Publication type:
Bibliography Partner:
Journal:
Status:
Year:
2004
Reference:
Journal of Animal Ecology 2004 73, 459– 468
Data description:
The numbers of surveyed city codes were thus 146, 855, 933 and 331 in 1997, 1998, 1999 and 2000, respectively ( Fig. 1). Preliminary data treatment consisted of establishing annual presence/absence distribution through the 1996–99 periods.
Keywords:
biological invasion, Gracillariidae, spatial model, stratified dispersal
Full Publication:
Abstract:
- After its initial discovery in Macedonia in 1985, during the last 19 years the leaf-miner moth Cameraria ohridella has invaded most of Central and Western Europe. The species, which causes aesthetic damage to horse chestnuts, is generally observed first in highly populated locations before colonizing the countryside. This pattern is consistent with a stratified dispersal process combining long-distance movements and local diffusion.
- Using large-scale spatial data on damage caused by Cameraria ohridella in Germany, three stochastic spatial models of spread are compared: a diffusion model, a leptokurtic dispersal model and a stratified dispersal model that assumes a two-scale dispersal process. In addition, the association between human population and moth invasion is tested in this last model by linking long-distance infestation probability to human population density. Finally, these spatial models constructed with data from Germany are tested at the European scale and compared to historical records of first occurrence.
- The fat-tailed dispersal kernel models (leptokurtic and stratified dispersal models) allowing for long-distance dispersal provide better predictions than the diffusion model. Among these models, the stratified dispersal model incorporating the effect of human population density provides the best description of the spread of Cameraria ohridella in Germany in predictive (lowest sum of squared errors) and qualitative (similar fractal dimension) terms.
- The roles of short-distance and long-distance dispersal in Cameraria ohridella invasion ecology in relation to human population are discussed, together with the models scale-dependence and limitations.
