|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
|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
|BAAD: a Biomass And Allometry Database for woody plants|
Ecology 96, 1445, 2015
|The capacity to cope with climate warming declines from temperate to tropical latitudes in two widely distributed Eucalyptus species|
JE Drake, MJ Aspinwall, S Pfautsch, PD Rymer, PB Reich, RA Smith, ...
Global Change Biology 21 (1), 459-472, 2015
|Acclimation and adaptation components of the temperature dependence of plant photosynthesis at the global scale|
DP Kumarathunge, BE Medlyn, JE Drake, MG Tjoelker, MJ Aspinwall, ...
New Phytologist 222 (2), 768-784, 2019
|Genetic variation in circadian regulation of nocturnal stomatal conductance enhances carbon assimilation and growth|
V Resco de Dios, ME Loik, R Smith, MJ Aspinwall, DT Tissue
Plant, Cell & Environment 39 (1), 3-11, 2016
|Integrating transcriptional, metabolomic, and physiological responses to drought stress and recovery in switchgrass (Panicum virgatum L.)|
E Meyer, MJ Aspinwall, DB Lowry, JD Palacio-Mejía, TL Logan, PA Fay, ...
BMC genomics 15 (1), 1-15, 2014
|Genotypic variation in traits linked to climate and aboveground productivity in a widespread C4 grass: evidence for a functional trait syndrome|
MJ Aspinwall, DB Lowry, SH Taylor, TE Juenger, CV Hawkes, ...
New Phytologist 4, 966-980, 2013
|Does physiological acclimation to climate warming stabilize the ratio of canopy respiration to photosynthesis?|
JE Drake, MG Tjoelker, MJ Aspinwall, PB Reich, CVM Barton, BE Medlyn, ...
New Phytologist 211 (3), 850-863, 2016
|Stomatal and non-stomatal limitations of photosynthesis for four tree species under drought: a comparison of model formulations|
JE Drake, SA Power, RA Duursma, BE Medlyn, MJ Aspinwall, B Choat, ...
Agricultural and Forest Meteorology 247, 454-466, 2017
|Utilizing intraspecific variation in phenotypic plasticity to bolster agricultural and forest productivity under climate change|
MJ Aspinwall, ME Loik, V Resco de Dios, MG Tjoelker, PR Payton, ...
Plant, Cell & Environment 38 (9), 1752-1764, 2015
|Convergent acclimation of leaf photosynthesis and respiration to prevailing ambient temperatures under current and warmer climates in Eucalyptus tereticornis|
MJ Aspinwall, JE Drake, C Campany, A Vårhammar, O Ghannoum, ...
New Phytologist 212 (2), 354-367, 2016
|Genetic effects on stand-level uniformity and above-and belowground dry mass production in juvenile loblolly pine|
MJ Aspinwall, JS King, SE McKeand, BP Bullock
Forest Ecology and Management 262 (4), 609-619, 2011
|Drought response strategies and hydraulic traits contribute to mechanistic understanding of plant dry-down to hydraulic failure|
CJ Blackman, D Creek, C Maier, MJ Aspinwall, JE Drake, S Pfautsch, ...
Tree physiology 39 (6), 910-924, 2019
|Leaf-level gas-exchange uniformity and photosynthetic capacity among loblolly pine (Pinus taeda L.) genotypes of contrasting inherent genetic variation|
MJ Aspinwall, JS King, SE McKeand, JC Domec
Tree Physiology 31 (1), 78-91, 2011
|Genetic adaptation and phenotypic plasticity contribute to greater leaf hydraulic tolerance in response to drought in warmer climates|
CJ Blackman, MJ Aspinwall, DT Tissue, PD Rymer
Tree Physiology 37 (5), 583-592, 2017
|Carbon sequestration from 40 years of planting genetically improved loblolly pine across the southeast United States|
MJ Aspinwall, SE McKeand, JS King
Forest Science 58 (5), 446-456, 2012
|Photosynthetic capacity and leaf nitrogen decline along a controlled climate gradient in provenances of two widely distributed Eucalyptus species|
KY Crous, JE Drake, MJ Aspinwall, RE Sharwood, MG Tjoelker, ...
Global Change Biology 24 (10), 4626-4644, 2018
|Leaf photosynthetic, economics and hydraulic traits are decoupled among genotypes of a widespread species of eucalypt grown under ambient and elevated CO2|
CJ Blackman, MJ Aspinwall, V Resco de Dios, RA Smith, DT Tissue
Functional Ecology 30 (9), 1491-1500, 2016
|The effect of subambient to elevated atmospheric CO2 concentration on vascular function in Helianthus annuus: implications for plant response to climate change|
C Rico, J Pittermann, HW Polley, MJ Aspinwall, PA Fay
New Phytologist 4, 956-965, 2013