Christine Scoffoni
Christine Scoffoni
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Zitiert von
Zitiert von
The determinants of leaf turgor loss point and prediction of drought tolerance of species and biomes: a global meta‐analysis
MK Bartlett, C Scoffoni, L Sack
Ecology letters 15 (5), 393-405, 2012
Leaf venation: structure, function, development, evolution, ecology and applications in the past, present and future
L Sack, C Scoffoni
New phytologist 198 (4), 983-1000, 2013
Decline of leaf hydraulic conductance with dehydration: relationship to leaf size and venation architecture
C Scoffoni, M Rawls, A McKown, H Cochard, L Sack
Plant Physiology 156 (2), 832-843, 2011
Developmentally based scaling of leaf venation architecture explains global ecological patterns
L Sack, C Scoffoni, AD McKown, K Frole, M Rawls, JC Havran, H Tran, ...
Nature Communications 3 (1), 837, 2012
Rapid determination of comparative drought tolerance traits: using an osmometer to predict turgor loss point
MK Bartlett, C Scoffoni, R Ardy, Y Zhang, S Sun, K Cao, L Sack
Methods in Ecology and Evolution 3 (5), 880-888, 2012
How do leaf veins influence the worldwide leaf economic spectrum? Review and synthesis
L Sack, C Scoffoni, GP John, H Poorter, CM Mason, R Mendez-Alonzo, ...
Journal of experimental botany 64 (13), 4053-4080, 2013
Leaf shrinkage with dehydration: coordination with hydraulic vulnerability and drought tolerance
C Scoffoni, C Vuong, S Diep, H Cochard, L Sack
Plant Physiology 164 (4), 1772-1788, 2014
Outside-xylem vulnerability, not xylem embolism, controls leaf hydraulic decline during dehydration
C Scoffoni, C Albuquerque, CR Brodersen, SV Townes, GP John, ...
Plant physiology 173 (2), 1197-1210, 2017
Hydraulic basis for the evolution of photosynthetic productivity
C Scoffoni, DS Chatelet, J Pasquet-Kok, M Rawls, MJ Donoghue, ...
Nature plants 2 (6), 1-8, 2016
How does leaf anatomy influence water transport outside the xylem?
TN Buckley, GP John, C Scoffoni, L Sack
Plant Physiology 168 (4), 1616-1635, 2015
Leaf mesophyll conductance and leaf hydraulic conductance: an introduction to their measurement and coordination
J Flexas, C Scoffoni, J Gago, L Sack
Journal of Experimental Botany 64 (13), 3965-3981, 2013
The anatomical and compositional basis of leaf mass per area
GP John, C Scoffoni, TN Buckley, R Villar, H Poorter, L Sack
Ecology letters 20 (4), 412-425, 2017
Dynamics of leaf hydraulic conductance with water status: quantification and analysis of species differences under steady state
C Scoffoni, AD McKown, M Rawls, L Sack
Journal of Experimental Botany 63 (2), 643-658, 2012
A stomatal safety-efficiency trade-off constrains responses to leaf dehydration
C Henry, GP John, R Pan, MK Bartlett, LR Fletcher, C Scoffoni, L Sack
Nature communications 10 (1), 3398, 2019
The causes and consequences of leaf hydraulic decline with dehydration
C Scoffoni, L Sack
Journal of Experimental Botany 68 (16), 4479-4496, 2017
Combined impacts of irradiance and dehydration on leaf hydraulic conductance: insights into vulnerability and stomatal control
G Guyot, C Scoffoni, L Sack
Plant, Cell & Environment 35 (5), 857-871, 2012
Leaf vein xylem conduit diameter influences susceptibility to embolism and hydraulic decline
C Scoffoni, C Albuquerque, CR Brodersen, SV Townes, GP John, ...
New Phytologist 213 (3), 1076-1092, 2017
Thresholds for leaf damage due to dehydration: declines of hydraulic function, stomatal conductance and cellular integrity precede those for photochemistry
S Trueba, R Pan, C Scoffoni, GP John, SD Davis, L Sack
New Phytologist 223 (1), 134-149, 2019
The rapid light response of leaf hydraulic conductance: new evidence from two experimental methods
C Scoffoni, A Pou, K Aasamaa, L Sack
Plant, Cell & Environment 31 (12), 1803-1812, 2008
Measurement of leaf hydraulic conductance and stomatal conductance and their responses to irradiance and dehydration using the Evaporative Flux Method (EFM)
L Sack, C Scoffoni
JoVE (Journal of Visualized Experiments), e4179, 2012
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