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Climate Change Impacts on Soil-Plant-Atmosphere Continuum
ISBN-13: 9789819979349 / Angielski
Climate Change Impacts on Soil-Plant-Atmosphere Continuum
ISBN-13: 9789819979349 / Angielski
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Section 1: Climate Change and Soil Environment
1. Impacts of climate change on soil processes
2. Nutrient cycling and climate change
3. Soil carbon sequestration in the context of climate change
4. Soil health and climate change
5. Climate change impact on soil erosion and land degradation
6. Response and behavior of paddy soil microbiota towards environmental change variables
7. Contemporary use of sensors for soil qualitative and quantitative assessment in the context of climate change
8. Evolution of basin-scale soil moisture under changing climate and land use scenarios: A hillslope-based approach
9. Prospect of organic agriculture in the present climate change scenario
10. Impact of conservation agriculture on soil health and environmental sustainability
Section 2: Plant interactions with surrounding environmental changes
11. Prospects of modified plant micro-climate in global climate change research
12. Climate change and crop resource use efficiency
13. Climate change on seeds physiology
14. Climate change impacts and adaptation strategies for agronomic crops
15. Understanding the effects of changing climate on weeds and their management
16. Impacts of abiotic stresses on eco-physiology of crop in changing climate
17. Impact of climate change on agriculturally important insects and nematodes
18. Plant virus diseases dynamics under modified environments and impacts on host virus-vector landscape
19. Breeding rice variety with suitable plant ideotype for next-generation Indian agriculture in the changing climatic conditions
20. Crop modelling for climate change studies
Section 3: Advanced Climate Change Research on Atmospheric phenomenon
21. Advanced facilities for climate change research and greenhouse gas mitigation
22. Monitoring and impact assessment of climate change: eddy covariance technique
23. Greenhouse gas and energy flux measurements with eddy covariance technique under lowland rice ecology
24. Climate change scenarios of India with special emphasis on Sundarbans delta and Western Himalayan region
25. Drought preparedness under changing climate with special reference to Manipur
26. Climate change induced spatiotemporal monsoon variability: assessment of its implications on global and regional production systems27. Simple holistic method of quantifying local vs trans-boundary air pollution in NCR-Delhi
Dibyendu Chatterjee is a scientist at the Indian Council of Agricultural Research–National Rice Research Institute (ICAR–NRRI). He is a soil scientist by profession and his expertise includes eddy covariance, climate change and nutrient dynamics. He received the Nitrogen Efficiency of Whole Cropping Systems (NEWS) India–UK Fellowship in which he visited the Centre for Ecology and Hydrology, UK, and the Institute National de la Recherche Agronomique, France. He is the recipient of the Dr. S. P. Raychaudhuri Gold Medal Award, the D. N. Borthakur Award, the Indian Science Congress Association (ISCA) Young Scientist Award, the Clay Minerals Society of India (CMSI) Young Scientist Award, Nanaji Deshmukh ICAR Award for Outstanding Interdisciplinary Team Reserch in Agricultural and Allied Sciences and Golden Jubilee Young Scientist Award 2021. He is an associate of the National Academy of Agricultural Sciences (NAAS) and West Bengal Academy of Science and Technology (WAST) and a member of the Indian National Young Academy of Sciences (INYAS). He has published 57 research papers, 9 review papers, 10 popular articles, 7 books, 10 technical/research bulletins and 49 book chapters.
Saurav Saha is a scientist in agricultural physics at the Natural Resource Management Division of the Research Complex for the NEH Region–Sikkim Centre (Gangtok) of the Indian Council of Agricultural Research (ICAR). He has worked on the development of integrated farming systems and watershed development programmes, closely with the local ethnic tribal communities. His research interests are mostly focused on environmental physics, crop eco-physiology, agrometeorology and climate change research. He is the recipient of the Indian Agricultural Research Institute (IARI) Gold Medal, the Indian Science Congress Association (ISCA) Young Scientist Award, the Jawaharlal Nehru Award and the R. H. Dastur Award. He has published 61 research papers in national and international journals and has authored 10 books and contributed 19 book chapters on various aspects of agroecosystem research. He has an h-index of 14 and an i10-index of 23, with 536 citations in international literature.Bappa Das is working as a scientist in agricultural meteorology at the Natural Resource Management Section of the Indian Council of Agricultural Research (ICAR)–Central Coastal Agricultural Research Institute, Goa. He has received the Agriculture Research Organization Post-Doctoral Fellowship (Israel) and the ICAR Post-Doctoral Fellowship (India). His research interests are largely focused on the characterization of abiotic stresses, applications of remote sensing and GIS in agriculture, agrometeorology and climate change. He is the recipient of the Indian Agricultural Research Institute (IARI) Gold Medal, Young Scientist Award from the National Academy of Agricultural Sciences (NAAS), Indian Science Congress Association (ISCA), Indian Society for Plant Physiology (ISPP), ICAR-Jawaharlal Nehru Award and the Department of Science and Technology–Early Career Research Award. He has published 81 research papers in national and international journals and has authored 4 books and 8 book chapters. He has an h-index of 21 and an i10-index of 37, with 1274 citations in international literature.
This book explores the interaction between climate change phenomena and the soil–plant–atmosphere continuum (SPAC), which inspects the crucial role of anthropogenic greenhouse gas emissions in modifying the net ecosystem response towards the modified environment. Increasing concentration of anthropogenic greenhouse gases (carbon dioxide, methane and nitrous oxide) from massive deforestation, fossil fuel burning and rapid industrialization in the post-nineteenth century have led to adverse changes in our global climate system. The book evaluates the net impact of climate change on soil, plants and the atmosphere individually and in totality. Among the topics it covers are the impact of climate change on soil environment which encompasses soil processes, nutrient cycling, soil carbon sequestration, soil biota response and soil health management. Also included are the impact on plants with respect to the dry matter assimilation pattern, modification in resource use efficiency, rhizosphere interactions, management of biotic and abiotic stress factors, and regulatory mechanisms of biotic stress factors in modifying the net agroecosystem response towards climate change. Moreover, potential genetic engineering options for establishing C4 or Crassulacean acid metabolism (CAM) in C3 plants, heat–drought stress on pollen biology, breeding ideotype, ecological indicators and crop simulation modelling are considered. Lastly, the impact on the atmosphere takes into account greenhouse gas measurements, mitigation options, eddy covariance measurement of greenhouse gasses, satellite-based monitoring, ecosystem services, abiotic stress management options, air pollution and atmospheric modelling. This book is a valuable resource for researchers, students and policymakers in understanding climate change impacts on interaction processes among the atmosphere, soil and plants from the local to regional scales.
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