May Felix, Wiegand Thorsten, Lehmann Sebastian, Huth Andreas, Fortin Marie-Josée
Department of Ecological Modelling Helmholtz-Centre for Environmental Research - UFZ Permoserstraße 1504318 Leipzig Germany; German Centre for Integrative Biodiversity Research (iDiv) Halle-Jena-Leipzig Biodiversity Synthesis Deutscher Platz 5e04103 Leipzig Germany; Institute of Computer Science Martin-Luther University Halle-Wittenberg 06099 Halle (Saale) Germany.
Department of Ecological Modelling Helmholtz-Centre for Environmental Research - UFZ Permoserstraße 1504318 Leipzig Germany; German Centre for Integrative Biodiversity Research (iDiv) Halle-Jena-Leipzig Biodiversity Synthesis Deutscher Platz 5e04103 Leipzig Germany.
Glob Ecol Biogeogr. 2016 May;25(5):575-585. doi: 10.1111/geb.12438. Epub 2016 Feb 1.
It has been recently suggested that different 'unified theories of biodiversity and biogeography' can be characterized by three common 'minimal sufficient rules': (1) species abundance distributions follow a hollow curve, (2) species show intraspecific aggregation, and (3) species are independently placed with respect to other species. Here, we translate these qualitative rules into a quantitative framework and assess if these minimal rules are indeed sufficient to predict multiple macroecological biodiversity patterns simultaneously.
Tropical forest plots in Barro Colorado Island (BCI), Panama, and in Sinharaja, Sri Lanka.
We assess the predictive power of the three rules using dynamic and spatial simulation models in combination with census data from the two forest plots. We use two different versions of the model: (1) a neutral model and (2) an extended model that allowed for species differences in dispersal distances. In a first step we derive model parameterizations that correctly represent the three minimal rules (i.e. the model quantitatively matches the observed species abundance distribution and the distribution of intraspecific aggregation). In a second step we applied the parameterized models to predict four additional spatial biodiversity patterns.
Species-specific dispersal was needed to quantitatively fulfil the three minimal rules. The model with species-specific dispersal correctly predicted the species-area relationship, but failed to predict the distance decay, the relationship between species abundances and aggregations, and the distribution of a spatial co-occurrence index of all abundant species pairs. These results were consistent over the two forest plots.
The three 'minimal sufficient' rules only provide an incomplete approximation of the stochastic spatial geometry of biodiversity in tropical forests. The assumption of independent interspecific placements is most likely violated in many forests due to shared or distinct habitat preferences. Furthermore, our results highlight missing knowledge about the relationship between species abundances and their aggregation.
最近有人提出,不同的“生物多样性和生物地理学统一理论”可以由三条共同的“最小充分规则”来表征:(1)物种丰度分布遵循空心曲线,(2)物种表现出种内聚集,(3)物种相对于其他物种独立分布。在此,我们将这些定性规则转化为定量框架,并评估这些最小规则是否确实足以同时预测多种宏观生态生物多样性模式。
巴拿马巴罗科罗拉多岛(BCI)和斯里兰卡辛哈拉贾的热带森林样地。
我们结合来自这两个森林样地的普查数据,使用动态和空间模拟模型评估这三条规则的预测能力。我们使用该模型的两个不同版本:(1)一个中性模型和(2)一个扩展模型,该扩展模型考虑了物种在扩散距离上的差异。第一步,我们推导能正确体现这三条最小规则的模型参数化(即该模型在数量上与观察到的物种丰度分布和种内聚集分布相匹配)。第二步,我们应用参数化模型来预测另外四种空间生物多样性模式。
需要物种特异性扩散才能在数量上满足这三条最小规则。具有物种特异性扩散的模型正确预测了物种 - 面积关系,但未能预测距离衰减、物种丰度与聚集之间的关系以及所有丰富物种对的空间共现指数分布。这些结果在两个森林样地中是一致的。
这三条“最小充分”规则仅对热带森林生物多样性的随机空间几何结构提供了不完整的近似。由于共享或不同的栖息地偏好,许多森林中很可能违反了种间独立分布的假设。此外,我们的结果突出了关于物种丰度与其聚集之间关系的知识缺失。
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