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Optimal stomatal drought response shaped by competition for water and hydraulic risk can explain plant trait covariation
Yaojie Lu
, Remko A. Duursma
, Caroline E. Farrior
, Belinda E. Medlyn
,
Xue Feng
Civil, Environmental, and Geo- Engineering
St. Anthony Falls Laboratory
Research output
:
Contribution to journal
›
Article
›
peer-review
60
Scopus citations
Overview
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Keyphrases
Alternative Theories
20%
Available Water
20%
Carbon Cost
40%
Carbon Gain
20%
Classical Theory
20%
Competition for Water
100%
Competitive Environment
20%
Direct Carbon
20%
Direct Costs
20%
Drought Response
100%
Empirical Patterns
20%
High Cost
20%
Hydraulic Limitation
20%
Hydraulic Risk
100%
Hydraulic Traits
20%
Opportunity Cost
40%
Photosynthesis
40%
Plant Gas Exchange
20%
Plant Traits
100%
Self-regulation
20%
Stochastic Rainfall
20%
Stomata
20%
Stomatal Behavior
40%
Stomatal Optimization
40%
Trait Covariation
100%
Transpiration
40%
Water Availability
20%
Water Restriction
20%
Water Risk
100%
Xylem
100%
Xylem Hydraulics
20%
Agricultural and Biological Sciences
Autoregulation
16%
Gas Exchange
16%
Photosystem
33%
Stoma
16%
Sweating
33%
Xylem
100%