White Hannah J, Montgomery W Ian, Storchová Lenka, Hořák David, Lennon Jack J
School of Biological Sciences Queen's University Belfast Belfast UK.
School of Biology and Environmental Science Earth Institute University College Dublin Dublin Ireland.
Ecol Evol. 2018 Jun 27;8(15):7365-7377. doi: 10.1002/ece3.4267. eCollection 2018 Aug.
Environmental change has reshuffled communities often causing taxonomic homogenization rather than differentiation. Some studies suggest that this increasing similarity of species composition between communities is accompanied by an increase in similarity of trait composition-functional homogenization-although different methodologies have failed to come to any consistent conclusions. Functional homogenization could have a large effect on ecosystem functioning and stability. Here, we use the general definition of homogenization as "reduced spatial turnover over time" to compare changes in Simpson's beta diversity (taxonomic turnover) with changes in Rao's quadratic entropy beta diversity (functional turnover) in British breeding birds at three spatial scales. Using biotic and climatic variables, we identify which factors may predispose a site to homogenization. The change in turnover measures between two time periods, 20 years apart, was calculated. A null model approach was taken to identify occurrences of functional homogenization and differentiation independent of changes in taxonomic turnover. We used conditional autoregressive models fitted using integrated nested Laplace approximations to determine how environmental drivers and factors relating to species distributions affect changes in spatial turnover of species and functional diversity. The measurement of functional homogenization affects the chance of rejection of the null models, with many sites showing taxonomic homogenization unaccompanied by functional homogenization, although occurrence varies with spatial scale. At the smallest scale, while temperature-related variables drive changes in taxonomic turnover, changes in functional turnover are associated with variation in growing degree days; however, changes in functional turnover become more difficult to predict at larger spatial scales. Our results highlight the multifactorial processes underlying taxonomic and functional homogenization and that redundancy in species traits may allow ecosystem functioning to be maintained in some areas despite changes in species composition.
环境变化已经重新洗牌了群落,常常导致分类同质化而非分化。一些研究表明,群落间物种组成这种日益增加的相似性伴随着性状组成相似性的增加——功能同质化——尽管不同的方法未能得出任何一致的结论。功能同质化可能对生态系统功能和稳定性产生重大影响。在这里,我们使用同质化的一般定义,即“随着时间推移空间周转率降低”,在三个空间尺度上比较英国繁殖鸟类中辛普森β多样性(分类周转率)的变化与饶氏二次熵β多样性(功能周转率)的变化。利用生物和气候变量,我们确定哪些因素可能使一个地点易于发生同质化。计算了相隔20年的两个时间段之间周转率指标的变化。采用零模型方法来识别独立于分类周转率变化的功能同质化和分化情况。我们使用通过集成嵌套拉普拉斯近似拟合的条件自回归模型,来确定环境驱动因素和与物种分布相关的因素如何影响物种空间周转率和功能多样性的变化。功能同质化的测量会影响零模型被拒绝的可能性,许多地点显示出分类同质化但没有功能同质化,尽管其发生情况随空间尺度而变化。在最小尺度上,虽然与温度相关的变量驱动分类周转率的变化,但功能周转率的变化与生长度日的变化相关;然而,在更大的空间尺度上,功能周转率的变化变得更难预测。我们的结果突出了分类同质化和功能同质化背后的多因素过程,并且物种性状的冗余可能使生态系统功能在某些地区尽管物种组成发生变化仍得以维持。
