Southern Hemisphere Biogeography Inferred by Event-Based Models: Plant versus Animal Patterns

Southern Hemisphere Biogeography Inferred by Event-Based Models: Plant versus Animal Patterns

The Southern Hemisphere has traditionally been considered as having a fundamentally vicariant history. The common trans-Pacific disjunctions are usually explained by the sequential breakup of the supercontinent Gondwana during the last 165 million years, causing successive division of an ancestral b...

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Bibliographic Details
Published in:Systematic biology Vol. 53; no. 2; pp. 216 - 243
Main Authors: Sanmartín, Isabel, Ronquist, Fredrik, Cunningham, Cliff
Format: Journal Article
Language:English
Published: England Society of Systematic Zoology 01-04-2004
Taylor and Francis
Oxford University Press
Subjects:
"dispersal"
"vicarance"
Africa
Animals
Antarctic Regions
Australia
Biogeography
Biologi
Biology
Coleoptera
Concordant dispersal
Datasets
Demography
Evolutionary biology
Flowers & plants
Fossils
Geography
Geological Phenomena
Geology
Gondwana
historical biogeography
India
Insecta - genetics
Models, Theoretical
NATURAL SCIENCES
NATURVETENSKAP
Organism biology
Organismbiologi
Pacific Islands
parsimony-based tree fitting
Phylogeny
Plants - genetics
South America
Southern Hemisphere
Taxa
Vertebrates - genetics
vicariant history
West Wind Drift
Southern Hemisphere
vicariant history
Concordant dispersal
historical biogeography
parsimony-based tree fitting
West Wind Drift
Gondwana
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Summary:The Southern Hemisphere has traditionally been considered as having a fundamentally vicariant history. The common trans-Pacific disjunctions are usually explained by the sequential breakup of the supercontinent Gondwana during the last 165 million years, causing successive division of an ancestral biota. However, recent biogeographic studies, based on molecular estimates and more accurate paleogeographic reconstructions, indicate that dispersal may have been more important than traditionally assumed. We examined the relative roles played by vicariance and dispersal in shaping Southern Hemisphere biotas by analyzing a large data set of 54 animal and 19 plant phylogenies, including marsupials, ratites, and southern beeches (1,393 terminals). Parsimony-based tree fitting in conjunction with permutation tests was used to examine to what extent Southern Hemisphere biogeographic patterns fit the breakup sequence of Gondwana and to identify concordant dispersal patterns. Consistent with other studies, the animal data are congruent with the geological sequence of Gondwana breakup: (Africa(New Zealand(southern South America, Australia))). Trans-Antarctic dispersal (Australia ↔ southern South America) is also significantly more frequent than any other dispersal event in animals, which may be explained by the long period of geological contact between Australia and South America via Antarctica. In contrast, the dominant pattern in plants, (southern South America(Australia, New Zealand)), is better explained by dispersal, particularly the prevalence of trans-Tasman dispersal between New Zealand and Australia. Our results also confirm the hybrid origin of the South American biota: there has been surprisingly little biotic exchange between the northern tropical and the southern temperate regions of South America, especially for animals.
Bibliography:ark:/67375/HXZ-HBH0JTCP-M
istex:F512D54A2BE7FEC80DADDEA81BD6595BBE37B894
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1063-5157
1076-836X
DOI:10.1080/10635150490423430