Driven by the West Wind Drift? A synthesis of southern temperate marine biogeography, with new directions for dispersalism

Driven by the West Wind Drift? A synthesis of southern temperate marine biogeography, with new directions for dispersalism

Twentieth century biogeographers developed intriguing hypotheses involving West Wind Drift dispersal of Southern Hemisphere biota, but such models were largely abandoned in favour of vicariance following the development of plate tectonic theory. Here I present a synthesis of southern temperate marin...

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Bibliographic Details
Published in:Journal of biogeography 2008-03, Vol.35 (3), p.417-427
Main Author: Waters, Jonathan M.
Format: Article
Language:eng
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Biogeography
Biological and medical sciences
Biological taxonomies
Ecological genetics
Evolution
Fundamental and applied biological sciences. Psychology
General aspects
Geology
Historical biogeography
holdfast
kelp
macroalgae
Marine ecology
oceanic dispersal
phylogeography
Rafting
Sea water
Sea water ecosystems
Special Issue: International Biogeography Society: 3rd Biennial Meeting
Synecology
Taxa
vicariance
Zoology
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Summary:Twentieth century biogeographers developed intriguing hypotheses involving West Wind Drift dispersal of Southern Hemisphere biota, but such models were largely abandoned in favour of vicariance following the development of plate tectonic theory. Here I present a synthesis of southern temperate marine biogeography, and suggest some new directions for phylogeographic research. The southern continents, formerly contiguous components of Gondwana, are now linked only by ocean currents driven by the West Wind Drift. While vicariance theory certainly facilitates the development of testable hypotheses, it does not necessarily follow that vicariance explains much of contemporary southern marine biogeography. To overcome the limitations of narratives that simply assume vicariance or dispersal, it is essential for analyses to test biogeographic hypotheses by incorporating genetic, ecological and geological data. Recent molecular studies have provided strong evidence for dispersal, but relatively little evidence for the biogeographic role of plate tectonics in distributing southern marine taxa. Despite confident panbiogeographic claims to the contrary, molecular and ecological studies of buoyant macroalgae, such as Macrocystis, indicate that dispersal predominates. Ironically, some of the better supported evidence for marine vicariance in southern waters has little or nothing to do with plate tectonics. Rather, it involves far more localized and recent vicariant models, such as the isolating effect of the Bassian Isthmus during Pleistocene low sea-level stands (Nerita). Recent phylogeographic studies of southern marine taxa (e.g. Diloma and Parvulastra) imply that passive rafting cannot be ignored as an important mechanism of long-distance dispersal. I outline a new direction for southern hemisphere phylogeography, involving genetic analyses of bull-kelp (Durvillaea) and its associated holdfast invertebrate communities.
ISSN:0305-0270
1365-2699