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Have plants evolved to self-immolate?Under What Circumstances Do Wood Products from Native Forests Benefit Climate Change Mitigation?Accounting for biomass carbon stock change due to wildfire in temperate forest landscapes in AustraliaScaling up the diversity-resilience relationship with trait databases and remote sensing data: the recovery of productivity after wildfire.Identifying the location of fire refuges in wet forest ecosystems.Biophysical Mechanistic Modelling Quantifies the Effects of Plant Traits on Fire Severity: Species, Not Surface Fuel Loads, Determine Flame Dimensions in Eucalypt ForestsImproving the Design of a Conservation Reserve for a Critically Endangered Species
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Q26830159-8EAADB32-54F2-48E1-9A49-E92B06F1D504Q28606862-729B5776-FBF7-451D-B75D-84F3BD6E001AQ28655863-0BA5DD06-5721-420B-BDB0-0F28B2E40F0AQ31027608-235DB31C-DBC1-4361-BF53-284C04FA4BA0Q35934343-D402C00E-6BE8-4199-AD83-95C664634AFAQ36105063-4C8A2F09-097D-4475-83A8-DE8FE564F4D9Q36259640-2A3753D3-8A2A-4BBB-89E8-9355051EAAC9
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description
im Juli 2014 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в липні 2014
@uk
name
Nonlinear Effects of Stand Age on Fire Severity
@en
Nonlinear Effects of Stand Age on Fire Severity
@nl
type
label
Nonlinear Effects of Stand Age on Fire Severity
@en
Nonlinear Effects of Stand Age on Fire Severity
@nl
prefLabel
Nonlinear Effects of Stand Age on Fire Severity
@en
Nonlinear Effects of Stand Age on Fire Severity
@nl
P2860
P356
P1433
P1476
Nonlinear Effects of Stand Age on Fire Severity
@en
P2093
Chris Taylor
P2860
P304
P356
10.1111/CONL.12122
P577
2014-07-01T00:00:00Z