Palaeolimnological evidence for marked Holocene environmental changes on Signy Island, Antarctica

Lake-sediment cores from Heywood and Sombre Lakes on Signy Island (South Orkney Islands), Antarctica, have yielded a conformable radiacarbon chronology far the Holocene and a high-resolution record of environmental change. The lakes share a common climate and geology but have distinct catchments. Th...

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Bibliographic Details
Main Authors: Jones, VJ, Hodgson, DA, Chepstow-Lusty, A
Format: Article in Journal/Newspaper
Language:unknown
Published: ARNOLD, HODDER HEADLINE PLC 2000
Subjects:
Antarctic
Signy Island
Holocene
climate change
palaeolimnology
palaeoclimate
QUATERNARY GLACIAL HISTORY
SOUTH-SHETLAND-ISLANDS
KING-GEORGE-ISLAND
JAMES-ROSS-ISLAND
DIATOM ASSEMBLAGES
LAKE-SEDIMENTS
CLIMATIC-CHANGE
PENINSULA
SEA
LEVEL
Heywood
King George Island
Ross Island
South Orkney Islands
South Shetland Islands
Antarc*
Antarctica
James Ross Island
Online Access:http://discovery.ucl.ac.uk/97122/
Description
Summary:Lake-sediment cores from Heywood and Sombre Lakes on Signy Island (South Orkney Islands), Antarctica, have yielded a conformable radiacarbon chronology far the Holocene and a high-resolution record of environmental change. The lakes share a common climate and geology but have distinct catchments. This provides an opportunity for using lake sediments to differentiate between local, within lake/catchment, events and those at a regional scale. Analyses of various biological and physical remains from the lakes suggest that both catchments have undergone considerable changes during the last 5700 years. Macrofossils (moss and crustacean remains) are more abundant in the late Holocene, being associated with a period of high sediment accumulation, which is related to diatom evidence for more nutrient-rich conditions at the sites. This is interpreted as a response to a Holocene 'climate optimum' at c. 3800-1300 C-14 yr BP. The record is consistent with other lake, ice and ocean core studies, although the climate optimum appears to have persisted for a longer period at Signy Island.

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