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Drought response strategies of deciduous and evergreen woody species in a seasonally dry neotropical forest
Drought response strategies of deciduous and evergreen woody species in a seasonally dry neotropical forest
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Drought response strategies of deciduous and evergreen woody species in a seasonally dry neotropical forest
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Drought response strategies of deciduous and evergreen woody species in a seasonally dry neotropical forest
Drought response strategies of deciduous and evergreen woody species in a seasonally dry neotropical forest

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Drought response strategies of deciduous and evergreen woody species in a seasonally dry neotropical forest
Drought response strategies of deciduous and evergreen woody species in a seasonally dry neotropical forest
Journal Article

Drought response strategies of deciduous and evergreen woody species in a seasonally dry neotropical forest

2020
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Overview
Deciduous and evergreen trees are usually considered the main coexisting functional groups in seasonally dry tropical forests (SDTF). We compared leaf and stem traits of 22 woody species in the Brazilian Caatinga to investigate whether deciduous (DC) and evergreen (EV) species have divergent water-use strategies. Our hypothesis was that DC trees compensate for their short leaf longevity by being less conservative in water use and showing higher variation in the seasonal water potential after leaf shedding. Evergreen species should exhibit a highly conservative water use strategy, which reduces variations in seasonal water potential and the negative effects of desiccation. Our leaf dynamics results indicate that the crown area of DC trees is more sensitive to air and soil drought, whereas EV trees are only sensitive to soil drought. Deciduous species exhibit differences in a set of leaf traits confirming their acquisitive strategy, which contrasts with evergreen species. However, when stomatal traits are considered, we found that DC and EV have similar stomatal regulation strategies (partially isohydric). We also found divergent physiological strategies within DC. For high wood density DC, the xylem water potential (Ψxylem) continued to drop during the dry season. We also found a negative linear relationship between leaf life span (LL) and the transpiration rate per unit of hydraulic conductivity (Λ), indicating that species with high LL are less vulnerable to hydraulic conductivity loss than early-deciduous species. Collectively, our results indicate divergence in the physiology of deciduous species, which suggests that categorizing species based solely on their leaf phenology may be an oversimplification.