Sources, distribution and biogeochemical cycling of dissolved trace elements in the coastal lakes of Larsemann Hills, East Antarctica

Mohammad Nuruzzama; Waliur Rahaman; Rahul Mohan

doi:10.1016/j.scitotenv.2020.142833

Sources, distribution and biogeochemical cycling of dissolved trace elements in the coastal lakes of Larsemann Hills, East Antarctica

Sci Total Environ. 2021 Apr 10:764:142833. doi: 10.1016/j.scitotenv.2020.142833. Epub 2020 Oct 8.

Authors

Mohammad Nuruzzama¹, Waliur Rahaman², Rahul Mohan²

Affiliations

¹ National Centre for Polar and Ocean Research, Ministry of Earth Sciences, Headland Sada, Vasco da Gama, Goa 403804, India; School of Earth, Ocean and Atmospheric Sciences, Goa University, Goa, India. Electronic address: nuruzzama95@ncpor.res.in.
² National Centre for Polar and Ocean Research, Ministry of Earth Sciences, Headland Sada, Vasco da Gama, Goa 403804, India.

PMID: 33127122
DOI: 10.1016/j.scitotenv.2020.142833

Abstract

Coastal lakes in Antarctica receive an enormous amount of ions and trace elements (TEs) during the austral summer. Some of these TEs and ions are utilised as essential nutrients in primary productivity. In the present study, selected dissolved TEs (Ba, Mn, Cu, Co, Cd, Mo and U) along with dissolved organic carbon (DOC) and Chlorophyll-a were studied in ten coastal lakes of the Larsemann Hills, East Antarctica to decipher their (TEs) sources, understand geochemical behaviour and assess their role on nutrient dynamics. Dissolved concentrations of these TEs are in sub-nanomolar range; almost an order of magnitude lower than the average seawater and global river concentrations. Sea-salt spray and chemical weathering in the catchments of these lakes are dominant sources for these TEs and ions. Though most of the Antarctic lakes have been reported for their oligotrophic character, however, a significant amount of DOC and Chlorophyll-a, and occurrence of algal mats in some of the LH lakes indicate seasonal (austral summer) productivity with the availability of sunlight and nutrients. Our investigation reveals that phosphate (PO₄^3-) and Mo act as limiting nutrients because of their lower concentrations in the water column. Dissolved Cu plays an important role in bacterial-induced organic matter decompositions and release of organic carbon to lake water. We also found Ba excess (non-terrigenous) in the lake and catchment sediments varying from 26 to 63%. The higher Ba_excess in the catchment sediments could be due to significant removal of dissolved Ba during the solute transport and later supplied to these lakes. The geochemical data sets presented in this study were found at a natural background level and therefore, would be useful for comparison with other global aquatic environments. Findings of the present study improve our understanding about the biogeochemical cycling of trace elements and their critical role in oligotrophic lakes of Antarctica.

Keywords: Antarctic lakes; Ba dynamics; Biogeochemistry; Trace metals.

MeSH terms

Antarctic Regions
Carbon / analysis
Environmental Monitoring
Lakes
Rivers
Trace Elements* / analysis
Water Pollutants, Chemical* / analysis

Substances

Trace Elements
Water Pollutants, Chemical
Carbon