|Positive biodiversity-productivity relationship predominant in global forests|
J Liang, TW Crowther, N Picard, S Wiser, M Zhou, G Alberti, ED Schulze, ...
Science 354 (6309), aaf8957, 2016
|Quantifying global soil carbon losses in response to warming|
TW Crowther, KEO Todd-Brown, CW Rowe, WR Wieder, JC Carey, ...
Nature 540 (7631), 104-108, 2016
|Mapping tree density at a global scale|
TW Crowther, HB Glick, KR Covey, C Bettigole, DS Maynard, SM Thomas, ...
Nature 525 (7568), 201-205, 2015
|Managing uncertainty in soil carbon feedbacks to climate change|
MA Bradford, WR Wieder, GB Bonan, N Fierer, PA Raymond, ...
Nature Climate Change 6 (8), 751-758, 2016
|The global tree restoration potential|
JF Bastin, Y Finegold, C Garcia, D Mollicone, M Rezende, D Routh, ...
Science 365 (6448), 76-79, 2019
|Biogeographic patterns in below-ground diversity in New York City's Central Park are similar to those observed globally|
KS Ramirez, JW Leff, A Barberán, ST Bates, J Betley, TW Crowther, ...
Proceedings of the royal society B: biological sciences 281 (1795), 20141988, 2014
|Climate fails to predict wood decomposition at regional scales|
MA Bradford, RJ Warren II, P Baldrian, TW Crowther, DS Maynard, ...
Nature Climate Change 4 (7), 625-630, 2014
|Temperature response of soil respiration largely unaltered with experimental warming|
JC Carey, J Tang, PH Templer, KD Kroeger, TW Crowther, AJ Burton, ...
Proceedings of the National Academy of Sciences, 201605365, 2016
|Untangling the fungal niche: a trait-based approach|
TW Crowther, DS Maynard, TR Crowther, J Peccia, JR Smith, ...
Name: Frontiers in Microbiology 5, 579, 2014
|Biotic interactions mediate soil microbial feedbacks to climate change|
TW Crowther, SM Thomas, DS Maynard, P Baldrian, K Covey, SD Frey, ...
Proceedings of the National Academy of Sciences 12 (22), 7033-7038, 2015
|Thermal acclimation in widespread heterotrophic soil microbes|
TW Crowther, MA Bradford
Ecology Letters 16 (4), 469-477, 2013
|Functional and ecological consequences of saprotrophic fungus-grazer interactions|
T Crowther, L Boddy, TH Jones
The ISME Journal, 2012
|Outcomes of fungal interactions are determined by soil invertebrate grazers|
TW Crowther, L Boddy, TH Jones
Ecology Letters 14 (11), 1134-1142, 2011
|Scientists’ warning to humanity: microorganisms and climate change|
R Cavicchioli, WJ Ripple, KN Timmis, F Azam, LR Bakken, M Baylis, ...
Nature Reviews Microbiology 17 (9), 569-586, 2019
|Predicting rates of isotopic turnover across the animal kingdom: a synthesis of existing data|
SM Thomas, TW Crowther
Journal of Animal Ecology 84 (3), 861-870, 2015
|Predicting the responsiveness of soil biodiversity to deforestation: a cross‐biome study|
TW Crowther, DS Maynard, JW Leff, EE Oldfield, RL McCulley, N Fierer, ...
Global change biology 20 (9), 2983-2994, 2014
|A test of the hierarchical model of litter decomposition|
MA Bradford, GFC Veen, A Bonis, EM Bradford, AT Classen, ...
Nature ecology & evolution 1 (12), 1836-1845, 2017
|Top-down control of soil fungal community composition by a globally distributed keystone consumer|
TW Crowther, D Stanton, S Thomas, AD A’Bear, J Hiscox, TH Jones
Ecology 94 (11), 251, 2013
|Species-specific effects of soil fauna on fungal foraging and decomposition|
TW Crowther, L Boddy, TH Jones
Oecologia 167, 535-545, 2011
|Climatic controls of decomposition drive the global biogeography of forest-tree symbioses|
BS Steidinger, TW Crowther, J Liang, ME Van Nuland, GDA Werner, ...
Nature 569 (7756), 404-408, 2019