Abstract
Loss in intraspecific diversity can alter ecosystem functions, but the underlying mechanisms are still elusive, and intraspecific biodiversity–ecosystem function (iBEF) relationships have been restrained to primary producers. Here, we manipulated genetic and functional richness of a fish consumer (Phoxinus phoxinus) to test whether iBEF relationships exist in consumer species and whether they are more likely sustained by genetic or functional richness. We found that both genotypic and functional richness affected ecosystem functioning, either independently or interactively. Loss in genotypic richness reduced benthic invertebrate diversity consistently across functional richness treatments, whereas it reduced zooplankton diversity only when functional richness was high. Finally, losses in genotypic and functional richness altered functions (decomposition) through trophic cascades. We concluded that iBEF relationships lead to substantial top-down effects on entire food chains. The loss of genotypic richness impacted ecological properties as much as the loss of functional richness, probably because it sustains “cryptic” functional diversity.
Highlights
Human disturbances associated with global change are increasingly altering worldwide patterns of species diversity, as well as the functions and services provided by ecosystems [1,2,3]
We investigated whether a loss in genotypic and functional diversity within a consumer species at the top of a three-level trophic chain could mediate top-down effects on key ecosystem functions
We found that the interaction between genotypic and functional richness tended (p = 0.057) to alter fish biomass production of experimental populations (Table 1 and Fig 2A)
Summary
Human disturbances associated with global change are increasingly altering worldwide patterns of species diversity, as well as the functions and services provided by ecosystems [1,2,3]. Changes observed at the species and ecosystem levels are always preceded by changes in phenotypic and genotypic composition within plant and animal populations [4,5,6]. Changes in intraspecific diversity can affect species turnover and composition [11,12], as well as ecosystem functioning [13,14]. The loss of genotypes within primary producers can reduce ecosystem process rates and species diversity [15,16,17], suggesting the existence of biodiversity–ecosystem functioning relationships at the intraspecific level.
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