Viklund, Jenny
- Department of Forest Resource Management, Swedish University of Agricultural Sciences
Research article2007Peer reviewedOpen access
Variation in drought resistance, drought acclimation and water conservation in four willow cultivars used for biomass production
Wikbergi J, Ogreni E
Abstract
Growth and water-use parameters of four willow (Salix spp.) clones grown in a moderate drought regime or with ample water supply were determined to characterize their water-use efficiency, drought resistance and capacity for drought acclimation. At the end of the 10-week, outdoor pot experiment, clonal differences were observed in: (1) water-use efficiency of aboveground biomass production (WUE); (2) resistance to xylem cavitation; and (3) stomatal conductance to leaf-specific, whole-plant hydraulic conductance ratio (g(st)/K-p; art indicator of water balance). Across clones and regimes, WUE was positively correlated with the assimilation rate to stomatal conductance ratio (A/g(st)), a measure of instantaneous water-use efficiency. Both of these water-use efficiency indicators were generally higher in drought-treated trees compared with well-watered trees. However, the between-treatment differences in (shoot-based) WUE were smaller than expected, considering the differences in A/g(st) for two of the clones, possibly because plants reallocated dry mass from shoots to roots when subject to drought. Higher root hydraulic conductance to shoot hydraulic conductance ratios (K-R/K-s) during drought Supports this hypothesis. The same clones were also the most sensitive to xylem cavitation and, accordingly, showed the strongest reduction in g(st)/K-p in response to drought. Drought acclimation was manifested in decreased g(st), g(st)/K-p, osmotic potential and leaf area to vessel internal cross-sectional area ratio, and increased K-R, K-p and WUE. Increased resistance to stem xylem cavitation in response to drought was observed in only one clone. It is concluded that WUE and drought resistance traits are inter-linked and that both may be enhanced by selection and breeding
Published in
Tree Physiology
2007, Volume: 27, number: 9, pages: 1339-1346
Publisher: HERON PUBLISHING
Ögren, Erling
- Department of Forest Genetics and Plant Physiology, Swedish University of Agricultural Sciences
- Department of Forest Genetics and Plant Physiology, Swedish University of Agricultural Sciences
SLU Authors
UKÄ Subject classification
Renewable Bioenergy Research
Forest Science
Agricultural Science
Publication identifier
DOI: https://doi.org/10.1093/treephys/27.9.1339
Permanent link to this page (URI)
https://res.slu.se/id/publ/15885