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Smith‐Martin, Chris M.; Muscarella, Robert; Hammond, William M.; Jansen, Steven; Brodribb, Timothy J.; Choat, Brendan; Johnson, Daniel M.; Vargas‐G, German; Uriarte, María (, Ecology Letters)Abstract Tropical rainforest woody plants have been thought to have uniformly low resistance to hydraulic failure and to function near the edge of their hydraulic safety margin (HSM), making these ecosystems vulnerable to drought; however, this may not be the case. Using data collected at 30 tropical forest sites for three key traits associated with drought tolerance, we show that site‐level hydraulic diversity of leaf turgor loss point, resistance to embolism (P50), and HSMs is high across tropical forests and largely independent of water availability. Species with high HSMs (>1 MPa) and low P50values (< −2 MPa) are common across the wet and dry tropics. This high site‐level hydraulic diversity, largely decoupled from water stress, could influence which species are favoured and become dominant under a drying climate. High hydraulic diversity could also make these ecosystems more resilient to variable rainfall regimes.more » « less
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Vargas G., German; Kunert, Norbert; Hammond, William M.; Berry, Z. Carter; Werden, Leland K.; Smith‐Martin, Chris M.; Wolfe, Brett T.; Toro, Laura; Mondragón‐Botero, Ariadna; Pinto‐Ledezma, Jesús N.; et al (, Ecology Letters)
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Gholizadeh, Hamed; Friedman, Michael S.; McMillan, Nicholas A.; Hammond, William M.; Hassani, Kianoosh; Sams, Aisha V.; Charles, Makyla D.; Garrett, DeAndre R.; Joshi, Omkar; Hamilton, Robert G.; et al (, Remote Sensing of Environment)
