Does environmental heterogeneity drive functional trait variation? A test in montane and alpine meadows
Abstract
While community‐weighted means of plant traits have been linked to mean environmental conditions at large scales, the drivers of trait variation within communities are not well understood. Local environmental heterogeneity (such as microclimate variability), in addition to mean environmental conditions, may decrease the strength of environmental filtering and explain why communities support different amounts of trait variation. Here, we assess two hypotheses: first, that more heterogeneous local environments and second, that less extreme environments, should support a broader range of plant strategies and thus higher trait variation. We quantified drivers of trait variation across a range of environmental conditions and spatial scales ranging from sub‐meter to tens of kilometers in montane and alpine plant communities. We found that, within communities, both environmental heterogeneity and environmental means are drivers of trait variation. However, the importance of each environmental factor varied depending on the trait. Our results indicate that larger‐scale trait–climate linkages that hold across communities also apply at small spatial scales, suggesting that microclimate variation within communities is a key driver of community functional diversity. Microclimatic variation provides a potential mechanism for helping to maintain diversity in local communities and also suggests that small‐scale environmental heterogeneity should be measured as a better predictor of functional diversity.
Local Knowledge Graph (17 entities)
Related Works
Items connected by shared entities, co-authorship, citations, or semantic similarity.
Does environmental heterogeneity drive functional trait variation? A test in montane and alpine meadows
Functional trait space and the latitudinal diversity gradient
Data from: Microenvironment and functional-trait context dependence predict alpine plant community dynamics
How an environment's moisture heterogeneity affects a community's traits
Intraspecific trait variation affects community distributions of alpine meadow plant communities
Data from: Evidence of local adaptation to fine- and coarse-grained environmental variability in Poa alpina in the Swiss Alps
Colorado?s Alpine Ecosystem Health ? A Case Study on San Juan, Sawatch, and West Elk Mountains
Shrubland Ecosystem Genetics And Biodiversity: Proceedings
Biologically Significant Areas in Gunnison County Colorado
Cited By (106 times, 7 in Knowledge Hub)
Alpine plant spatial clumping modifies leaf surface temperature
Alpine plants of Mt. Baldy: modeling phenology and documenting biodiversity
Relaxation of the leaf economics spectrum within and across quaking aspen Populus tremuloides genotypes
Linking microenvironment modification to species interactions and demography in an alpine plant community
Effects of microclimate, dispersal, species interactions, and environmental stochasticity on demography
Microenvironment and functional-trait context dependence predict plant community dynamics
Disintegration of the leaf economic spectrum within and across Quaking aspen (<i>Populus tremuloides</i>) genotypes
References (75)
1 in Knowledge Hub, 74 external