Abstract

PremiseFirst‐year seedlings (FYS) of tree species may be a critical demographic bottleneck in semi‐arid, seasonally dry ecosystems such as savannas. Given the highly variable water availability and potentially strong FYS–grass competition for water, FYS water‐use strategies may play a crucial role in FYS establishment in savannas and, ultimately, in tree–grass competition and coexistence.MethodsWe examined drought responses in FYS of two tree species that are dominant on opposite ends of an aridity gradient in Serengeti, Acacia (=Vachellia) tortilis and A. robusta. In a glasshouse experiment, gas exchange and whole‐plant hydraulic conductance (K plant) were measured as soil water potential (Ψ soil) declined. Trajectory of the Ψ leaf/Ψ soil relationship during drought elucidated the degree of iso/anisohydry.ResultsBoth species were strongly anisohydric “water‐spenders,” allowing rapid wet‐season C gain after pulses of moisture availability. Despite being equally vulnerable to declines in K plant under severe drought, they differed in their rates of water use. Acacia tortilis, which occurs in the more arid regions, initially had greater K max, transpiration (E), and photosynthesis (A net) than A. robusta.ConclusionsThis work demonstrates an important mechanism of FYS establishment in savannas: Rather than investing in drought tolerance, savanna FYS maximize gas exchange during wet periods at the expense of desiccation during dry seasons. FYS establishment appears dependent on high C uptake during the pulses of water availability that characterize habitats dominated by these species. This study increases our understanding of species‐scale plant ecophysiology and ecosystem‐scale patterns of tree–grass coexistence.

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