Fargallo Juan A, Navarro-López Juan, Cantalapiedra Juan L, Pelegrin Jonathan S, Hernández Fernández Manuel
Departamento de Ecología Evolutiva, Museo Nacional de Ciencias Naturales-Consejo Superior de Investigaciones Científicas, José Gutiérrez Abascal 2, 28006 Madrid, Spain.
Departamento de Ciencias de la Vida (Sección de Ecología), Facultad de Biología, Universidad de Alcalá, 28805 Alcalá de Henares, Spain.
Biology (Basel). 2022 Mar 29;11(4):522. doi: 10.3390/biology11040522.
Trophic niche breadth plays a key role in biogeographic distribution patterns. Theory posits that generalist strategies are favoured in a more heterogeneous set of environments across a spatio-temporal gradient of resources predictability, conferring individuals and species a greater capacity for colonising new habitats and thus expanding their distribution area. Using the family Falconidae (Aves, Falconiformes) as a model study, we tested the prediction that those species with a wider diet spectrum will have larger geographic range sizes and inhabit more biomes. We assessed the relationships between trophic breadth (diet richness and diversity) at different taxonomic resolutions of the prey (class and order), range size and biomic specialisation index (BSI; number of biomes inhabited) for the different species. Despite different diet breadth indexes and taxonomic resolutions defined differently the trophic niche of the clade and species, our findings revealed that trophic breadth was not a good predictor for range size but was for total environmental heterogeneity, with more diet-generalist species occupying a higher number of biomes. Diet breadth at the order taxonomic level showed a higher capacity of predicting BSI than at class level, and can be an important ecological trait explaining biogeographic patterns of the species.
营养生态位宽度在生物地理分布模式中起着关键作用。理论认为,在资源可预测性的时空梯度上,更具异质性的环境中,泛化策略更受青睐,这赋予个体和物种更大的能力来殖民新栖息地,从而扩大其分布范围。以隼科(鸟类,隼形目)作为模型研究,我们检验了以下预测:食性谱更宽的物种将具有更大的地理分布范围,并栖息于更多的生物群落。我们评估了不同分类分辨率(纲和目)下猎物的营养宽度(食性丰富度和多样性)、分布范围大小以及不同物种的生物群落专业化指数(BSI;所栖息生物群落的数量)之间的关系。尽管不同的食性宽度指数和分类分辨率对类群和物种的营养生态位定义不同,但我们的研究结果表明,营养宽度并非分布范围大小的良好预测指标,而是总环境异质性的良好预测指标,食性更泛化的物种占据的生物群落数量更多。在目分类水平上的食性宽度比在纲分类水平上显示出更高的预测BSI的能力,并且可以作为解释物种生物地理模式的一个重要生态特征。
