Transpiration of silver Fir (Abies alba mill.) during and after drought in relation to soil properties in a Mediterranean mountain area |
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Authors: | Marie Nourtier André Chanzy Maxime Cailleret Xie Yingge Roland Huc Hendrik Davi |
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Affiliation: | 1. UMR1114, Environnement Méditerranéen et Modélisation des AgroHydrosystèmes, INRA, Domaine Saint Paul, Site Agroparc, 84914, Avignon, France 2. UMR1114, EMMAH, Université d’Avignon et des Pays de Vaucluse, 84000, Avignon, France 3. UR629, écologie des Forêts Méditerranéennes, INRA, Domaine Saint Paul, Site Agroparc, 84914, Avignon, France 4. College of science, Northwest A&F University, Yangling, Shaanxi, China, 712100
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Abstract: | Context Silver fir is declining and dying at its southern margin on the Mediterranean area, where climate is expected to be warmer and drier. At a regional scale, silver fir seems to be vulnerable to drought, and at a forest stand scale, tree death seems to be distributed according to soil water availability. Aim To understand the vulnerability of silver fir to drought, factors involved in the regulation of transpiration were assessed with respect to soil properties in order to document the spatial distribution of death rates. Methods Soil properties were characterized by electric resistivity measurements. Sap flow density and predawn needle water potential were recorded on sampled trees during several years, and crown specific transpiration was estimated. In addition, the vulnerability of coarse roots and branches to cavitation was quantified. Results and conclusion Trees growing on soils with a large water storage capacity were the most vulnerable to drought induced soil water deficits. Transpiration was down-regulated as soon as predawn water potential decreased. The vulnerability to cavitation was low, which protected the trees from run-away xylem embolism. Severe soil water deficits led to a rapid decrease of transpiration, which was still visible the following year. The drop-off in transpiration was mainly due to inner sap flow that almost ceased after the drought on all monitored trees. Our results suggest that root dynamic and the ability of roots to take up water were modified by soil water deficit over several years. Such a regulation scheme needs to be better documented and included in models to address silver fir forest responses to drought. |
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