Journal
PLANT CELL AND ENVIRONMENT
Volume 37, Issue 3, Pages 617-626Publisher
WILEY
DOI: 10.1111/pce.12182
Keywords
cavitation; embolism; refilling; water stress; xylem
Categories
Funding
- Ministerio de Economia y Competitividad of Spain [AGL2008-04525-C02-01, AGL 30408-C04-0, BES-2009-016906]
- FEDER funds
- Australian Research Council [DP110105380]
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In woody plants, photosynthetic capacity is closely linked to rates at which the plant hydraulic system can supply water to the leaf surface. Drought-induced embolism can cause sharp declines in xylem hydraulic conductivity that coincide with stomatal closure and reduced photosynthesis. Recovery of photosynthetic capacity after drought is dependent on restored xylem function, although few data exist to elucidate this coordination. We examined the dynamics of leaf gas exchange and xylem function in Eucalyptus pauciflora seedlings exposed to a cycle of severe water stress and recovery after re-watering. Stomatal closure and leaf turgor loss occurred at water potentials that delayed the extensive spread of embolism through the stem xylem. Stem hydraulic conductance recovered to control levels within 6h after re-watering despite a severe drought treatment, suggesting an active mechanism embolism repair. However, stomatal conductance did not recover after 10d of re-watering, effecting tighter control of transpiration post drought. The dynamics of recovery suggest that a combination of hydraulic and non-hydraulic factors influenced stomatal behaviour post drought.
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