Cremer, Holger; Gore, Damian B; Hultzsch, Nadja; Melles, Martin; Wagner, Bernd (2004): Water chemistry and diatom occurrences in sediments of Terrasovoje, Radok and Beaver Lake, Amery Oasis, East Antarctica. doi:10.1594/PANGAEA.847363, Supplement to: Cremer, H et al. (2004): The diatom flora and limnology of lakes in the Amery Oasis, East Antarctica. Polar Biology, 27(9), 513-531, doi:10.1007/s00300-004-0624-2
Always quote above citation when using data! You can download the citation in several formats below.
The diatom flora of three lakes in the ice-free Amery Oasis, East Antarctica, was studied. Two of the lakes are meltwater reservoirs, Terrasovoje Lake (31 m depth) and Radok Lake (362 m depth), while Beaver Lake (>435 m depth) is an epishelf lake. The lakes can be characterized as cold, ultra-oligotrophic and alkaline, displaying moderate (Radok and Terrasovoje lakes) to high (Beaver Lake) conductivities. There was no diatom phytoplankton present in any of the three lakes. While 34 benthic diatom taxa were identified from modern and Holocene sediments of Terrasovoje and Radok lakes, a 30-cm long sediment core recovered in Beaver Lake was barren. Five species (Luticola muticopsis, Muelleria peraustralis, Pinnularia cymatopleura, Psammothidium metakryophilum, P. stauroneioides) are endemic to the Antarctic region. All identified taxa are photographically documented and brief notes on their taxonomy, biogeography and ecology are provided. The most abundant diatom taxa are Amphora veneta, Craticula cf. molesta, Diadesmis spp, M. peraustralis and Stauroneis anceps. This is the first report on the diatom flora in lakes of the Amery Oasis.
Wagner, Bernd (2007): Hydrological and geochemical observations of a water profile at location Lz1007. doi:10.1594/PANGAEA.611099
Median Latitude: -70.651620 * Median Longitude: 68.049348 * South-bound Latitude: -70.848250 * West-bound Longitude: 68.025667 * North-bound Latitude: -70.555400 * East-bound Longitude: 68.197670
Date/Time Start: 2001-12-28T00:00:00 * Date/Time End: 2002-02-08T00:00:00