|Modeling fire and the terrestrial carbon balance|
IC Prentice, DI Kelley, PN Foster, P Friedlingstein, SP Harrison, ...
Global Biogeochemical Cycles 25 (3), 2011
|Large inert carbon pool in the terrestrial biosphere during the Last Glacial Maximum|
P Ciais, A Tagliabue, M Cuntz, L Bopp, M Scholze, G Hoffmann, ...
Nature Geoscience 5 (1), 74, 2012
|The status and challenge of global fire modelling|
S Hantson, A Arneth, SP Harrison, DI Kelley, IC Prentice, SS Rabin, ...
Biogeosciences 13 (11), 3359-3375, 2016
|A comprehensive benchmarking system for evaluating global vegetation models|
DI Kelley, IC Prentice, SP Harrison, H Wang, M Simard, JB Fisher, ...
Copernicus Publication, 2013
|Drought and resprouting plants|
MJB Zeppel, SP Harrison, HD Adams, DI Kelley, G Li, DT Tissue, ...
New Phytologist 206 (2), 583-589, 2015
|The BETHY/JSBACH carbon cycle data assimilation system: Experiences and challenges|
T Kaminski, W Knorr, G Schürmann, M Scholze, PJ Rayner, S Zaehle, ...
Journal of Geophysical Research: Biogeosciences 118 (4), 1414-1426, 2013
|The Fire Modeling Intercomparison Project (FireMIP), phase 1: Experimental and analytical protocols|
SS Rabin, JR Melton, G Lasslop, D Bachelet, M Forrest, S Hantson, F Li, ...
Geoscientific Model Development 20, 1175-1197, 2017
|Improved simulation of fire–vegetation interactions in the Land surface Processes and eXchanges dynamic global vegetation model (LPX-Mv1)|
DI Kelley, SP Harrison, IC Prentice
Geoscientific Model Development 7 (5), 2411-2433, 2014
|Enhanced Australian carbon sink despite increased wildfire during the 21st century|
DI Kelley, SP Harrison
Environmental Research Letters 9 (10), 104015, 2014
|Vegetation plays an important role in mediating future water resources|
AM Ukkola, TF Keenan, DI Kelley, IC Prentice
Environmental Research Letters 11 (9), 094022, 2016
|Modelling Australia Fire Regimes|
Macquarie University, 2014
|Representation of fire, land-use change and vegetation dynamics in the Joint UK Land Environment Simulator vn4. 9 (JULES)|
C Burton, R Betts, M Cardoso, TR Feldpausch, A Harper, CD Jones, ...
Geoscientific Model Development 12 (1), 179-193, 2019
|Projected changes in Australian fire regimes during the 21st century and consequences for ecosystems|
SP Harrison, DI Kelley
International Journal of Wildland Fire, 2016
|How contemporary bioclimatic and human controls change global fire regimes|
DI Kelley, I Bistinas, R Whitley, C Burton, TR Marthews, N Dong
Nature Climate Change, 1-7, 2019
|The Status of Global Fire Modeling: Results from the Fire Model Intercomparison Project (FireMIP)|
S Hantson, A Arneth, SP Harrison, SS Rabin, D Kelley, DM Bachelet, ...
AGU Fall Meeting Abstracts, 2016
|What limits fire, where and when: sensitivity of burnt area to different controls|
D Kelley, I Bistinas, R Whitley, T Marthews, C Burton
AGU Fall Meeting Abstracts, 2016
|Climate, vegetation, fire and the carbon cycle: Africa during the last 21,000 years|
SP Harrison, D Kelley, G Li, JS Singarayer, IC Prentice
Quaternary International, 202-203, 2016
|Implications of introducing realistic fire response traits in a Dynamic Global Vegetation Model|
D Kelley, SP Harrison, IC Prentice
AGU Fall Meeting Abstracts, 2013
|Wildfires as part of the global carbon cycle: Quantitative analysis using data assimilation|
University of Bristol, 2008
|Project no. FP6-018505 Project Acronym FIRE PARADOX Project Title FIRE PARADOX: An Innovative Approach of Integrated Wildland Fire Management Regulating the Wildfire Problem by …|
SP Harrison, D Kelley, SP Harrison, D Kelley