The International Conference on Tibetan Plateau and High Mountains Energy and Water Exchanges: Climate Impact and Adaptation (TEWEX-CLIMA) 2023 is organized by the program “Change of the Land-Air Coupled System over the Tibetan Plateau and Its Global Climate Effect (LASTPIC)”. Lastpic is a ten-year flagship program launched by the National Natural Science Foundation of China (NSFC) in 2014 with major support from the Global Energy and Water Exchanges (GEWEX) of WCRP.
Conference theme
Improving understanding of land-air coupling over the Highlands in Asia and over the world for better climate prediction and better service to society.
Sessions
1. Land-air coupling process and troposphere-stratospheric interaction;
2. Climate/weather impact and adaptation;
3. Changing (Asian) water tower and its impact;
4. Observation, modeling and data assimilation.
For more information visit https://tewex-clima2023.casconf.cn/page/1485796961037717504
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The Baltic Earth scientific network strives to achieve an improved Earth System understanding of the Baltic Sea region as the basis for science-based management in the face of climatic, environmental and human impact in the region. Baltic Earth brings together a broad international research community around scientific issues relevant for societal efforts to achieve sustainability in the region. Baltic Earth targets the atmosphere, land and marine environment of the Baltic Sea, its drainage basin and nearby areas with relevance for the Baltic Sea region.
The sessions of this conference reflect the Grand Challenges and topics Baltic Earth has elaborated for the past 10 years, and those which are currently being defined as new. As the open discussion is ongoing, the final set of new Grand Challenges will be presented at the conference with the new Science Plan 2023.
For detailed information, please visit the official meeting website at:
https://www.baltic.earth/events/110599/index.php.en
The HydroML 2023 symposium will explore how AI/ML concepts can be used to enhance the predictive understanding of complex systems in hydrological and geological sciences. The overarching goal is to discuss process-based scientific principles that can help integrate AI/ML with earth system science.
For more information visit the official meeting website at: https://sites.google.com/lbl.gov/2023hydromlsymposium/home
GEWEX is interested in establishing a new project as a Global Flood Crosscutting Initiative that crosses several activities within the GEWEX Hydroclimatology Panel (GHP) and link with other GEWEX panels. Initial directions and thoughts about this initiative can be found in Samadi et al., 2021, The Role of GEWEX in Moving the Needle on the Resiliency of Society to Flooding, GEWEX Quarterly, Volume 31, Quarter 4, 2021, pg 11–12 .
The goals of the flood crosscutting initiative are to overcome barriers in flood modeling and observational architectures, and climate change and land use change impacts on flooding risk and consequences across current and future periods. The results of this first Flood CC workshop will allow the GEWEX Hydrometeorology Panel (GHP) to propagate flood modeling and research knowledge from one region to the other and synthesize results at a global scale.
For additional information visit https://www.gewexevents.org/meetings/2023floods/.
The European Space Agency, in the context of the “Earth Observations Science for Society” Programme, the Global Energy and Water EXchanges project (GEWEX) of the World Climate Research Programme and Centre National d’Études Spatiales (CNES) are organising a sequel joint event to Hydrospace2021 and EO4Water2020, called 5th Space for Water Cycle and Hydrology Workshop, HYDROSPACE 2023.
HYDROSPACE 2023 aims at reviewing the latest advances in the use of Earth Observation (EO) technology for water cycle science, hydrology and its applications, exploring the potential offered by the existing and coming EO satellites together with advanced modelling and novel technologies as well as the main challenges and opportunities to enhance our current capacity to observe, understand and predict the water cycle, and its impacts and feedbacks with human activities and ecosystems.
The ultimate target of the event is to review the state of the art and latest developments in EO for water research and hydrology and contribute to define a community scientific agenda that may drive future scientific activities of ESA and other space agencies and partners to face one of the main societal challenges of our days.
Themes:
1. Advances in remote sensing methods, techniques and products
2. Advances in the use of EO for land surface and hydrological modelling
3. Advances in science and process understanding
4. Water science for society
5. Novel technologies and future missions: the future of water cycle research
For additional information visit https://www.hydrospace2023.org
The 3rd TEAMx Workshop will take place in Zürich, Switzerland, on 15–16 June 2023. Besides bringing everyone interested in TEAMx-activities up to speed, the goal is to gather feedback on the first version of the Numerical Modelling Plan as well as the first draft of the Implementation Plan for the TEAMx Observational Campaign (TOC).
The purpose of the Baltic Sea Science Congress 2023 is to bring together scientists working on issues related to the Baltic Sea Region to present the most recent research and to discuss status, trends and the future of the Baltic Sea as well as future research needs.
The special focus of the BSSC will be towards the implementation of the United Nations Decade of Ocean Sciences (UNDOS) objectives related to the Baltic Sea research.
The Baltic Sea Science Congress 2023 is a part of the Finnish National Implementation Plan for the UN Decade of Ocean Science. The Congress is also a part of Finnish Presidency program (2023–2024) of the Council of the Baltic Sea States (CBSS).
For detailed information and abstract submission visit the official meeting website
The 2023 Fall INARCH Workshop is by invitation only and will be held October 9–11, 2023 in Stanley, Idaho, USA at the Mountain Village Resort.
The NOAA Climate Variability and Predictability (CVP) Program is hosting a webinar series on Decadal Climate Variability and Predictability that will highlight the recent results from the CVP-funded projects. The goal of these modeling studies is to identify the state, mechanisms, and sources of climate predictability on the interannual to decadal timescale. This research will lead to future improvements in skillful decadal prediction systems for climate—ocean and atmosphere.
Please use this link to register. You only need to do so once, the GoToWebinar platform will automatically register you for all 8 sessions. You should receive a confirmation email shortly after.
The NOAA Climate Variability and Predictability (CVP) Program is hosting a webinar series on Decadal Climate Variability and Predictability that will highlight the recent results from the CVP-funded projects. The goal of these modeling studies is to identify the state, mechanisms, and sources of climate predictability on the interannual to decadal timescale. This research will lead to future improvements in skillful decadal prediction systems for climate—ocean and atmosphere.
Please use this link to register. You only need to do so once, the GoToWebinar platform will automatically register you for all 8 sessions. You should receive a confirmation email shortly after.
