Impact of Drought on Productivity and Water Use Efficiency in 29 Genotypes of Populus Deltoides X Populus Nigra

Overview

Journal New Phytol

Specialty Biology

Date 2006 Jan 31

PMID 16441757

Citations 56

Authors

Romain Monclus

Erwin Dreyer

Marc Villar

Francis M Delmotte

Didier Delay

Jean-Michel Petit

Cecile Barbaroux

Didier Le Thiec

Claude Brechet

Franck Brignolas

Affiliations

Soon will be listed here.

Abstract

We examined the relationships among productivity, water use efficiency (WUE) and drought tolerance in 29 genotypes of Populus x euramericana (Populus deltoides x Populus nigra), and investigated whether some leaf traits could be used as predictors for productivity, WUE and drought tolerance. At Orléans, France, drought was induced on one field plot by withholding water, while a second plot remained irrigated and was used as a control. Recorded variables included stem traits (e.g. biomass) and leaf structural (e.g. leaf area) and functional traits [e.g. intrinsic water use efficiency (Wi) and carbon isotope discrimination (Delta)]. Productivity and Delta displayed large genotypic variability and were not correlated. Delta scaled negatively with Wi and positively with stomatal conductance under moderate drought, suggesting that the diversity for Delta was mainly driven by stomatal conductance. Most of the productive genotypes displayed a low level of drought tolerance (i.e. a large reduction of biomass), while the less productive genotypes presented a large range of drought tolerance. The ability to increase WUE in response to water deficit was necessary but not sufficient to explain the genotypic diversity of drought tolerance.

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