Volume 1 of a two volume set, this book is a self-contained, state-of-the-art analysis of remote sensing, ground-based, and spatial techniques used for characterizing biomass burning events and pollution. It is a collective achievement of renowned scientists working throughout South and Southeast Asia. They discuss the complexity of vegetation patterns, biomass characteristics, fire distribution, drivers of fires, and several examples of the use of novel satellite algorithms for mapping and monitoring biomass burning events. The book is highly interdisciplinary and integrates earth science and environmental science including ecology, fire science, spatial geography, remote sensing, and geospatial technologies.
- Unique in its discussion of the sources and the causes of biomass burning and atmospheric research in South and Southeast Asia.
- Explains how remote sensing and geospatial technologies help the mapping and monitoring of biomass burning events and their impacts.
- Focuses on large spatial scales integrating top-down and bottom-up methodologies.
- Addresses the pressing issues of environmental pollution that are rampant in South and Southeast Asia.
- Includes contributions from global experts actually working on biomass burning projects in the US, Japan, South/Southeast Asia, and Europe.
This book will serve as a valuable source of information for remote sensing scientists, geographers, ecologists, atmospheric scientists, environmental scientists, and all who wish to advance their knowledge on fires and biomass burning in South/Southeast Asia.
About the Author: Krishna Prasad Vadrevu is a scientist at the NASA Marshall Space Flight Center, Huntsville, Alabama. His current research is on remote sensing of land cover and land use change (LCLUC). He has 17 years of research experience and is interested in land-atmosphere interactions. He also serves as the lead scientist for NASA South/Southeast Research Initiative and coordinator for the NASA LCLUC program.
Toshimasa Ohara is a scientist at National Institute of Environmental Studies, Tsukuba, Japan. He has 32 years of research experience in air quality modeling, emission inventories, and pollution research. He is a lead developer for Regional Emission Inventory in Asia (REAS) and currently interested in linking top-down and bottom-up approaches for emissions quantification.
Christopher Justice is a full professor at the Department of Geographical Sciences, University of Maryland, College Park. He has 38 years of research experience in remote sensing. His current research is on land cover and land use change, global fire, and global agricultural monitoring systems, all using remote sensing. He is the NASA LCLUC program scientist, member of MODIS science team, and global implementation lead for the GEO Global Agricultural Monitoring Task. He is also co-director for the center of Global Agricultural Monitoring and Research.