Retention time of lakes in the Larsemann Hills oasis, East Antarctica

This study provides first estimates of the water transport timescale for five lakes located in the Larsemann Hills oasis (69 ∘ 23 ′ S, 76 ∘ 20 ′ E) in East Antarctica. We estimated lake retention time (LRT) as a ratio of lake volume to the inflow and outflow terms of a lake water balance equation. T...

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Bibliographic Details
Published in:The Cryosphere
Main Authors: E. Shevnina, E. Kourzeneva, Y. Dvornikov, I. Fedorova
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2021
Subjects:
Environmental sciences
GE1-350
Geology
QE1-996.5
East Antarctica
Larsemann Hills
Lake Reid
Scandrett
Antarc*
Antarctica
The Cryosphere
Online Access:https://doi.org/10.5194/tc-15-2667-2021
https://doaj.org/article/6037ca08a5ea4d3c87baea93b65121fb
Description
Summary:This study provides first estimates of the water transport timescale for five lakes located in the Larsemann Hills oasis (69 ∘ 23 ′ S, 76 ∘ 20 ′ E) in East Antarctica. We estimated lake retention time (LRT) as a ratio of lake volume to the inflow and outflow terms of a lake water balance equation. The LRT was evaluated for lakes of epiglacial and landlocked types, and it was assumed that these lakes are monomictic, with water exchange occurring during the warm season only. We used hydrological observations collected in four seasonal field campaigns to evaluate the LRT. For the epiglacial lakes Progress and Nella/Scandrett, the LRT was estimated at 12–13 and 4–5 years, respectively. For the landlocked lakes Stepped, Sarah Tarn and Reid, our results show a great difference in the LRT calculated from the outflow and inflow terms of the water balance equation. The LRTs for these lakes vary depending on the methods and errors inherent to them. We relied on the estimations from the outflow terms, since they are based on hydrological measurements with better quality. Lake Stepped exchanged water within 1.5 years. Sarah Tarn and Lake Reid are endorheic ponds, with water loss mainly through evaporation. Their LRTs were estimated as 21–22 and 8–9 years, respectively. To improve the LRT estimates, special hydrological observations are needed to monitor the lakes and streams during the warm season with a uniform observational programme.

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