Nestedness of Southern Ocean island biotas: ecological perspectives on a biogeographical conundrum
Aim To use patterns of nestedness in the indigenous and non-indigenous biotas of the Southern Ocean islands to determine the influence of dispersal ability on biogeographical patterns, and the importance of accounting for variation in dispersal ability in their subsequent interpretation, especially...
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| Format: | Article in Journal/Newspaper |
| Language: | English |
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BLACKWELL PUBLISHING LTD
2007
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| Online Access: | http://hdl.handle.net/10019.1/119952 |
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ftunstellenbosch:oai:scholar.sun.ac.za:10019.1/119952 2023-05-15T14:05:07+02:00 Nestedness of Southern Ocean island biotas: ecological perspectives on a biogeographical conundrum Greve, M. Gremmen, N.J.M. Gaston, K.J. Chown, S.L. 2007-04-13T15:34:20Z 326572 bytes application/pdf http://hdl.handle.net/10019.1/119952 en eng BLACKWELL PUBLISHING LTD 0305-0270 http://hdl.handle.net/10019.1/119952 biological invasions colonization endemicity Insulantarctica nestedness sub-Antarctic Journal Articles 2007 ftunstellenbosch 2021-08-31T00:09:18Z Aim To use patterns of nestedness in the indigenous and non-indigenous biotas of the Southern Ocean islands to determine the influence of dispersal ability on biogeographical patterns, and the importance of accounting for variation in dispersal ability in their subsequent interpretation, especially in the context of the Insulantarctic and multi-regional hypotheses proposed to explain the biogeography of these islands. Location Southern Ocean islands. Methods Nestedness was determined using a new metric, d1 (a modification of discrepancy), for the indigenous and introduced seabirds, land birds, insects and vascular plants of 26 Southern Ocean islands. To assess the possible confounding effects of spatial autocorrelation on the results, islands were assigned to 11 major island groups and each group was treated as a single island in a following analysis. In addition, nestedness of the six Southern Ocean islands comprising the South Pacific Province (New Zealand islands) was analysed. All analyses were conducted for species and genera, for each of the taxa on its own, and for the complete data sets. Results Statistically significant nestedness was found in all of the taxa examined, with nestedness declining in the order seabirds > land birds > vascular plants > insects for the indigenous species. Vagility had a marked influence on nestedness and the biogeographical patterns shown by the indigenous species. This influence was borne out by additional analyses of marine taxa and small-sized terrestrial species, both of which were more nested than the most nested group examined here, the seabirds. Assemblages of non-indigenous species also showed nestedness, and nestedness was generally more pronounced than in the indigenous species. Surprisingly, vagility had a significant effect on nestedness in these assemblages too. Main conclusions Nestedness analyses provide a quantitative means of comparing biogeographical patterns for groups differing in vagility. These comparisons revealed that vagility has a considerable influence on biogeographical patterns and should be taken into account in analyses. Here, investigations of more vagile taxa support hypotheses for a single origin of the Southern Ocean island biota (the Insulantarctica scenario), whilst those of less mobile taxa support the more commonly held, multi-regional hypothesis. All biogeographical analyses across the Southern Ocean (and elsewhere) will be influenced by the effects of dispersal ability, with composite analyses dominated by sedentary groups likely to favour multi-regional scenarios, and those dominated by mobile groups favouring single origins. Mechanisms underlying nestedness in the region range from nested physiological tolerances in more mobile groups to colonization ability and patterns of speciation in less vagile taxa. Considerable nestedness in the non-indigenous assemblages is largely a consequence of the fact that many of these species are European weedy species. DST Ctr Excellence Invas Biol Article in Journal/Newspaper Antarc* Antarctic Southern Ocean Ocean Island Single Island Stellenbosch University: SUNScholar Research Repository Antarctic Southern Ocean Pacific New Zealand Single Island ENVELOPE(68.667,68.667,-69.817,-69.817) Major Island ENVELOPE(-96.292,-96.292,55.728,55.728) |
| institution |
Open Polar |
| collection |
Stellenbosch University: SUNScholar Research Repository |
| op_collection_id |
ftunstellenbosch |
| language |
English |
| topic |
biological invasions colonization endemicity Insulantarctica nestedness sub-Antarctic |
| spellingShingle |
biological invasions colonization endemicity Insulantarctica nestedness sub-Antarctic Greve, M. Gremmen, N.J.M. Gaston, K.J. Chown, S.L. Nestedness of Southern Ocean island biotas: ecological perspectives on a biogeographical conundrum |
| topic_facet |
biological invasions colonization endemicity Insulantarctica nestedness sub-Antarctic |
| description |
Aim To use patterns of nestedness in the indigenous and non-indigenous biotas of the Southern Ocean islands to determine the influence of dispersal ability on biogeographical patterns, and the importance of accounting for variation in dispersal ability in their subsequent interpretation, especially in the context of the Insulantarctic and multi-regional hypotheses proposed to explain the biogeography of these islands. Location Southern Ocean islands. Methods Nestedness was determined using a new metric, d1 (a modification of discrepancy), for the indigenous and introduced seabirds, land birds, insects and vascular plants of 26 Southern Ocean islands. To assess the possible confounding effects of spatial autocorrelation on the results, islands were assigned to 11 major island groups and each group was treated as a single island in a following analysis. In addition, nestedness of the six Southern Ocean islands comprising the South Pacific Province (New Zealand islands) was analysed. All analyses were conducted for species and genera, for each of the taxa on its own, and for the complete data sets. Results Statistically significant nestedness was found in all of the taxa examined, with nestedness declining in the order seabirds > land birds > vascular plants > insects for the indigenous species. Vagility had a marked influence on nestedness and the biogeographical patterns shown by the indigenous species. This influence was borne out by additional analyses of marine taxa and small-sized terrestrial species, both of which were more nested than the most nested group examined here, the seabirds. Assemblages of non-indigenous species also showed nestedness, and nestedness was generally more pronounced than in the indigenous species. Surprisingly, vagility had a significant effect on nestedness in these assemblages too. Main conclusions Nestedness analyses provide a quantitative means of comparing biogeographical patterns for groups differing in vagility. These comparisons revealed that vagility has a considerable influence on biogeographical patterns and should be taken into account in analyses. Here, investigations of more vagile taxa support hypotheses for a single origin of the Southern Ocean island biota (the Insulantarctica scenario), whilst those of less mobile taxa support the more commonly held, multi-regional hypothesis. All biogeographical analyses across the Southern Ocean (and elsewhere) will be influenced by the effects of dispersal ability, with composite analyses dominated by sedentary groups likely to favour multi-regional scenarios, and those dominated by mobile groups favouring single origins. Mechanisms underlying nestedness in the region range from nested physiological tolerances in more mobile groups to colonization ability and patterns of speciation in less vagile taxa. Considerable nestedness in the non-indigenous assemblages is largely a consequence of the fact that many of these species are European weedy species. DST Ctr Excellence Invas Biol |
| format |
Article in Journal/Newspaper |
| author |
Greve, M. Gremmen, N.J.M. Gaston, K.J. Chown, S.L. |
| author_facet |
Greve, M. Gremmen, N.J.M. Gaston, K.J. Chown, S.L. |
| author_sort |
Greve, M. |
| title |
Nestedness of Southern Ocean island biotas: ecological perspectives on a biogeographical conundrum |
| title_short |
Nestedness of Southern Ocean island biotas: ecological perspectives on a biogeographical conundrum |
| title_full |
Nestedness of Southern Ocean island biotas: ecological perspectives on a biogeographical conundrum |
| title_fullStr |
Nestedness of Southern Ocean island biotas: ecological perspectives on a biogeographical conundrum |
| title_full_unstemmed |
Nestedness of Southern Ocean island biotas: ecological perspectives on a biogeographical conundrum |
| title_sort |
nestedness of southern ocean island biotas: ecological perspectives on a biogeographical conundrum |
| publisher |
BLACKWELL PUBLISHING LTD |
| publishDate |
2007 |
| url |
http://hdl.handle.net/10019.1/119952 |
| long_lat |
ENVELOPE(68.667,68.667,-69.817,-69.817) ENVELOPE(-96.292,-96.292,55.728,55.728) |
| geographic |
Antarctic Southern Ocean Pacific New Zealand Single Island Major Island |
| geographic_facet |
Antarctic Southern Ocean Pacific New Zealand Single Island Major Island |
| genre |
Antarc* Antarctic Southern Ocean Ocean Island Single Island |
| genre_facet |
Antarc* Antarctic Southern Ocean Ocean Island Single Island |
| op_relation |
0305-0270 http://hdl.handle.net/10019.1/119952 |
| _version_ |
1766276784149495808 |