Computational Model Library

The role of dispersal, selection intensity, and extirpation risk in resilience to climate change: a trait-based modeling approach (1.0.0)

This NetLogo model simulates trait-based biotic responses to climate change in an environmentally heterogeneous continent in an evolving clade, the species of which are each represented by local populations that disperse and interbreed; they also are subject to selection, genetic drift, and local extirpation. We simulated mammalian herbivores, whose success depends on tooth crown height, vegetation type, precipitation and grit. This model investigates the role of dispersal, selection, extirpation, and other factors contribute to resilience under three climate change scenarios.

Release Notes

First release

Associated Publications

The role of dispersal, selection intensity, and extirpation risk in resilience to climate change: a trait-based modeling approach 1.0.0

This NetLogo model simulates trait-based biotic responses to climate change in an environmentally heterogeneous continent in an evolving clade, the species of which are each represented by local populations that disperse and interbreed; they also are subject to selection, genetic drift, and local extirpation. We simulated mammalian herbivores, whose success depends on tooth crown height, vegetation type, precipitation and grit. This model investigates the role of dispersal, selection, extirpation, and other factors contribute to resilience under three climate change scenarios.

Release Notes

First release

Version Submitter First published Last modified Status
1.0.0 Jessica Mo Mon Feb 7 06:41:59 2022 Mon Feb 7 06:41:59 2022 Published

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