measurement and modelling approaches are crucial methodologies in Soil Science, Geomorphology and Hydrology.

Depending on the specific research topic, a great variety of tempo-spatial scales is addressed. From raindrop impact and dust emission on field scale to the shaping of landscapes.

This virtual PICO-Session presents experiments, measurements and modelling approaches in the laboratory and the field investigating processes and quantities of soil detachment by wind, splash erosion and subsurface particle transport highlighting the role of vegetation, land use and harmonisation of experiments.

Co-organized by EOS2/GM3/HS13
Convener: Thomas IserlohECSECS | Co-conveners: Steffen Seitz, Miriam MarzenECSECS, Jorge Isidoro, Petr Kavka, Kazuki Nanko
vPICO presentations
| Tue, 27 Apr, 09:00–10:30 (CEST)
HS8.1.5 EDI

Dissolution, precipitation and chemical reactions between infiltrating fluid and rock matrix alter the composition and structure of the rock, either creating or destroying flow paths. Strong, nonlinear couplings between the chemical reactions at mineral surfaces and fluid motion in the pores often leads to the formation of intricate patterns: networks of caves and sinkholes in karst area, wormholes induced by the acidization of petroleum wells, porous channels created during the ascent of magma through peridotite rocks. Dissolution and precipitation processes are also relevant in many industrial applications: dissolution of carbonate rocks by CO2-saturated water can reduce the efficiency of CO2 sequestration, mineral scaling reduces the effectiveness of heat extraction from thermal reservoirs, acid rain degrades carbonate-stone monuments and building materials.

With the advent of modern experimental techniques, these processes can now be studied at the microscale, with a direct visualization of the evolving pore geometry. On the other hand, the increase of computational power and algorithmic improvements now make it possible to simulate laboratory-scale flows while still resolving the flow and transport processes at the pore-scale.

We invite contributions that seek a deeper understanding of reactive flow processes through interdisciplinary work combining experiments or field observations with theoretical or computational modeling. We seek submissions covering a wide range of spatial and temporal scales: from table-top experiments and pore-scale numerical models to the hydrological and geomorphological modelling at the field scale. We also invite contributions from related fields, including the processes involving coupling of the flow with phase transitions (evaporation, sublimation, melting and solidification).

Co-organized by ERE6/GM3/GMPV6
Convener: Linda Luquot | Co-conveners: Sylvain Courrech du Pont, Piotr Szymczak
vPICO presentations
| Fri, 30 Apr, 09:00–10:30 (CEST)
HS9.2 EDI

The transfer of sediments and associated contaminants play an important role in catchment ecosystems as they directly influence water quality, habitat conditions and biogeochemical cycles. Contaminants may include heavy metals, pesticides, nutrients, radionuclides, and various organic, as well as organometallic compounds. The environmental risk posed by sediment-bound contaminants is largely determined by the sources and rate at which sediments are delivered to surface water bodies, the residence time in catchments, lakes and river systems as well as biogeochemical transformation processes. However, the dynamics of sediment and contaminant redistribution is highly variable in space and time due to the complex non-linear processes involved. This session thus focuses on sources, transport pathways, storage and re-mobilization, and travel times of sediments and contaminants across temporal and spatial scales as well as their impact on catchment and freshwater ecosystems.

This session particularly addresses the following issues:
- Delivery rates of sediments and contaminants from various sources (i.e. agriculture, urban areas, mining, industry or natural areas);
- Transport, retention and remobilization of sediments and contaminants in catchments and river reaches;
- Modelling of sediment and contaminant transport on various temporal and spatial scales;
- Biogeochemical controls on contaminant transport and transformation;
- Studies on sedimentary processes and morphodynamics, particularly sediment budgets;
- Linkages between catchment systems and lakes, including reservoirs;
- Analysis of sediment archives to appraise landscape scale variations in sediment and contaminant yield over medium to long time-scales;
- Impacts of sediments and contaminants on floodplain, riparian, hyporheic and other in-stream ecosystems;
- Response of sediment and contaminant dynamics in catchments, lakes and rivers to changing boundary conditions and human actions.

Co-organized by GM3
Convener: Núria Martínez-Carreras | Co-conveners: Patrick Byrne, Marcel van der Perk, Ottavia ZoboliECSECS
vPICO presentations
| Mon, 26 Apr, 09:00–10:30 (CEST)
HS9.5 EDI

Water and sediments interact at different spatial and temporal scales in freshwaters promoting the development of highly dynamic systems. Erosion, transport and sedimentation are vital processes that shape river morphology. These dynamic processes, in turn, are essential to provide a mosaic of diverse habitat patches for aquatic species and to freshwater ecosystems functioning.
Anthropogenic activities such as flow regulations or dams lead to fragmentation and ecosystem degradation, interfering with natural hydro-morphodynamics and affecting aquatic ecology. In Europe, large efforts are set to restore disturbed river sections to meet the goals of a good ecological status, set by the Water Framework Directive. Experience to date indicates that integrating both physical and ecological processes in river restoration efforts is critical to freshwater ecosystems conservation. In this context, the interdisciplinary field of Ecohydraulics represents the link between abiotic components (e.g. hydrology, hydraulics, geomorphology) and riverine biota (e.g. vegetation, fish, macroinvertebrates). Advances in this field of research are therefore paramount to make future management decisions in freshwater systems.
This session aims at integrating the core research disciplines forming Ecohydraulics, from hydrology, hydraulics, fluvial geomorphology, and biology, but also social aspects to ensure a holistic assessment of rivers, lakes and reservoirs, and to enable the implementation of sustainable restoration measures.
We welcome both fundamental and applied research, presenting approaches at different spatio-temporal scales. They may include holistic tools and methods to improve the assessment, prediction and management of restoration and mitigation measures in aquatic systems, with a focus on the hydrological, fluvial geomorphological, and biological interactions.
Contributions may refer, but are not restricted, to:
- sediment transport, fluvial dynamics and sediment budgets in rivers
- risk analysis and mitigation in fluvial systems
- reservoir sedimentation: processes and management
- large wood and microplastic in aquatic systems
- nature-compatible river engineering and river development
- nature based solutions
- revitalization of river systems (from successful studies to failures in restoration)
- tools and methods (concepts, measurements, monitoring, modelling) to understand the interactions between fluvial processes and their biological responses

Co-organized by BG4/GM3
Convener: Stefan Haun | Co-conveners: Roser Casas-Mulet, Markus Noack, Lennart Schönfelder
vPICO presentations
| Wed, 28 Apr, 11:00–12:30 (CEST)
HS9.4 EDI

Complex hydro-morphological processes, such as sediment erosion, transport, deposition or fan development, affect open water environments, including rivers, estuaries as well as lakes and reservoirs. Consequently, many research tasks as well as practical applications rely on the correct prediction of these processes. During the last decades, numerical models have become a powerful tool in the research fields of hydraulic engineering and geosciences to simulate these hydro-morphological processes. With improved algorithms as well as an ever growing computational power, it became feasible to simulate the interaction of water, sediments and air with high resolution in space and time. In addition, with an increasing quantity and quality of validation data from laboratory experiments and field studies, numerical models are continuously enhanced so that many good examples of sediment transport modelling offer new insights in multiphase processes, e.g. dune development, river bed armoring or density driven transport. Hence, new generations of numerical modelling techniques open up the possibility to explore numerous outstanding research questions related to hydro-morphologic processes.
The main goal of this session is to bring together scientists and engineers, who develop, improve, and apply numerical models of multiphase flows for sediment transport in open water environments. We invite contributions that deal with numerical modelling from small-scale, such as bed structure development, to large-scale interactions, such as long-term development of hydro-morphological processes in rivers, lakes, reservoirs and estuaries.
Contributions may refer, but are not restricted, to:
• Entrainment processes of sediments (from cohesive sediments to armoured river beds)
• Bed load and suspended sediment transport processes (including flocculation processes)
• Simulation of sediment management including planning, operation and maintenance of hydro power plants
• Design and evaluation of restoration measures to revitalize rivers
• Navigation issues, such as sediment replenishment, dredging and erosion induced by ship generated waves
• Flood related issues of long term effects of morphological bed changes on flood security
• Eco-hydraulics such as flow – sediment – vegetation interaction
• Density driven transport

Co-organized by GM3
Convener: Bernhard Vowinckel | Co-conveners: Sándor Baranya, Katharina Baumgartner, Gabriele Harb, Nils Rüther
vPICO presentations
| Tue, 27 Apr, 15:30–17:00 (CEST)
GM3.17 EDI

The production, transport, and deposition of sediment govern the fluxes and distribution of solid mass on the surface of the Earth. The frequency, magnitude, and physical and chemical properties of these fluxes are initially controlled by external forcing (climate and tectonics) before being modulated by the complex interplay of surface processes. Understanding the interplay of these processes and how they are affected by external forcing is vital to understanding how sediment fluxes have changed through time.
A growing body of studies continues to develop a process-based understanding of the coupling between climate, tectonics, and the production and transport of solids across catchments. Important insights into sediment recycling and residence time have been provided by recent advances in geochemical and geophysical techniques, highlighting the dynamic nature of sediment transport. However, many challenges remain including; (1) fully quantifying the temporal- and spatial scales of sediment transport, (2) assessing the importance of large and infrequent events in controlling erosion and sediment transport and, (3) bridging the gap between short- and long-term or small- and large-scale records of sediment production and fluxes.
In this session we welcome field-based, experimental, and modelling studies, that (1) constrain mechanisms, rates, and scales of erosion, transport, and deposition processes, (2) analyse the influence of internal and external forcing on these processes, (3) investigate the propagation of geochemical or physical signals across the earth surface (such as changes in sedimentary fluxes, grain size distributions, cosmogenic nuclide concentrations).
Contributions across all temporal and spatial scales are welcome.

Invited presentation : Sebastien Carretier - Delayed sedimentary grains

Co-organized by SSP3
Convener: Oliver FrancisECSECS | Co-conveners: Aaron BufeECSECS, Lisa HarrisonECSECS, Stefanie TofeldeECSECS
vPICO presentations
| Tue, 27 Apr, 11:00–12:30 (CEST)

GM4 – Hillslopes, Catchments and Landscape

Programme group scientific officer: Kristen Cook

SSS2.7 EDI

Soil erosion is a major global soil degradation threat to land, freshwater and oceans. Scientific understanding of all erosional physical processes controlling soil detachment, transportation, and deposition is vital when developing methods and conservation alternatives to minimize the impacts associated with soil degradation.

This session will discuss the State-of-the-Art of the latest soil erosion measurements, monitoring and modelling techniques in agriculture, forest and rangelands. Our main objective is to scientifically discuss soil erosion but also to explore/present solutions that may help farmers and policy makers; supporting the ongoing activities aiming at achieving the SDG Target 15.3 land degradation neutral world by 2030 and the upcoming UN Decade on Ecosystem Restoration (2021-2030). This session will also discuss recent studies supporting improved understanding of gully and rill erosional physical processes, their impact locally, their off-site effects on sedimentation, and subsequent development of mitigation strategies.

Co-organized by GM4/NH8
Convener: Pasquale Borrelli | Co-conveners: Henrique Momm, Panos Panagos, Rafael Giménez, Robert Wells, Rafael Muñoz-Carpena, Diana VieiraECSECS
vPICO presentations
| Mon, 26 Apr, 11:00–12:30 (CEST), 13:30–15:00 (CEST)
NH3.1

Landslides are ubiquitous geomorphological phenomena with potentially catastrophic consequences. In several countries, landslide mortality can be higher than that of any other natural hazard. Predicting landslides is a difficult task that is of both scientific interest and societal relevance that may help save lives and protect individual properties and collective resources. The session focuses on innovative methods and techniques to predict landslide occurrence, including the location, time, size, destructiveness of individual and multiple slope failures. All landslide types are considered, from fast rockfalls to rapid debris flows, from slow slides to very rapid rock avalanches. All geographical scales are considered, from the local to the global scale. Of interest are contributions investigating theoretical aspects of natural hazard prediction, with emphasis on landslide forecasting, including conceptual, mathematical, physical, statistical, numerical and computational problems, and applied contributions demonstrating, with examples, the possibility or the lack of a possibility to predict individual or multiple landslides, or specific landslide characteristics. Of particular interest are contributions aimed at: the evaluation of the quality of landslide forecasts; the comparison of the performance of different forecasting models; the use of landslide forecasts in operational systems; and investigations of the potential for the exploitation of new or emerging technologies e.g., monitoring, computational, Earth observation technologies, in order to improve our ability to predict landslides. We anticipate that the most relevant contributions will be collected in the special issue of an international journal.

Co-organized by GM4
Convener: Filippo Catani | Co-conveners: Xuanmei Fan, Fausto Guzzetti, Binod Tiwari
vPICO presentations
| Tue, 27 Apr, 11:45–15:00 (CEST)
SSS8.2 EDI

The present context of accelerated changes in both climate and land use imposes an unprecedent pressure on a number of vulnerable ecosystems including wetlands, forests and rangelands, in which vegetation closely interacts and coevolves with soils and landforms. Complex interactions between climate, soils and biotic factors are involved in the development of landform-soil-vegetation feedbacks and play an important role in making ecosystems resilient to disturbances. In addition, large shifts in the distribution of vegetation and soils are associated with losses of ecosystem services (including carbon capture), frequently involving thresholds of ecosystem stability and nonlinear responses to both human and climatic pressures. This session will focus on ecogeomorphological and ecohydrological aspects of landscapes (including their connectivity), conservation of soil resources, and the restoration of ecosystem services and functions. We welcome theoretical, modelling, and empirical studies addressing the distribution of vegetation and coevolving soils and landforms, and particularly, contributions with a wide appreciation of the soil erosion-vegetation relationships that rule the formation of landscape-level spatial organization. We also welcome studies describing the implications of these spatial patterns of soils and vegetation for the resilience and stability of ecosystems under the pressure of climate change and/or human disturbances.

Co-organized by BG1/GM4
Convener: Jose Rodriguez | Co-conveners: Mariano Moreno de las Heras, Patricia Saco, Omer YetemenECSECS
vPICO presentations
| Fri, 30 Apr, 15:30–17:00 (CEST)
SSS9.6 EDI

Wildfires are a global phenomenon responsible for tremendous environmental, social and economic losses, which combined with land abandonment, absence of appropriate land management, and urban planning, are expected to exacerbate land degradation and deteriorate the ecosystem services.
But now, wildfires are becoming a persistent threat as shown by the fire risk increase as a consequence of a warmer and drier climate, demanding from the scientific community novel tools for integrated post-fire land management and impact mitigation. This research urges the attention of researchers, stakeholders and decision-makers all over the world since wildfire impacts on soils and ecosystems are severely affecting ecosystem services supply such as raw material and water provisioning, carbon storage, erosion and flood control, and habitat support, which are essential for human life on earth.
The aim of this session is to join researchers that study the effects of wildfires on ecosystems from wildfire prevention to post-fire mitigation. We warmly invite studies that approach by means of laboratory, field experiments, and/or numerical modeling, the following subjects:
i. prescribed and/or experimental fires;
ii. fire severity and burn severity;
iii. fire effects on vegetation, soils and water;
iv. post-fire hydrological and erosive response;
v. post-fire management and mitigation;
vi. , and socio-economic studies on post-fire land management.

Co-organized by GM4/NH7
Convener: Diana VieiraECSECS | Co-conveners: Domina DelačECSECS, Ian E. Floyd, Paulo Pereira
vPICO presentations
| Wed, 28 Apr, 13:30–17:00 (CEST)
HS9.1

Obtaining quantitative information on the spatial pattern of soil redistribution during storms and on the spatial sources supplying sediment to rivers is required to improve our understanding of the processes controlling these transfers and to design effective control measures. It is also crucial to quantify the transfer or the residence times of material transiting rivers along the sediment cascade, and to reconstruct the potential changes in sources that may have occurred at various temporal scales. During the last few decades, several sediment tracing or fingerprinting techniques have contributed to provide this information, in association with other methods (including soil erosion modelling and sediment budgeting). However, their widespread application is limited by several challenges that the community should address as priorities.
We invite specific contributions to this session that address any aspects of the following:
• Developments of innovative field measurement and sediment sampling techniques;
• Soil and sediment tracing techniques for quantifying soil erosion and redistribution;
• Sediment source tracing or fingerprinting studies, using conventional (e.g. elemental/isotopic geochemistry, fallout radionuclides, organic matter) or alternative (e.g. colour, infrared, particle morphometry) approaches;
• Investigations of the current limitations associated with sediment tracing studies (e.g. tracer conservativeness, uncertainty analysis, particle size and organic matter corrections);
• Applications of radioisotope tracers to quantify sediment transit times over a broad range of timescales (from the flood to the century);
• The association of conventional techniques with remote sensing and emerging technologies (e.g. LiDAR);
• Integrated approaches to developing catchment sediment budgets: linking different measurement techniques and/or models to understand sediment delivery processes.

Co-organized by GM4
Convener: Olivier Evrard | Co-conveners: Gema Guzmán, Hugh Smith
vPICO presentations
| Mon, 26 Apr, 11:00–12:30 (CEST)
GM4.13 EDI

Denudation and land cover change are of high relevance for Earth surface and landscape dynamics and the transfer of solutes and sediments from headwater systems through main stem of drainage basin systems to the world oceans. Denudational hillslope and fluvial processes, associated source-to-sink fluxes and sedimentary budgets are controlled by a range of environmental drivers and anthropogenic activities, exacerbated by the consequences of climate change.
The better understanding of possible effects of ongoing and accelerated environmental changes on present-day denudation requires systematic and quantitative studies on the actual drivers of denudational and land cover processes. Only if we have an improved quantitative knowledge of drivers and rates of contemporary denudational hillslope and fluvial processes as well as of the sediment and hydrological connectivity across a range of different spatio-temporal scales and selected climatic zones, the possible effects of anthropogenic impacts and natural disturbances on terrestrial landscape systems could be detected and better assessed. Scientific focus is on the geomorphic effects and consequences of increased frequencies, durations and intensities of dry spells, droughts, fires, storms, extreme rainfall events and floods, of accelerated permafrost thawing, glacier retreat, earthquakes, and of mineral exploration, mining exploitation and infrastructure constructions.
Special attention should be given to selected cold climate, temperate, arid and tropical regions that are expected to react particularly sensitive to ongoing and accelerated environmental changes.
This session includes contributions from geomorphology, hydrology, agricultural science, soil science, geotechnics and environmental engineering. The presentations cover a wide range of different spatial scales, from hillslope and small headwater systems to large drainage basin systems. The session brings together and discusses a wide range of advanced techniques and methods of data collection and generation, including field-based, laboratory-based, remotely-sensed and dating techniques together with various approaches and methods of data analysis and geomorphologic modelling.
This session is co-organized by the IAG Working Group on Denudation and Environmental Changes in Different Morphoclimatic Zones (DENUCHANGE).

Co-organized by HS13, co-sponsored by IAG
Convener: Achim A. Beylich | Co-conveners: Alessio CislaghiECSECS, Katja Laute, Ana Navas, Olimpiu Pop, Elmar SchmaltzECSECS, Stefan StegerECSECS, Zbigniew Zwoliński
vPICO presentations
| Thu, 29 Apr, 15:30–17:00 (CEST)
GM4.15 EDI

Mountain belts are characterized by the fastest rates of physical erosion and chemical weathering around the world, making them one of the best places to observe sediment production (e.g. erosion, weathering) and transport processes. In these settings, varied processes such as rockfall, debris flow, hillslope failure, glacial and periglacial erosion, fluvial erosion, transport and deposition, and chemical weathering operate, often simultaneously, over a wide range of temporal and spatial scales.

As a result, tracking the interactions between denudation, climatic forcing, tectonic activity, vegetation and land use is complex. However, these feedbacks affect both long- and short-term natural surface processes, landscape development, and human interactions with the environment. Many of these processes also pose serious threats to the biosphere, mountain settlements and infrastructure. Therefore, understanding and quantifying rates of erosion, weathering, and deposition within mountain landscapes is a challenging, but crucial research topic in Earth surface processes.

We welcome contributions that (1) investigate the processes of production, mobilisation, transport, and deposition of sediment in mountain landscapes, (2) explore feedbacks between erosion and weathering due to natural and anthropogenic forcings, and (3) consider how these processes contribute to natural hazards specific to mountain landscapes. We invite presentations that employ observational, analytical or modeling approaches in mountain environments across a variety of temporal and spatial scales. We particularly encourage early career scientists to apply for this session.

Co-organized by SSP3
Convener: Erica Erlanger | Co-conveners: Eric DealECSECS, Elizabeth DingleECSECS, Emma GrafECSECS
vPICO presentations
| Wed, 28 Apr, 09:00–10:30 (CEST)
GM4.16 EDI

Hydro-geomorphic connectivity has emerged as a significant conceptual framework for understanding the transfer of surface water and materials (e.g., sediment, plant propagules, and nutrients) through landscapes. The concept has had particular success in the field of catchment hydrology and fluvial geomorphology, but has also been employed in, for example, studies of soil erosion and hydrochory, and in neurosciences and social sciences. Connectivity as applied in various disciplines can be a transformative concept in understanding complex systems, allowing analyses of how such systems behave in terms of scaling, catastrophic/phase transitions, critical nodes, emergence and self-organization. However, recent research also highlights the widespread nature of natural longitudinal disconnectivity in river systems, such as beaver dams, log jams, lakes and wetlands. These and other forms of natural disconnectivity can have large spatial and temporal implications on ecological, geomorphic, hydrological and biogeochemical processes through buffering water and material fluxes. We aim to create a diverse interdisciplinary session that reflects a broad range of research seeking to illustrate the role of connectivity on various spatial scales as well as implications of and temporal and spatial variability of disconnectivity. We hope to use the session to develop a discussion of the dual roles of connectivity and disconnectivity to generate a basis for an integrated framework to be applied across the sciences in hydro-geomorphic systems and for managing complex systems and guiding river restoration.

Co-organized by HS13, co-sponsored by IAG
Convener: Ronald PöpplECSECS | Co-conveners: Lina Polvi SjöbergECSECS, Laura Turnbull-Lloyd, Anthony Parsons
vPICO presentations
| Thu, 29 Apr, 11:00–12:30 (CEST)
SSP2.7 EDI

Terrestrially derived sediments in sedimentary archives are regularly used to reconstruct past climatic or tectonic conditions. Sediments are generally produced in mountainous areas and transported via sediment routing systems (SRS) to a zone of final deposition. Environmental reconstructions are based on the assumption that perturbations in climatic or tectonic conditions generate signals within the transported sediment. However, experimental and numerical studies have shown that not all signals are faithfully transmitted, but can be modified, buffered or even lost during transport along the SRS. Oftentimes, it is stated that signals can only be faithfully transmitted if the response time of the SRS is short relative to the period of the forcing. However, individual signals in response to a perturbation can already be generated early during the transient response phase. Hence, signals can be transported through and stored within the SRS as a measurable change of a sedimentary parameter (or ‘proxy’) even before the SRS has returned to steady state conditions, i.e. before the characteristic response time has passed. Therefore, it is important to gain quantitative insight into the time scales required for a portion of sediment, which carries a change in proxy information, to travel to the sedimentary archive.
We seek to bring together new concepts and results on sedimentary proxy generation during environmental changes, as well as proxy transport and archiving during the transient state of the SRS. We welcome studies addressing, but not limited to, the following themes:

• Numerical & analog modeling of proxy generation, transport and deposition along sediment routing systems
• Field studies of proxy generation, transport and deposition along sediment routing systems
• Comparison of proxy propagation measured on different grain-size ranges
• Tracing of environmental signals through a system
• Novel proxy methodologies
• The connectivity of sediment routing systems and proxy transport

This session will be supported by a special issue in Frontiers in Earth Sciences.

Co-organized by GM4
Convener: Stefanie TofeldeECSECS | Co-conveners: Anne Bernhardt, Laure Guerit, Brian Romans
vPICO presentations
| Thu, 29 Apr, 09:00–10:30 (CEST)

GM5 – Riverine Geomorphology

Programme group scientific officer: Kristen Cook

GM5.1

Fluvial systems cover much of the Earth’s surface; they convey water, sediments, and essential nutrients from the uplands to the sea, intermittently transferring these materials from the river channel to the adjacent floodplain. The routing of sediment and water through the channel network initiates complex process-form interactions as the river bed and banks adjust to changes in flow conditions. Despite their ubiquity, little is known about the landform-driven morphodynamic interactions taking place within the channel that ultimately determine patterns of sedimentation and changes of channel form. Furthermore, an understanding of how these process-form interactions scale with the size of the fluvial system is also currently lacking. Recent technological and methodological advances now afford us the opportunity to study and to quantify these process-form interactions in detail across a range of spatial and temporal scales.

This session aims to bring together interdisciplinary researchers working across field, experimental, and numerical modelling approaches who are advancing methods and providing new insights into: (i) sediment transport and morphodynamic functioning of fluvial systems, (ii) evaluating morphological change at variable spatial and temporal scales, such as at event vs. seasonal scales, and (iii) investigating the sedimentology of these river systems. We particularly welcome applications which investigate the morphodynamic response of fluvial systems in all types and sizes and we specifically would like to encourage submissions from early career researchers and students.

Co-organized by HS13/SSP3
Convener: Christopher HackneyECSECS | Co-conveners: Joshua Ahmed, László BertalanECSECS, Eliisa Lotsari
vPICO presentations
| Fri, 30 Apr, 09:00–12:30 (CEST)
GM5.2 EDI

Rivers in most parts of the world are experiencing ever strong disturbances of humans, which, in combination with climate change, have made river systems adjust their morphologies and boundaries significantly, resulting in a wide range of degradation in aquatic habitats, extinction of fish species, loss of flood-retaining areas etc. To minimize these negative effects, it is necessary to provide convincing predictions of the adjustments of river systems to the public and decision makers. However, rivers are dynamic systems that are too variable and behave in very complex manners. A lot of theoretical and numerical modelling frameworks have been proposed and practiced for quantitatively predicting the self-adjustments of river morphologies over the last several decades, and it is necessary to evaluate the physical/empirical bases and practical applicabilities of available theoretical and modelling frameworks so as to advance theory and modelling of river systems. This session aims to explore advances in modelling of river systems responding to environmental change, and identify possible links between simulated or projected changes, and the erosion mechanics that are in part responsible for these changes.

Public information:
Rivers in most parts of the world are experiencing ever strong disturbances of humans, which, in combination with climate change, have made river systems adjust their morphologies and boundaries significantly, resulting in a wide range of degradation in aquatic habitats, extinction of fish species, loss of flood-retaining areas etc. To minimize these negative effects, it is necessary to provide convincing predictions of the adjustments of river systems to the public and decision makers. However, rivers are dynamic systems that are too variable and behave in very complex manners. A lot of theoretical and numerical modelling frameworks have been proposed and practiced for quantitatively predicting the self-adjustments of river morphologies over the last several decades, and it is necessary to evaluate the physical/empirical bases and practical applicabilities of available theoretical and modelling frameworks so as to advance theory and modelling of river systems. This session aims to explore advances in modelling of river systems responding to environmental change, and identify possible links between simulated or projected changes, and the erosion mechanics that are in part responsible for these changes.
Co-organized by HS13, co-sponsored by IAG
Convener: Shawn Chartrand | Co-conveners: He Qing Huang, Paul Carling, Ian D. Rutherfurd, Alexander BeerECSECS, Claire Masteller, Matteo SalettiECSECS
vPICO presentations
| Tue, 27 Apr, 13:30–15:00 (CEST)
GM5.4 EDI

Transport of sediments in geophysical flows occurs in mountainous, fluvial, estuarine, coastal, aeolian and other natural or man-made environments on Earth and has been shown to play important formative roles in planets and satellites such as Mars, Titan, and Venus. Understanding the motion of sediments is still one of the most fundamental problems in hydrological and geophysical sciences. Such processes can vary across a wide range of scales - from the particle to the landscape - which can directly impact both the form (geomorphology) and, on Earth, the function (ecology and biology) of natural systems and the built infrastructure surrounding them. In particular, feedback between flow and sediment transport as well as interparticle interactions including size sorting are a key processes in surface dynamics, finding a range of important applications, from hydraulic engineering and natural hazard mitigation to landscape evolution and river ecology.

Specific topics of interest include (but are not restricted to):

A) particle-scale interactions and transport processes:
-mechanics of entrainment and disentrainment (for fluvial and aeolian flows)
-momentum (turbulent impulses) and energy transfer between turbulent flows and particles
-upscaling and averaging techniques for stochastic transport processes
-interaction among grain sizes in poorly sorted mixtures, including particle segregation

B) reach-scale sediment transport and geomorphic processes
-bedform generation, evolution and disintegration dynamics (e.g. for dunes and other formations)
-discrete element modelling of transport processes and upscaling into continuum frameworks
-derivation and solution of equations for multiphase flows (including fluvial and aeolian flows)
-shallow water hydro-sediment-morphodynamic processes

C) large-scale, highly unsteady and complex water-sediment flows:
-flash floods, debris flows and landslides due to extreme rainfall
-natural and build dam failures and compound disasters (due to landslides, debris flow intrusion and downstream flooding)
-reservoir operation schemes and corresponding fluvial processes
-design of hydraulic structures such as fish passages, dam spillways, also considering the impact of sediment
-dredging, maintenance and regulation for large rivers and navigational waterways

Co-organized by NH1
Convener: Manousos Valyrakis | Co-conveners: Zhixian Cao, Rui Miguel Ferreira, Eric Lajeunesse, Anita Moldenhauer-RothECSECS
vPICO presentations
| Fri, 30 Apr, 13:30–17:00 (CEST)

GM6 – Coastal and Submarine Geomorphology

Programme group scientific officer: Andrea Madella

NH5.3 EDI

Tsunamis and storm surges pose significant hazards to coastal communities around the world. Geological investigations, including both field studies and modelling approaches, significantly enhance our understanding of these events. Past extreme wave events may be reconstructed based on sedimentary and geomorphological evidence from low and high energy environments, from low and high latitude regions and from coastal and offshore areas. The development of novel approaches to identifying, characterising and dating evidence for these events supplements a range of established methods. Nevertheless, the differentiation between evidence for tsunamis and storms still remains a significant question for the community. Numerical and experimental modelling studies complement and enhance field observations and are crucial to improving deterministic and probabilistic approaches to hazard assessment. This session welcomes contributions on all aspects of paleo-tsunami and paleo-storm surge research, including studies that use established methods or recent interdisciplinary advances to reconstruct records of past events, or forecast the probability of future events.

Co-organized by GM6/SSP3
Convener: Ed GarrettECSECS | Co-conveners: Dominik Brill, Max Engel, Simon Matthias May, Jessica Pilarczyk
vPICO presentations
| Tue, 27 Apr, 13:30–15:00 (CEST)
GM6.3 EDI

The ocean floor hosts a tremendous variety of forms that reflect the action of a range of tectonic, sedimentary, oceanographic and biological processes at multiple spatio-temporal scales. Many such processes are hazards to coastal populations and offshore installations, and their understanding constitutes a key objective of national and international research programmes and IODP expeditions. High quality bathymetry, especially when combined with sub-seafloor and/or seabed measurements, provides an exciting opportunity to integrate the approaches of geomorphology and geophysics, and to extend quantitative geomorphology offshore. 3D seismic reflection data has also given birth to the discipline of seismic geomorphology, which has provided a 4D perspective to continental margin evolution.

This interdisciplinary session aims to examine the causes and consequences of geomorphic processes shaping underwater landscapes, including submarine erosion and depositional processes, submarine landslides and canyons, sediment transfer and deformation, volcanic activity, fluid migration and escape, faulting and folding, and other processes acting at the seafloor. The general goal of the session is to bring together researchers who characterise the shape of past and present seafloor features, seek to understand the sub-surface and surface processes at work and their impacts, or use bathymetry and/or 3D seismic data as a model input. Contributions to this session can include work from any depth or physiographic region, e.g. oceanic plateaus, abyssal hills, mid-ocean ridges, accretionary wedges, and continental margins (from continental shelves to abyss plains). Datasets of any scale, from satellite-predicted depth to ultra high-resolution swath bathymetry, sub-surface imaging and sampling, are anticipated.

This session is organised by the IAG Submarine Geomorphology Working Group.

Co-organized by OS4/SSP3, co-sponsored by IAG
Convener: Aaron Micallef | Co-conveners: Sebastian Krastel, Alessandra Savini
vPICO presentations
| Thu, 29 Apr, 11:00–12:30 (CEST)
GM6.4 EDI

Coastal wetland ecosystems, such as salt marshes, mangroves, seagrass beds and tidal flats, are under increasing pressure from natural and anthropogenic processes shifting climatic conditions, and are declining in area and habitat quality globally. These environments provide numerous ecosystem services, including flood risk mediation, biodiversity provision and climate change mitigation through carbon storage. Hence, the need to get a deeper understanding of processes and interactions in these environments, and how these may be altered by climate change has never been greater. This is the case for ‘managed’, restored wetlands and natural systems alike.
This session will bring together studies of coastal wetland ecosystems across climates and geomorphic settings, to enhance the understanding of ecosystem service provisioning, interactions between hydrodynamics, sediment and ecology, and identify 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, biogeochemistry, morphological characterisation, geotechnical analysis, bio-morphodynamics, ecological change and evolution, impact of climate change, sea level rise, anthropogenic and management implications. Multidisciplinary approaches across spatial and temporal scales are encouraged, especially in relation to global climate change. This session aims to enhance our understanding of basic processes governing coastal wetland dynamics and to propose sustainable management solutions for contemporary environmental pressures.

Co-organized by BG4/HS13
Convener: Mark Schuerch | Co-conveners: Thorsten Balke, Helen BrooksECSECS, Ruth Reef, Christian SchwarzECSECS
vPICO presentations
| Wed, 28 Apr, 11:00–12:30 (CEST)
GM6.5 EDI

Low-lying coastal areas can be an early casualty to the acceleration of sea-level rise, especially where enhanced by land subsidence. An ever increasing number of studies indicates that land subsidence due to natural and anthropogenic causes has induced damage to wetland ecosystems in many countries worldwide, and increased flooding hazard and risk. Coastal subsidence causes include excessive groundwater extraction from aquifers, peat oxidation due to surface water drainage through land reclamation, urbanization and agricultural use, as well as sediment starvation due to construction of dams and artificial levees. Contrary to the global processes behind sea-level rise, natural and anthropogenic coastal subsidence is primarily a local phenomenon, and causes and severity may vary substantially from place to place.

The combination of geological and historical measurements with remote sensing data is required to understand all drivers of coastal vertical land motion and the contributions to past, present, and future subsidence. Understanding coastal subsidence requires multidisciplinary expertise, including measuring and modeling techniques from geology, geodesy, natural hazards, oceanography, hydrogeology, and geomechanics. In this session, we aim to bring together all the involved disciplines. We invite contributions on all aspects of coastal subsidence research and applications, including recent advances on: i) measurement through ground-based, aerial and satellite remote sensing techniques, ii) numerical models and future projections, iii) their applicability to distinguish between the different drivers contributing to land subsidence, and iv) quantification of coastal hazards associated with relative sea-level rise. In particular, efforts towards characterizing human intervention on coastal vertical land motion are welcomed.

Co-organized by G3/NH5
Convener: Makan A. KaregarECSECS | Co-conveners: Francesca Cigna, Simon Engelhart, Thomas FrederikseECSECS
vPICO presentations
| Wed, 28 Apr, 14:15–15:00 (CEST)
GM6.6 EDI

Coasts worldwide face a great variety of environmental impacts as well as increased anthropogenic pressures of coastal zone urbanization and rapid population growth. Over the last decade coastal erosion has emerged as a widespread problem that causes shoreline retreat and irreversible land losses. The attempts of managers and other stakeholders to cope with erosion using different types of hard engineering methods may often aggravate this problem, damaging natural landscape and coastal ecosystems in unexpected and unpredicted ways. Other negative impacts of human activities on littoral environments are chronic and punctual pollution of beach and coastal sediments with associated health risks for human beings. Chronic pollution is often observed in coastal areas close to factories, industries and human settlements - because of waste water discharges, punctual contamination is often linked to beach oiling.
The session gives priority to the subjects of coastal geomorphology: evolution of coastal landforms, coastal morphodynamics, coastline alterations and various associated processes in the coastal zone, e.g. waves and sediment drift, which shape coastal features and cause morphological changes. Contributions to this session will focus on the mechanisms responsible for coastal erosion and shoreline behaviour (advance or retreat) and will address the many natural and human factors involved. The topics may include work on predictions of shoreline change and discussions on the effects of human activities and their continuing contribution to coastal changes. The session will also cover submissions on coastal vulnerability to the combined effects of natural and human-related hazards, any type of coastal and environmental sensitivity classifications, and risk assessments. Globally, coastal dunes are seriously threatened as people tend to modify landforms and habitats through their actions and regulations, and the session invites also studies on natural and human-induced geomorphological changes of sand dunes, and recent projects and examples of dune eco-restoration and re-building.
Last, but not the least, studies related to Marine Spatial Planning (MSP), including Integrated Coastal Management (ICM), are also welcome. For any MSP and ICM, it is essential to consider the dynamics across the land-sea interface, i.e. the Land-Sea Interactions (LSI) that involve both natural processes and the impact of human activities.

Co-organized by NH5
Convener: Hannes Tõnisson | Co-conveners: Giorgio Anfuso, Andreas Baas, Guillaume BrunierECSECS, Margarita Stancheva
vPICO presentations
| Wed, 28 Apr, 13:30–14:15 (CEST)
GM6.7 EDI

Under the umbrella of the INQUA Coastal and Marine Processes Commission, (www.inqua.org/commissions/cmp) the Neptune project was launched early 2020 as a working group for Early Career Scientists aiming to develop multidisciplinary techniques to analyze and reconstruct past landscapes.
Special attention is paid to the technological content, considering that the recent technological innovation applied to geo-acoustic and remote sensing methods opened numerous new possibilities of high-resolution mapping of wide coastal areas, seabed morphologies, and underwater archaeological structures.
The project is placed in the context of regional and local scale studies on coastal landscape changes both on- and offshore, from the back-shore zone to the continental shelf.
Furthermore, such information is crucial to assess the potential impact of relative sea-level rise and to prepare the adaptation of coastal communities threatened by climate change. We focus our attention on the Mediterranean basin, but we are open to researchers working in other geographic areas to provide a broader perspective on the open questions.
In this session at the EGU 2021, we call for contributions applying modern methodological approaches in the coastal zone investigating shifting shorelines, sea-level changes, and aiming at reconstructing landscapes.

Convener: Martin SeeligerECSECS | Co-conveners: Claudia CaporizzoECSECS, Gaia MatteiECSECS, Ana NovakECSECS, Livio RonchiECSECS
vPICO presentations
| Wed, 28 Apr, 14:15–15:00 (CEST)
GM6.8 EDI

Detailed maps of the seabed, portraying the spatial distribution of geomorphic features, substrates, and habitats, are used for a wide range of environmental, scientific, and economic maritime applications. These maps are the scientific basis for informed ocean and coastal management at local to regional scales, and thereby provide cornerstones to national and international nature-conservation policies. Fundamental to seabed mapping are acoustic remote-sensing technologies, which include singlebeam and multibeam echosounders, along with sidescan, interferometric, and synthetic-aperture sonars. These are deployed on various platforms including crewed and uncrewed surface and underwater vessels. In relatively shallow and transparent waters, optical methods such as aircraft and satellite-based remote sensing and LiDAR are employed with increasing success. Innovative processing and classification software, image analysis, machine and deep-learning applications are advancing developments in seabed-recognition techniques, the application of which is increasing the resolution and confidence in the maps produced. We welcome submissions that provide insights into new developments, methods, and results in the field of seabed mapping and classification. This session also aims to showcase a range of applications for these datasets.

Co-organized by ESSI1/OS4
Convener: Markus Diesing | Co-conveners: Maria Judge, Benjamin MisiukECSECS, Rachel Nanson
vPICO presentations
| Thu, 29 Apr, 09:00–10:30 (CEST)
GM6.9 EDI

Worldwide over 500 million people live in low-lying coastal deltaic areas, existential to global food security, economic activities and biodiversity. Despite climate change severity at global scale, in many densely populated deltas its effect is currently evidently dwarfed by anthropogenic pressures in the river basin such as river flow modifications, damming and the overexploitation of the natural resources groundwater or sand, as well as profound land use changes and process such as urbanisation. As a result, many major deltas rapidly sink and shrink because of accelerated land subsidence and erosion rates. This increases relative sea-level rise and vulnerability to floods and storms, increases salinization of surface and groundwater and reduces freshwater availability, leading to significant losses in biodiversity, habitat degradation, reduced agricultural and economic productivity. A fundamental change in management approach is required to address these trends and challenges to sustain deltas environments, economies and populations through the 21st Century.

The processes resulting in sinking, shrinking and saltier deltas are interconnected and developing sustainable and inclusive management requires a multidisciplinary system approach. For this, we need to understand the full range of interrelated disciplines, including, amongst others, geology, river and estuarine dynamics, sediment dynamics, hydrology, hydrogeology, geomechanics, bio-morphodynamics as well as the human dimension of delta demography, economy and land use. This session aims to bring together contributions from the full range of scientific disciplines involved in understanding and managing the combined integrated environmental threats that our world’s deltas face. These includes recent advancements in measuring, modeling and projecting environmental dynamics, especially focused on distinguishing (quantifying) anthropogenic and climate change impacts on observed natural dynamics. In particular, inter- and multidisciplinary contributions on the interactions between different environmental processes and efforts towards developing integrated management and development strategies for our sinking, shrinking and saltier deltas are warmly welcomed.

Public information:
Worldwide over 500 million people live in low-lying coastal deltaic areas, existential to global food security, economic activities and biodiversity. Despite climate change severity at global scale, in many densely populated deltas its effect is currently evidently dwarfed by anthropogenic pressures in the river basin such as river flow modifications, damming and the overexploitation of the natural resources groundwater or sand, as well as profound land use changes and process such as urbanisation. As a result, many major deltas rapidly sink and shrink because of accelerated land subsidence and erosion rates. This increases relative sea-level rise and vulnerability to floods and storms, increases salinization of surface and groundwater and reduces freshwater availability, leading to significant losses in biodiversity, habitat degradation, reduced agricultural and economic productivity. A fundamental change in management approach is required to address these trends and challenges to sustain deltas environments, economies and populations through the 21st Century.

The processes resulting in sinking, shrinking and saltier deltas are interconnected and developing sustainable and inclusive management requires a multidisciplinary system approach. For this, we need to understand the full range of interrelated disciplines, including, amongst others, geology, river and estuarine dynamics, sediment dynamics, hydrology, hydrogeology, geomechanics, bio-morphodynamics as well as the human dimension of delta demography, economy and land use. This session brings together contributions from the full range of scientific disciplines involved in understanding and managing the combined integrated environmental threats that our world’s deltas face.
Co-organized by HS13/NH1/NP8
Convener: Philip S.J. MinderhoudECSECS | Co-conveners: Charlotte Marcinko, Robert Nicholls, Gualbert Oude EssinkECSECS, Pietro Teatini
vPICO presentations
| Wed, 28 Apr, 15:30–17:00 (CEST)
GM6.10 EDI

Deltas and estuaries are home to 7% of the world’s population but they are also hotspots for disasters. These riverine landforms face a wide range of challenges, now and in the future, including climatic changes (sea level rise, changing river discharge), biodiversity loss, subsidence, sediment mining, groundwater extraction, dredging and engineering measures (dams, embankments, sluices etc.). Deltas and estuaries lie at the interface of complex river, tidal and wave processes which create distinctive morphologies and environments. They provide the hinterland with protection from flooding and erosion but are also key resource areas for freshwater, ecology and sediment. Protecting delta regions and estuaries is therefore a key research area for science and policy. Understanding the functioning of delta and estuarine processes, including hydrodynamic processes, morphological development and the effects of human interference, is key for a sustainable future for these systems. To prepare for future changes it is crucial to identify the present state of these systems and learn from their past development. This session aims to bring together knowledge from multiple disciplines such as geomorphology, hydrology, ecology, social sciences and science policy to identify how deltas and estuaries change and what future societal challenges might arise along their shores. We particularly encourage early career researchers to submit to this session and welcome contributions from those working on estuary and delta management, future issues in estuaries and deltas, and process and system based science of estuaries and deltas.

Co-organized by HS13/NH5
Convener: Jana CoxECSECS | Co-conveners: Anne BaarECSECS, Lisanne Braat, Frances DunnECSECS, Iris Moeller
vPICO presentations
| Wed, 28 Apr, 09:00–10:30 (CEST)

GM7 – Glacial, Periglacial and Mountain Region Geomorphology

Programme group scientific officer: Kristen Cook

CR1.5 EDI

The Andean Cordillera is cryospherically diverse, with high mountain glaciation in the north and large temperate ice masses in the south. These ice masses are critical for water security, the prevalence of geohazards, and a potentially substantial contribution to global sea level. The climatic influences on these ice masses vary across the Cordillera, and are strongly affected by large scale ocean-atmospheric systems such as ENSO and the Southern Annular Mode.

South America is one of the few landmasses in the ocean-dominated Southern Hemisphere available for terrestrial environmental and climate reconstructions. Palaeoclimatic records suggest that Patagonia was sensitive to the Antarctic Cold Reversal and variations in the Southern Annular Mode, which drives changes in the Southern Westerly Winds. Changes in these winds affect both Patagonia and Antarctica today. Further north, the glaciers in Peru and Bolivia are receding rapidly, threatening water security in these latitudes. These glaciers are strongly affected by rising atmospheric air temperatures and changes in ENSO. The high climate sensitivity of these glaciers and icefields, as well as their large latitudinal transect across the Andes, renders them a useful barometer of changes in large-scale atmospheric circulation and palaeoclimate.

We invite interdisciplinary contributions that investigate climate and cryosphere interactions over a range of timescale. This session will bring together researchers working on contemporary mass balance and climatology in the Andean Cordillera, Quaternary palaeoclimatic reconstructions from proxy data (including from lakes, bogs, marine records, aeolian records, ice cores, etc.), (palaeo)climate modelling, and reconstructions of former, present and future ice extent and dynamics from field-based studies and numerical modelling. It will provide a forum in which researchers can contrast their data and shed light on Quaternary glaciations and their palaeoclimatic drivers in South America. We especially invite studies that use data-model comparisons to improve projections of future climate and ice mass behaviour in the Andean Cordillera.

Co-organized by CL4/GM7
Convener: Bethan Davies | Co-conveners: Jacob BendleECSECS, Neil Glasser
vPICO presentations
| Fri, 30 Apr, 15:30–17:00 (CEST)
CR3.9 EDI

The evolution of the large ice sheets and the Earth’s rheology control the process of glacial isostatic adjustment, while bedrock topography and geothermal heat flux have strong feedbacks on ice sheet dynamics. For changing climates, this interplay exerts a fundamental control on the global and regional sea level and, in turn, influences ice sheet stability.

In this session, we focus on feedback mechanisms between climate relevant components, such as ice sheets, ice shelves, solid Earth, oceans and atmosphere (e.g., as in the German Climate modelling initiative PalMod). We invite global, regional and conceptual studies that consider reconstructions of the past and/or estimates of future ice sheet evolution in fields related to the climate system dynamics of glacial processes (the cryosphere, geosphere, oceanography, climatology, geodesy and geomorphology). In particular, we welcome studies of recent and paleo observations (geodetic, geological, geophysical), coupled numerical modelling and strategies, data-constrained model calibration and data assimilation.

Co-organized by CL4/G3/GD8/GM7
Convener: Meike BaggeECSECS | Co-conveners: Torsten Albrecht, Evelyn PowellECSECS, Kira Rehfeld, Ricarda Winkelmann
vPICO presentations
| Thu, 29 Apr, 15:30–17:00 (CEST)
SSP3.8

Throughout Earth’s history, there have been few periods, when the climate was sufficiently cold to sustain large volumes of ice to cover the planet’s surface. Glaciers and ice-sheets in polar and mountain regions repeatedly grew during the Quaternary, advancing far into mid-latitudes and adjacent lowlands, respectively. Traces of this glacial activity can be manifested in characteristic deposits, e.g. vast till-covered and outwash plains, and landforms such as moraines and drumlins. At glacial-interglacial timescales, multiple glacial advances tend to overprint landforms and create fragmented terrestrial sedimentary successions. There are inherent challenges to understand the records, e.g. how glacial activity varies and affects landscapes over multiple glacial-interglacial cycles. How did landscapes evolve under glacial influence? What is the impact of early glaciations? How well were different glaciations chronicled? How did climate patterns and gradients affect glaciation? These questions will be addressed in this session.

The abundance of proxy data on timing, extent, and driving mechanisms of the last glacial cycle has significantly improved the understanding of the last c. 100 ka of landscape evolution. However, landscape evolution and trends in topographic preconditioning remain poorly constrained for previous cycles.
Glacial sedimentary records can be investigated through various methods to overcome some of the limitations imposed by the records’ fragmentation. Firstly, discovering and retrieving persistent glacial deposits, for example contained in subglacially formed basins (overdeepened basins, tunnel valleys), extend the accessible sedimentary record. Secondly, modern and ancient analogues help to understand erosion and deposition mechanisms in a glacial environment. Thirdly, relative and absolute chronostratigraphy allow the development of a temporal framework, and reconstructing landscape and environment evolution.

This session aims to stimulate discussions concerning terrestrial glacial records. Contributions may include investigations based on field observations, scientific drilling, geophysical measurements, and/or modelling of modern, Quaternary, and pre-Quaternary glacial settings. Possible topics cover: (a) glacial and interglacial stratigraphic successions, (b) subglacial erosion and deposition, (c) glaciation chronology, and (d) landscape evolution.

Co-organized by CR6/GM7
Convener: Michael SchwenkECSECS | Co-conveners: Marius BuechiECSECS, Thomas BurschilECSECS, Urs Fischer, Bernhard SalcherECSECS
vPICO presentations
| Thu, 29 Apr, 14:15–15:00 (CEST)
CR3.3

Subglacial environments are among the least accessible regions on Earth and represent one of the last physical frontiers of glaciological research, while emerging as a unique ecological habitat. The subglacial environment is a key component in the dynamic behaviour of ice sheets and glaciers, involving complex and precise mass and energy transfers between the ice and its substrate of water, air, bedrock, or sediment, and the oceans at ice sheet boundaries. In particular, determining the distribution and nature of water flows at the ice-mass bed is highlighted as a priority for understanding and predicting ice dynamics. For example, both remote sensing and ground-based observations across Antarctica and Greenland highlight the existence of subglacial water in a variety of forms, ranging from vast subglacial lakes (providing distinctive habitats for potentially unique life forms) to mm-thick water flows at the ice-substrate interface. Feedbacks between increased surface melting, glacier bed conditions and ice flow also affect alpine glaciers, potentially contributing to increased glacial retreat in low and mid-latitude mountain regions.

It is clear that subglacial processes impact ice dynamics, transcending ice-mass scales from valley glaciers to large ice sheets and, through feedback loops, contribute to changes in sea level, ocean circulation, and climate evolution. Quantitative characterisation of the basal environment therefore remains an outstanding glaciological problem, as does scaling of this knowledge for use in modelling ice sheet and glacier behaviour.

We invite scientific contributions that include, but are not limited to, measurements and/or modelling of: (i) flow of subglacial water at the bed and through subglacial sediments; (ii) linkages between subglacial hydrology and ice dynamics; (iii) theoretical-, field-, or laboratory-based parameterisation of subglacial processes in numerical ice-flow models; (v) formation, geometry and potential hydrological linkages between subglacial lakes; (v) subglacial and supraglacial lake drainage and subglacial floods from ice margins; and (vi) geomorphological evidence of subglacial water flows from contemporary ice-sheet margins and across formerly glaciated continental-scale regions.

Co-organized by GM7
Convener: Bryn Hubbard | Co-conveners: Rebecca Schlegel, Robert Bingham, Adam Booth, Harold Lovell
vPICO presentations
| Wed, 28 Apr, 13:30–15:00 (CEST)
CR6.2 EDI

The multifaceted influence of rocky debris on glacier systems has been increasingly recognized as having an important influence on long-term glacier and landscape evolution. The focus of this session is to exchange and discuss the latest understanding of the dynamics of debris within glacier systems, and the role of debris-covered glaciers in landscape evolution. We solicit contributions from all career stages pertaining to the debris-covered glacier system and its interaction with the atmosphere and climate, ice melt patterns and runoff, and ice dynamics and landscape evolution. We seek a broad range of topics related to debris supply (e.g. headwall erosion and avalanching), transport (englacial and supraglacial), and export from glaciers within the broader context of the mountain land system. We additionally welcome contributions examining debris cover development, how glacier processes are influenced by debris, and how debris-covered glaciers interact with the wider land system, for example in terms of geohazards, erosion, sediment transport and deposition, debris-covered glacier/rock glacier interactions, water resource management, and paraglacial change within alpine settings.

We would be excited to include the full range of methods, established and novel, used to investigate these systems, including remote sensing, numerical modelling, field observations and more! We also welcome contributions related to the standardisation of methodologies with the aim of coordinating efforts and advancing the current understanding of debris covered glacier land systems. The session is closely aligned with the goals of the International Association of Cryospheric Sciences (IACS) and International Permafrost Association (IPA) working group on Debris Covered Glaciers https://cryosphericsciences.org/activities/wgdebris/, which is open to membership and new contributions to anyone.

Co-organized by GM7
Convener: Josephine HornseyECSECS | Co-conveners: Evan MilesECSECS, Adina E. Racoviteanu, Mohan Bahadur ChandECSECS
vPICO presentations
| Tue, 27 Apr, 11:00–12:30 (CEST)
GM7.6 EDI

Present-day glacial and periglacial processes in cold regions, i.e. arctic and alpine environments, provide also modern analogues to processes and climatic changes that took place during the Pleistocene, including gradual retreat or collapse of ice sheets and mountain glaciers, and thawing and shrinking of low-land permafrost. Current geomorphological and glaciological changes in mid-latitude mountain ranges could also serve as a proxy for future changes in high-latitude regions within a context of climate change. Examples are speed-up or disintegration of creeping permafrost features or the relictification of rock glaciers.

For our session we invite contributions that either:
1. investigate present-day glacial and/or periglacial landforms, sediments and processes to describe the current state, to reconstruct past environmental conditions and to predict future scenarios in cold regions; or
2. have a Quaternary focus and aim at enhancing our understanding of past glacial, periglacial and paraglacial processes, also through the application of dating techniques.

Case studies that use a multi-disciplinary approach (e.g. field, laboratory and modelling techniques) and/or that highlight the interaction between the glacial, periglacial and paraglacial cryospheric components in cold regions are particularly welcome.

Co-organized by CR6
Convener: Isabelle Gärtner-Roer | Co-conveners: Clare Boston, Natacha GribenskiECSECS, Andreas Kellerer-Pirklbauer, Sven Lukas
vPICO presentations
| Mon, 26 Apr, 13:30–15:00 (CEST)
GM7.7 EDI

Mountain and ice sheet glaciations provide an invaluable record for past and present climate change. However, varying geomorphological process-systems, specific glaciological conditions and topography can make regional, intra-hemispheric and global correlations challenging. This problem is further enhanced by ongoing specialisation within the scientific community. Despite such challenges glacier and ice sheet reconstructions remains a crucial palaeo-enviormental proxy.

The primary aim of this session is to evaluate the potential of mountain and ice sheets glaciation records and stimulate further research in this important field of research. Contributions on all relevant aspects are welcomed, for example: (a) glacial landforms and reconstruction of past glaciers/ice sheets, (b) dating techniques and geochronology compilations, (c) glacier dynamics and palaeoclimatic interpretations, or (d) impacts of ecosystems and human evolution/society.

We would in particular like to invite contributions highlighting the specific conditions of mountain glaciations/ice sheet or addressing the relationship and connections between different of their aspects. To address the diversity of glaciations, contributions from high-, middle-, and low-latitude mountain ranges as well as from continental to maritime regions are all welcomed. The time scale of the session will range from Early Pleistocene glaciations to the LGM and Holocene/modern glaciers.

This session has steadily become more popular and attracted contributions from a wide range of research topics and study areas, both with a high diversity of methodological approaches. It has become a platform for everyone interested in the emerging collaborative research network “The Legacy of Mountain Glaciations” and given an opportunity to meet and exchange ideas and expertise.

Co-organized by CL1/CR6
Convener: Danni Pearce | Co-conveners: Stefan Winkler, April Dalton, Lauren KnightECSECS, Giovanni Monegato, Jürgen Reitner
vPICO presentations
| Thu, 29 Apr, 09:00–10:30 (CEST)

GM8 – Aeolian and Dryland Geomorphology

Programme group scientific officer: Joanna Nield

GM8.2 EDI

Arid to sub-humid regions contribute > 40 % to the global land surface and are home of more than 40 % of the world’s population. During prehistoric times many important cultures had developed in these regions. Due to the high sensitivity of dryland areas even to small-scale environmental changes and anthropogenic activities, ongoing geomorphological processes but also the Late Quaternary palaeoenvironmental evolution as recorded in sediment archives are becoming increasingly relevant for geomorphological, palaeoenvironmental and geoarchaeological research. Dryland research is also boosted by methodological advances, and especially by emerging linkages with other climatic and geomorphic systems that allow using dryland areas as indicator-regions of global environmental change.
This session aims to pool contributions from the broad field of earth sciences that deal with geomorphological processes and different types of sediment archives in dryland areas (dunes, loess, slope deposits, fluvial sediments, alluvial fans, lake and playa sediments, desert pavements, soils, paleosols etc.) at different spatial and temporal scales. Besides case studies from individual regions and archives, methodical and conceptual contributions, e.g. dealing with the special role of eolian, fluvial, gravitational and biological processes in dryland environments, their preservation over time in the sedimentary records, and emerging opportunities and limitations to resolve past and current dynamics, are especially welcome in this session.

Co-organized by CL2/SSP1/SSS3
Convener: Hans von Suchodoletz | Co-conveners: Markus Fuchs, Joel Roskin, Abi StoneECSECS, Lupeng Yu
vPICO presentations
| Fri, 30 Apr, 13:30–15:00 (CEST)
CL4.27 EDI

The interactions between aerosols, climate, and weather are among the large uncertainties of current atmospheric research. Mineral dust is an important natural source of aerosol with significant implications on radiation, cloud microphysics, atmospheric chemistry and the carbon cycle via the fertilization of marine and terrestrial ecosystems.

In addition, properties of dust deposited in sediments and ice cores are important (paleo-)climate indicators.

This interdivision session --building bridges between the EGU divisions CL, AS, SSP, BG and GM-- is open to contributions dealing with:

(1) measurements of all aspects of the dust cycle (emission, transport, deposition, size distribution, particle characteristics) with in situ and remote sensing techniques,

(2) numerical simulations of dust on global and regional scales,

(3) meteorological conditions for dust storms, dust transport and deposition,

(4) interactions of dust with clouds and radiation,

(5) influence of dust on atmospheric chemistry,

(6) fertilization of ecosystems through dust deposition,

(7) any study using dust as a (paleo-)climate indicator including sediment archives in loess, ice cores, lake sediments, ocean sediments and dunes.

We especially encourage to submit papers on the integration of different disciplines and/or modelling of past, present and future climates.

In 2021 we look forward to hear three solicited speakers present their latest work.

We are proud to announce:

1) Siyu Chen, professor at Lanzhou University, China.
Siyu will present her work on modelling emission, transport and radiative effects of Asian mineral dust

2) Kevin Ohneiser, PhD student at TROPOS, Leipzig, Germany

Kevin will present his latest findings on aerosols observed during the MOSAIC campaign

3) Jeff Munroe, professor at Middlebury College, USA

Jeff will present his latest findings from the DUST^2 project; a source-to-sink investigation of the modern dust system in SW North America

Share: https://meetingorganizer.copernicus.org/EGU21/session/40684

Co-organized by AS3/BG3/GM8/SSP3, co-sponsored by ISAR
Convener: Jan-Berend Stuut | Co-conveners: Martina KloseECSECS, Joanna Nield, Mingjin TangECSECS
vPICO presentations
| Fri, 30 Apr, 09:00–12:30 (CEST)

GM9 – Volcanic and Tectonic Geomorphology

Programme group scientific officer: Andrea Madella

NH2.1 EDI

Volcanic hazards and risk lie at the heart of global geoscience, with about 800 million people threatened by eruptions and other related phenomena. Volcanoes strongly affect humans and the environment through submarine explosions, tephra fallout, pyroclastic flows, earthquakes, tsunamis, and ocean acidification. Evaluation of the impact of volcanic activity on a given region mostly relies on the reconstruction of the eruptive history of volcanoes through the identification, correlation and dating of tephra layers preserved in terrestrial and marine depositional records. In addition, more recent interdisciplinary studies are being used to deepen our understanding of the formation and destruction of volcanoes and the accompanying mass transport processes, as they might significantly contribute to the volcanic hazard assessment. This session will focus on different approaches for reconstructing the history, processes, and evolution of volcanic regions. We invite contributions from all related scientific fields to derive a more comprehensive perspective on the past and present impact of volcanic eruptions, and their potential impacts on the environment and surrounding populations.

Public information:
Please keep the cameras on. If you only have a microphone with no contact to the audience, it's no fun to present.
Also: Just like during the previous In Presence meetings, most of the participants have a tight schedule. Please keep strictly to the 2 or 5 minute limit!
Co-organized by GM9/GMPV11
Convener: Christian Huebscher | Co-conveners: Francesca Forni, Paul Albert, Tim Druitt, Steffen EiseleECSECS, Britta Jensen, Paraskevi Nomikou, Jonas PreineECSECS
vPICO presentations
| Wed, 28 Apr, 09:00–10:30 (CEST)
TS9.1 EDI

Geologic processes are generally too slow, too rare, or too deep to be observed in-situ and to be monitored with a resolution high enough to understand their dynamics. Analogue experiments and numerical simulation have thus become an integral part of the Earth explorer's toolbox to select, formulate, and test hypotheses on the origin and evolution of geological phenomena.

To foster synergy between the rather independently evolving experimentalists and modellers we provide a multi-disciplinary platform to discuss research on tectonics, structural geology, rock mechanics, geodynamics, volcanology, geomorphology, and sedimentology.

We therefore invite contributions demonstrating the state-of-the-art in analogue and numerical / analytical modelling on a variety of spatial and temporal scales, varying from earthquakes, landslides and volcanic eruptions to sedimentary processes, plate tectonics and landscape evolution. We especially welcome those presentations that discuss model strengths and weaknesses, challenge the existing limits, or compare/combine the different modelling techniques to realistically simulate and better understand the Earth's behaviour.

Public information:
Special issue announcement:

Are you an analogue modeller and working on basin inversion? Please consider submitting your work to the upcoming special issue on analogue modelling of basin inversion in Solid Earth, edited by Frank Zwaan, Michael Rudolf, Riccardo Reitano, Susanne Buiter, Ernst Willingshofer and Guido Schreurs.

The call for submission will open on the 1st of October 2021
More info: https://www.solid-earth.net/articles_and_preprints/scheduled_sis.html
Co-organized by GD8/GM9
Convener: Frank Zwaan | Co-conveners: Fabio Corbi, Ágnes Király, Valentina Magni, Michael Rudolf
vPICO presentations
| Mon, 26 Apr, 15:30–17:00 (CEST)
TS7.6 EDI

Theme A- Orogenic plateaus and plateau margins
Orogenic plateaus and their margins are integral parts of modern mountain ranges and offer unique opportunities to study feedbacks between tectonics and climate at the Earth’s surface. Complex interactions among a wide range of parameters may lead to rapid shifts in surface elevation and the growth, recycling, and destruction of lithosphere. These controlling factors, which include crustal deformation and basin growth, surface uplift and atmospheric circulation, precipitation and erosion, landscape and biological change, result in lateral plateau growth and its characteristic morpho-climatic domains: humid, high-relief margins that contrast with (semi-)arid, low-relief plateau interiors.

Theme B- Bridging records of tectonic and climatic forcings on the evolution of Central Asia: from Paleozoic origins to Cenozoic aridification
Central Asia witnessed profound changes in tectonic and climatic environments over its geologic past: Paleozoic to Mesozoic closures of deep oceans and the amalgamation of major tectonic blocks laying the groundwork for Cenozoic fault reactivations since the India/Asia collision. The Cenozoic rise of intracontinental mountain ranges such as the Tianshan was accompanied by the retreat of Paratethys and the onset of intracontinental aridification. Major efforts bridging tectonic, geomorphic and climatic records are underway to understand i) the tectonic origins of Central Asia and how these control its present-day landscape, ii) individual responses to climatic and tectonic forcings, and their contribution to erosion and sediment deposition patterns, iii) long-term interactions between climatic change and tectonic activity, iv) and the role of topographic barriers, inland seas and global climate change in shaping regional climate and the aridification of the continental interior.

Session Goals
The two primary goals of this session are: 1) creating a discussion forum on the complex interactions and feedbacks among climatic, surficial, and geodynamic processes that challenge the notion of comprehensive mechanisms for the formation of orogenic plateaus and their margins, as well as for the evolution of Central Asia since the Paleozoic; and 2) encouraging future collaborations that not only overcome spatio-temporal scales but also bridge observations across disciplines leading to a more holistic view of landscape evolution from an integrative tectonic, climatic and geomorphic perspective.

Co-organized by BG3/GD5/GM9/SSP1
Convener: Maud J.M. Meijers | Co-conveners: Flora Bajolet, Paul EizenhöferECSECS, David Fernández-Blanco, Yigui Han, Chaohui Liu, Qian LiuECSECS, Guochun Zhao
vPICO presentations
| Thu, 29 Apr, 09:00–10:30 (CEST)
TS7.7 EDI

The mountain ranges of the Pamir, Tian Shan, and the Himalaya-Tibetan orogen form the most prominent morphological features in central Asia. Much of this morphology results from uplift related to the Cenozoic India-Asia collision. However, this is built upon a complex pre-Cenozoic history of ocean closures (Proto- and Paleo-Tethys, Paleo-Asian), terrane accretions and the related reorganization of Asia's southern margin. This long-lasting history of consecutive accretionary events left behind a complex mosaic of high- and low-strain domains, magmatic arcs, allochthonous blocks (terranes) and intervening suture zones. A significant challenge is to correlate and date those domains, which are often used as large-scale structural markers for quantifying large structural offsets. Quantifying pre-collisional topography and crustal thickness is crucial. Both the pre-Cenozoic history and the timing and kinematics of young deformation must be well-constrained in order to reconstruct the orogenic evolution in time and space and to understand how pre-existing structures influenced Cenozoic deformation. To promote discussion on this topic, we invite contributions from geoscientists who are working on various aspects of the geologic evolution of Central Asia, including structural geology, geochemistry, sedimentology, detrital studies, as well as geophysical or modeling studies.

Co-organized by GD6/GM9/GMPV11/SSP2
Convener: Johannes Rembe | Co-conveners: Jonas Kley, Yani Najman, Ed Sobel, Rasmus Thiede
vPICO presentations
| Thu, 29 Apr, 11:00–12:30 (CEST)
TS5.4

Tectonically and volcanically active areas are subject to faulting, fracturing, volcanic eruptions, caldera or flank collapse, and magmatic intrusions, such as dyking. These events trigger typical geomorphological features and geomorphological changes that researchers can study in the field and remotely. Satellite data using optical or thermal sensors, and ship acoustics datasets, provide first order information about faulting and volcanic activity, however, there is a resolution gap below the meter-scale, critical to detect and to analyse small structures over broad areas and to better assess how faults, magma intrusions and collapses nucleate and evolve. Moreover, during large metrical ground deformations (earthquakes, dyke intrusions, collapses), the near-field area where satellite radar signal (InSAR) becomes incoherent remains poorly studied, likewise happens in deep sea environments using vessel-based acoustics techniques. In addition, classical field surveys and data collection are, very often, not feasible due to difficult logistic conditions and/or inaccessible areas. Therefore, there is a need to collect higher resolution data to better understand geomorphologic, faulting and volcanic processes at scales from cm to a few meters, that complement classical field studies and remote sensing data.
Structure-from-Motion (SfM) photogrammetry techniques have been applied using imagery acquired from field, aerial and underwater survey, using Unmanned Aerial Vehicles (UAVs, i.e. drones), Remotely Operated Vehicles (ROVs), Autonomous Underwater Vehicles (AUVs), balloons, airplanes and helicopters, as well as cameras and mobile phones. This technique produces digital surface models (DSM), ortho-mosaic imagery, dense point clouds and 3-D models, creating a high-resolution environment reconstruction for local outcrops or broader areas.
The session will focus on the application of SfM for research in the field of structural geology, active tectonics, volcano-tectonics, and geomorphology, with particular regard to tectonically and volcanically active areas. The session covers the following topics: i) case studies where the SfM has been employed; ii) SfM methods, 3-D reconstruction and post-processing analysis; iii) integration and comparison of SfM-derived, field and broad-scale data (such as satellites and acoustics techniques); iv) new tools and methods for data analysis on SfM-derived models; and vi) future works and applications of SfM techniques.

Co-organized by GI5/GM9
Convener: Fabio Luca Bonali | Co-conveners: Federico Di Traglia, Joël Ruch, Alessandro Bonforte, Daniele TrippaneraECSECS, Felix GrossECSECS, Irene Manzella, Fabio Marchese
vPICO presentations
| Mon, 26 Apr, 09:00–10:30 (CEST)
TS6.1 EDI

Continental rifting is a complex process spanning from the inception of extension to continental rupture or the formation of a failed rift. This session aims at combining new data, concepts and techniques elucidating the structure and dynamics of rifts and rifted margins. We invite submissions highlighting the time-dependent evolution of processes such as: initiation and growth of faults and ductile shear zones, tectonic and sedimentary history, magma migration, storage and volcanism, lithospheric necking and rift strength loss, influence of the pre-rift lithospheric structure, rift kinematics and plate motion, mantle flow and dynamic topography, as well as break-up and the transition to sea-floor spreading.

We encourage contributions using multi-disciplinary and innovative methods from field geology, geochronology, geochemistry, petrology, seismology, geodesy, marine geophysics, plate reconstruction, or numerical or analogue modelling. Especially welcome are presentations that provide an integrated picture by combining results from active rifts, passive margins, failed rift arms or by bridging the temporal and spatial scales associated with rifting.

Withing this session, a specific segment will be dedicated to studies of rift tectonics in the The Afro-Arabian rift system (the basins of the Gulf of Suez, Gulf of Aqaba, Red Sea, Gulf of Aden, Afar depression and the surrounding regions or related areas). This system contains the world’s largest active continental rift and is the key locality for studying continental breakup processes. Natural phenomena such as basin formation, continental breakup, seismic and volcanic activity, and the formation of mineral resources in and around the three arms of the Afar triple junction highlights some of the key aspects of this complex rift system.

Public information:
Special issue alert:
This session is linked to three special issues in the gold open access journal "Frontiers in Earth Science".

(1) "Links between tectonics, fault evolution and surface processes in extensional systems", edited by Frank Zwaan, Alex Hughes, Laura Gregory, Joanna Faure Walker and Lisa McNeill. Manuscript submission deadline: 31 October 2021. Link: https://www.frontiersin.org/research-topics/20047
(2) "InSAR for Volcanoes and Tectonics", edited by Carolina Pagli, Hua Wang, Anne Socquet and Vincent Drouin. Manuscript submission deadline: 30 June 2021. Link: https://www.frontiersin.org/research-topics/18940
(3) "Geodynamics and Magmatism in the Afro-Arabian Rift System", edited by Nico Augustin, Froukje van der Zwan, Joël Ruch, Neil Mitchell, Daniele Trippanera. Manuscript submission deadline: 10 May 2021. Link: https://www.frontiersin.org/research-topics/16355

If you are interested in contributing a paper to one of these special issue, please contact us and/or register on the respective special issue website
Co-organized by GD5/GM9/GMPV2/SM4
Convener: Frank Zwaan | Co-conveners: Laura ParisiECSECS, Giacomo Corti, Daniele TrippaneraECSECS, Derek Keir, Froukje M. van der ZwanECSECS, Sylvie Leroy, Carolina Pagli
vPICO presentations
| Fri, 30 Apr, 09:00–12:30 (CEST)
TS5.3 EDI

Sedimentary basins within rifts are characterised by complex, dynamic environments, with the interplay between tectonic deformation, surface processes and climate controlling basin architecture and sedimentary infill. Ongoing research elucidates the links between these factors, permitting improved understanding of basin evolution and subsequent facies distribution, with implications for resource exploration.

This session aims to bring together researchers from various backgrounds in order to foster collaboration. We invite contributions that investigate the relationships between, and interaction of, rift tectonics, surface processes and climate, at a variety of spatial and temporal scales. We welcome approaches including remote-sensing analysis, geophysical methods and sedimentological, structural or geomorphological fieldwork. Analogue and numerical modelling methods are also encouraged.

Public information:
Special issue announcement:

This vEGU21 session has inspired the initiation of a special issue on "Links between tectonics, fault evolution and surface processes in extensional systems", in the gold open access journal Frontiers in Earth Science. The special issue is edited by Frank Zwaan, Alex Hughes, Laura Gregory, Joanna Faure Walker and Lisa McNeill. The call for submission is open and will close on the 31st of October 2021. If you are interested in contributing a paper, please contact us and/or register on the special issue website: https://www.frontiersin.org/research-topics/20047
Co-organized by GM9
Convener: Alex HughesECSECS | Co-conveners: Rob Gawthorpe, Lisa McNeill, Frank Zwaan
vPICO presentations
| Fri, 30 Apr, 13:30–15:00 (CEST)
GMPV9.4 EDI

Glaciers and volcanoes interact in a number of ways, including instances where volcanic/geothermal activity alters glacier dynamics or mass balance, via subglacial eruptions or the deposition of supraglacial tephra. Glaciers can also impact volcanism, for example by directly influencing mechanisms of individual eruptions resulting in the construction of distinct edifices. Glaciers may also influence patterns of eruptive activity when mass balance changes adjust the load on volcanic systems, the water resources and hydrothermal systems. However, because of the remoteness of many glacio-volcanic environments, these interactions remain poorly understood.
In these complex settings, hazards associated with glacier-volcano interaction can vary from lava flows to volcanic ash, lahars, landslides, pyroclastic flows or glacial outburst floods. These can happen consecutively or simultaneously and affect not only the earth, but also glaciers, rivers and the atmosphere. As accumulating, melting, ripping or drifting glaciers generate signals as well as degassing, inflating/ deflating or erupting volcanoes, the challenge is to study, understand and ultimately discriminate these potentially coexisting signals. We wish to fully include geophysical observations of current and recent events with geological observations and interpretations of deposits of past events. Glaciovolcanoes also often preserve a unique record of the glacial or non-glacial eruptive environment that is capable of significantly advancing our knowledge of how Earth's climate system evolves.
We invite contributions that deal with the mitigation of the hazards associated with ice-covered volcanoes in the Arctic, Antarctic or globally, that improve the understanding of signals generated by ice-covered volcanoes, or studies focused on volcanic impacts on glaciers and vice versa. Research on recent activity is especially welcomed. This includes geological observations e.g. of deposits in the field or remote-sensing data, together with experimental and modelling approaches. We also invite contributions from any part of the world on past activity, glaciovolcanic deposits and studies that address climate and environmental change through glaciovolcanic studies. We aim to bring together scientists from volcanology, glaciology, seismology, geodesy, hydrology, geomorphology and atmospheric science in order to enable a broad discussion and interaction.

Co-organized by CR5/GM9/NH2, co-sponsored by IAVCEI-CVI
Convener: Eva EiblECSECS | Co-conveners: Iestyn Barr, Adelina GeyerECSECS, gioachino robertiECSECS
vPICO presentations
| Thu, 29 Apr, 11:45–12:30 (CEST)
GD4.3

Many new high quality and high resolution geophysical and geological data had been acquired in the past years that need to be updated, re-analysed and re-interpreted in the light of our present knowledge of the subductions processes. Moreover it is needed to better clarify the temporal and spatial evolution of those processes in order to much precise our geodynamic ideas of mountain building, sedimentary basins formation, subduction, the transition from oceanic to continental subductions (collision) or the reverse from collision to subduction...
Among other global places, the zone from Japan, Taiwan to the Philippines is a key area to study such subduction/collision transition due to the rapid convergence between Eurasian and Philippine Sea plates. There are geodynamic inversion of the east dipping Manila oceanic subduction, that evolves northward, first, into a Continental Subduction (so called collision) onshore Taiwan, then secondly, east of Taiwan, into the north dipping Ryukyu arc/continent subduction. Due to the so rapid Plates shortening rate (10cm.y-1), those active Oceanic to Continental Subductions processes in Taiwan creates 1/8 of the annual seismicity in the World !
There are other places in the World active or not, that should also be taken into careful consideration in order to reveal and lead us to better understand new tectonic processes (e.g.: Alpes, Pyrénées, Cascades and so on).
In this EGU session, we aim to discuss and update the existing geodynamic processes and state of the art of the oceanic to continental subductions processes after so numerous data that had been collected recently and all the works that had been done on this subject. Therefore this EGU Session should help us to much better understand the geodynamic of plate convergence, the role of oceanic crust and the transition between subduction and collision.

Co-organized by GM9/TS7
Convener: Benoit Deffontaines | Co-conveners: Ho-Han HsuECSECS, S. K. Hsu
vPICO presentations
| Wed, 28 Apr, 13:30–15:00 (CEST)
GM9.12 EDI

The coupling between tectonics, climate and surface processes governs the dynamics of mountain belts and basins. First order constraints on this coupling are provided by geomorphic and sedimentary records, including longitudinal river profiles, fluvial terraces, downstream fining trends, growth strata, sediment provenance, sequence stratigraphy, and changing depositional environments. Moreover, the increasing integration of geochronological methods for quantifying erosion rates and source-to-sink sediment transfer with landscape evolution, stratigraphic, climatic, and tectonic models allows to advance our understanding of the interactions between surface processes, climate and tectonic deformation.

We invite contributions that use geomorphic and/or sedimentary records to understand tectonic deformation, climate histories, and surface processes, and welcome studies that address their interactions and couplings at a range of spatial and temporal scales. In particular, we encourage coupled catchment-basin studies that take advantage of numerical/physical modelling, geochemical tools for quantifying rates of surface processes (cosmogenic nuclides, low-temperature thermochronology, luminescence dating) and high resolution digital topographic and subsurface data. We also encourage field or subsurface structural and geomorphic studies of landscape evolution, sedimentary patterns and provenance in deformed settings, and invite contributions that address the role of surface processes in modulating rates of deformation and tectonic style, or of tectonics modulating the response of landscapes to climate change.

Co-organized by TS5
Convener: Duna Roda-BoludaECSECS | Co-conveners: Anneleen Geurts, Dirk Scherler, Alex Whittaker, Camille LittyECSECS, Julien Charreau
vPICO presentations
| Tue, 27 Apr, 11:00–15:00 (CEST)
GM9.14 EDI

Geomorphic and geologic observations at the Earth's surface reflect the combined effects of erosional, tectonic, and deep-seated processes. Such surface observations therefore provide important constraints on mantle convection patterns and subduction dynamics through space and time, which compliment both studies of geophysical data and numerical simulation. However, using Earth's surface records to constrain deep-seated processes is complicated by (1) our as yet incomplete understanding of how mantle convection or subduction processes are manifest as surface forms and patterns, and (2) the effects of tectonic processes, spatio-temporal variations in climate, glacial isostatic adjustment, lithology, biota, and human alteration of landscapes and surface geology. We invite contributions that tackle these challenges and work toward identifying the surface expression of deep-Earth processes such as mantle convection, in different tectonic settings. We welcome studies that develop and apply a variety of approaches across temporal and spatial scales, including (but not limited to) geomorphic analysis, geophysics, thermochronometry, isotope and cosmogenic nuclide measurements, and numerical and analogue modeling of both surface and deep-Earth dynamics. We hope that this session will provide opportunities for presenters from all backgrounds, demographics, and all stages of their scientific career to engage in this exciting and emerging geological problem via a multidisciplinary approach.

Co-organized by GD1/TS5
Convener: Conor O'MalleyECSECS | Co-conveners: Claudio Faccenna, Audrey Margirier, Vivi Kathrine Pedersen, Simon StephensonECSECS
vPICO presentations
| Tue, 27 Apr, 15:30–17:00 (CEST)
TS4.0

On 29 December 2020, a major earthquake (Mw 6.4) occurred in Croatia close to Petrinja, only nine months after another Mw 5.5 damaging earthquake in Zagreb, the capital city located 45 km north of Petrinja. The December shock is the strongest event in continental Europe since the Norcia sequence (Italy) in 2016 and was caused by the rupture of a NW-SE dextral strike-slip fault at the boundary between the Dinarides and the Pannonian basin ; it was preceded by two strong foreshocks (M~5) the day before. Seismic shaking was widely felt across Europe, and caused extensive damage to buildings and infrastructures in the epicentral region. The earthquake resulted in liquefaction over large areas, and many cracks and a surface rupture have been observed in the field.
This late-breaking session aims at gathering contributions to discuss the 2020 Petrinja earthquake sequence, its surface effects on human and natural environment in terms of shaking and faulting. We encourage presentations dealing with the seismological, geodetical or geological observations related to this earthquake and the ongoing seismic sequence, as well as insights on the regional faults, their historical seismicity or recent geological activity. All this together can help in understanding the geodynamics of this seismically active but poorly characterized region.

Co-organized by G3/GM9/NH4/SM4
Convener: Stéphane Baize | Co-conveners: Sara Amoroso, Lucilla Benedetti, Petra Jamšek Rupnik, Branko Kordić, Snjezana Markušić, Bruno Pace, Stefano Pucci
vPICO presentations
| Thu, 29 Apr, 15:30–17:00 (CEST)

GM10 – Geomorphology and Climate

Programme group scientific officer: Andrea Zerboni

SSP1.11 EDI

Connectivity with the ocean and climate strongly control the physical and chemical properties of restricted marine basins, sometimes leading to the formation of large evaporite accumulations known as salt giants. As a result of these processes, salinity, water oxygenation and nutrient availability may develop trends distinct from those of the global ocean, resulting in extreme salinity – from brackish to evaporitic – and driving ecosystems through specific patterns of origination and extinction. Reversely, the genesis and demise of such physico-chemically distinct water bodies changes global ocean circulation patterns, affects climate and leads to shifts in the location of global biodiversity hotspots. Our session mostly includes presentations on the Mediterranean, the Dead Sea, using modelling, sesimic stratigraphic, (bio)geochemical, sedimentologic and micropaleontological methods to investigate feedbacks between hydroclimate, tectonics and marine biota.

Co-organized by BG4/CL4/GM10
Convener: Konstantina AgiadiECSECS | Co-conveners: I. Vasiliev, Maria MagliuloECSECS, Simon RouwendaalECSECS, Daniel Garcia-Castellanos
vPICO presentations
| Fri, 30 Apr, 11:00–12:30 (CEST)

GM11 – Planetary Geomorphology

Programme group scientific officer: Joanna Nield

GM11.1 EDI

Planetary Geomorphology aims to bring together geomorphologists who study the Earth with those who work on other bodies such as Mars, Venus, Mercury, the Moon, icy satellites of the outer solar system, comets, and/or asteroids. Studies applicable to landscapes on any scale on any solid body are welcome. We particularly encourage those who use Earth analogues or laboratory/numerical simulation to submit their work. Considered processes could include aeolian, volcanic, tectonic, fluvial, glacial, periglacial, or "undetermined" ones. We especially welcome contributions from early-career scientists and geomorphologists who are new to planetary science.

Co-organized by PS7, co-sponsored by IAG
Convener: Susan Conway | Co-conveners: Stephen BroughECSECS, Frances E. G. ButcherECSECS, Tjalling de Haas, Nikolaus J. Kuhn
vPICO presentations
| Tue, 27 Apr, 09:00–10:30 (CEST)

GM12 – Geomorphology, People and Heritage

Programme group scientific officer: Andrea Zerboni

SSS3.5 EDI

Soils develop under the influence of various environmental factors that produce specific soil features, and thus keep a memory of nowadays and past environments. They also are valuable archives of past human activity, which has increasingly shaped environments and affected soil formation over the Holocene period.
Palaeosols, developed under the influence of past environmental conditions, are considerably valuable archives of past environments.They can be studied to reconstruct the environmental factors that were present during the time of their formation, and to disentangle the relative influences of different, local to regional, environmental background conditions on soil formation. Also peatlands have become increasingly recognized as a useful archive of palaeoenvironmental and palaeoclimatic archives. They offer a wide range of proxies (physical, geochemical and biological). Their global occurrence and high accumulation rates allow developing the past environmental change history of sub-decadal to millennial scales.
Human land occupation and cultivation often result in characteristic modifications of the surface, sediments and soils. Anthropogenically-affected soils keep a record of past human settlement cycles and land use and have enormous potential for geoarchaeological studies. Furthermore, their properties often clearly differ from those of the surrounding soils and thus also affect current ecosystems.
This session gathers contributions from all aspects of research dealing with soils as records of past environmental conditions, climate change and anthropogenic impacts; and with the geoarchaeological and ecological significance of anthropogenically-affected soils. A specific focus is on studies trying to provide more evidence for better understanding of the global definition of the Anthropocene and to distinguish the natural and human induced changes.

Co-organized by GM12
Convener: Oren Ackermann | Co-conveners: Anna Schneider, Kunshan Bao, Maria Bronnikova, Gaël Le Roux, Tobias SprafkeECSECS, Barbara Fiałkiewicz-Kozieł, Claudio Zaccone
vPICO presentations
| Tue, 27 Apr, 09:00–12:30 (CEST)
HS5.4.2 EDI

Urban areas are at risk from multiple hazards, including urban flooding, droughts and water shortages, sea level rise, disease spread and issues with food security. Consequently, many urban areas are adapting their approach to hazard management and are applying Green Infrastructure (GI) solutions as part of wider integrated schemes.

This session aims to provide researchers with a platform to present and discuss the application, knowledge gaps and future research directions of urban GI and how sustainable green solutions can contribute towards an integrated and sustainable urban hazard management approach. We welcome original research contributions across a series of disciplines with a hydrological, climatic, soil sciences, ecological and geomorphological focus, and encourage the submission of abstracts which demonstrate the use of GI at a wide range of scales and geographical distributions. We invite contributions focusing on (but not restricted to):

· Monitored case studies of GI, Sustainable Drainage Systems (SuDS) or Nature Based Solutions (NBS), which provide an evidence base for integration within a wider hazard management system;
· GIS and hazard mapping analyses to determine benefits, shortcomings and best management practices of urban GI implementation;
· Laboratory-, field- or GIS-based studies which examine the effectiveness or cost/benefit ratio of GI solutions in relation to their wider ecosystem potential;
· Methods for enhancing, optimising and maximising GI system potential;
· Innovative and integrated approaches or systems for issues including (but not limited to): bioretention/stormwater management; pollution control; carbon capture and storage; slope stability; urban heat exchange, and; urban food supply;
· Catchment-based approaches or city-scale studies demonstrating the opportunities of GI at multiple spatial scales;
· Rethinking urban design and sustainable and resilient recovery following crisis onset;
· Engagement and science communication of GI systems to enhance community resilience.

Co-organized by GM12/NH9
Convener: Daniel Green | Co-conveners: Jorge Isidoro, Lei LiECSECS, Louise Slater
vPICO presentations
| Mon, 26 Apr, 09:00–12:30 (CEST)
NH9.1 EDI

Reducing natural hazard risk is high on the global political agenda. In response, more and more risk datasets, methods, and models are being developed and applied together with stakeholders in the decision-making process. At the same time, climate change, globalisation, urbanisation, and increased interconnectedness between ecological, physical, human, and technological systems pose major challenges to disaster risk reduction in a globally interconnected world. COVID-19 has clearly shown that single-hazard approaches to disaster risk management can leave countries unprepared. This calls for novel scientific approaches and new types of data, including loss data, to integrate the study of multiple natural and human processes. The integration of socioeconomic loss databases in risk assessments allows for effective use for both science and policy. This session is a merger between the following sessions:

Global and continental scale risk assessment for natural hazards: methods, practice and open loss and risk assessment
In this sub-session we: (1) showcase current state-of-the-art in global and continental natural hazard risk science, assessment, and application; (2) foster exchange of knowledge and good practice between scientists and practitioners; and (3) collaboratively identify future research avenues. We examine all aspects of natural hazard risk assessment at the continental to global scale, including contributions focusing on single hazards, multiple hazards, or a combination or cascade of hazards. It includes contributions focusing on globally applicable methods, such as using globally available datasets to force more local models or inform more local risk assessment.

Interplay between natural hazards and vulnerable societies in the context of global change
This sub-session aims to: (1) gather research, empirical studies, and observation data that are useful for understanding and assessing risk to inform resilience building strategies in the context of global change, (2) identify persistent gaps, and (3) propose potential ways forward. The session welcomes contributions on the following topics, among others: What can we learn from comparative studies of past successes and failures? Why do we still see increasing impacts of natural hazards despite major progress in understanding their drivers and constant innovation in methods? Which approaches are needed to assess and manage multi-hazard and multi-risk?

Co-organized by GM12/HS2.5
Convener: Philip Ward | Co-conveners: Johanna MårdECSECS, Korbinian BreinlECSECS, James DaniellECSECS, John K. Hillier, Giuliano Di Baldassarre, Hessel Winsemius, Michael HagenlocherECSECS
vPICO presentations
| Thu, 29 Apr, 13:30–17:00 (CEST)
SSP2.6 EDI

The session asks for well-dated geoarchives that document the physical evidence of the transition from the Late Holocene (Meghalayan) to the Anthropocene. These may include artificial deposits, lake, estuary or marine sediments, peat, speleothems, ice core or biological hosts such as trees or corals, displaying good chronologies. The evidence for an Anthropocene can include transitions in the types and abundance of physical materials, biota, or distinct geochemical signals; ideally the study should provide multiple proxies or consider innovative new techniques in recognising the Anthropocene. We are interested in presentations that show continuous to near continuous records that can extend hundreds or even thousands of years back in time, but should also include comparable analysis through the mid-20th century to near present day. The presentations should explain how, if at all, the Anthropocene can be distinguished in these archives. Studies from any continent will be considered, though presentations on archives from South America and Africa are especially encouraged.

Co-organized by CL3.1/GM12
Convener: Michael Wagreich | Co-conveners: Irka Hajdas, Kira LappéECSECS, Colin N. Waters
vPICO presentations
| Wed, 28 Apr, 14:15–15:00 (CEST)
GM12.7 EDI

Documenting the diversity of human responses and adaptations to climate, landscapes, ecosystems, natural disasters and the changing natural resources availability in different regions of our planet, cross-disciplinary studies in Geoarchaeology provide valuable opportunities to learn from the past. Furthermore, human activity became a major player of global climatic and environmental change in the course of the late Quaternary, during the Anthropocene. Consequently, we must better understand the archaeological records and landscapes in context of human culture and the hydroclimate-environment nexus at different spatial and temporal scales. This session seeks related interdisciplinary papers and specific geoarchaeological case-studies that deploy various approaches and tools to address the reconstruction of former human-environmental interactions from the Palaeolithic period through the modern. Topics related to records of the Anthropocene from Earth and archaeological science perspectives are welcome. Furthermore, contributions may include (but are not limited to) insights about how people have coped with environmental disasters or abrupt changes in the past; defining sustainability thresholds for farming or resource exploitation; distinguishing the baseline natural and human contributions to environmental changes. Ultimately, we would like to understand how strategies of human resilience and innovation can inform our modern strategies for addressing the challenges of the emerging Anthropocene, a time frame dominated by human modulation of surface geomorphological processes and hydroclimate.

Co-organized by BG1/CL3.1/SSP2/SSS3
Convener: Julia MeisterECSECS | Co-conveners: André Kirchner, Guido Stefano MarianiECSECS, Kathleen Nicoll, Hans von Suchodoletz
vPICO presentations
| Wed, 28 Apr, 11:00–12:30 (CEST)
GM12.8 EDI

Geoheritage is the human side of geosciences, where natural features are valued in relation to their societal, cultural and economic context. Geoheritage provides a way to appreciate and manage our environment, as well as being a window into geosciences for the broader public. Our fundamental geoscience is incomplete and meaningless unless it is contextualised, and geoheritage is an essential way to do this. Geoheritage is multidisciplinary, drawing from all sides of geosciences and extending them into social sciences, territorial and risk management, and economics. Geoheritage's basic building block is the geosite, a geographically defined distinct feature, and also includes collections, and buildings with natural stone. All geoheritage is underpinned by geodiversity, the fundamental study of topographic, lithological and geomorphological variability (covered in a linked EGU session, Visages of Geodiversity).
This session calls for a continuation of the rich multidisciplinary sessions in previous EGU meetings, where diverse actors in geoheritage have exchanged with the whole geosciences community on subjects ranging from: 1) the integration of geoscience research into geoheritage (how can you make your research have an impact?; 2) using geoheritage for responsible resource management; 3) geosite description, assessment and protection, including legislative aspects at all scales; 4) territorial management and urban geoheritage; 5) geoheritage and resilience to natural hazards; 6) geoheritage and degradation risk assessment; 7) case studies in geoheritage, including geotourism; 8) remote and geophysical geosciences as intangible geoheritage.
The session is planned to be be held with on-line presentations, with a physical poster session, and an open multidisciplinary splinter meeting, to meet and discuss. Geodiversity and geoheritage visages will combine in this to engage with a large public.

The session is supported by the IAG Working Group on Geomorphosites, the IUGS Commission for Geoheritage, the International Lithosphere Program, and UNESCO IGCP project 692 Geoheritage for Resilience.

Co-organized by EOS6
Convener: Paola Coratza | Co-conveners: Paula Naomi IraptaECSECS, Lucie Kubalíková, Márton PálECSECS, Benjamin van Wyk de Vries
vPICO presentations
| Fri, 30 Apr, 15:30–17:00 (CEST)
GI2.2 EDI

The session gathers geoscientific aspects such as dynamics, reactions, and environmental/health consequences of radioactive materials that are massively released accidentally (e.g., Chernobyl and Fukushima 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 physical/chemical/biological 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 35 years (> halftime of Cesium 137) monitoring data after the Chernobyl Accident in 1986, 10 years 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.

Co-organized by AS4/BG1/GM12/NH8/SSS7
Convener: Daisuke Tsumune | Co-conveners: Nikolaos Evangeliou, Yasunori IgarashiECSECS, Liudmila KolmykovaECSECS, Masatoshi Yamauchi
vPICO presentations
| Mon, 26 Apr, 13:30–17:00 (CEST)

GM13 – Short Courses

SC2.16

Meet editors of internationally renowned journals in biogeosciences and soil system science and gain exclusive insights into the publishing process. After a short introduction into some basics, we will start exploring various facets of academic publishing with short talks given by the editors on - What are the duties and roles of editors, authors and reviewers? - How to choose a suitable journal for your manuscript and what is important for early career authors? - How can early career scientists get involved in successful peer-reviewing? - What is important for appropriate peer-reviewing? - What are ethical aspects and responsibilities of publishing? - Together with the audience and the editors, we will have an open discussion of all steps and factors shaping the publication process of a manuscript. This short course aims to provide early career scientists across several EGU divisions (e.g. BG, SSS, NH and GM) the opportunity of using first hand answers of experienced editors of international journals to successfully publish their manuscripts and get aware of the potentials and pitfalls in academic publishing.

Public information:
With this short course, we would like to offer you the unique opportunity to meet and discuss with the Editors-in-Chief of four different journals spanning the fields of soil science, biogeosciences and broader earth and environmental sciences. The course is open to anyone interested in learning more about the publication in peer-reviewed journals. We encourage researchers and students from all disciplines to join in.

Prof. Dr. Ingrid Kögel-Knabner (Geoderma, Elsevier), Dr. Heike Langenberg (Communications Earth and Environment, Nature), Prof. Dr. Tina Treude (Biogeosciences, Copernicus) and Prof. Dr. Hermann Jungkunst (Journal of Plant Nutrition and Soil Science, Wiley) will provide us their opinion on questions like:

What are the duties and roles of editors, authors and reviewers?

How to choose a suitable journal for your manuscript and how to address a broader audience?

What are the benefits of open peer-reviewing and what are potential obstacles of inter-/transdisciplinary research publications?

What are ethical aspects and responsibilities of publishing?

We will also be able to collect your questions via chat during our webinar and address them to the Editors.
Co-organized by BG1/GM13/NH11/SSS1
Convener: Marcus Schiedung | Co-conveners: Hana JurikovaECSECS, Steffen A. Schweizer
Fri, 23 Apr, 16:00–17:00 (CEST)