Species pool, human population, and global versus regional invasion patterns

Context Biological invasions are among the greatest global and regional threats to biomes in the Anthropocene. Islands, in particular, have been perceived to have higher vulnerability to invasions. Because of the dynamic nature of ongoing invasions, distinguishing regional patterns from global patte...

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Bibliographic Details
Published in:Landscape ecology 2017-02, Vol.32 (2), p.229-238
Main Authors: Guo, Qinfeng, Iannone III, Basil V., Nunez-Mir, Gabriela C., Potter, Kevin M., Oswalt, Christopher M., Fei, Songlin
Format: Article
Language:English
Subjects:
Anthropocene
Biomedical and Life Sciences
Comparative analysis
Ecology
Environmental Management
Human population density
Human populations
Introduced species
Invasions
Islands
Landscape Ecology
Landscape/Regional and Urban Planning
Life Sciences
Nature Conservation
Nonnative species
Perspective
Plant populations
Population density
Sustainable Development
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Summary:Context Biological invasions are among the greatest global and regional threats to biomes in the Anthropocene. Islands, in particular, have been perceived to have higher vulnerability to invasions. Because of the dynamic nature of ongoing invasions, distinguishing regional patterns from global patterns and their underlying determinants remains a challenge. Objectives We aim to comparatively examine global versus regional patterns of plant invasions and the possible underlying mechanisms. We also test whether there is a difference in degree of invasion and invasibility between mainland areas and islands. Methods We compiled and analyzed data from published sources for 100 mainland areas (i.e., regions, countries, states, and provinces) and 89 islands across the globe. Results We find that (1) the pool of exotic species available intrinsically decreases as area of the land considered increases (at global scale, all is native), thus global invasion patterns assessed by exotic fraction (proportion of exotics) are primarily determined by land area; (2) because “exotic” is defined relative to the borders of the target region, “boundary effects” can result in regional differences in invasion patterns without any ecological processes being involved; and (3) human population density is closely linked to exotic fraction within regions that are defined by a single administrative border. Conclusions There were clear differences between global and regional patterns of plant invasions. We observed no difference in the exotic fraction-area relationship between mainland areas and islands, supporting what we refer to as the “island-mainland continuum concept” (i.e., no clear separation in the degree of invasion between islands and mainland area with regard to the effects of area). Because of scale-dependency in many observed patterns, future focus should be placed on the links between local, regional, and global invasion patterns.
ISSN:0921-2973
1572-9761
DOI:10.1007/s10980-016-0475-6