|smatr 3-an R package for estimation and inference about allometric lines|
DI Warton, RA Duursma, DS Falster, S Taskinen
Methods in Ecology and Evolution 3 (2), 257-259, 2012
|Reconciling the optimal and empirical approaches to modelling stomatal conductance|
BE Medlyn, RA Duursma, D Eamus, DS Ellsworth, IC Prentice, ...
Global Change Biology 17 (6), 2134-2144, 2011
|Triggers of tree mortality under drought|
B Choat, TJ Brodribb, CR Brodersen, RA Duursma, R López, BE Medlyn
Nature 558 (7711), 531-539, 2018
|Optimal stomatal behaviour around the world|
YS Lin, BE Medlyn, RA Duursma, IC Prentice, H Wang, S Baig, D Eamus, ...
Nature Climate Change 5 (5), 459-464, 2015
|How should we model plant responses to drought? An analysis of stomatal and non-stomatal responses to water stress|
S Zhou, RA Duursma, BE Medlyn, JWG Kelly, IC Prentice
Agricultural and Forest Meteorology 182, 204-214, 2013
|A regression-based equivalence test for model validation: shifting the burden of proof|
AP Robinson, RA Duursma, JD Marshall
Tree physiology 25 (7), 903-913, 2005
|Plantecophys-an R package for analysing and modelling leaf gas exchange data|
PloS one 10 (11), e0143346, 2015
|Forest productivity under climate change: a checklist for evaluating model studies|
BE Medlyn, RA Duursma, MJB Zeppel
Wiley Interdisciplinary Reviews: Climate Change 2 (3), 332-355, 2011
|Model–data synthesis for the next generation of forest free‐air CO2 enrichment (FACE) experiments|
RJ Norby, MG De Kauwe, TF Domingues, RA Duursma, DS Ellsworth, ...
New Phytologist 209 (1), 17-28, 2016
|Whole-tree chambers for elevated atmospheric CO2 experimentation and tree scale flux measurements in south-eastern Australia: the Hawkesbury Forest Experiment|
CVM Barton, DS Ellsworth, BE Medlyn, RA Duursma, DT Tissue, ...
Agricultural and Forest Meteorology 150 (7-8), 941-951, 2010
|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
|Vertical canopy gradients in δ13C correspond with leaf nitrogen content in a mixed-species conifer forest|
RA Duursma, JD Marshall
Trees 20 (4), 496-506, 2006
|Summary models for light interception and light-use efficiency of non-homogeneous canopies|
RA Duursma, A Mäkelä
Tree physiology 27 (6), 859-870, 2007
|Predicting the decline in daily maximum transpiration rate of two pine stands during drought based on constant minimum leaf water potential and plant hydraulic conductance|
RA Duursma, P Kolari, M Perämäki, E Nikinmaa, P Hari, S Delzon, ...
Tree physiology 28 (2), 265-276, 2008
|Elevated [CO2] does not ameliorate the negative effects of elevated temperature on drought‐induced mortality in Eucalyptus radiata seedlings|
H Duan, RA Duursma, G Huang, RA Smith, B Choat, AP O'GRADY, ...
Plant, Cell & Environment 37 (7), 1598-1613, 2014
|MAESPA: a model to study interactions between water limitation, environmental drivers and vegetation function at tree and stand levels, with an example application to [CO₂ …|
RA Duursma, BE Medlyn
Copernicus Publication, 2012
|Carbon dynamics of eucalypt seedlings exposed to progressive drought in elevated [CO2] and elevated temperature|
H Duan, JS Amthor, RA Duursma, AP O'grady, B Choat, DT Tissue
Tree Physiology 33 (8), 779-792, 2013
|Light interception efficiency explained by two simple variables: a test using a diversity of small‐to medium‐sized woody plants|
RA Duursma, DS Falster, F Valladares, FJ Sterck, RW Pearcy, CH Lusk, ...
New Phytologist 193 (2), 397-408, 2012
|BAAD: a Biomass And Allometry Database for woody plants|
DS Falster, RA Duursma, MI Ishihara, DR Barneche, RG FitzJohn, ...
Ecology 96 (5), 1445, 2015
|Trees tolerate an extreme heatwave via sustained transpirational cooling and increased leaf thermal tolerance|
JE Drake, MG Tjoelker, A Vårhammar, BE Medlyn, PB Reich, A Leigh, ...
Global change biology 24 (6), 2390-2402, 2018