|TRY plant trait database–enhanced coverage and open access|
J Kattge, G Bönisch, S Díaz, S Lavorel, IC Prentice, P Leadley, ...
Global change biology 26 (1), 119-188, 2020
|Net primary production of forests: a constant fraction of gross primary production?|
RH Waring, JJ Landsberg, M Williams
Tree physiology 18 (2), 129-134, 1998
|Modelling the soil‐plant‐atmosphere continuum in a Quercus–Acer stand at Harvard Forest: the regulation of stomatal conductance by light, nitrogen and soil/plant hydraulic …|
M Williams, EB Rastetter, DN Fernandes, ML Goulden, SC Wofsy, ...
Plant, Cell & Environment 19 (8), 911-927, 1996
|Long‐term ecosystem level experiments at Toolik Lake, Alaska, and at Abisko, Northern Sweden: generalizations and differences in ecosystem and plant type responses to global change|
MT Van Wijk, KE Clemmensen, GR Shaver, M Williams, TV Callaghan, ...
Global Change Biology 10 (1), 105-123, 2004
|An improved analysis of forest carbon dynamics using data assimilation|
M Williams, PA Schwarz, BE Law, J Irvine, MR Kurpius
Global Change Biology 11 (1), 89-105, 2005
|Correlations between foliar δ15N and nitrogen concentrations may indicate plant-mycorrhizal interactions|
EA Hobbie, SA Macko, M Williams
Oecologia 122, 273-283, 2000
|An assessment of the carbon balance of Arctic tundra: comparisons among observations, process models, and atmospheric inversions|
AD McGuire, TR Christensen, D Hayes, A Heroult, E Euskirchen, ...
Biogeosciences 9 (8), 3185-3204, 2012
|Using satellite radar backscatter to predict above‐ground woody biomass: A consistent relationship across four different African landscapes|
ETA Mitchard, SS Saatchi, IH Woodhouse, G Nangendo, NS Ribeiro, ...
Geophysical Research Letters 36 (23), 2009
|Modeling stomatal conductance in the earth system: linking leaf water-use efficiency and water transport along the soil–plant–atmosphere continuum|
GB Bonan, M Williams, RA Fisher, KW Oleson
Geoscientific Model Development 7 (5), 2193-2222, 2014
|Carbon sequestration and biodiversity of re-growing miombo woodlands in Mozambique|
M Williams, CM Ryan, RM Rees, E Sambane, J Fernando, J Grace
Forest Ecology and management 254 (2), 145-155, 2008
|Understanding the relationships between ecosystem services and poverty alleviation: A conceptual framework|
JA Fisher, G Patenaude, K Giri, K Lewis, P Meir, P Pinho, ...
Ecosystem services 7, 34-45, 2014
|Confronting model predictions of carbon fluxes with measurements of Amazon forests subjected to experimental drought|
TL Powell, DR Galbraith, BO Christoffersen, A Harper, HMA Imbuzeiro, ...
New Phytologist 200 (2), 350-365, 2013
|Oak forest carbon and water simulations: model intercomparisons and evaluations against independent data|
PJ Hanson, JS Amthor, SD Wullschleger, KB Wilson, RF Grant, A Hartley, ...
Ecological Monographs 74 (3), 443-489, 2004
|Multiple mechanisms of Amazonian forest biomass losses in three dynamic global vegetation models under climate change|
D Galbraith, PE Levy, S Sitch, C Huntingford, P Cox, M Williams, P Meir
New Phytologist 187 (3), 647-665, 2010
|What is the relationship between changes in canopy leaf area and changes in photosynthetic CO2 flux in arctic ecosystems?|
LE Street, GR Shaver, M Williams, MT Van Wijk
Journal of Ecology 95 (1), 139-150, 2007
|The decadal state of the terrestrial carbon cycle: Global retrievals of terrestrial carbon allocation, pools, and residence times|
AA Bloom, JF Exbrayat, IR Van Der Velde, L Feng, M Williams
Proceedings of the National Academy of Sciences 113 (5), 1285-1290, 2016
|The carbon balance of Africa: synthesis of recent research studies|
P Ciais, A Bombelli, M Williams, SL Piao, J Chave, CM Ryan, M Henry, ...
Philosophical transactions of the royal society A: Mathematical, Physical …, 2011
|Evidence from Amazonian forests is consistent with isohydric control of leaf water potential|
RA Fisher, M Williams, RL Do Vale, AL Da Costa, P Meir
Plant, Cell & Environment 29 (2), 151-165, 2006
|Above‐and belowground carbon stocks in a miombo woodland landscape of Mozambique|
CM Ryan, M Williams, J Grace
Biotropica 43 (4), 423-432, 2011
|Hydrological consequences of Eucalyptus afforestation in the Argentine Pampas|
V Engel, EG Jobbágy, M Stieglitz, M Williams, RB Jackson
Water Resources Research 41 (10), 2005