Data from: Regional diversity reverses the negative impacts of an alien predator on local species-poor communities

Species diversity is often an implicit source of biological insurance for communities against the impacts of novel perturbations, such as the introduction of an invasive species. High environmental heterogeneity (e.g., a mountainous gradient) is expected to beget greater regional species diversity a...

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Bibliographic Details
Main Authors: Loewen, Charlie J. G., Vinebrooke, Rolf D.
Format: Dataset
Language:unknown
Published: Data Archiving and Networked Services (DANS) 2017
Subjects:
Life sciences
medicine and health care
spatial insurance effects
Eucyclops agilis
biotic resistance
functional structure
Diaphanosoma birgei
biodiversity–ecosystem functioning
trait analysis
Macrocyclops albidus
Daphnia
Diacyclops thomasi
Leptodiaptomus tyrrelli
mountain lakes
metacommunity
climate change
Predator–prey interactions
Acanthodiaptomus denticornis
Acanthocyclops vernalis
Leptodiaptomus sicilis
multiple stressors
Zooplankton
Chydorus sphaericus
Leptodiaptomus nudus
Arctodiaptomus arapahoensis
Aglaodiaptomus leptopus
Diacyclops navus
Chaoborus
Scapholeberis kingi
Ceriodaphnia quadrangula
Hesperodiaptomus arcticus
Bosmina longirostris
sportfish
Canadian Rocky Mountains
Alberta
Canada
British Columbia
envir
geo
Online Access:https://doi.org/10.5061/dryad.pj763
Description
Summary:Species diversity is often an implicit source of biological insurance for communities against the impacts of novel perturbations, such as the introduction of an invasive species. High environmental heterogeneity (e.g., a mountainous gradient) is expected to beget greater regional species diversity and variation in functional traits related to environmental tolerances. Thus, heterogeneous metacommunities are expected to provide more tolerant colonists that buffer stressed local communities in the absence of dispersal limitation. We tested the hypothesis that importation of a regional zooplankton pool assembled from a diverse array of lakes and ponds lessens the impacts of a novel predator on local species-poor alpine communities by increasing response diversity (i.e., diversity of tolerances to environmental change) as mediated by variation in functional traits related to predator evasion. We also tested if impacts varied with temperature, as warming may modify (e.g., dampen or amplify) invasion effects. An eight-week factorial experiment ([fishless vs. introduced Oncorhynchus mykiss (rainbow trout)] x [ambient temperature vs. heated] x [local vs. local + regional species pool]) was conducted using thirty-two 1000 L mesocosms. Associations between experimental treatments and species functional traits were tested by RLQ and fourth-corner analyses. Although the introduced predator suppressed local species richness and community biomass, colonization by several montane zooplankters reversed these negative effects, resulting in increased species diversity and production. Invasion resistance was unaffected by higher temperatures, which failed to elicit any significance impacts on the community. We discovered that the smaller body sizes of imported species drove functional overcompensation (i.e., increased production) in invaded communities. The observed ecological surprise showed how regionally sourced biodiversity from a highly heterogeneous landscape can offset, and even reverse, the local negative impacts of an ...

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