TY - JOUR
T1 - Examining variation in the leaf mass per area of dominant species across two contrasting tropical gradients in light of community assembly
AU - Neyret, Margot
AU - Bentley, Lisa Patrick
AU - Oliveras, Imma
AU - Marimon, Beatriz S.
AU - Marimon-Junior, Ben Hur
AU - Almeida de Oliveira, Edmar
AU - Barbosa Passos, Fábio
AU - Castro Ccoscco, Rosa
AU - dos Santos, Josias
AU - Matias Reis, Simone
AU - Morandi, Paulo S.
AU - Rayme Paucar, Gloria
AU - Robles Cáceres, Arturo
AU - Valdez Tejeira, Yolvi
AU - Yllanes Choque, Yovana
AU - Salinas, Norma
AU - Shenkin, Alexander
AU - Asner, Gregory P.
AU - Díaz, Sandra
AU - Enquist, Brian J.
AU - Malhi, Yadvinder
N1 - Publisher Copyright: © 2016 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.
PY - 2016/8/1
Y1 - 2016/8/1
N2 - Understanding variation in key functional traits across gradients in high diversity systems and the ecology of community changes along gradients in these systems is crucial in light of conservation and climate change. We examined inter- and intraspecific variation in leaf mass per area (LMA) of sun and shade leaves along a 3330-m elevation gradient in Peru, and in sun leaves across a forest–savanna vegetation gradient in Brazil. We also compared LMA variance ratios (T-statistics metrics) to null models to explore internal (i.e., abiotic) and environmental filtering on community structure along the gradients. Community-weighted LMA increased with decreasing forest cover in Brazil, likely due to increased light availability and water stress, and increased with elevation in Peru, consistent with the leaf economic spectrum strategy expected in colder, less productive environments. A very high species turnover was observed along both environmental gradients, and consequently, the first source of variation in LMA was species turnover. Variation in LMA at the genus or family levels was greater in Peru than in Brazil. Using dominant trees to examine possible filters on community assembly, we found that in Brazil, internal filtering was strongest in the forest, while environmental filtering was observed in the dry savanna. In Peru, internal filtering was observed along 80% of the gradient, perhaps due to variation in taxa or interspecific competition. Environmental filtering was observed at cloud zone edges and in lowlands, possibly due to water and nutrient availability, respectively. These results related to variation in LMA indicate that biodiversity in species rich tropical assemblages may be structured by differential niche-based processes. In the future, specific mechanisms generating these patterns of variation in leaf functional traits across tropical environmental gradients should be explored.
AB - Understanding variation in key functional traits across gradients in high diversity systems and the ecology of community changes along gradients in these systems is crucial in light of conservation and climate change. We examined inter- and intraspecific variation in leaf mass per area (LMA) of sun and shade leaves along a 3330-m elevation gradient in Peru, and in sun leaves across a forest–savanna vegetation gradient in Brazil. We also compared LMA variance ratios (T-statistics metrics) to null models to explore internal (i.e., abiotic) and environmental filtering on community structure along the gradients. Community-weighted LMA increased with decreasing forest cover in Brazil, likely due to increased light availability and water stress, and increased with elevation in Peru, consistent with the leaf economic spectrum strategy expected in colder, less productive environments. A very high species turnover was observed along both environmental gradients, and consequently, the first source of variation in LMA was species turnover. Variation in LMA at the genus or family levels was greater in Peru than in Brazil. Using dominant trees to examine possible filters on community assembly, we found that in Brazil, internal filtering was strongest in the forest, while environmental filtering was observed in the dry savanna. In Peru, internal filtering was observed along 80% of the gradient, perhaps due to variation in taxa or interspecific competition. Environmental filtering was observed at cloud zone edges and in lowlands, possibly due to water and nutrient availability, respectively. These results related to variation in LMA indicate that biodiversity in species rich tropical assemblages may be structured by differential niche-based processes. In the future, specific mechanisms generating these patterns of variation in leaf functional traits across tropical environmental gradients should be explored.
KW - Community assembly
KW - T-statistics
KW - environmental filtering
KW - interspecific variation
KW - intraspecific variation
KW - leaf mass per area
KW - limiting similarity
KW - tropical forests
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U2 - 10.1002/ece3.2281
DO - 10.1002/ece3.2281
M3 - Article
SN - 2045-7758
VL - 6
SP - 5674
EP - 5689
JO - Ecology and Evolution
JF - Ecology and Evolution
IS - 16
ER -