January 28, 2010
Seabed Biodiversity Of The Straits Of Magellan And Drake Passage
A study of animals visible to the naked eye and living in and on the seabed "“ the 'macrobenthos' "“ of the Straits of Magellan and Drake Passage will help scientists understand the biodiversity, biogeography and ecology of the Magellanic region.
"The biodiversity data are from my very first oceanographic cruise with the Chilean Navy in the Magellanic region in 1997, as an early undergraduate," said Dr Sven Thatje of the University of Southampton's School of Ocean and Earth Science at the National Oceanography Centre, Southampton: "The beauty of this dataset is the comprehensive diversity analysis with probably more than 10 per cent of species new to science." The cruise was part of the Chilean 'Cimar Fiordo III' expedition.The soft sediments at the seafloor were sampled at depths ranging between 35 and 571 meters using a 'box corer' lowered from the Chilean navy vessel RV Vidal Gormaz. Samples were taken within the Straits of Magellan, the seaway separating mainland South America and the islands of the Tierra Del Fuego archipelago, and the eastern part of the Beagle Channel which separates South America from Antarctica. Samples were also taken from adjacent channels and fjords, some of which had been visited for the first time ever during the cruise.
A total of 173 species or morphological variants of species were identified, including crustaceans, molluscs and echinoderms. But polychaete worms, the group that includes ragworms dug by anglers for bait on sandy beaches at low tide, dominated both in terms of abundance and biomass.
At some locations the abundance of invertebrates peaked at more than 10,000 individuals per square meter, even without counting rare species that were missed or fast moving species that eluded capture. However, abundance, biomass and species richness all decreased with depth, consistent with reports from other regions such as the high Antarctic Weddell and Lazarev Seas.
The animals living at the seafloor depend for food on organic matter that rains down from the overlying ocean. "Variation in this flux of organic matter from the pelagic to the benthic is probably the major factor structuring these communities," said Dr Thatje.
It has been argued for the polychaetes of the Pacific coast of South America that shallow areas act as sources of colonization, helping to maintain species diversity in deeper regions in the face of local extinction. "Such colonization-extinction dynamics may also explain the patterns of diversity that we see in the Magellanic region," said Dr Thatje.
The Magellanic region was covered by ice 21,000 years ago, and the sea level was much lower than it is today. The Straits of Magellan probably did not fully open until approximately 7,000 years ago, after the ice had receded. The species now present in Magellanic waters must therefore have recolonized the region from adjacent Atlantic and Pacific areas, and indeed some of the polychaetes found in the Magellanic region are known from the Antarctic shelf.
The larvae of polychaetes can live as plankton for many months before resettling and developing into adults. "The dispersal of Antarctic species through larval transport in easterly circumpolar currents may explain their occurrence in the Magellanic region," said Dr Thatje.
The researchers are Dr Sven Thatje of the University of Southampton's School of Ocean and Earth Science at the National Oceanography Centre, Southampton, and his graduate student Alastair Brown.
Publication: Thatje, S. & Brown, A. The macrobenthic ecology of the Straits of Magellan and Beagle ecology of the Straits of Magellan and Beagle Channel. Anales Instituto Patagonia (Chile) 37(2), 17-27 (2009).
Image Caption: Pista spinifera is a polychaete worm found in subpolar regions. Credit: Sven Thatje
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