Global characterization of fire activity: toward defining fire regimes from Earth observation data
about
Carbon dioxide and the uneasy interactions of trees and savannah grassesModeling forest fire occurrences using count-data mixed models in Qiannan autonomous prefecture of Guizhou province in ChinaThe fate of Amazonian ecosystems over the coming century arising from changes in climate, atmospheric CO2, and land use.Global combustion: the connection between fossil fuel and biomass burning emissions (1997-2010)Savanna fire and the origins of the 'underground forests' of Africa.Defining pyromes and global syndromes of fire regimes.Seasonality of fire weather strongly influences fire regimes in South Florida savanna-grassland landscapesSpatial distribution of temporal dynamics in anthropogenic fires in miombo savanna woodlands of TanzaniaManaging the human component of fire regimes: lessons from AfricaThe Influence of Land Use on the Grassland Fire Occurrence in the Northeastern Inner Mongolia Autonomous Region, China.Constraints on global fire activity vary across a resource gradient.Habitat distribution modeling reveals vegetation flammability and land use as drivers of wildfire in SW PatagoniaAdapting to global environmental change in Patagonia: What role for disturbance ecology?When is a ‘forest’ a savanna, and why does it matter?Human impacts on fire occurrence: a case study of hundred years of forest fires in a dry alpine valley in SwitzerlandGlobal burned area and biomass burning emissions from small firesFire Regimes and Their Drivers in the Upper Guinean Region of West AfricaGlobal relationship of fire occurrence and fire intensity: A test of intermediate fire occurrence-intensity hypothesisPredictability of biomass burning in response to climate changesWhich trees dominate in savannas? The escape hypothesis and eucalypts in northern AustraliaDefoliation depletes the carbohydrate reserves of resprouting Acacia saplings in an African savannaFiner resolution observation and monitoring of global land cover: first mapping results with Landsat TM and ETM+ dataLandscape age and soil fertility, climatic stability, and fire regime predictability: beyond the OCBIL frameworkBimodal fire regimes unveil a global-scale anthropogenic fingerprintContinent-level drivers of African pyrodiversityModeling burned area in Europe with the Community Land ModelWeekly cycles of global fires-Associations with religion, wealth and culture, and insights into anthropogenic influences on global climateRecent Advances and Remaining Uncertainties in Resolving Past and Future Climate Effects on Global Fire ActivityTerrestrial ecosystems from space: a review of earth observation products for macroecology applicationsFire Regime Characteristics along Environmental Gradients in SpainGlobal fire size distribution is driven by human impact and climateBiogeographical variation in the potential effectiveness of prescribed fire in south-eastern Australia
P2860
Q28740629-F62E63D8-9C29-4CED-B7E5-DD27974BF490Q30000630-77B1B206-3470-495A-A0AF-62EAFBD24AA6Q30897414-34F35BD6-9912-4351-9654-AEDFCCFE11BDQ31100304-E4C5FE34-E313-4CC1-8C28-F6885B81FCC5Q34429793-55186451-C2DB-4471-8646-BD6B4B0E8D1EQ34655986-315FD964-3D10-4917-9FB3-B5B81DDAA25AQ34892410-D4CB8960-683A-44E1-B49A-999B4E5D828DQ35897820-4509059B-025A-4AFC-BA51-44CDB05ED2DDQ36027391-AF548E0F-4DF1-4620-9A6F-D5967C93FF5BQ37732445-CCE016C5-28CF-4E96-9F2B-14EB4BE52BA1Q39148049-B237364D-3764-46DC-8224-043347E544F6Q57049496-19262F22-24AD-446F-836A-913E849464ADQ57049512-087F5D57-B654-4A65-9F60-F84E5C994079Q57054786-82CE7E81-B111-4CF7-9ACD-F075AB7D1CBFQ57069278-79975513-E9FF-4364-B1E0-96922271E807Q57161785-B665F7D2-2A33-4AA0-8237-2214F8A14DFEQ57195274-94B85AFB-223C-41A6-BCBF-359DF1D162A4Q57210084-26BC176B-EB47-4A29-BD13-11F2B915872FQ57264358-E1E4F690-74AA-4B3C-837A-F4DF29E625BAQ57264593-7A56C6A6-4CF9-4DF7-9D08-4E503C53AC34Q57264595-2958DD29-EA35-4C5C-83B6-0DCEAABE379DQ57410715-44738516-D51D-4695-802D-8315B1B730A2Q58008561-09643E84-E812-4B8F-9108-09527A9697A3Q58014663-1B8B695B-F675-443B-AF10-92C80784616CQ58195432-C961F7EF-4CC2-462C-A185-A08A2EBCB20FQ58261063-5AD78214-349C-4409-A6D9-CA449D398A0BQ58312888-E26A08C3-D7E0-4116-931C-4FABE35770E5Q58389709-04560F02-60CD-4B4D-8E86-E42CA8501796Q58420407-2DFEF91A-3C1D-4E43-A9D9-C95F4CF71A0BQ58644290-5A583521-D397-4D2E-AFF7-48164D3D1D61Q58644314-F789F8BE-C972-4A71-A966-920FBB81A8A1Q58644838-8F73770C-6268-4B1C-9E61-260F4948A407
P2860
Global characterization of fire activity: toward defining fire regimes from Earth observation data
description
im Juli 2008 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в липні 2008
@uk
name
Global characterization of fir ...... es from Earth observation data
@en
Global characterization of fir ...... es from Earth observation data
@nl
type
label
Global characterization of fir ...... es from Earth observation data
@en
Global characterization of fir ...... es from Earth observation data
@nl
prefLabel
Global characterization of fir ...... es from Earth observation data
@en
Global characterization of fir ...... es from Earth observation data
@nl
P2860
P1476
Global characterization of fir ...... es from Earth observation data
@en
P2093
CHRIS JUSTICE
LOUIS GIGLIO
P2860
P304
P356
10.1111/J.1365-2486.2008.01585.X
P577
2008-07-01T00:00:00Z