Scott McAdam
Scott McAdam
Purdue Center for Plant Biology, Department of Botany and Plant Pathology, Purdue University
Verified email at - Homepage
Cited by
Cited by
Passive origins of stomatal control in vascular plants
TJ Brodribb, SAM McAdam
Science 331 (6017), 582-585, 2011
Evolution of stomatal responsiveness to CO2 and optimization of water‐use efficiency among land plants
TJ Brodribb, SAM McAdam, GJ Jordan, TS Feild
New Phytologist 183 (3), 839-847, 2009
Conifer species adapt to low-rainfall climates by following one of two divergent pathways
TJ Brodribb, SAM McAdam, GJ Jordan, SCV Martins
Proceedings of the National Academy of Sciences 111 (40), 14489-14493, 2014
The evolution of mechanisms driving the stomatal response to vapor pressure deficit
SAM McAdam, TJ Brodribb
Plant Physiology 167 (3), 833-843, 2015
Stomatal innovation and the rise of seed plants
SAM McAdam, TJ Brodribb
Ecology Letters 15 (1), 1-8, 2012
Visual quantification of embolism reveals leaf vulnerability to hydraulic failure
TJ Brodribb, RP Skelton, SAM McAdam, D Bienaimé, CJ Lucani, ...
New Phytologist 209 (4), 1403-1409, 2016
Abscisic acid mediates a divergence in the drought response of two conifers
TJ Brodribb, SAM McAdam
Plant physiology 162 (3), 1370-1377, 2013
Fern and lycophyte guard cells do not respond to endogenous abscisic acid
SAM McAdam, TJ Brodribb
The Plant Cell 24 (4), 1510-1521, 2012
Shoot‐derived abscisic acid promotes root growth
SAM McAdam, TJ Brodribb, JJ Ross
Plant, cell & environment 39 (3), 652-659, 2016
Linking turgor with ABA biosynthesis: implications for stomatal responses to vapor pressure deficit across land plants
SAM McAdam, TJ Brodribb
Plant Physiology 171 (3), 2008-2016, 2016
Separating Active and Passive Influences on Stomatal Control of Transpiration [OPEN]
SAM McAdam, TJ Brodribb
Plant Physiology 164 (4), 1578-1586, 2014
Stomatal responses to vapour pressure deficit are regulated by high speed gene expression in angiosperms
SAM McAdam, FC Sussmilch, TJ Brodribb
Plant, cell & environment 39 (3), 485-491, 2016
Evolution of the stomatal regulation of plant water content
TJ Brodribb, SAM McAdam
Plant physiology 174 (2), 639-649, 2017
Ancestral stomatal control results in a canalization of fern and lycophyte adaptation to drought
SAM McAdam, TJ Brodribb
New Phytologist 198 (2), 429-441, 2013
Abscisic acid controlled sex before transpiration in vascular plants
SAM McAdam, TJ Brodribb, JA Banks, R Hedrich, NM Atallah, C Cai, ...
Proceedings of the National Academy of Sciences 113 (45), 12862-12867, 2016
Gas exchange recovery following natural drought is rapid unless limited by loss of leaf hydraulic conductance: evidence from an evergreen woodland
RP Skelton, TJ Brodribb, SAM McAdam, PJ Mitchell
New Phytologist 215 (4), 1399-1412, 2017
Xylem and stomata, coordinated through time and space
TJ Brodribb, SAM McAdam, MR Carins Murphy
Plant, Cell & Environment 40 (6), 872-880, 2017
Up-regulation of NCED3 and ABA biosynthesis occur within minutes of a decrease in leaf turgor but AHK1 is not required
FC Sussmilch, TJ Brodribb, SAM McAdam
Journal of Experimental Botany 68 (11), 2913-2918, 2017
Stomatal dynamics are limited by leaf hydraulics in ferns and conifers: results from simultaneous measurements of liquid and vapour fluxes in leaves
SCV Martins, SAM McAdam, RM Deans, FM DaMatta, TJ Brodribb
Plant, cell & environment 39 (3), 694-705, 2016
Uprooting an abscisic acid paradigm: Shoots are the primary source
SAM McAdam, M Manzi, JJ Ross, TJ Brodribb, A Gómez-Cadenas
Plant signaling & behavior 11 (6), 652-659, 2016
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