Responses to water stress of gas exchange and metabolites in Eucalyptus and Acacia spp.

Charles R. Warren, Ismael Aranda, F. Javier Cano

Research output: Contribution to journalArticlepeer-review

Abstract

Studies of water stress commonly examine either gas exchange or leaf metabolites, and many fail to quantify the concentration of CO2 in the chloroplasts (Cc). We redress these limitations by quantifying Cc from discrimination against 13CO2 and using gas chromatography-mass spectrometry (GC-MS) for leaf metabolite profiling. Five Eucalyptus and two Acacia species from semi-arid to mesic habitats were subjected to a 2 month water stress treatment (pre-dawn=-1.7 to -2.3MPa). Carbohydrates dominated the leaf metabolite profiles of species from dry areas, whereas organic acids dominated the metabolite profiles of species from wet areas. Water stress caused large decreases in photosynthesis and Cc, increases in 17-33 metabolites and decreases in 0-9 metabolites. In most species, fructose, glucose and sucrose made major contributions to osmotic adjustment. In Acacia, significant osmotic adjustment was also caused by increases in pinitol, pipecolic acid and trans-4-hydroxypipecolic acid. There were also increases in low-abundance metabolites (e.g. proline and erythritol), and metabolites that are indicative of stress-induced changes in metabolism [e.g. γ-aminobutyric acid (GABA) shunt, photorespiration, phenylpropanoid pathway]. The response of gas exchange to water stress and rewatering is rather consistent among species originating from mesic to semi-arid habitats, and the general response of metabolites to water stress is rather similar, although the specific metabolites involved may vary. Studies of water stress commonly examine either gas exchange or leaf metabolites, and many gas exchange studies fail to quantify the concentration of CO2 in the chloroplasts (Cc). This study provides a more holistic picture of how water stress affects metabolism by quantifying Cc from discrimination against 13CO2 and using GC-MS for leaf metabolite profiling. We show that in a range of Eucalyptus and Acacia species water stress decreases photosynthesis and Cc, increases amounts of 17-33 metabolites and decreases amounts of 0-9 metabolites. In addition to the well-known abundant metabolites that gave rise to osmotic adjustment, there were also changes in low-abundance metabolites that likely help plants cope with drought via non-osmotic roles (e.g. stabilisation of membranes and proteins), and metabolites that are indicative of stress-induced changes in metabolism (e.g. GABA shunt, photorespiration, pinitol synthesis, phenylpropanoid pathway).
Original languageEnglish
Pages (from-to)1609-1629
Number of pages21
JournalPlant, Cell and Environment
Volume34
Issue number10
DOIs
Publication statusPublished - 2011

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