Mortality versus survival in drought‐affected Aleppo pine forest depends on the extent of rock cover and soil stoniness
PREISLER, Yakir
Weizmann Institute of Science [Rehovot, Israël]
The Hebrew University of Jerusalem [HUJ]
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Weizmann Institute of Science [Rehovot, Israël]
The Hebrew University of Jerusalem [HUJ]
PREISLER, Yakir
Weizmann Institute of Science [Rehovot, Israël]
The Hebrew University of Jerusalem [HUJ]
Weizmann Institute of Science [Rehovot, Israël]
The Hebrew University of Jerusalem [HUJ]
ROHATYN, Shani
Weizmann Institute of Science [Rehovot, Israël]
The Hebrew University of Jerusalem [HUJ]
< Reduce
Weizmann Institute of Science [Rehovot, Israël]
The Hebrew University of Jerusalem [HUJ]
Language
en
Article de revue
This item was published in
Functional Ecology. 2019, vol. 33, n° 5, p. 901-912
Wiley
English Abstract
Drought-related tree mortality had become a widespread phenomenon in forests around the globe. This process leading to these events and its complexity is not fully understood. Trees in the dry timberline are exposed to ...Read more >
Drought-related tree mortality had become a widespread phenomenon in forests around the globe. This process leading to these events and its complexity is not fully understood. Trees in the dry timberline are exposed to ongoing drought, and the available water for transpiration in the soil can determine their survival chances. Recent drought years led to 5%-10% mortality in the semi-arid pine forest of Yatir (Israel). The distribution of dead trees was, however, highly heterogeneous with parts of the forest showing >80% dead trees (D plots) and others with mostly live trees (L plots). At the tree level, visible stress was associated with low pre-dawn leaf water potential at the dry season (-2.8MPa vs. -2.3MPa in non-stressed trees), shorter needles (5.5 vs. 7.7mm) and lower chlorophyll content (0.6 vs. 1mg/g dw). Trends in tree-ring widths reflected differences in stress intensity (30% narrower rings in stressed compared with unstressed trees), which could be identified 15-20years prior to mortality. At the plot scale, no differences in topography, soil type, tree age or stand density could explain the mortality difference between the D and L plots. It could only be explained by the higher surface rock cover and in stoniness across the soil profile in the L plots. Simple bucket model simulations using the site's long-term hydrological data supported the idea that these differences could result in higher soil water concentration (m(3)/m(3)) in the L plots and extend the time above wilting point by several months across the long dry season. Accounting for subsurface heterogeneity may therefore critical to assessing stand-level response to drought and projecting tree survival, and can be used in management strategies in regions undergoing drying climate trends.Read less <
Keywords
semi-arid
soil moisture
Yatir Forest
English Keywords
stoniness
surface rock cover
tree rings
Origin
Hal imported