Editorial board
Editors of this journal work on a purely voluntary basis without remuneration in line with the not-for-profit philosophy of the EGU.
Advisory board members
1.604.8223602
Chief-executive editor
Executive editors
Topic editors
Slimane Bekki
CNRS
Latmos-ipsl
Latmos-ipsl
France
Subject areas
Subject areas
Atmospheric sciences
Pearse Buchanan
CSIRO
Environment
Environment
Australia
Subject areas
Subject areas
Biogeosciences
Rohitash Chandra
University of New South Wales
School of Mathematics and Statistics
School of Mathematics and Statistics
Australia
Subject areas
Subject areas
Climate and Earth system modeling
Earth and space science informatics
Numerical methods
Solid Earth
Earth and space science informatics
Numerical methods
Solid Earth
Nathaniel Chaney
Duke University
United States
Subject areas
Subject areas
Atmospheric sciences
Climate and Earth system modeling
Hydrology
Climate and Earth system modeling
Hydrology
Chia-Te Chien
National Taiwan University
Institute of Oceanography
Institute of Oceanography
Subject areas
Subject areas
Biogeosciences
Climate and Earth system modeling
Climate and Earth system modeling
Tatiana Egorova
PMOD/WRC
Switzerland
Subject areas
Subject areas
Atmospheric sciences
Climate and Earth system modeling
Solar-terrestrial science
Climate and Earth system modeling
Solar-terrestrial science
Yuanchao Fan
Tsinghua University
Shenzhen International Graduate School
Institute of Environment and Ecology
Shenzhen International Graduate School
Institute of Environment and Ecology
China
Subject areas
Subject areas
Biogeosciences
Climate and Earth system modeling
Climate and Earth system modeling
Emmanouil Flaounas
Hellenic Center for Marine Research
Institute of Oceanography
Institute of Oceanography
Greece
Subject areas
Subject areas
Atmospheric sciences
Climate and Earth system modeling
Climate and Earth system modeling
• Radar data assimilation/analysis, satellite data assimilation, lightning data assimilation• Meso-scale processes, thunderstorms, supercell, tornado, hurricane;• Advanced data assimilation;• Numerical weather analysis/prediction/modeling;• OSSEs and OSEs• GPS/GNSS meteorology• Aerosol analysis• AI for Data Assimilation
Subject areas
Subject areas
Atmospheric sciences
• Radar data assimilation/analysis, satellite data assimilation, lightning data assimilation• Meso-scale processes, thunderstorms, supercell, tornado, hurricane;• Advanced data assimilation;• Numerical weather analysis/prediction/modeling;• OSSEs and OSEs• GPS/GNSS meteorology• Aerosol analysis• AI for Data Assimilation
Wojciech W. Grabowski
National Center for Atmospheric Research
Mesoscale and Microscale Meteorology Laboratory
Mesoscale and Microscale Meteorology Laboratory
United States
I am a Senior Scientist at NCAR. My interests are in atmospheric processes across scales, with specific emphasis on cloud dynamics and microphysics, modeling and parameterization of cloud processes in models of various complexity.
Subject areas
Subject areas
Atmospheric sciences
Climate and Earth system modeling
Numerical methods
Climate and Earth system modeling
Numerical methods
I am a Senior Scientist at NCAR. My interests are in atmospheric processes across scales, with specific emphasis on cloud dynamics and microphysics, modeling and parameterization of cloud processes in models of various complexity.
Paul Halloran
University Of Exeter
Collage of Life and Environmental Sciences
Collage of Life and Environmental Sciences
United Kingdom
Subject areas
Subject areas
Biogeosciences
Climate and Earth system modeling
Oceanography
Climate and Earth system modeling
Oceanography
Roslyn Henry
The University of Aberdeen
School of Biological Sciences
School of Biological Sciences
United Kingdom
Subject areas
Subject areas
Integrated assessment modeling
Christopher Horvat
Brown University
United States
Subject areas
Subject areas
Cryosphere
Oceanography
Oceanography
My research interests include ocean model, parallel computing, big data and artificial intelligence. I developed an automatically parallel operator library (OpenArray) for ocean models, a regional ocean model (GOMO) based on general operator, a highly scalable solver (P-CSI) for ocean circulation models and a high-speed input/output library for climate models. These work can improve the computing and simulating efficiency of ocean models remarkably.
Subject areas
Subject areas
Earth and space science informatics
Numerical methods
Numerical methods
My research interests include ocean model, parallel computing, big data and artificial intelligence. I developed an automatically parallel operator library (OpenArray) for ocean models, a regional ocean model (GOMO) based on general operator, a highly scalable solver (P-CSI) for ocean circulation models and a high-speed input/output library for climate models. These work can improve the computing and simulating efficiency of ocean models remarkably.
Xianan Jiang
University of California, Los Angeles
United States
Subject areas
Subject areas
Atmospheric sciences
Climate and Earth system modeling
Climate and Earth system modeling
James Kelly
US Naval Research Lab
Space Science Division
Space Science Division
United States
Subject areas
Subject areas
Numerical methods
Klaus Klingmüller
Max Planck Institute for Chemistry
Germany
Subject areas
Subject areas
Atmospheric sciences
Climate and Earth system modeling
Earth and space science informatics
Numerical methods
Climate and Earth system modeling
Earth and space science informatics
Numerical methods
Wolfgang Kurtz
Deutscher Wetterdienst
Agrometeorology
Agrometeorology
Germany
Subject areas
Subject areas
Climate and Earth system modeling
Hydrology
Hydrology
Dr. Xiaohong Liu is a Professor and the Reta Haynes Chair in Geosciences at Texas A&M University. His research focuses on cloud-aerosol-precipitation-radiation interactions and effects on climate change; multi-scale modeling of clouds and aerosols and their interactions in the climate system; and developments of cloud and aerosol parameterizations for Earth System Models.
Subject areas
Subject areas
Atmospheric sciences
Climate and Earth system modeling
Climate and Earth system modeling
Dr. Xiaohong Liu is a Professor and the Reta Haynes Chair in Geosciences at Texas A&M University. His research focuses on cloud-aerosol-precipitation-radiation interactions and effects on climate change; multi-scale modeling of clouds and aerosols and their interactions in the climate system; and developments of cloud and aerosol parameterizations for Earth System Models.
9798455566
Johannes Lohmann
University of Copenhagen
Physics of Ice, Climate, and Earth
Niels Bohr Institute
Physics of Ice, Climate, and Earth
Niels Bohr Institute
Denmark
Subject areas
Subject areas
Climate and Earth system modeling
Oceanography
Oceanography
Gunnar Luderer
Potsdam Institute for Climate Impact Research
Transformation Pathways
Transformation Pathways
Germany
Subject areas
Subject areas
Climate and Earth system modeling
Integrated assessment modeling
Integrated assessment modeling
Graham Mann
University of Leeds
Institute for Climate and Atmospheric Science
School of Earth and Environment
Institute for Climate and Atmospheric Science
School of Earth and Environment
United Kingdom
Subject areas
Subject areas
Atmospheric sciences
I have experience in the field of Agronomy, with an emphasis on Soils and Environment Sciences, mainly working on the following topics: Soil genesis, morphology and classification; soil survey and mapping; assessment of agricultural suitability and land use capacity; soil and water management and conservation; watershed management and conservation. In addition I have experience in pedometry, remote sensing, geoprocessing and photointerpretation applied to soil science, land use planning, analysis of soil-landscape relationships and geomorphology. I am also a member of the Terrantar Center, studying terrestrial ecosystems in Antarctica, linked to the INCT of the Cryosphere. Currently, I contribute to studies characterizing, mapping Antarctic soils, geology, pedogeomorphology, and periglacial processes in Maritime Antarctica using geophysical sensors and modeling (machine learning). I also study the thermal dynamics of permafrost in relation to climate change.
Subject areas
Subject areas
Cryosphere
I have experience in the field of Agronomy, with an emphasis on Soils and Environment Sciences, mainly working on the following topics: Soil genesis, morphology and classification; soil survey and mapping; assessment of agricultural suitability and land use capacity; soil and water management and conservation; watershed management and conservation. In addition I have experience in pedometry, remote sensing, geoprocessing and photointerpretation applied to soil science, land use planning, analysis of soil-landscape relationships and geomorphology. I am also a member of the Terrantar Center, studying terrestrial ecosystems in Antarctica, linked to the INCT of the Cryosphere. Currently, I contribute to studies characterizing, mapping Antarctic soils, geology, pedogeomorphology, and periglacial processes in Maritime Antarctica using geophysical sensors and modeling (machine learning). I also study the thermal dynamics of permafrost in relation to climate change.
Richard Mills
Argonne National Laboratory
Mathematics and Computer Science Division
Mathematics and Computer Science Division
United States
Subject areas
Subject areas
Earth and space science informatics
Hydrology
Numerical methods
Hydrology
Numerical methods
Olaf holds a PhD in meteorology and worked in the UK and Germany on the development of atmospheric chemistry and chemistry-climate models. He led the NIWA Climate Variability and Change Programme, which focusses on using global and regional climate models and a hydrology model to predict climate globally and for the New Zealand region, ranging from seasonal to centennial timescales. He led the Earth System Modelling and Predictions programme for the Deep South National Science Challenge, which was tasked with developing and exploiting the New Zealand Earth System Model and to downscale these results. He is a Lead Author of the 6th Assessment Report of the Intergovernmental Panel on Climate Change (IPCC), represented NIWA in the Unified Model Global Model Configuration Group, was on the Science Management Group of the UK Chemistry and Aerosols (UKCA) project as its only overseas member and was a member of the Scientific Steering Committee of the Chemistry-Climate Model Initiative (CCMI). He has been involved in three WMO Scientific Assessments of Ozone Depletion, in 2010 as a Lead Author. He is a current co-chair of the Atmospheric Processes and their Role in Climate (APARC), a constituent project of the World Climate Research Project. For the German Meteorological Service he is involved in the CAP7 project which is contributing simulations to the 7th Coupled Model Intercomparison Project (CMIP7) using the ICON-XPP model.
Subject areas
Subject areas
Atmospheric sciences
Olaf holds a PhD in meteorology and worked in the UK and Germany on the development of atmospheric chemistry and chemistry-climate models. He led the NIWA Climate Variability and Change Programme, which focusses on using global and regional climate models and a hydrology model to predict climate globally and for the New Zealand region, ranging from seasonal to centennial timescales. He led the Earth System Modelling and Predictions programme for the Deep South National Science Challenge, which was tasked with developing and exploiting the New Zealand Earth System Model and to downscale these results. He is a Lead Author of the 6th Assessment Report of the Intergovernmental Panel on Climate Change (IPCC), represented NIWA in the Unified Model Global Model Configuration Group, was on the Science Management Group of the UK Chemistry and Aerosols (UKCA) project as its only overseas member and was a member of the Scientific Steering Committee of the Chemistry-Climate Model Initiative (CCMI). He has been involved in three WMO Scientific Assessments of Ozone Depletion, in 2010 as a Lead Author. He is a current co-chair of the Atmospheric Processes and their Role in Climate (APARC), a constituent project of the World Climate Research Project. For the German Meteorological Service he is involved in the CAP7 project which is contributing simulations to the 7th Coupled Model Intercomparison Project (CMIP7) using the ICON-XPP model.
Jesse Norris
University of California Los Angeles
Atmospheric and Oceanic Sciences
Atmospheric and Oceanic Sciences
United States
Subject areas
Subject areas
Atmospheric sciences
Climate and Earth system modeling
Numerical methods
Climate and Earth system modeling
Numerical methods
Charles Onyutha
Kyambogo University
Department of Civil and Environmental Engineering
Department of Civil and Environmental Engineering
Uganda
Subject areas
Subject areas
Hydrology
Mijeong Park
NCAR
ACOM
ACOM
United States
Subject areas
Subject areas
Atmospheric sciences
Climate and Earth system modeling
Climate and Earth system modeling
Thomas Poulet
CSIRO
Mineral Resources
Mineral Resources
Australia
Subject areas
Subject areas
Solid Earth
Sam Rabin
National Center for Atmospheric Research
Climate and Global Dynamics Laboratory
Climate and Global Dynamics Laboratory
United States
Subject areas
Subject areas
Biogeosciences
Integrated assessment modeling
Integrated assessment modeling
Stefan Rahimi-Esfarjani
UCLA
Institute of Environmental Sustainability
Institute of Environmental Sustainability
United States
Subject areas
Subject areas
Atmospheric sciences
Climate and Earth system modeling
Climate and Earth system modeling
Samuel Remy
France
Subject areas
Subject areas
Atmospheric sciences
Climate and Earth system modeling
Climate and Earth system modeling
Makoto Saito
Earth System Division, National Institute for Environmental Studies
Satellite remote sensing of greenhouse gases
Satellite remote sensing of greenhouse gases
Japan
Subject areas
Subject areas
Biogeosciences
Senior Scientist with extensive experience in the development, maintenance, and application of microscale urban climate models. With a Doctor of Architecture Engineering from The University of Tokyo and extensive research experience in both Japan and Germany, I possess deep knowledge of urban climate modeling and its applications. I have extensive expertise in teaching courses in engineering and atmospheric science. I am an active contributor to the academic community through peer review and editorial roles, and am committed to advancing the field of urban climate modeling through rigorous scientific research and collaboration with interdisciplinary teams.
Subject areas
Subject areas
Climate and Earth system modeling
Numerical methods
Numerical methods
Senior Scientist with extensive experience in the development, maintenance, and application of microscale urban climate models. With a Doctor of Architecture Engineering from The University of Tokyo and extensive research experience in both Japan and Germany, I possess deep knowledge of urban climate modeling and its applications. I have extensive expertise in teaching courses in engineering and atmospheric science. I am an active contributor to the academic community through peer review and editorial roles, and am committed to advancing the field of urban climate modeling through rigorous scientific research and collaboration with interdisciplinary teams.
Subject areas
Subject areas
Atmospheric sciences
Biogeosciences
Climate and Earth system modeling
Cryosphere
Earth and space science informatics
Hydrology
Numerical methods
Oceanography
Solar-terrestrial science
Solid Earth
Biogeosciences
Climate and Earth system modeling
Cryosphere
Earth and space science informatics
Hydrology
Numerical methods
Oceanography
Solar-terrestrial science
Solid Earth
+49-(0)6131-3054610
Dr. Shu is an associate professor at Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences (NIEER, CAS). He obtained a Ph.D. degree in Water Resource Engineering and a minor degree of Computational Science from Pennsylvania State University in 2017. He is the lead developer of the Simulator for Hydrologic Unstructured Domains(SHUD) model. His major interests are computational hydrologic model, hydrologic data mining, and integrated Coupled Nature-Human System modeling.
Subject areas
Subject areas
Climate and Earth system modeling
Hydrology
Numerical methods
Hydrology
Numerical methods
Dr. Shu is an associate professor at Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences (NIEER, CAS). He obtained a Ph.D. degree in Water Resource Engineering and a minor degree of Computational Science from Pennsylvania State University in 2017. He is the lead developer of the Simulator for Hydrologic Unstructured Domains(SHUD) model. His major interests are computational hydrologic model, hydrologic data mining, and integrated Coupled Nature-Human System modeling.
86-931-4967095
Yongze Song
Curtin University
Australia
Subject areas
Subject areas
Climate and Earth system modeling
Earth and space science informatics
Integrated assessment modeling
Numerical methods
Earth and space science informatics
Integrated assessment modeling
Numerical methods
Deepak Subramani
Indian Institute of Science
Indian Institute of Science
Computational and Data Sciences
Indian Institute of Science
Computational and Data Sciences
India
Subject areas
Subject areas
Numerical methods
Oceanography
Oceanography
I am an Associate Professor in the Department of Earth and Environmental Sciences at The Chinese University of Hong Kong (CUHK), serving concurrently as the Associate Director of the Office of University General Education. I obtained my B.Sc. from MIT, Ph.D. (Environmental Science and Engineering) from Harvard, and was a Croucher Postdoctoral Fellow at MIT before joining CUHK in 2013. My research focuses on atmospheric chemistry and physics, ecoclimatology, and sustainable agriculture and forestry, combining Earth system modeling and data analytics to address pressing issues such as the impacts of air pollution and climate change on ecosystems and agriculture, and how land and food systems can be transformed to mitigate climate change and air pollution. My work has been published in top-ranking journals in the atmospheric and environmental sciences and earned me the World Meteorological Organization (WMO) Research Award for Young Scientists, Research Grants Council Early Career Award, Faculty of Science Young Researcher Award, and founding membership of the Hong Kong Young Academy of Sciences. For my public services, I was named one of the Ten Outstanding Young Persons of Hong Kong in 2024.
Subject areas
Subject areas
Atmospheric sciences
Biogeosciences
Climate and Earth system modeling
Integrated assessment modeling
Biogeosciences
Climate and Earth system modeling
Integrated assessment modeling
I am an Associate Professor in the Department of Earth and Environmental Sciences at The Chinese University of Hong Kong (CUHK), serving concurrently as the Associate Director of the Office of University General Education. I obtained my B.Sc. from MIT, Ph.D. (Environmental Science and Engineering) from Harvard, and was a Croucher Postdoctoral Fellow at MIT before joining CUHK in 2013. My research focuses on atmospheric chemistry and physics, ecoclimatology, and sustainable agriculture and forestry, combining Earth system modeling and data analytics to address pressing issues such as the impacts of air pollution and climate change on ecosystems and agriculture, and how land and food systems can be transformed to mitigate climate change and air pollution. My work has been published in top-ranking journals in the atmospheric and environmental sciences and earned me the World Meteorological Organization (WMO) Research Award for Young Scientists, Research Grants Council Early Career Award, Faculty of Science Young Researcher Award, and founding membership of the Hong Kong Young Academy of Sciences. For my public services, I was named one of the Ten Outstanding Young Persons of Hong Kong in 2024.
I am an atmospheric scientist who is particularly drawn to the dynamics of moist convective systems and their interactions with the large-scale environment, such as entrainment process, convective sensitivity to environmental perturbations etc. This interaction is key to the precipitation distribution and variability, as well as Earth’s radiation budget, but is poorly comprehended and simulated. As a scientist at NCAR, I am using both high-resolution models and observations to further validate and improve convection representation in CAM7, as well as investigating other highly coupled systems (e.g. land-atmosphere) for next-generation Earth System Models.
Subject areas
Subject areas
Atmospheric sciences
Climate and Earth system modeling
Climate and Earth system modeling
I am an atmospheric scientist who is particularly drawn to the dynamics of moist convective systems and their interactions with the large-scale environment, such as entrainment process, convective sensitivity to environmental perturbations etc. This interaction is key to the precipitation distribution and variability, as well as Earth’s radiation budget, but is poorly comprehended and simulated. As a scientist at NCAR, I am using both high-resolution models and observations to further validate and improve convection representation in CAM7, as well as investigating other highly coupled systems (e.g. land-atmosphere) for next-generation Earth System Models.
Sophie Valcke holds a "highly qualified" research engineer position at CERFACS where she is working on high-resolution atmosphere-ocean-ice coupled modelling. She is leading the team of 4 to 5 engineers developing the OASIS3-MCT coupler, used for climate modelling by about 65 groups around the world. Thanks to her expertise in HPC and code coupling for climate, Dr Valcke participates in different international committees, e.g. the Research and Innovation Advisory Group (RIAG) of EuroHPC JU, the Advisory Board of the ESiWACE3 Centre of Excellence, the organizing committees of the workshops on Coupling Technologies for Earth System Models and the ENES workshops on High-performance computing for Climate and Weather Committee. Dr Valcke was CERFACS Principal Investigator for the EU infrastructure project IS-ENES3 and the ESiWACE2 Centre of Excellence. These projects favour Dr Valcke's interaction with many climate modelling groups in Europe and with other groups internationally developing coupling frameworks.
Subject areas
Subject areas
Climate and Earth system modeling
Earth and space science informatics
Oceanography
Earth and space science informatics
Oceanography
Sophie Valcke holds a "highly qualified" research engineer position at CERFACS where she is working on high-resolution atmosphere-ocean-ice coupled modelling. She is leading the team of 4 to 5 engineers developing the OASIS3-MCT coupler, used for climate modelling by about 65 groups around the world. Thanks to her expertise in HPC and code coupling for climate, Dr Valcke participates in different international committees, e.g. the Research and Innovation Advisory Group (RIAG) of EuroHPC JU, the Advisory Board of the ESiWACE3 Centre of Excellence, the organizing committees of the workshops on Coupling Technologies for Earth System Models and the ENES workshops on High-performance computing for Climate and Weather Committee. Dr Valcke was CERFACS Principal Investigator for the EU infrastructure project IS-ENES3 and the ESiWACE2 Centre of Excellence. These projects favour Dr Valcke's interaction with many climate modelling groups in Europe and with other groups internationally developing coupling frameworks.
Chiel van Heerwaarden
Wageningen University
Meteorology and Air Quality
Meteorology and Air Quality
Netherlands
Subject areas
Subject areas
Atmospheric sciences
Numerical methods
Numerical methods
Vassilios Vervatis is an Assistant Professor at the National and Kapodistrian University of Athens (NKUA), Greece, Department of Physics, Section of Environmental Physics-Meteorology. He received his BSc in Physics from NKUA and continued his studies in Environmental Physics (MSc), and Physical Oceanography (PhD). During his PhD, he participated in oceanographic cruises with the R/V AEGAEO of the Hellenic Center for Marine Research. He has received postdoctoral fellowships from the French National Centre for Scientific Research (CNRS) and the State Scholarships Foundation (IKY). His research focuses on the development of ocean digital twins. His scientific interests include the implementation of coastal/regional forecasting and climate variability systems, using coupled models and ensemble-based stochastic data assimilation. He is member of the Editorial Board of Copernicus open-access journals. He contributed as referee and evaluator in over 20 scientific journals and EU proposals.
Subject areas
Subject areas
Oceanography
Vassilios Vervatis is an Assistant Professor at the National and Kapodistrian University of Athens (NKUA), Greece, Department of Physics, Section of Environmental Physics-Meteorology. He received his BSc in Physics from NKUA and continued his studies in Environmental Physics (MSc), and Physical Oceanography (PhD). During his PhD, he participated in oceanographic cruises with the R/V AEGAEO of the Hellenic Center for Marine Research. He has received postdoctoral fellowships from the French National Centre for Scientific Research (CNRS) and the State Scholarships Foundation (IKY). His research focuses on the development of ocean digital twins. His scientific interests include the implementation of coastal/regional forecasting and climate variability systems, using coupled models and ensemble-based stochastic data assimilation. He is member of the Editorial Board of Copernicus open-access journals. He contributed as referee and evaluator in over 20 scientific journals and EU proposals.
+30 210 727 6839
Luke Western
Massachusetts Institute of Technology
Center for Sustainability Science and Strategy
Center for Sustainability Science and Strategy
United States
My work generally involves quantifying emissions of non-CO2 greenhouse gases and ozone-depleting substances.
Subject areas
Subject areas
Atmospheric sciences
My work generally involves quantifying emissions of non-CO2 greenhouse gases and ozone-depleting substances.
Dr. Wild's research seeks to better understand, and develop sustainable solutions to, water resources and environmental systems challenges. Rather than studying these challenges in isolation, his work considers water’s dynamic, uncertain, multi‐sector interactions with energy, land, climate, and socioeconomic systems across diverse spatiotemporal scales. His research has spanned planning and management challenges in water resources and environmental systems, food-energy-water systems, and deep decarbonization (i.e., climate change mitigation).
Subject areas
Subject areas
Hydrology
Integrated assessment modeling
Integrated assessment modeling
Dr. Wild's research seeks to better understand, and develop sustainable solutions to, water resources and environmental systems challenges. Rather than studying these challenges in isolation, his work considers water’s dynamic, uncertain, multi‐sector interactions with energy, land, climate, and socioeconomic systems across diverse spatiotemporal scales. His research has spanned planning and management challenges in water resources and environmental systems, food-energy-water systems, and deep decarbonization (i.e., climate change mitigation).
Jason Williams
KNMI
atmospheric composition
atmospheric composition
Netherlands
Subject areas
Subject areas
Atmospheric sciences
Biogeosciences
Biogeosciences
Le Yu is an Associate Professor at the Department of Earth System Science, at Tsinghua University. He is a Fellow of the Royal Geographical Society (RGS) with the Institute of British Geographers (IBG) and a Senior Member of the Institute of Electrical and Electronics Engineers. He was affiliated with the University of Western Australia, the Chinese University of Hong Kong and the University of Technology Malaysia as research fellows. His research has been on the use of geographical information techniques to monitor and model global land use change, especially cropland and to facilitate many applications, e.g., food security, biodiversity conservation, Earth system modeling. He particularly focuses on satellite-based methods to quantify the spatiotemporal change of land cover/use and understand their ecological, environmental, and socioeconomic impacts on sustainable development. He has authored/co-authored more than 190 peer-reviewed journal articles and published one book (the other two in preparation). As a principal investigator (PI) and co-PI, he was responsible for more than 20 national and international research projects. He is a Section Editor-in-Chief of Land (MDPI), an Associate Editor of International Journal of Remote Sensing (Taylor & Francis), and served as a member of the Editorial Board for many international journals, e.g., Global Sustainability (University of Cambridge Press), Geoscientific Model Development (Copernicus Publications).
Subject areas
Subject areas
Integrated assessment modeling
Le Yu is an Associate Professor at the Department of Earth System Science, at Tsinghua University. He is a Fellow of the Royal Geographical Society (RGS) with the Institute of British Geographers (IBG) and a Senior Member of the Institute of Electrical and Electronics Engineers. He was affiliated with the University of Western Australia, the Chinese University of Hong Kong and the University of Technology Malaysia as research fellows. His research has been on the use of geographical information techniques to monitor and model global land use change, especially cropland and to facilitate many applications, e.g., food security, biodiversity conservation, Earth system modeling. He particularly focuses on satellite-based methods to quantify the spatiotemporal change of land cover/use and understand their ecological, environmental, and socioeconomic impacts on sustainable development. He has authored/co-authored more than 190 peer-reviewed journal articles and published one book (the other two in preparation). As a principal investigator (PI) and co-PI, he was responsible for more than 20 national and international research projects. He is a Section Editor-in-Chief of Land (MDPI), an Associate Editor of International Journal of Remote Sensing (Taylor & Francis), and served as a member of the Editorial Board for many international journals, e.g., Global Sustainability (University of Cambridge Press), Geoscientific Model Development (Copernicus Publications).
Yuefei Zeng
Nanjing University of Information Science & Technology
School of Atmospheric Science
School of Atmospheric Science
School of Atmospheric Science
School of Atmospheric Science
China
Subject areas
Subject areas
Atmospheric sciences
Climate and Earth system modeling
Climate and Earth system modeling
Tao Zhang
Brookhaven National Lab
Environmental Science and Technologies Department
Environmental Science and Technologies Department
United States
Subject areas
Subject areas
Climate and Earth system modeling
Earth and space science informatics
Numerical methods
Earth and space science informatics
Numerical methods
Tilo Ziehn
Australia
Subject areas
Subject areas
Climate and Earth system modeling