Departamento de Ecología Evolutiva, Instituto de Ecología, Universidad Nacional Autónoma de México (UNAM), Ciudad de México, México.
Posgrado en Ciencias Biológicas, Unidad de Posgrado, Circuito de Posgrados, Universidad Nacional Autónoma de México (UNAM), Coyoacán, C. P. 04510, Ciudad de México, México.
Am J Bot. 2022 Sep;109(9):1394-1409. doi: 10.1002/ajb2.16056. Epub 2022 Sep 14.
Although ecological differentiation driven by altitude and soil is hypothesized to promote coexistence of sympatric tree species of Damburneya (Lauraceae), the mechanistic role of leaf functional variation on ecological differentiation among co-occurring species remains unexplored. We aimed to determine whether the patterns of leaf trait variation reflect ecological differences among sympatric Damburneya species. We tested whether trait correlations underlying functional strategies and average species traits vary in response to local soil heterogeneity along an altitudinal gradient, potentially affecting species distributions.
At two contrasting altitudes (100, 1100 m a.s.l.) in a Mexican tropical rainforest, we characterized soil chemical and physical properties and sampled four Damburneya species to quantify five leaf functional traits. We used linear models to analyze paired and multivariate trait correlations, spatial and interspecific effects on trait variation, and trait response to local soil heterogeneity. Relative contributions of intra- and interspecific variation to local trait variability were quantified with an ANOVA.
Soil nutrient availability was higher at low altitude, but all species had a high leaf N:P ratio across altitudes suggesting a limited P supply for plants. Species distribution differed altitudinally, with some species constrained to low or high altitude, potentially reflecting soil nutrient availability. Leaf traits responded to altitude and local soil properties, suggesting interspecific differences in functional strategies according to the leaf economics spectrum (conservative vs. acquisitive).
The interspecific divergence in functional strategies in response to local environmental conditions suggests that trait variation could underlie ecological differentiation among Damburneya sympatric species.
尽管海拔和土壤驱动的生态分化被假设为促进了 Damburneya(樟科)同域树种的共存,但共存物种之间叶功能变异对生态分化的机械作用仍未得到探索。我们旨在确定叶性状变异模式是否反映同域 Damburneya 物种之间的生态差异。我们检验了潜在影响物种分布的功能策略和平均物种特征的性状相关性是否会随海拔梯度的局部土壤异质性而变化。
在墨西哥热带雨林的两个对比海拔高度(100、1100 米),我们描述了土壤化学和物理特性,并对四个 Damburneya 物种进行采样,以量化五个叶功能性状。我们使用线性模型分析成对和多元性状相关性、空间和种间对性状变异的影响以及性状对局部土壤异质性的响应。使用方差分析量化了种内和种间变异对局部性状变异性的相对贡献。
低海拔地区的土壤养分供应较高,但所有物种在整个海拔范围内都具有较高的叶片 N:P 比,表明植物对磷的供应有限。物种分布随海拔高度而异,一些物种局限于低海拔或高海拔,这可能反映了土壤养分供应的差异。叶性状对海拔和局部土壤特性有响应,这表明根据叶经济谱(保守型与获取型)存在种间功能策略的差异。
对局部环境条件的功能策略的种间差异表明,性状变异可能是同域 Damburneya 物种之间生态分化的基础。
