Add to ORKGABSTRACT To protect the remaining biodiversity on tropical islands it is important to predict the elevational ranges of non-native species. We evaluated two hypotheses by examining land snail faunas on the eastern (windward) side of the island of Hawaii: (1) the latitude of a species' native region can be used to predict its potential elevational range and (2) non-native temperate species, which experience greater climatic fluctuations in their native range, are more likely to become established at higher elevations and to extend over larger elevational ranges than non-native tropical species. All non-native tropical species were distributed patchily among sites 500 m and occupied small elevational ranges, whereas species introduced fr...
International audienceClimate change and biological invasions are threatening biodiversity and ecosy...
Global climate is constantly changing, and such changes have irreversible impacts on the fauna and f...
Plant communities on tropical high islands, such as the Hawaiian Islands, are predicted to experienc...
M.S. University of Hawaii at Manoa 2012.Includes bibliographical references.Island land snail specie...
Aim Exotic species pose one of the most significant threats to biodiversity, especially on islands. ...
Aim: Biological invasions are likely determined by species dispersal strategies as well as environme...
The factors contributing to biodiversity of terrestrial gastropods on Mo’orea, French Polynesia are ...
Tropical islands are species foundries, formed either as a by-product of volcanism, when previously ...
Biological invasion science lacks standardised measures of invasion success that would provide effec...
Abstract Numerous islands worldwide are being increasingly invaded by exotic species. However, the e...
Tropical species with narrow elevational ranges may be thermally specialized and vulnerable to globa...
About 120 endemic species of endemic terrestrial snails have been recorded in the Galapagos Islands....
Fig. A4. Global climatic suitability for: (a) Zonitoides arboreus s.l.; and (b) Zonitoides nitidus b...
One of the best-known general patterns in island biogeography is the species-isolation relationship ...
International audienceClimate change and biological invasions are threatening biodiversity and ecosy...
Global climate is constantly changing, and such changes have irreversible impacts on the fauna and f...
Plant communities on tropical high islands, such as the Hawaiian Islands, are predicted to experienc...
M.S. University of Hawaii at Manoa 2012.Includes bibliographical references.Island land snail specie...
Aim Exotic species pose one of the most significant threats to biodiversity, especially on islands. ...
Aim: Biological invasions are likely determined by species dispersal strategies as well as environme...
The factors contributing to biodiversity of terrestrial gastropods on Mo’orea, French Polynesia are ...
Tropical islands are species foundries, formed either as a by-product of volcanism, when previously ...
Biological invasion science lacks standardised measures of invasion success that would provide effec...
Abstract Numerous islands worldwide are being increasingly invaded by exotic species. However, the e...
Tropical species with narrow elevational ranges may be thermally specialized and vulnerable to globa...
About 120 endemic species of endemic terrestrial snails have been recorded in the Galapagos Islands....
Fig. A4. Global climatic suitability for: (a) Zonitoides arboreus s.l.; and (b) Zonitoides nitidus b...
One of the best-known general patterns in island biogeography is the species-isolation relationship ...
International audienceClimate change and biological invasions are threatening biodiversity and ecosy...
Global climate is constantly changing, and such changes have irreversible impacts on the fauna and f...
Plant communities on tropical high islands, such as the Hawaiian Islands, are predicted to experienc...