Type
Topic
Region
Year
Displaying 76 - 79 of 79
Across leading environmental challenges-fire management, climate change, deforestation - there is growing awareness of the need to better account for diverse stakeholder perceptions across complex, multi-level governance arrangements. Perceptions often condition behavior,…
Person:
Year: 2017
Type: Document
Source: TTRS
Topic(s): Climate, Emissions and Smoke, Fire Ecology, Fire Effects, Regulations and Legislation, Social Science
Region(s): International
Keywords: fire management, deforestation, peat fires, C - carbon, Indonesia, policy, Q method, haze, conservation, transboundary governance, tropical peatlands, climate change, transboundary haze, management, consequences, biodiversity, agriculture, dynamics, services
Wildfires release the greatest amount of carbon into the atmosphere compared to other forest disturbances. To understand how current and potential future fire regimes may affect the role of the Eurasian boreal forest in the global carbon cycle, we employed a new, spatially-…
Person:
Year: 2017
Type: Document
Source: TTRS
Topic(s): Climate, Emissions and Smoke, Fire Ecology, Fire Effects, Fire Occurrence, Models
Region(s): International
Keywords: wildfires, C - carbon, fire regimes, climate change, fire size, fire frequency, Siberia, taiga, boreal forest, C - carbon, climate change, Sibbork, Siberia, simulation model, Spatially-Explicit, taiga, Southern Siberia, Sayan Mountains, disturbance, vegetation, mortality, wildfire, biomass
Aerosols emitted by landscape fires affect many climatic processes. Here, we combined an aerosol-climate model and a coupled climate-carbon model to study the carbon cycle and climate effects caused by fire-emitted aerosols (FEA) forcing at the top of the atmosphere and at the…
Person:
Year: 2017
Type: Document
Source: TTRS
Topic(s): Models, Fire Effects, Emissions and Smoke
Region(s): International
Keywords: aerosols, C - carbon, aerosols, carbon cycle, Remote Effects, feedbacks, Diffuse-Radiation, Landscape Fires, system, Future, emission, Impact, cloud, attribution, sensitivity
Forest fires are very common in tropical region during February May months and are known to have significant impact on ecosystem dynamics. Moreover, aerosols emitted from these burning activities significantly modulate the Earth's radiation budget. In present study, we…
Person:
Year: 2017
Type: Document
Source: TTRS
Topic(s): Climate, Emissions and Smoke, Fire Effects, Hazard and Risk, Models
Region(s): International
Keywords: aerosols, C - carbon, air quality, Himalayas, forest fire, biomass burning, black carbon, organic carbon, Surface Darkening, Himalayas, Cloud Condensation Nuclei, Data Assimilation System, black carbon emissions, Era-Interim, Premonsoon Season, model simulations, light absorption, Temperature Data, Tibetan Plateau, climate change