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

Session programme

ITS

ITS – Inter- and Transdisciplinary Sessions

Programme group chair: Christopher Juhlin

ITS1 – Geosciences and health during the Covid pandemic

Programme group scientific officer: Christopher Juhlin

ITS1.1/NP0.2 EDI

One of the most challenging sustainable goals of the UN 2030 Agenda and other international agreements is that urban systems have to increase well-being and health. Indeed, these networked systems already host more than half of the world's population and are going to host most of its growth, while they have been mostly designed and managed with limited visions, in particular with respect to their geophysical environment.
This goal got an unforeseen acuity with the Covid-19 pandemic, starting with the confinement strategies that radically brought into question the functioning of these systems, e.g., drastically reducing mobility and breaking its ever increasing trend. Covid-19 was not without precursor (e.g., SARS, MERS) and will not be without successors.

Long term visions based on transdisciplinary scientific advances are therefore indispensable, particularly from the geoscience community. As a consequence, this session calls for contributions from data-driven and theory-driven approaches of urban health under global change. This includes:
- qualitative improvements of epidemic modelling, as trans-disciplinary and nonlinear as possible
- possible interplays between meteorological and/or climate drivers and epidemic/health issues
- novel monitoring capabilities (including contacts tracking), data access, assimilation and multidimensional analysis techniques
- managing field works, geophysical monitoring and planetary missions
- how to have the highest science output during corona pandemic
- a fundamental revision of our urban systems, their greening as well as their mobility offer
- a particular focus on urban biodiversity, in particular to better manage virus vectors
- urban resilience must include resilience to epidemics, and therefore requires revisions of urban governance.

Public information:
Related to ITS1:
- Union Session US2 "PostCovid Geosciences" Friday 23 April 15:00-17:00
- Town Hall meeting TM10 "Covid-19 and other epidemics: engagement of the geoscience communities", Wednesday 28 April 17:30-19:00
ZOOM data will be displayed in the program 15 min. prior to the meeting
please suggest on https://www.surveymonkey.com/r/5KZ3NYV
- a special issue of Nonlinear Processes in Geophysics is foreseen
Co-organized by EOS7/BG1/CL3.2/NH8/SSS12, co-sponsored by AGU and JpGU
Convener: Daniel Schertzer | Co-conveners: Klaus Fraedrich, Gaby LangendijkECSECS, Gabriele Manoli, Masatoshi Yamauchi
vPICO presentations
| Thu, 29 Apr, 14:15–17:00 (CEST)

ITS2 – The role of the Geosciences in the UN Sustainable Development Goals

Programme group scientific officer: Christopher Juhlin

ITS2.4/SSS2

Citizen science (the involvement of the public in scientific processes) is gaining momentum across multiple disciplines, increasing multi-scale data production on Earth Sciences that is extending the frontiers of knowledge. Successful participatory science enterprises and citizen observatories can potentially be scaled-up in order to contribute to larger policy strategies and actions (e.g. the European Earth Observation monitoring systems), for example to be integrated in GEOSS and Copernicus. Making credible contributions to science can empower citizens to actively participate as citizen stewards in decision making, helping to bridge scientific disciplines and promote vibrant, liveable and sustainable environments for inhabitants across rural and urban localities.
Often, citizen science is seen in the context of Open Science, which is a broad movement embracing Open Data, Open Technology, Open Access, Open Educational Resources, Open Source, Open Methodology, and Open Peer Review. Before 2003, the term Open Access was related only to free access to peer-reviewed literature (e.g., Budapest Open Access Initiative, 2002). In 2003 and during the “Berlin Declaration on Open Access to Knowledge in the Sciences and Humanities”, the definition was considered to have a wider scope that includes raw research data, metadata, source materials, and scholarly multimedia material. Increasingly, access to research data has become a core issue in the advance of science. Both open science and citizen science pose great challenges for researchers to facilitate effective participatory science, yet they are of critical importance to modern research and decision-makers. To support the goals of the various Open Science initiatives, this session looks at what is possible and what is applied in Earth Science.

We want to ask and find answers to the following questions:
Which approaches can be used in Earth Sciences?
What are the biggest challenges in bridging between scientific disciplines and how to overcome them?
What kind of participatory citizen scientist involvement and open science strategies exist?
How to ensure transparency in project results and analyses?
What kind of critical perspectives on the limitations, challenges, and ethical considerations exist?

Co-organized by EOS7/AS4/BG2/CL3.2/HS12
Convener: Taru Sandén | Co-conveners: Tamer Abu-Alam, Lorenzo Bigagli, Noortje Dijkstra, Daniel DörlerECSECS, Dilek FraislECSECS, Florian HeiglECSECS, Leif Longva
vPICO presentations
| Fri, 30 Apr, 11:00–12:30 (CEST)
ITS2.5/OS4.8 EDI

Plastic contamination is a global concern. With increasing usage and disposal of plastics, waste management is often inefficient in processing the volumes of plastic discarded. A large proportion of plastic waste accumulates in the natural environment where clean-up is difficult, if not impossible. This results in the plastic contamination persisting in the environment for many years, having the potential to cause long-term ecological harm, ultimately affecting humans.

To mitigate plastic pollution and find solutions to reduce harmful effects, a better understanding of the sources and pathways of plastics in the environment is needed. This should inform social and industrial practices, as well as advise on regulatory changes to address plastic management. This will also promote developing a roadmap towards the development and safe usage of alternative materials, to reduce environmental and health implications. The approach aims at bringing together academics from a variety of research fields and citizen science initiatives along with stakeholders from civil society and industry, as well as regulators and policymakers. The task requires collaboration across disciplines, from environmental sciences, including biology and chemistry, geosciences, atmospheric sciences and oceanography, to materials science, social sciences and economics.

This session will address the linkages and cross-disciplinary collaborations required for effective progress in this field. We specifically invite presentations featuring successes and challenges in collaboration between academia, industry and regulators. Presentations on tracking plastics and on elucidating connecting mechanisms from human activities through to environmental abundance and impact are encouraged. Studies on biota-plastic interactions, plastic fluxes linked to human activities and environmental changes (from synoptic events to climate change) and studies linking plastic characteristics to toxicological impacts (chemistry, materials science and ecotoxicology) are welcomed.

This is a linked session co-organised and co-designed with a session at the annual meeting of SETAC Europe (Society of Environmental Toxicology and Chemistry), by connected convenor teams, to ensure full integration and input across disciplines. Outputs from the linked sessions will be disseminated widely across SETAC and EGU members through online resources, with a view to effective knowledge sharing and building collaborations.

Public information:
The last 15 minutes of the second timeblock (14:45-15:00) we will hold a discussion session with the topic: "Progressing key uncertainties in microplastic interaction with the food web."
Co-organized by BG1/HS12/SSS12
Convener: Stefanie RyndersECSECS | Co-conveners: Yevgeny Aksenov, Karin KvaleECSECS, Ilka Peeken, Anna Rubio, Tim van Emmerik, Beverly Waller
vPICO presentations
| Mon, 26 Apr, 11:00–12:30 (CEST), 13:30–15:00 (CEST)
ITS2.6/BG9 EDI

A grand challenge facing society in the coming decades is to feed the growing human population in a sustainable and healthy manner. This challenge is central to many of the United Nations Sustainable Development goals (SDGs), including the zero hunger goal but also those for human health, water, terrestrial biodiversity and sustainable production and consumption.
This problem is made more complex by an increasingly globalised food system and its interactions with a changing climate. Agri-food system actors - including policy makers, corporations, farmers, and consumers - must meet this challenge while considering potentially conflicting priorities, such as environmental sustainability (e.g., minimising disturbance to ecosystems via greenhouse gas emissions and the use of water, land, fertilisers and other inputs), economic viability (e.g., revenues for food producers and guaranteed access for consumers), nutritional balance and quality (e.g., addressing overconsumption and undernourishment), and resilience to climate change.
This growing complexity of agri-food systems, which can involve global supply chains and difficult environmental and societal tradeoffs, needs to be better understood.
The type of product (e.g. plant or meat based, fresh or processed), as well as the location and method of production, can play an important role in improving the nutritional quality and environmental sustainability of global food production, to enable healthy and sustainable diets. Quantifying and assessing these multiple outcomes while accounting for the linkages, interconnections, and scales of local and global supply chains will be essential for informing decisions aimed at developing sustainable and resilient agri-food systems.
This session welcomes submissions that quantify and assess a range of outcomes from agri-food systems across multiple spatial and temporal scales, and the trade-offs or synergies between them. The session will include studies providing improved methods for quantifying multiple environmental, economic or social dimensions, studies that incorporate the role of food trade into solution-development, and studies that seek to achieve multiple sustainability goals together.

Co-organized by SSS9
Convener: Carole Dalin | Co-conveners: Matti Kummu, Tuninetti MartaECSECS, Landon MarstonECSECS, Kyle Frankel Davis
vPICO presentations
| Mon, 26 Apr, 09:00–10:30 (CEST)
ITS2.7/ESSI2

Global plastic production has increased exponentially since the fifties, with 359 million metric tons manufactured in 2018 alone. Nearly 20% of this production took place within Europe, where at least half of discarded plastics collected for ‘recycling’ were instead exported to China and SE Asia. Every year, an increasing proportion of these plastics (in the order of millions of tons) enter and accumulate in our waterways and oceans. In riverine and marine systems, the presence of micro to macroplastic debris has generated a growing and persistent threat to the environment and ecosystems, as well as an urgent and multi-dimensional challenge for our society.

Methods for resource-efficient and large-scale detection and monitoring of plastic litter are still relatively new. However, in the last few years, they have blossomed across technologies and environments - from mounted cameras to drones to satellites, and from lakes and rivers to coastal waters and open oceans. These new technologies can be crucial to fill in the gaps between limited in situ observations and global models, allowing coverage across fine as well as large spatial scales, and over long time periods. We invite abstracts describing the use of cameras, drones, satellites and other remote sensing techniques to observe and monitor riverine and marine plastics. We also welcome work describing or demonstrating new approaches, methods and algorithms to improve the use of cameras and sensors for plastic detection on (and in) water.

Co-organized by EOS7/GI4/HS12/OS4
Convener: Lauren BiermannECSECS | Co-conveners: Katerina KikakiECSECS, Cecilia MartinECSECS, Irene RuizECSECS, Tim van Emmerik
vPICO presentations
| Thu, 29 Apr, 13:30–14:15 (CEST)
ITS2.9/SSS3 EDI

Land degradation is a human-induced process deteriorating ecosystem functioning and services including soil fertility or biological productivity, and is accompanied by a loss of biodiversity. It causes on-site and off-site damages like change or removal of vegetation cover and soil erosion on one hand as well as flooding and siltation of receiving streams one the other hand. Thus, land degradation poses a threat to a number of sustainable development goals including foremost sustainable life on land and under water, the provision of clean water and eventually the eradication of poverty and hunger on Earth.
Often, land cover change is a valid indicator of land degradation providing the opportunity to take advantage of the increasing geometrically and temporally high-resolution remote sensing capabilities to identify and monitor land degradation. However, especially in semi-arid regions like savanna environments, globally driven inter-annual and decadal climate variations cause as well profound land cover dynamics which might be mistaken for land degradation.
Assessing and combating land degradation has already a long scientific, socio-economic and political history. Based on this, the aim of this session is to explore the wide range of methodological approaches to assess land degradation, its dynamics over all spatial and temporal scales as well as the implications for society and the interaction with the different spheres of the Earth including the anthroposphere, atmosphere, biosphere, hydrosphere or the pedosphere. Contributions to this session can be based on field work, remote sensing approaches or modelling exercises, they can also focus on specific physical and socio-economic aspects of land degradation like land management, land cover change or soil erosion or discuss land degradation in a broader societal context.

Public information:
Land degradation is a human-induced process deteriorating ecosystem functioning and services including soil fertility or biological productivity, and is accompanied by a loss of biodiversity. It causes on-site and off-site damages like change or removal of vegetation cover and soil erosion on one hand as well as flooding and siltation of receiving streams one the other hand. Thus, land degradation poses a threat to a number of sustainable development goals including foremost sustainable life on land and under water, the provision of clean water and eventually the eradication of poverty and hunger on Earth.
Often, land cover change is a valid indicator of land degradation providing the opportunity to take advantage of the increasing geometrically and temporally high-resolution remote sensing capabilities to identify and monitor land degradation. However, especially in semi-arid regions like savanna environments, globally driven inter-annual and decadal climate variations cause as well profound land cover dynamics which might be mistaken for land degradation.
Assessing and combating land degradation has already a long scientific, socio-economic and political history. Based on this, the aim of this session is to explore the wide range of methodological approaches to assess land degradation, its dynamics over all spatial and temporal scales as well as the implications for society and the interaction with the different spheres of the Earth including the anthroposphere, atmosphere, biosphere, hydrosphere or the pedosphere. Contributions to this session can be based on field work, remote sensing approaches or modelling exercises, they can also focus on specific physical and socio-economic aspects of land degradation like land management, land cover change or soil erosion or discuss land degradation in a broader societal context.
Co-organized by
Convener: Jussi Baade | Co-conveners: J.J. Le Roux, Theunis Morgenthal, Hilma Sevelia NghiyalwaECSECS
vPICO presentations
| Fri, 30 Apr, 13:30–14:15 (CEST)
ITS2.11/AS4.12

This session is linked to the Pan-Eurasian EXperiment (PEEX; www.atm.helsinki.fi/peex), a multi-disciplinary, -scale and -component climate change, air quality, environment and research infrastructure and capacity building programme. It is aimed at resolving major uncertainties in Earth system science and global sustainability issues concerning the Arctic, Northern Eurasia and China regions. This session aims to bring together researchers interested in (i) understanding environmental changes effecting in pristine and industrialized Pan-Eurasian environments (system understanding); (ii) determining relevant environmental, climatic, and other processes in Arctic-boreal regions (process understanding); (iii) the further development of the long-term, continuous and comprehensive ground-based, air/seaborne research infrastructures together with satellite data (observation component); (iv) to develop new datasets and archives of the continuous, comprehensive data flows in a joint manner (data component); (v) to implement validated and harmonized data products in models of appropriate spatio-temporal scales and topical focus (modeling component); (vi) to evaluate impact on society though assessment, scenarios, services, innovations and new technologies (society component).
List of topics:
• Ground-based and satellite observations and datasets for atmospheric composition in Northern Eurasia and China
• Impacts on environment, ecosystems, human health due to atmospheric transport, dispersion, deposition and chemical transformations of air pollutants in Arctic-boreal regions
• New approaches and methods on measurements and modelling in Arctic conditions;
• Improvements in natural and anthropogenic emission inventories for Arctic-boreal regions
• Physical, chemical and biological processes in a northern context
• Aerosol formation-growth, aerosol-cloud-climate interactions, radiative forcing, feedbacks in Arctic, Siberia, China;
• Short lived pollutants and climate forcers, permafrost, forest fires effects
• Carbon dioxide and methane, ecosystem carbon cycle
• Socio-economical changes in Northern Eurasia and China regions.
PEEX session is co-organized with the Digital Belt and Road Program (DBAR), abstracts welcome on topics:
• Big Earth Data approaches on facilitating synergy between DBAR activities & PEEX multi-disciplinary regime
• Understanding and remote connection of last decades changes of environment over High Asia and Arctic regions, both land and ocean.

Public information:
This session is linked to the Pan-Eurasian EXperiment (PEEX; www.atm.helsinki.fi/peex), a multi-disciplinary, -scale and -component climate change, air quality, environment and research infrastructure and capacity building program. PEEX is aimed at resolving major uncertainties in Earth system science and global sustainability issues concerning the Arctic, Northern Eurasia and China regions. The PEEX - EGU - 2021 session(s) are dedicated in honor of the memory of Prof. Sergej Zilitinkevich.
Co-organized by BG3/CL2/CR7/GI4
Convener: Markku Kulmala | Co-conveners: Alexander Baklanov, Hanna Lappalainen, Sergej Zilitinkevich (deceased)
vPICO presentations
| Thu, 29 Apr, 09:00–12:30 (CEST)
ITS2.14/HS12.2 EDI

Nature-based Solutions (NBS) are reframing discussion and policy responses worldwide to environmental challenges. Thus, NBS is of growing implementation, supported namely by the EU political agenda (e.g., green deal), as a way to attain the United Nations (UN) Sustainable Development Goals (SDG), and to reinforce the New Urban Agenda. The NBS concept recognise the importance of nature and outline requirements for a systemic and holistic approach to environmental change, based on an understanding of the structure and functioning of ecosystems, and the social and institutional context within which they are situated. Furthermore, there is a growing recognition that human activities exert pressure on natural resources affecting the ecosystem dynamics and therefore the nexus (synergies and trade-offs) between their different functions and services. However, quantification of existing NBS’ effectiveness, their operationalisation and replication in different environmental settings has not been presented in such a way that allows them to be both widely accepted and incorporated in policy development and in practical implementation to achieve the UN SDGs.
This session aims to discuss and advance knowledge of innovative NBS approaches to face environmental challenges, such as water supply and management, agricultural production and healthy ecosystems, and simultaneously provide better understanding of associated social-ecological interactions, contributing to enhance the scientific basis for sustainable development and resilience.
This session seeks to:
- Better understanding of advantages and disadvantages of NBS to address global environmental and societal challenges;
- Studies on adaptation and mitigation options for the effect of climate change on water provisioning and livelihoods;
- New methods and tools to investigate the role of NBS in the context of environmental change; in particular, the effectiveness of NBS for hydro-meteorological risk reduction at landscape/watershed scale;
- New insights, methodologies, tools and best practices enabling successful implementation and upscaling of NBS in multiple contexts;
- Identifying opportunities for and barriers to NBS within current regulatory frameworks and management practices;
- Presenting overviews and case studies of NBS projects that also involve the private sector and market-based mechanisms;
- NBS towards achieving the Sustainable Development Goals (SDGs).

Co-organized by BG1/CL3.2/NH1/SSS12
Convener: Zahra Kalantari | Co-conveners: Carla FerreiraECSECS, Haozhi PanECSECS, Suzanne JacobsECSECS, Alicia CorreaECSECS, Paulo Pereira
vPICO presentations
| Tue, 27 Apr, 09:00–12:30 (CEST)
ITS2.15/CL3.1.7

As highlighted by the UN development goals, climate change is a reality to which we need to adapt. Our ability to effectively address the adaptation issue must come from a communal effort to link our knowledge in different fields and transform it into useful information for stakeholders and policymakers.

Up to now, physical climate modelling and natural hazard impact and risk assessment have been two separate disciplines that have suffered difficulties in communicating and interacting due to different languages and backgrounds. Until recently, climate modellers did not have the capability to generate long-term projections at a spatial and temporal resolution useful for impact studies such as flood risk assessment, soil erosion or urban modelling. With the advent of kilometre-scale atmospheric models, called convection-permitting models CPMs, we are now in a position to bridge the gap between the two communities, sharing knowledge and understanding. Compared to traditional climate models, CPMs improve substantially the representation of sub-daily precipitation characteristics and have a spatial resolution closer to what many impacts modellers, for example hydrologists, need. Several CPM datasets are already available over different parts of the world and more internationally coordinated projects on CPMs, such as the CORDEX Flagship Pilot Study (CORDEX-FPS) and the European Climate Prediction System (EUCP), are already in place. Now is the time to exploit these high-resolution physically-consistent datasets as input for impact studies and adaptation strategies; to foster interdisciplinary collaboration to build a common language and understand limitations and needs of the different fields; to learn together how to provide policymakers with information and practical cases that can be used to design effective measures at the regional level to adapt to climate change as well as to inform mitigation decisions.

This interdisciplinary session invites contributions that address the linkages between high-resolution modellers and users with examples of good practice, storylines and communication to both stakeholders and policymakers.

Co-organized by HS12/NH1
Convener: Giorgia Fosser | Co-conveners: Hayley Fowler, Elizabeth Kendon, Andreas F. Prein
vPICO presentations
| Wed, 28 Apr, 15:30–17:00 (CEST)
ITS2.16/CL3.2.19 EDI

Understanding the impact of climate change on natural and socio-economic outcomes plays an important role in informing a range of national and international policies, including energy, agriculture and health. Furthermore, studying this interplay between natural and human systems sheds light on progress and future challenges required to achieve many of the UN Sustainable Development Goals. However economic models of (and those designed to include) climate impacts that guide decision makers rely on multiple components, for example projections of future climate change, damage functions, and policy responses, each of which comes with its own modelling challenges and uncertainties.

We invite research using process-based (e.g. Integrated Assessment Models) and empirical models of climate change to investigate future human and natural impacts, together with policy evaluation to explore effective mitigation, technology and adaptation pathways. Furthermore, we invite research on changes to, and new developments of climate-economic and econometric modelling.

Co-organized by
Convener: Luke Jackson | Co-conveners: Sam Heft-Neal, Susana Campos-MartinsECSECS, Felix PretisECSECS, David Stainforth
vPICO presentations
| Wed, 28 Apr, 13:30–15:00 (CEST)
ITS2.18/CL3.2.16

The UN 2030 Agenda for Sustainable Development is an urgent call for a global partnership for action. The new paradigm of the Paris Agreement puts additional responsibility on scientists to provide data and knowledge to inform climate action for the benefit of society. Together with the other UN conventions (on biological diversity and on disaster risk reduction), these frameworks are highly dependent on evidence-based information derived from geosciences. After having developed crucial capacities on the regional level, Research Infrastructures and other data providers need to upgrade their cooperation efforts and coordinate their actions on the global level. They must ensure a sustainable production of data, products and services in line with the demands of the decision-makers. To deliver on the expectations of the UN system in support of policy-makers, actors from different disciplines (observation, modeling, reporting…) have to intensify their collaborative efforts.

In this session, we welcome abstracts presenting the recent developments in international cooperation efforts, global integration of data sets, initiatives to support climate services and especially the Monitoring, Reporting and Verification mechanism of the Paris Agreement. We also wish to stage the role of disciplines belonging to the human and social fields in achieving the objective.

Public information:
Welcome! We have uploaded a short session introduction so as not to take an additional 5-min-slot from the speakers of this short and intense session! We look forward to fruitful discussions on the role of research infrastructures as drivers of excellent science with societal impact in a global environment!
Co-organized by
Convener: Emmanuel Salmon | Co-conveners: Beryl Morris, Michael Mirtl, Xiubo Yu
vPICO presentations
| Fri, 30 Apr, 14:15–15:00 (CEST)

ITS3 – Earth system stability, thresholds and resilience

Programme group scientific officer: Christopher Juhlin

ITS3.1/NP0.1 EDI

Several subsystems of the Earth system have been suggested to react abruptly at critical levels of anthropogenic forcing. Well-known examples of such Tipping Elements include the Atlantic Meridional Overturning Circulation, the polar ice sheets and sea ice, tropical and boreal forests, as well as the Asian monsoon systems. Interactions between the different Tipping Elements may either have stabilizing or destabilizing effects on the other subsystems, potentially leading to cascades of abrupt transitions. The critical forcing levels at which abrupt transitions occur have recently been associated with Tipping Points.

It is paramount to determine the critical forcing levels (and the associated uncertainties) beyond which the systems in question will abruptly change their state, with potentially devastating climatic, ecological, and societal impacts. For this purpose, we need to substantially enhance our understanding of the dynamics of the Tipping Elements and their interactions, on the basis of paleoclimatic evidence, present-day observations, and models spanning the entire hierarchy of complexity. Moreover, to be able to mitigate - or prepare for - potential future transitions, early warning signals have to be identified and monitored in both observations and models.

This multidisciplinary session invites contributions that address Tipping Points in the Earth system from the different perspectives of all relevant disciplines, including

- the mathematical theory of abrupt transitions in (random) dynamical systems,
- paleoclimatic studies of past abrupt transitions,
- data-driven and process-based modelling of past and future transitions,
- early-warning signals
- the implications of abrupt transitions for Climate sensitivity and response,
- ecological and societal impacts, as well as
- decision theory in the presence of uncertain Tipping Point estimates

Co-organized by CL4
Convener: Niklas Boers | Co-conveners: Peter Ashwin, Peter Ditlevsen, Vera Melinda Galfi, Timothy Lenton , Valerio Lucarini, Marisa Montoya, Anna von der Heydt
vPICO presentations
| Tue, 27 Apr, 13:30–17:00 (CEST)
ITS3.2/BG7

Extreme climate and weather events, associated disasters, geohazards and emergent risks interact with other stressors, especially growing anthropogenic pressures, and are so becoming increasingly critical in the context of global environmental change. They are a potential major threat to reaching the Sustainable Development Goals (SDGs) and one of the most pressing challenges for future human well-being and safety.
This session explores the linkages between extreme climate and weather events, geohazards, associated disasters, societal dynamics and resilience.
Emphasis is laid on 1) Which impacts are caused by extreme climate events (including risks emerging from compound events) and cascades of impacts on various aspects of ecosystems and societies? 2) Which feedbacks across ecosystems, infrastructures and societies exist? 3) What are key obstacles towards societal resilience and reaching the SDGs, while facing climate extremes? 4) What can we learn from past experiences? 5) What local to global governance arrangements best support equitable and sustainable risk reduction?
Nowadays, to answer this last question, the careful application of social media and crowdsourcing (SMCS) begins to make a contribution, notably in the field of geosciences. SMCS have been integrated into crisis and Disaster Risk Management (DRM) for improved information gathering and collaboration across communities, and for collaboratively coping with critical situations. Numerous governments and EU-funded projects have been exploring the implementation and use of SMCS by developing and adopting new technologies, procedures, and applications. The effectiveness of SMCS on European disaster resilience, however, remains unclear, due to the diversity among disaster risk perception and vulnerability. In general, this second part addresses ways to govern and understand the effectiveness of SMCS for Disaster Risk Management and the related Disaster Resilience is focused.
In this session we welcome empirical with practical applications, theoretical and modelling studies from local to global scale from the fields of natural sciences, social sciences, humanities and related disciplines since the creation of novel effective approaches necessitates a coordinated and coherent effort between them.

Public information:
Please note that ERL has opened a Focus issue on Earth System Resilience and Tipping Behavior, closely aligned with this session:

Anthropogenic climate change including the increase of unprecedented climate extremes is not a future threat but is happening now. The ability of the atmosphere, hydrosphere or biosphere to adapt to abrupt changes is very limited within a time-frame meaningful to our present social structures. Consequently, determining the resilience of these earth system components to anthropogenic forcing has become a global concern. The resilience of the system, that is its ability to resist these climate disturbances and to recover from the perturbed state, will be a decaying function of the disturbance intensity. Tipping point dynamics can be used to determine system transition conditions at which the perturbed state is no longer decaying but growing and tipping into a new and potentially stable functional branch of the possible outcomes. In the face of catastrophic changes that might be coming, it is vitally important for policy makers and others to know the conditions at which a tipping point could be reached and exceeded. The earth system is highly nonlinear with many positive and negative feedback interactions so that the tipping behavior is complicated. The complexity raises many open research questions: (1) how to determine the tipping elements? (2) what are the early-warning signals for system transitions? (3) what are the potential domino effects for tipping-cascades of abrupt transitions, and (4) does warming climate increase the risk of triggering tipping points?

https://iopscience.iop.org/journal/1748-9326/page/Focus_on_earth_system_resilience_and_tipping_behavior - please consider submitting an abstract!
Co-organized by CL3.2/HS12/NH10
Convener: Markus Reichstein | Co-conveners: Dorothea Frank, Felix Riede, Jana Sillmann, Stefano Morelli, Sara Bonati, Nathan Clark, Veronica Pazzi
vPICO presentations
| Wed, 28 Apr, 09:00–12:30 (CEST)
ITS3.5/NH3

Extreme events and natural hazards are frequent occurrences on our unstable planet. They are predicted to become more common, severe and costly in the future and this session explores their role in human prehistory and history. In order to understand the potential of contemporary and future extreme events to impact human societies, it is critical to understand the mechanisms of how they may have occurred in the past, and elucidate their effects. This session invites contributions from across relevant disciplines. Global in scope and not limited to specific types of extreme events or natural hazards, we hope to compare and contrast differing methods and datasets that address the character and role of extreme events in the human past. Ultimately, we also seek to discuss how the evidence base of Pleistocene and Holocene calamities can be brought into play in the discussion about sustainability and disaster risk reduction in the Anthropocene, as well as to explore how extreme events may have shaped our past.

Public information:
Please note that this session is linked to an open special issue in Frontiers in Earth Science. For further information, please visit https://www.frontiersin.org/research-topics/18192/extreme-events-in-human-evolution-from-the-pliocene-to-the-anthropocene or get in touch with the session conveners! The CfP for this special issue is open and we would welcome relevant submissions.
Co-organized by CL1/SM1, co-sponsored by Future Earth
Convener: Felix Riede | Co-conveners: Huw S. Groucutt, Amy Prendergast
vPICO presentations
| Thu, 29 Apr, 09:00–10:30 (CEST)
ITS3.6/GMPV2 EDI

Volcanoes release gas effluents and aerosol particles into the atmosphere during eruptive episodes and by quiescent emissions. Volcanic degassing exerts a dominant role in forcing the timing and nature of volcanic unrest and eruptions. Understanding the exsolution processes of gas species dissolved in magma, and measuring their emissions is crucial to characterise eruptive mechanism and evaluate the sub-sequent impacts on the atmospheric composition, the environment and the biosphere. Emissions range from silent exhalation through soils to astonishing eruptive clouds that release gas and particles into the atmosphere, potentially exerting a strong impact on the Earth’s radiation budget and climate over a range of temporal and spatial scales. Strong explosive volcanic eruptions are a major natural driver of climate variability at interannual to multidecadal time scales. Quiescent passive degassing and smaller-magnitude eruptions on the other hand can impact on regional climate system. Through direct exposure and indirect effects, volcanic emissions may influence local-to-regional air quality and seriously affect the biosphere and environment. Volcanic gases can also present significant hazards to populations downwind of an eruption, in terms of human, animal and plant health, which subsequently can affect livelihoods and cause socio-economic challenges. Gas emissions are measured and monitored via a range of in-situ and remote sensing techniques, to gain insights into both the subterranean-surface processes and quantify the extent of their impacts. In addition, modelling of the subsurface and atmospheric/climatic processes, as well as laboratory experiments, are fundamental to the interpretation of field-based and satellite observations.

This session focuses on the state-of-the-art and interdisciplinary science concerning all aspects of volcanic degassing and impacts of relevance to the Volcanology, Environmental, Atmospheric and Climate sciences (including regional climate), and Hazard assessment. We invite contributions on all aspects of volcanic plumes science, their observation, modelling and impacts. We welcome contributions that address issues around the assessment of hazards and impacts from volcanic degassing both in crises and at persistently degassing volcanoes.

Co-organized by AS3/CL4/NH2
Convener: Pasquale Sellitto | Co-conveners: Amy Donovan, Emily MasonECSECS, Tjarda Roberts, Giuseppe G. Salerno
vPICO presentations
| Wed, 28 Apr, 15:30–17:00 (CEST)
ITS3.7/ERE1.6 EDI

The pressure of human activities on the Earth System has reached a scale where abrupt global environmental changes can no longer be excluded and gradual changes are accelerating at alarming rates. Simply continuing established political efforts to “decouple” GDP from resource use and GHG emissions will not suffice to achieve the absolute reductions required to avoid catastrophic climate change and reduce rising pressures on ecosystems. Hence, a socioecological transformation of resource use patterns is required that will imply significant non-linear deviations from past trajectories.
The question then arises, to what extent and how societies actually have agency to actively shape, accelerate and steer such a required transformation? Human agency refers to the ability to shape one’s life, or the collective ability to change the course of social action. Individual agency is reflected in individual choices and the ability to influence one’s life conditions and chances. Collective agency refers to situations in which individuals pool their knowledge, skills, and resources, and act in concert to shape their future.
Complex systems, such as our planet and human societies, cannot be fully controlled and their behaviour cannot be predicted. Nevertheless, some authors argue it possible to imperfectly navigate such systems. The questions that we are going to discuss in the session include:
i. How to navigate the humanity in the Anthropocene?
ii. What are the relevant dimensions of human agency to study human-environment system interactions?
iii. Which concepts and research methods are relevant for the research on human agency?
iv. How to operationalize human agency in global human-environmental system modelling efforts?
We are in particular interested in new approaches that would go beyond the rational choice and equilibrium paradigms. Such approaches should be able to explain and demonstrate system evolution pathways, system transitions, tipping points, and tipping interventions. They should be able to include human agents who operate under the conditions of resource scarcity and conflicting interests, and take decisions in the presence of high risk and uncertainty.

Public information:
The second part of the session (16:00 - 17:00 CEST) will be run as a panel discussion.
Co-organized by CL3.2
Convener: Ilona M. Otto | Co-conveners: Marina Fischer-Kowalski, Helmut Haberl, Wolfgang Lucht, Dominik WiedenhoferECSECS
vPICO presentations
| Fri, 30 Apr, 15:30–17:00 (CEST)
ITS3.8/SSS1 EDI

Homo sapiens as product of the natural evolution of the biosphere , was created as a species in the geochemical conditions of the virgin biosphere. After successful colonization of the adverse environmental conditions around the whole world, he started its transformation first by land cultivation, urbanization and now by creation a new habitat exclusively for man. All these have led to a significant geochemical transformation of the virgin biosphere. Nowadays, a growing variety of anthropogenic sources of pollution requires, not only a constant monitoring of the chemical state of soil, water, air and food products, but also the development of spatially differentiated approaches to assessing the health risk by evaluation of diseases’ provocation. To solve this problem, it is necessary to develop effective approaches towards interpretation of spatially related geochemical and medical information. In this way we propose to discuss: 1) the global trends of health transformation in geochemical environment of actual noosphere; 2) different approaches to assess the risk of diseases of geochemical nature in different countries; 3) criteria for determining pollution level depending on geochemical constrains and health effects; 4) the problem of mapping of risk zones, related to negative medical effects due to both excess and deficiency of certain chemical elements or compounds.

Co-organized by BG2/ESSI1
Convener: Elena Korobova | Co-conveners: Jaume Bech, Liudmila KolmykovaECSECS
vPICO presentations
| Fri, 30 Apr, 09:00–10:30 (CEST)
ITS3.10/ERE1.7

Food traceability is an important issue in food security and quality control.
The possibility of tracing the origin of food stuff is assuming an increasingly important role at the legislative level, as a tool that may allow to prove on product authenticity and to control adulteration.
Establish geochemical and isotopic analytical approaches to trace food play a key role to ensure food safety.

Co-organized by BG2/SSS9
Convener: Elena Marrocchino | Co-conveners: Barbara Faccini, Chiara Telloli
vPICO presentations
| Thu, 29 Apr, 11:00–11:45 (CEST)
ITS3.12/AS2.10 EDI

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

Co-organized by BG3/CL4/CR7/NH1
Convener: Pavla Dagsson Waldhauserova | Co-conveners: Biagio Di Mauro, Marie Dumont, Outi Meinander
vPICO presentations
| Mon, 26 Apr, 15:30–17:00 (CEST)

ITS4 – Robotics and artificial intelligence in the Earth, Planetary and Space Sciences

Programme group scientific officer: Christopher Juhlin

ITS4.2/PS4.4 EDI

The increasing amount of data from an increasing number of spacecraft in our solar system shouts out for new data analysis strategies. There is a need for frameworks that can rapidly and intelligently extract information from these data sets in a manner useful for scientific analysis. The community is starting to respond to this need. Machine learning, with all of its different facets, provides a viable playground for tackling a wide range of research questions. Algorithms to automatically detect and classify special features in time series data of the solar wind or in 2D images of planetary surfaces are examples of where machine learning approaches can support and improve existing models. Further, modern learning methods can encode properties of interest in lower dimensional space, and thus making them more searchable.


We encourage submissions dealing with machine learning approaches of all levels in planetary sciences and heliophysics. The aim of this session is to provide an overview of the current efforts to integrate machine learning technologies into data driven space research, to highlight state-of-the art developments and to generate a wider discussion on further possible applications of machine learning.

Co-organized by ESSI1/ST1
Convener: Mario D'Amore | Co-conveners: Ute Amerstorfer, Sahib JulkaECSECS, Angelo Pio Rossi
vPICO presentations
| Fri, 30 Apr, 09:00–10:30 (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)
ITS4.4/AS4.1 EDI

There are many ways in which machine learning promises to provide insight into the Earth System, and this area of research is developing at a breathtaking pace.
Unsupervised, supervised as well as reinforcement learning are now increasingly used to address Earth system related challenges.
Machine learning could help extract information from numerous Earth System data, such as satellite observations, as well as improve model fidelity through novel parameterisations or speed-ups. This session invites submissions spanning modelling and observational approaches towards providing an overview of the state-of-the-art of the application of these novel methods

Co-organized by CL5.2/ESSI1/NP4
Convener: Julien Brajard | Co-conveners: Peter Düben, Redouane Lguensat, Francine Schevenhoven, Maike SonnewaldECSECS
vPICO presentations
| Fri, 30 Apr, 11:00–17:00 (CEST)