2017
DOI: 10.1111/ele.12804
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Variations of leaf longevity in tropical moist forests predicted by a trait‐driven carbon optimality model

Abstract: Leaf longevity (LL) varies more than 20-fold in tropical evergreen forests, but it remains unclear how to capture these variations using predictive models. Current theories of LL that are based on carbon optimisation principles are challenging to quantitatively assess because of uncertainty across species in the 'ageing rate:' the rate at which leaf photosynthetic capacity declines with age. Here, we present a meta-analysis of 49 species across temperate and tropical biomes, demonstrating that the ageing rate … Show more

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Cited by 56 publications
(73 citation statements)
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References 54 publications
(143 reference statements)
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“…Data from three out of the four Amazonian sites analyzed here support the light‐controlled leaf flushing hypothesis of Guan et al () and support the environment‐controlled leaf phenology hypotheses. The underlying mechanisms are probably that the tropical evergreen forests of this study are not water limited (Guan et al, ), having evolved deep root systems giving access to deep soil moisture reservoir (Christoffersen et al, ; da Rocha et al, ; Oliveira et al, ), and the dry‐season replacement of lower‐ V c,max old leaves with the newly mature leaves of higher V c,max might be a long‐term evolutionary strategy to optimize the carbon gain (Xu et al, ). However, the opposite behavior of GF‐Guy with respect to the other sites is not explained by the variable‐date scheme, while the fixed‐date simulations both correlate well with the site observations.…”
Section: Discussionmentioning
confidence: 99%
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“…Data from three out of the four Amazonian sites analyzed here support the light‐controlled leaf flushing hypothesis of Guan et al () and support the environment‐controlled leaf phenology hypotheses. The underlying mechanisms are probably that the tropical evergreen forests of this study are not water limited (Guan et al, ), having evolved deep root systems giving access to deep soil moisture reservoir (Christoffersen et al, ; da Rocha et al, ; Oliveira et al, ), and the dry‐season replacement of lower‐ V c,max old leaves with the newly mature leaves of higher V c,max might be a long‐term evolutionary strategy to optimize the carbon gain (Xu et al, ). However, the opposite behavior of GF‐Guy with respect to the other sites is not explained by the variable‐date scheme, while the fixed‐date simulations both correlate well with the site observations.…”
Section: Discussionmentioning
confidence: 99%
“…Xu et al () established a leaf age‐related V c,max function based on field data that were collected in 20 tropical evergreen forests. Differing from the default leaf efficiency model described above (black dotted line in Figure b), this function gives a V c,max which increases rapidly for the first 2 months and then declines continuously with leaf age, after reaching the maximum V c,max (Figure a).…”
Section: Methodsmentioning
confidence: 99%
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