Space can substitute for time in predicting climate-change effects on biodiversity
University of Wisconsin–Madison · University of Maryland Center for Environmental Science · +3 more institutions
Abstract
"Space-for-time" substitution is widely used in biodiversity modeling to infer past or future trajectories of ecological systems from contemporary spatial patterns. However, the foundational assumption--that drivers of spatial gradients of species composition also drive temporal changes in diversity--rarely is tested. Here, we empirically test the space-for-time assumption by constructing orthogonal datasets of compositional turnover of plant taxa and climatic dissimilarity through time and across space from Late Quaternary pollen records in eastern North America, then modeling climate-driven compositional turnover. Predictions relying on space-for-time substitution were ∼72% as accurate as "time-for-time"…
Citation impact
- FWCI
- 43.00
- Percentile
- 100%
- References
- 56
Authors
5- JLJessica L. BloisCorresponding
University of Wisconsin–Madison
- JWJohn W. Williams
University of Wisconsin–Madison
- MCMatthew C. Fitzpatrick
University of Maryland Center for Environmental Science
- STStephen T. Jackson
United States Geological Survey
- SFSimon Ferrier
Commonwealth Scientific and Industrial Research Organisation, Ecosystem Sciences
Topics & keywords
- Biodiversity
- Climate change
- Space time
- Substitution (logic)
- Spatial variability
- Variation (astronomy)
- Spatial ecology
- Space (punctuation)
- Climate action