Center for Global Discovery and Conservation Science, Arizona State University, 975 S. Myrtle Ave Tempe, Arizona, 85281, USA.
Department of Global Ecology, Carnegie Institution for Science, 260 Panama Street, Stanford, California, 94305, USA.
Ecology. 2019 Apr;100(4):e02636. doi: 10.1002/ecy.2636. Epub 2019 Feb 28.
The forests of western Amazonia are among the most diverse tree communities on Earth, yet this exceptional diversity is distributed highly unevenly within and among communities. In particular, a small number of dominant species account for the majority of individuals, whereas the large majority of species are locally and regionally extremely scarce. By definition, dominant species contribute little to local species richness (alpha diversity), yet the importance of dominant species in structuring patterns of spatial floristic turnover (beta diversity) has not been investigated. Here, using a network of 207 forest inventory plots, we explore the role of dominant species in determining regional patterns of beta diversity (community-level floristic turnover and distance-decay relationships) across a range of habitat types in northern lowland Peru. Of the 2,031 recorded species in our data set, only 99 of them accounted for 50% of individuals. Using these 99 species, it was possible to reconstruct the overall features of regional beta diversity patterns, including the location and dispersion of habitat types in multivariate space, and distance-decay relationships. In fact, our analysis demonstrated that regional patterns of beta diversity were better maintained by the 99 dominant species than by the 1,932 others, whether quantified using species-abundance data or species presence-absence data. Our results reveal that dominant species are normally common only in a single forest type. Therefore, dominant species play a key role in structuring western Amazonian tree communities, which in turn has important implications, both practically for designing effective protected areas, and more generally for understanding the determinants of beta diversity patterns.
亚马逊西部地区的森林是地球上树种多样性最丰富的地区之一,但这种非凡的多样性在社区内和社区之间的分布极不均匀。特别是,少数几个优势物种占大多数个体,而绝大多数物种在当地和地区都极为稀少。根据定义,优势物种对当地物种丰富度(alpha 多样性)的贡献较小,但优势物种在构建空间植物区系周转率(beta 多样性)模式方面的重要性尚未得到研究。在这里,我们使用 207 个森林清查样本来研究主导物种在确定秘鲁北部各种生境类型的区域 beta 多样性模式(群落水平植物区系周转率和距离衰减关系)中的作用。在我们的数据集记录的 2031 个物种中,只有 99 个物种占个体的 50%。使用这 99 个物种,就有可能重建区域 beta 多样性模式的整体特征,包括在多变量空间中栖息地类型的位置和分散情况,以及距离衰减关系。事实上,我们的分析表明,99 个优势物种比其他 1932 个物种更好地维持了区域 beta 多样性模式,无论是使用物种丰度数据还是物种存在-缺失数据来量化。我们的结果表明,优势物种通常只在单一的森林类型中常见。因此,优势物种在构建亚马逊西部地区的树木社区方面发挥着关键作用,这反过来又具有重要意义,既对设计有效的保护区具有实际意义,也对理解 beta 多样性模式的决定因素具有普遍意义。
