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Palaeolimnological Records of Regime Shifts From Marine-To-Lacustrine System in a Coastal Antarctic Lake in Response to Post-Glacial Isostatic Uplift


Affiliations
1 National Centre for Antarctic and Ocean Research, Headland-Sada, Vasco-da-Gama 403 804, India
2 Department of Civil Engineering, Manipal Institute of Technology, Manipal University, Manipal 576 104, India
 

Low altitude coastal lakes along the Antarctic margin often contain both marine and lacustrine sediments as a result of relative sea level changes due to deglaciation. The sediments also record changes in regional climate. A sediment core from a coastal lake in Larsemann Hills, East Antarctica, viz. Stepped Lake (Heart Lake), records distinct changes in C, N, C/Natomic ratio, δ 13COM, δ 15NOM and diatom abundance during the mid-Holocene (8.3 to 4.6 kyr BP). Lower values (Corg ~1%; C/N 8, 13COM ~ –18‰) during the early Holocene (8.3–4 kyr BP) are consistent with marine conditions, while higher values [Corg 6%; C/N 12; 13COM ~ –12‰) suggest a shift to lacustrine conditions (5.5–4.6 kyr BP). The diatom community shows similar shift with the major part of Holocene (8.3– 5.5 kyr BP) dominated by sea-ice and open-ocean diatoms while the core-top sections (5.5–4.6 kyr BP) transitions to lacustrine diatoms (Stauroforma inermis). These observations confirm that the basin was marine, and later became isolated as a result of postglacial isostatic uplift after 4.7 kyr BP.

Keywords

Diatoms, Holocene Climate, Larsemann Hills, Stable Isotopes, Sedimentary Organic Matter.
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  • Palaeolimnological Records of Regime Shifts From Marine-To-Lacustrine System in a Coastal Antarctic Lake in Response to Post-Glacial Isostatic Uplift

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Authors

Badanal Siddaiah Mahesh
National Centre for Antarctic and Ocean Research, Headland-Sada, Vasco-da-Gama 403 804, India
Abhilash Nair
National Centre for Antarctic and Ocean Research, Headland-Sada, Vasco-da-Gama 403 804, India
Anish Kumar Warrier
Department of Civil Engineering, Manipal Institute of Technology, Manipal University, Manipal 576 104, India
Anirudha Avadhani
National Centre for Antarctic and Ocean Research, Headland-Sada, Vasco-da-Gama 403 804, India
Rahul Mohan
National Centre for Antarctic and Ocean Research, Headland-Sada, Vasco-da-Gama 403 804, India
Manish Tiwari
National Centre for Antarctic and Ocean Research, Headland-Sada, Vasco-da-Gama 403 804, India

Abstract


Low altitude coastal lakes along the Antarctic margin often contain both marine and lacustrine sediments as a result of relative sea level changes due to deglaciation. The sediments also record changes in regional climate. A sediment core from a coastal lake in Larsemann Hills, East Antarctica, viz. Stepped Lake (Heart Lake), records distinct changes in C, N, C/Natomic ratio, δ 13COM, δ 15NOM and diatom abundance during the mid-Holocene (8.3 to 4.6 kyr BP). Lower values (Corg ~1%; C/N 8, 13COM ~ –18‰) during the early Holocene (8.3–4 kyr BP) are consistent with marine conditions, while higher values [Corg 6%; C/N 12; 13COM ~ –12‰) suggest a shift to lacustrine conditions (5.5–4.6 kyr BP). The diatom community shows similar shift with the major part of Holocene (8.3– 5.5 kyr BP) dominated by sea-ice and open-ocean diatoms while the core-top sections (5.5–4.6 kyr BP) transitions to lacustrine diatoms (Stauroforma inermis). These observations confirm that the basin was marine, and later became isolated as a result of postglacial isostatic uplift after 4.7 kyr BP.

Keywords


Diatoms, Holocene Climate, Larsemann Hills, Stable Isotopes, Sedimentary Organic Matter.

References





DOI: https://doi.org/10.18520/cs%2Fv115%2Fi9%2F1679-1683