|How to fit nonlinear plant growth models and calculate growth rates: an update for ecologists|
CET Paine, TR Marthews, DR Vogt, D Purves, M Rees, A Hector, ...
Methods in Ecology and Evolution 3 (2), 245-256, 2012
|CTFS‐Forest GEO: a worldwide network monitoring forests in an era of global change|
KJ Anderson‐Teixeira, SJ Davies, AC Bennett, EB Gonzalez‐Akre, ...
Global change biology 21 (2), 528-549, 2015
|Soil carbon release enhanced by increased tropical forest litterfall|
EJ Sayer, MS Heard, HK Grant, TR Marthews, EVJ Tanner
Nature Climate Change 1 (6), 304-307, 2011
|Deforestation and climate feedbacks threaten the ecological integrity of south–southeastern Amazonia|
MT Coe, TR Marthews, MH Costa, DR Galbraith, NL Greenglass, ...
Philosophical Transactions of the Royal Society B: Biological Sciences 368 …, 2013
|The linkages between photosynthesis, productivity, growth and biomass in lowland Amazonian forests|
Y Malhi, CE Doughty, GR Goldsmith, DB Metcalfe, CAJ Girardin, ...
Global Change Biology 21 (6), 2283-2295, 2015
|The productivity, metabolism and carbon cycle of two lowland tropical forest plots in south-western Amazonia, Peru|
Y Malhi, F Farfán Amézquita, CE Doughty, JE Silva-Espejo, CAJ Girardin, ...
Plant Ecology & Diversity 7 (1-2), 85-105, 2014
|Local spatial structure of forest biomass and its consequences for remote sensing of carbon stocks|
M Rejou-Mechain, HC Muller-Landau, M Detto, SC Thomas, TL Toan, ...
Biogeosciences Discussions 11, 5711, 2014
|The effectiveness of contrasting protected areas in preventing deforestation in Madre de Dios, Peru|
AJ Vuohelainen, L Coad, TR Marthews, Y Malhi, TJ Killeen
Environmental management 50 (4), 645-663, 2012
|Productivity and carbon allocation in a tropical montane cloud forest in the Peruvian Andes|
CAJ Girardin, JES Espejob, CE Doughty, WH Huasco, DB Metcalfe, ...
Plant Ecology & Diversity 7 (1-2), 107-123, 2014
|Social and ecological change over a decade in a village hunting system, central Gabon|
L Coad, J Schleicher, EJ MILNER‐GULLAND, TR Marthews, M Starkey, ...
Conservation Biology 27 (2), 270-280, 2013
|Progress towards the CBD protected area management effectiveness targets|
L Coad, F Leverington, ND Burgess, IC Cuadros, J Geldmann, ...
Parks 19 (1), 13-24, 2013
|Measuring tropical forest carbon allocation and cycling: A RAINFOR-GEM field manual for intensive census plots|
TR Marthews, D Metcalfe, Y Malhi, O Phillips, HW Huaraca
Manual, Global Ecosystems Monitoring 2, 2, 2012
|Seasonal production, allocation and cycling of carbon in two mid-elevation tropical montane forest plots in the Peruvian Andes|
WH Huasco, CAJ Girardin, CE Doughty, DB Metcalfe, LD Baca, ...
Plant Ecology & Diversity 7 (1-2), 125-142, 2014
|High-resolution global topographic index values for use in large-scale hydrological modelling.|
TR Marthews, SJ Dadson, B Lehner, S Abele, N Gedney
Hydrology & Earth System Sciences 19 (1), 2015
|Plant growth rates and seed size: a re‐evaluation|
LA Turnbull, CD Philipson, DW Purves, RL Atkinson, J Cunniff, ...
Ecology 93 (6), 1283-1289, 2012
|Soil drying in a tropical forest: three distinct environments controlled by gap size|
TR Marthews, DFRP Burslem, SR Paton, F Yangüez, CE Mullins
Ecological Modelling 216 (3-4), 369-384, 2008
|Light‐based Regeneration Niches: Evidence from 21 D ipterocarp Species using Size‐specific RGR s|
CD Philipson, P Saner, TR Marthews, R Nilus, G Reynolds, LA Turnbull, ...
Biotropica 44 (5), 627-636, 2012
|When will rejection of parasite nestlings by hosts of nonevicting avian brood parasites be favored? A misimprinting-equilibrium model|
MJ Lawes, TR Marthews
Behavioral Ecology 14 (6), 757-770, 2003
|Simulating forest productivity along a neotropical elevational transect: temperature variation and carbon use efficiency|
TR Marthews, Y Malhi, CAJ Girardin, JE Silva Espejo, LEOC Aragão, ...
Global Change Biology 18 (9), 2882-2898, 2012
|Logging disturbance shifts net primary productivity and its allocation in Bornean tropical forests|
T Riutta, Y Malhi, LK Kho, TR Marthews, W Huaraca Huasco, MS Khoo, ...
Global Change Biology 24 (7), 2913-2928, 2018