Usefulness of Bioclimatic Models for Studying Climate Change and Invasive Species

@article{Jeschke2008UsefulnessOB,
  title={Usefulness of Bioclimatic Models for Studying Climate Change and Invasive Species},
  author={Jonathan M. Jeschke and David L. Strayer},
  journal={Annals of the New York Academy of Sciences},
  year={2008},
  volume={1134}
}
  • J. Jeschke, D. Strayer
  • Published 1 June 2008
  • Environmental Science
  • Annals of the New York Academy of Sciences
Bioclimatic models (also known as envelope models or, more broadly, ecological niche models or species distribution models) are used to predict geographic ranges of organisms as a function of climate. They are widely used to forecast range shifts of organisms due to climate change, predict the eventual ranges of invasive species, infer paleoclimate from data on species occurrences, and so forth. Several statistical techniques (including general linear models, general additive models, climate… 
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References

SHOWING 1-10 OF 204 REFERENCES
Methods and uncertainties in bioclimatic envelope modelling under climate change
Potential impacts of projected climate change on biodiversity are often assessed using single-species bioclimatic ‘envelope’models. Such models are a special case of species distribution models in
Niche properties and geographical extent as predictors of species sensitivity to climate change
Aim Bioclimatic envelope models are often used to make projections of species' potential responses to climate change. It can be hypothesized that species with different kinds of distributions in
Predictive habitat distribution models in ecology
Bioclimate envelope models: what they detect and what they hide
INTRODUCTION In a recent issue of Global Ecology and Biogeo-graphy , Pearson & Dawson (2003) provided an informative review of the use of bioclimate envelope models (BEM) for predicting future
Predicting the impacts of climate change on the distribution of species: are bioclimate envelope models useful?
Modelling strategies for predicting the potential impacts of climate change on the natural distribution of species have often focused on the characterization of a species’ bioclimate envelope. A
A bioclimatic model for the potential distributions of North European tree species under present and future climates
A bioclimatic model based on physiological constraints to plant growth and regeneration is used here in an empirical way to describe the present natural distributions of northern Europe's major
Making mistakes when predicting shifts in species range in response to global warming
TLDR
It is shown that dispersal and interactions, which are important elements of population dynamics, must be included in predictions of biotic responses to climate change.
An evaluation of methods for modelling species distributions
Aim  Various statistical techniques have been used to model species probabilities of occurrence in response to environmental conditions. This paper provides a comprehensive assessment of methods and
Validation of species-climate impact models under climate change
Increasing concern over the implications of climate change for biodiversity has led to the use of species–climate envelope models to project species extinction risk under climatechange scenarios.
Forecasting Climate Change Effects on Salamander Distribution in the Highlands of Central Mexico1
A generalized decline of amphibian populations is occurring worldwide. The causes for such a decline are not completely understood; however, climate change has been identified as a possible cause for
...
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2
3
4
5
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