Linking hydraulic strategy, drought response and carbon gain in co-existing savanna tree species
Benjamin J Wigley, Pierre-André Waite, Corli Coetsee, Bernhard Schuldt, Steven I Higgins

TL;DR
This study explores how different savanna tree species cope with drought by using various hydraulic strategies, which may help them coexist in unpredictable environments.
Contribution
The study identifies distinct hydraulic strategies among co-occurring savanna tree species and links these to growth and drought survival.
Findings
Drought-avoiding species with high capacitance showed higher growth and photosynthesis under non-limiting soil water.
Drought-tolerant species had low growth and photosynthesis rates when water was abundant.
Access to deeper soil water and higher capacitance in Sclerocarya birrea appears most effective for surviving extensive droughts.
Abstract
Savannas cover a significant portion of the earth’s land surface, yet how they will respond to increases in rainfall variability and drought frequency and intensity expected with climate change remains poorly understood. Studies of hydraulic-related traits of savanna trees are rare with most existing research focusing on temperate and tropical forest species. We measured growth, photosynthetic rates, monthly predawn and midday xylem pressure potentials, and eight traits relevant to xylem, leaf safety and water storage capacity, in six co-occurring Southern African semi-arid savanna species. The six species adopted different hydraulic strategies, ranging from drought tolerance (e.g., high wood density, low xylem vulnerability to cavitation and \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy}…
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Taxonomy
TopicsPlant Water Relations and Carbon Dynamics · Plant responses to water stress · Species Distribution and Climate Change
