Abstract

AbstractThe role of landscape topography in mediating subsurface water availability and ultimately tree transpiration is still poorly understood. To assess how hillslope position affects tree water use, we coupled sap velocity with xylem isotope measurements in a temperate beech‐oak forest along a hillslope transect in Luxembourg. We generally observed greater sap velocities at the upslope locations in trees from average‐sized trees, suggesting the presence of more suited growing conditions. We found a lower difference in sap velocity among hillslope positions for larger trees, likely due to the exploitation of deeper and more persistent water sources and the larger canopy light interception. Beech trees exploited a shallower and seasonally less persistent water source than oak trees, due to the shallower root system than oak trees. The different water exploitation strategy could also explain the stronger stomatal sensitivity of beech to vapour pressure deficit compared to oak trees. Xylem isotopic composition was seasonally variable at all locations, mainly reflecting the contribution of variable soil water sources and suggesting that groundwater did not contribute, or only marginally contributed, to tree transpiration. Overall, our results suggest that trees along the hillslope mainly rely on water stored in the unsaturated zone and that seasonally shallow groundwater table may not necessarily subsidize water uptake for species that do not tolerate anoxic conditions. Contrary to previous studies, at our site, we did not find higher sap velocity downslope as the subsurface hillslope structure promotes vertical water flux over lateral redistribution in the vadose zone.

Highlights

  • Water availability in space and time is one of the key elements shaping forest ecosystems and their adaptive response to environmental stress

  • We examined the role of landscape topography on the spatial and temporal patterns of water use in a mixed forest of beech and oak trees through sap velocity and stable water isotope measurements

  • We showed different patterns of sap velocity in different hillslope positions, with trees generally displaying higher sap velocity in upper locations than in downslope areas where the groundwater table was shallower and temporally less variable

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Summary

| INTRODUCTION

Water availability in space and time is one of the key elements shaping forest ecosystems and their adaptive response to environmental stress. Combined assessments of transpiration rates and water uptake depths along hillslope transects might help to better understand water use strategies and plasticity of different tree species. Such a combined assessment supports a more detailed comprehension of the seasonal interactions and feedbacks between vegetation and hydrological processes occurring at the hillslope scale. We determined the isotopic composition of precipitation, soil water, groundwater and xylem water in order to assess the influence of topography on water use The combination of these measurements allows for discrimination between water sources used by tree species for assessing the physiological response of trees to water availability along a hillslope. Questions: (i) How does landscape position affect the spatial and temporal patterns of water use? (ii) How do two co-occurring species (beech and oak) characterized by different physiological and hydraulic traits respond to a variable water supply over the growing season?

| MATERIALS AND METHODS
| RESULTS
| DISCUSSION
Findings
| CONCLUSIONS

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