• Corpus ID: 55406830

Global Warming and Terrestrial Biodiversity Decline: A Modelling Approach

@inproceedings{Malcolm2000GlobalWA,
  title={Global Warming and Terrestrial Biodiversity Decline: A Modelling Approach},
  author={Jay R. Malcolm},
  year={2000}
}
wwf.se
2 Citations
Background Citations
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2 Citations

Economic costs of invasive alien species in Mexico

Invasive alien species (IAS) are a leading driver of biodiversity loss worldwide, and have negative impacts on human societies. In most countries, available data on monetary costs of IAS are scarce,

Efecto distancia en la disposición a pagar por la conservación de la biodiversidad: el caso de un área protegida megadiversa

This research addresses the case of Manu National Park (PNM) in Peru, one of the most biodiverse protected areas worldwide. Applying the choice experiments (CE) method, based on 1.164 surveys in this

References

SHOWING 1-10 OF 25 REFERENCES

Simulated changes in vegetation distribution under global warming

Plant migration and climate change

PLANT SPECIES MIGRATION IN A MIXED-HISTORY FOREST LANDSCAPE IN EASTERN NORTH AMERICA'

The results suggest that accessibility to colonists plays an important role in deter- mining understory composition of successional stands, and medium- and long-range migration appears to be an issue of seed and spore dispersal rather than vegetative propagation.

Climate Change and Terrestrial Biomass: What if Trees do not Migrate?

MIGRATION OF VASCULAR PLANTS TO SECONDARY WOODLANDS IN SOUTHERN SWEDEN

It is concluded that scale and intensity of temperate forest management should be adjusted to the relatively slow migration of the field layer flora in order to enable complete recovery during a management cycle.

Assessment of climatic warming using a model of forest species migration

Using Montane Mammals to Model Extinctions Due to Global Change

We use data on the species-area relationship and the nested subset structure of the boreal mammal faunas inhabiting isolated mountaintops in the Great Basin to develop a simple quantitative model

Why Trees Migrate So Fast: Confronting Theory with Dispersal Biology and the Paleorecord

  • J. Clark
  • Environmental Science
    The American Naturalist
  • 1998
Field estimates of seed dispersal with an integrodifference equation and simulation models of population growth to show that dispersal data are compatible with rapid spread, and predicts that velocity is more sensitive to life history than is classical diffusion.

Modeling Dynamic Vegetation Response to Rapid Climate Change Using Bioclimatic Classification

Modeling potential global redistribution of terrestrial vegetation frequently is based on bioclimatic classifications which relate static regional vegetation zones (biomes) to a set of static climate

Lags in vegetation response to greenhouse warming

Fossil pollen in sediments documents vegetation responses to climatic changes in the past. Beech (Fagus grandifolia), with animal-dispersed seeds, moved across Lake Michigan or around its southern