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Biomass Burning in South and Southeast Asia: Impacts on the Biosphere, Volume Two [Kõva köide]

Edited by (Univ. of Maryland), Edited by (Ntnl Inst. for EVS, Japan), Edited by (Univ. Maryland College Park)
  • Formaat: Hardback, 318 pages, kõrgus x laius: 234x156 mm, kaal: 620 g, 39 Tables, black and white; 29 Line drawings, color; 59 Halftones, color; 88 Illustrations, color
  • Ilmumisaeg: 24-Jun-2021
  • Kirjastus: CRC Press
  • ISBN-10: 0367076047
  • ISBN-13: 9780367076047
Teised raamatud teemal:
Biomass Burning in South and Southeast Asia: Impacts on the Biosphere, Volume TwoSuurem pilt
  • Formaat: Hardback, 318 pages, kõrgus x laius: 234x156 mm, kaal: 620 g, 39 Tables, black and white; 29 Line drawings, color; 59 Halftones, color; 88 Illustrations, color
  • Ilmumisaeg: 24-Jun-2021
  • Kirjastus: CRC Press
  • ISBN-10: 0367076047
  • ISBN-13: 9780367076047
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780367076047.html
Märksõnad:
Biomass burning is one of the most important sources of greenhouse gas emissions and aerosols in South and Southeast Asia and greatly impacts other countries through transboundary air pollution. With contributions from leading scientists, this volume offers an interdisciplinary perspective on the impacts of biomass burning on the land resources, climate, and the atmosphere. It showcases several examples linking top-down remote sensing, bottom-up ground-based measurements, and an integrated modeling to address the impacts of biomass burning and landatmosphere interactions. It is a valuable guide for readers in atmospheric science, ecology, spatial geography, remote sensing, and GIS.











This book is unique as it highlights the sources and the causes of biomass burning and atmospheric research in South and Southeast Asia.





It explains the latest tools and techniques, in particular the use of satellite remote sensing and geospatial technologies for fire mapping, monitoring, and land cover/land use change.





It focuses on large spatial scales integrating top-down and bottom-up methodologies.





It addresses the pressing issues of air pollution rampant in South and Southeast Asia.





It includes contributions from global experts working on biomass burning projects in the USA, Japan, South/Southeast Asia, and Europe.

The contents of this book will appeal to students and professionals using remote sensing and geospatial techniques, including geographers, ecologists, atmospheric and environmental scientists, and all who are interested in biomass burning pollution.
Foreword ix
Preface xiii
Editors xvii
Dedication xix
Contributors xxi
SECTION I Biomass Burning and Regional Air Quality
Chapter 1 Impacts of Biomass and Garbage Burning on Air Quality in South/Southeast Asia
3(18)
Katie Cush
Kristina Koh
Eri Saikawa
Chapter 2 Biomass Burning and Their Impacts on Air Quality in Thailand
21(18)
Worradorn Phairuang
Chapter 3 Impact of Biomass Burning on Local Air Quality in South China
39(18)
Yun Fat Lam
Shimul Roy
Chapter 4 Impact of Biomass Burning on Surface-Level Carbon Monoxide over Lahore and Karachi and Their Comparison with South Asian Megacities
57(22)
Zia ul Haq
Salman Tariq
SECTION II Biomass Burning Emissions
Chapter 5 Estimating Biomass Burning Emissions in South and Southeast Asia from 2001 to 2017 Based on Satellite Observations
79(16)
Yusheng Shi
Yu Tian
Shuying Zang
Yasushi Yamaguchi
Tsuneo Matsunaga
Zhengqiang Li
Xingfa Gu
Chapter 6 Black Carbon Emissions from Biomass Burning in Southeast Asia -- A Review
95(14)
Max Gerrit Adam
Rajasekhar Balasubramanian
Chapter 7 Satellite-Based Estimation of Global CO2 Emissions from Biomass Burning
109(18)
Haemi Park
Wataru Takeuchi
Chapter 8 Biomass Burning Mercury Emissions over the Maritime Continent
127(8)
Udaysankar Nair
Aaron Kaulfus
Chapter 9 Biomass Burning Emissions in Indonesia and Policy Measures -- An Overview
135(14)
Lailan Syaufina
Sandhi Imam Maulana
Chapter 10 PM2.5 Emissions from Biomass Burning in South/Southeast Asia -- Uncertainties and Trade-Offs
149(22)
Kristofer Lasko
Krishna Prasad Vadrevu
Varaprasad Bandaru
Thanh Nhat Thi Nguyen
Hung Quang Bui
Chapter 11 Greenhouse Gas and Particulate Matter Emissions from Rice Residue Burning in Punjab and Haryana States of India
171(22)
Niveta Jain
Vinay Kumar Sehgal
Himanshu Pathak
Om Kumar
Rajkumar Dhakar
SECTION III Aerosol Pollution and Biomass Burning
Chapter 12 Biomass Burning and Impacts on Aerosols: Optical Properties and Radiative Effects
193(16)
S. Ramachandran
Priyadarshini Babu
Chapter 13 Remotely Sensed Particulate Matter Estimation in Malaysia during the Biomass Burning Season in Southeast Asia
209(20)
Kasturi Devi Kanniah
Nurul Amalin Fatihah Kamarul Zaman
Chapter 14 Impacts of Smoke Aerosols over Northern Peninsular Southeast Asia: Results from 7-SEAS Campaigns
229(18)
Shantanu Kumar Pani
Neng-Huei Lin
Chapter 15 Temporal Variation and Source Apportionment of PM2.5 Constituents in Phuket, Thailand
247(20)
Siwatt Pongpiachan
Muhammad Zaffar Hashmi
Danai Tipmanee
Chomsri Choochuay
Woranuch Deelaman
Qiyuan Wang
Li Xing
Guohui Li
Yongming Han
Junji Cao
Chapter 16 Impacts of Biomass Burning Aerosols on Air Quality and Convective Systems in Southeast Asia
267(14)
Hsiang-He Lee
Chien Wang
Chapter 17 Biomass Burning Influence on PM2.5 Regional and Long-Range Transport in Northeast Asia
281(16)
Katsushige Uranishi
Hikari Shimadera
Akira Kondo
Chapter 18 Estimation of PM10 Concentrations from Biomass Burning and Anthropogenic Emissions Using the WRF-HYSPLIT Modeling System
297(12)
Teerachai Amnuaylojaroen
Nungruethai Anuma
Index 309
Krishna Prasad Vadrevu is a scientist at the NASA Marshall Space Flight Center, Huntsville, Alabama, USA. 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, USA. 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.