Convergence in resource use efficiency across trees with differing hydraulic strategies in response to ecosystem precipitation manipulation

Summary Plants are expected to respond to drought by maximizing the efficiency of the most limiting resource, the water use efficiency (WUE), at the expense of nitrogen and carbon use efficiencies (NUE and CUE). Therefore, plants resource use efficiencies are viewed as indicators of species drought...

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Bibliographic Details
Published in:Functional ecology 2015-09, Vol.29 (9), p.1125-1136
Main Authors: Limousin, Jean-Marc, Yepez, Enrico A., McDowell, Nate G., Pockman, William T.
Format: Article
Language:English
Subjects:
Assimilation
Carbon
carbon use efficiency
Conductance
Convergence
Drought
Drought resistance
drought tolerance
Efficiency
Indicators
Juniperus monosperma
Leaves
Nitrogen
nitrogen use efficiency
Photosynthesis
Pinus edulis
piñon–juniper woodland
Plant physiological ecology
Precipitation
Rain
Rainfall
Resistance
Species
Stomata
Stomatal conductance
Water use
Water use efficiency
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Summary:Summary Plants are expected to respond to drought by maximizing the efficiency of the most limiting resource, the water use efficiency (WUE), at the expense of nitrogen and carbon use efficiencies (NUE and CUE). Therefore, plants resource use efficiencies are viewed as indicators of species drought tolerance. We tested these predictions by measuring leaf‐level intrinsic WUE (WUEi, the ratio of net assimilation to stomatal conductance), photosynthetic NUE (PNUE, the ratio of daily maximum net assimilation to leaf nitrogen content) and leaf‐scale CUE (approached by the ratio of night‐time respiration to daytime net assimilation, Rd/An) in piñon pine and juniper, two tree species that differ in drought tolerance and vulnerability to drought‐induced mortality. Variations in resource use efficiency in the two species were measured in response to seasonal drought and in response to an ecosystem‐scale precipitation manipulation experiment comprising three precipitation treatments: ambient, irrigation (+30%) and partial rainfall exclusion (−45%). Increasing water limitation, either seasonally or across treatments, resulted in increased WUE and decreased PNUE and CUE in both species. WUE, PNUE and CUE varied more strongly in response to water limitation than across species and converged to the same relationships against precipitation for piñon and juniper. Plasticity in WUE, PNUE and CUE in response to water limitation was associated, in both species, with low carbon acquisition during drought. Our results exhibited a convergence in resource use efficiency across piñon and juniper which contradicts the paradigm that resource use efficiencies are indicators of species drought tolerance and ecological strategy. Lay Summary
ISSN:0269-8463
1365-2435
DOI:10.1111/1365-2435.12426