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Earth Observation Sustainable Development Perspectives Earth Observation Series

Langue : Anglais

Coordonnateurs : Behera Mukunda, Behera Swadhin, Barik Saroj Kanta, Mohapatra Mrutyunjaya, Mohapatra Trilochan

Earth Observation: Sustainable Development Perspectives offers expert insights into the latest progress made in terrestrial, oceanic, and atmospheric processes, and their inter-linkage in the face of changing climate using earth observation. Reviewing contemporary research, this volume addresses various challenges faced in agricultural research and education, crop production forecasting, agroforestry, floriculture, horticulture, crop insurance and marine resources utilization for sustainable development in the warming world. The editors examine the advances made in understanding the changing dynamics of various ecosystems such as land use, water resources, ecosystem productivity and biodiversity. In addition, the book addresses ocean-atmosphere interactions, modes of climate variations such as, El Nino and Indian Ocean dipole, extreme events, tropical cyclone, summer monsoon and distribution of organic matter and interlinks among various ocean-atmosphere phenomena. The use of advanced data sets, measurements techniques, modeling and analytics protocols, analyses methods and interpretations are also discussed.

1. Informing the management of Climate-Sustainability interactions through Earth Observation Section A - Agriculture and Water systems 2. Earth Observation and Challenges in agriculture and water systems research in the 21st century 3. Agriculture and Food Security in the prospects of Geoinformatics 4. Climate change adaptation for sustainable agriculture through Satellite tools 5. Sustainable management of shifting cultivation and floriculture in changing climate 6. Terrestrial Water Resources and Sustainability in the prospects of climate change 7. Agroforestry and Sustainable livelihood in the era of Geo-Information 8. Crop Insurance for Economic Security using Geo-Information - a Strategy for Climate Change mitigation Section B - Forest and Land Systems 9. Climate Change challenges towards forest and land systems functioning 10. Forest Cover and Land Use Dynamics from satellite observations 11. Climate linked Forest and Soil resources Management from Earth Observation 12. Observation and Modelling of Forest Productivity and Climate from Space 13. Satellite derived global land and vegetation products validation 14. Linking Meteorological and Phenological Observations in Forests 15. Urban land use, Green spaces and Heat Island nexus 16. Biodiversity Conservation, Climate Change and International strategies – Inputs from earth observation 17. Ecosystem Dynamics and REDD+ - Channelizing Benefits to People and Society using GIS technique Section C - Ocean-Atmosphere Dynamics 18. Global Ocean Warming and Climate Change 19. Air-sea interactions and trace gas exchanges 20. Role of oceans in climate variations affecting terrestrial ecosystems 21. Changes in Indian summer monsoon rainfall and sustainability 22. Climate Change and Marine Ecosystems- Deriving synergy from ground and space based observations 23. Atmospheric carbon and global warming interlink- Earth observation based modelling 24. Increasing extreme weather events and their impacts - Observations and modelling studies 25. Dynamic role of coupledsurface processes on regional environmental extremes

Dr. Mukunda Dev Behera is an associate Professor in the Centre for Oceans, Rivers, Atmosphere and Land Sciences at the Indian Institute of Technology Kharagpur. Prior to this, he has worked for the Indian Space Research Organization (ISRO). Dr. Behera has made outstanding contributions to the fields of forest remote sensing, land and water resource management, and ecological climatology by theorizing, modeling, and conducting innovative experiments and field-based measurements with satellite remote sensing. He has developed innovative protocols and new methods for estimating a range of vegetation photosynthetic/ structural variables including leaf area index, canopy height, aboveground biomass and productivity using suite of satellite data products and modeling. He has over 110 peer-reviewed journal publications, and has co-edited several books. He serves the editorial boards of several reputed environmental journals and contributed to IPCC AR-6 of WG-II.
Dr. Swadhin K. Behera is a distinguished scientist in climate variability and predictability studies. He has been working at JAMSTEC for over 20 years and is significantly involved in the climate analyses, prediction and application research with a particular emphasis on the role of oceans in tropical and extratropical climate variations. Using Earth Observation data and numerical modelling, Dr Behera studies interannual variability and coastal circulation in East Asia. He currently heads the Application Laboratory and also serves as an adjunct Professor in the University of Tokyo. He has published over 150 articles in highly cited international journals and has edited several books including “Tropical and extratropical air-sea interactions” (Elsevier).
Dr. Saroj Kanta Barik is Director of the CSIR-National Botanical Research Institute, Lucknow. Before joining CSIR, he was Head of the Department of Botany, and Centre for Advanced Studies in Botany, North-Eastern Hill University, Shillong. For the past three
  • Provides comprehensive coverage of the changes observed through satellite remote sensing of land, ocean, atmosphere, and vegetation under the influence of climate change
  • Analyzes various challenges faced in agricultural research and education, crop production forecasting, agroforestry, floriculture, horticulture, crop insurance, and marine resources utilization
  • Explores ocean-atmosphere interactions, modes of climate variations such as El Nino and Indian Ocean dipole, extreme events, tropical cyclone, summer monsoon and distribution of organic matter and their interlinks among various ocean-atmosphere phenomena
  • Examines various biogeo-physical processes using earth observation for better climate mitigation and adaptation

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