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- Title
Integration of tree hydraulic processes and functional impairment to capture the drought resilience of a semi-arid pine forest.
- Authors
Nadal-Sala, Daniel; Grote, Rüdiger; Kraus, David; Hochberg, Uri; Klein, Tamir; Wagner, Yael; Tatarinov, Fedor; Yakir, Dan; Ruehr, Nadine K.
- Abstract
Drought stress is imposing multiple feedback responses in plants. These responses span from stomata closure and enzymatic downregulation of photosynthetic activity to structural adjustments in leaf area. Some of these processes are not easily reversible and may persist long after the stress ended. Unfortunately, simulation models widely lack an integrative mechanistic description on how this sequence of tree physiological to structural responses occur. Here, we suggest an integrative approach to simulate drought stress responses. Firstly, a decreasing plant water potential triggers stomatal closure alongside a downregulation of photosynthetic performance. This is followed by a disconnection of roots and soil and the reliance on internal stem water storage or water uptake from deep soil layers. Consistently, loss in hydraulic functioning is reflected in sapwood loss of functionality and foliage senescence. This new model functionality has been used to investigate responses of tree hydraulics, carbon uptake and transpiration to soil- and atmospheric drought in an extremely dry Aleppo pine (Pinus halepensis L.) plantation. Using the hypothesis of a sequential triggering of stress-mitigating responses, the model was able to reflect the carbon uptake and transpiration patterns under varying soil water supply and atmospheric demand - especially during summer - and responded realistically regarding medium-term responses such as leaf and sapwood senescence. In agreement with the high drought resistance observed at the site our model indicated little loss of hydraulic functioning in Aleppo pine, despite the intensive seasonal summer drought.
- Subjects
DROUGHTS; DROUGHT management; WATER supply; ALEPPO pine; WATER storage; PINE; LEAF area
- Publication
Biogeosciences Discussions, 2023, p1
- ISSN
1810-6277
- Publication type
Article
- DOI
10.5194/bg-2023-142