Vegetation Fires and Pollution in Asia
Vegetation fires are prevalent in several regions of the world, including South/ Southeast Asia (S/SEA). Fire occurrence and spread are influenced by fuel type, topography, climate, weather, and lightning, among others. In S/SEA, human-initiated fires are responsible for most of the incidents in add...
| Other Authors: | , , |
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| Format: | eBook |
| Language: | English |
| Published: |
Cham
Springer International Publishing
2023, 2023
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| Edition: | 1st ed. 2023 |
| Subjects: | |
| Online Access: | |
| Collection: | Springer eBooks 2005- - Collection details see MPG.ReNa |
Table of Contents:
- 35. Fires Hotspot Forecasting in Indonesia Using Long Short-Term Memory Algorithm and MODIS Datasets
- Section III: Air Pollution Modeling and Decision Support Systems
- 27. Impact of vegetation fires on regional aerosol black carbon over South and East Asia
- 28. Detection andModeling of South Asian Biomass Burning Aerosols from both Macro- and Micro-perspective
- 29. Remote sensing of agricultural biomass burning aerosols, gaseous compounds, long-distance transport and impact on air quality
- 30. Agricultural fires in Northeast China: Characteristics, Impacts, and Challenges
- 31. Air Pollution Modelling in Southeast Asia – An Overview
- 32. Trace gases and air quality in Northwestern Vietnam during recurrent biomass burning on the Indochina Peninsula since 0 – Field Observations and Atmospheric Simulations
- 33. Southeast Asian Transboundary Haze in the Southern Philippines, and Meteorological Drivers
- 34. An Operational Fire Danger Rating System for Thailand and Lower Mekong Region: Development, Utilization, and Experiences
- 1. Vegetation Fires and Biomass Burning in South/Southeast Asia – An Overview
- Section I: Mapping , Monitoring and Modeling of Vegetation Fires
- 2. Wildfire monitoring using infrared bands and spatial resolution effects
- 3. Status and Drivers of Forest Fires in Myanmar
- 4. Vegetation Fires and Entropy Variations In Myanmar
- 5. Crop residue burning and forest fire emissions in Nepal
- 6. Firewood Burning Dynamics by the Sri Lankan Households: Trends, Patterns, and Implications
- 7. Burnt Area Signal Variations in Agriculture and Forested Landscapes of India - A Case Study Using Sentinel A/B Synthetic Aperture Radar
- 8. Application of Interferometry SAR for Monitoring of Peatland Areas– Case Studies in Indonesia
- 9. Active Fire Monitoring of Thailand and Upper ASEAN by Earth Observation Data: benefits, lessons learned and what still needs to be known
- 10. Detecting Vegetation Regrowth after Fires in Small Watershed Settings Using Remotely Sensed Data andLocal Community Participation Approach
- 11. Long-Term Spatiotemporal Distribution of Fire over Maritime Continent and their Responses to Climate Anomalies
- 12. Vegetation Fires in Laos - An Overview
- 13. Vegetation Fires, Fire Radiative Power and Intermediate Fire Occurrence Intensity (IFOI) Hypothesis Testing in Myanmar, Laos and Cambodia
- 14. Analyzing fire behavior and calibrating a fire growth model in a seasonal dry tropical forest area
- Section II: Greenhouse Gas Emissions and Air Pollution
- 15. Spatiotemporally resolved pollutant emissions from biomass burning in Asia
- 16. Twenty-year variations of aerosol optical depth over Asia in relation to anthropogenic and biomass burning emissions
- 17. Light Absorption Properties of Biomass Burning Emissions in Bangladesh: Current State of Knowledge
- 18. Remote Sensing of greenhouse gases and aerosols from agricultural residue burning over Pakistan
- 19. A comparative study of energy, emissions and economic efficiency of various cookstoves in Nepal
- 20. Estimation of Ultrafine Particulate Matter Emissions from Biomass Burning Using Satellite Imaging and Burn Severity
- 21. Characteristics of Transboundary Haze and General Aerosol over Pulau Pinang, Malaysia
- 22. Measurements of atmospheric carbon dioxide emissions from fire-prone peatlands in Central Kalimantan, Indonesia, using ground-based instruments
- 23. Air Pollution Caused by Deep Peatland Fire in Central Kalimantan
- 24. Chemical Speciation of PM0 Emissions from Peat Burning Emission in Central Kalimantan, Indonesia
- 25. GHG emissions estimation from Peatland fires in Indonesia – Review and Importance of Combustion Factor
- 26. Forest Fire Emissions in Equatorial Asia and Their Recent Delay Anomaly in the Dry Season