Total organic carbon in pond waters from the Labyrinth of southern Victoria Land in the Antarctic

Total organic carbon in pond waters from the Labyrinth of southern Victoria Land in the Antarctic

Total organic carbon (TOC) in 10 freshwater and saline ponds in the Labyrinth (77°33′S, 160°50′E) of southern Victoria Land, Antarctica, was preliminary studied to clarify their distribution and sources. The TOC concentrations ranged from 0.78 to 23.1mgC/l. The high TOC concentrations were found onl...

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Main Authors: Genki I. Matsumoto, Kunihiko Watanuki, Tetsuya Torii
Format: Article
Language:English
Published: National Institute of Polar Research 1987-11-01
Series:Antarctic Record
Online Access:https://doi.org/10.15094/00008557
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spelling doaj-7aa3a2f3ec0b47d784cbc13adf3264c02020-11-24T21:32:59ZengNational Institute of Polar ResearchAntarctic Record0085-72892432-079X1987-11-0131317117610.15094/00008557Total organic carbon in pond waters from the Labyrinth of southern Victoria Land in the AntarcticGenki I. Matsumoto0Kunihiko Watanuki1Tetsuya Torii2Department of Chemistry, The College of Arts and Sciences, The University of TokyoDepartment of Chemistry, The College of Arts and Sciences, The University of TokyoChiba Institute of TechnologyTotal organic carbon (TOC) in 10 freshwater and saline ponds in the Labyrinth (77°33′S, 160°50′E) of southern Victoria Land, Antarctica, was preliminary studied to clarify their distribution and sources. The TOC concentrations ranged from 0.78 to 23.1mgC/l. The high TOC concentrations were found only in saline pond waters. The correlation coefficient between electric conductivity and TOC value was considerably high (0.82). This result can be explained as follows : Organic substances supplied from snow and glacial meltwaters are first concentrated in the residual pond waters by freezing out. Also in situ photosynthetic activity produces organic substances, but certain labile organic constituents may be degraded by microbial activity. Further, repeating freezing and evaporation of pond waters work to concentrate relatively refractory organic substances in the pond bottom waters, together with dissolved inorganic salts over a long period of time.https://doi.org/10.15094/00008557
collection DOAJ
language English
format Article
sources DOAJ
author Genki I. Matsumoto
Kunihiko Watanuki
Tetsuya Torii
spellingShingle Genki I. Matsumoto
Kunihiko Watanuki
Tetsuya Torii
Total organic carbon in pond waters from the Labyrinth of southern Victoria Land in the Antarctic
Antarctic Record
author_facet Genki I. Matsumoto
Kunihiko Watanuki
Tetsuya Torii
author_sort Genki I. Matsumoto
title Total organic carbon in pond waters from the Labyrinth of southern Victoria Land in the Antarctic
title_short Total organic carbon in pond waters from the Labyrinth of southern Victoria Land in the Antarctic
title_full Total organic carbon in pond waters from the Labyrinth of southern Victoria Land in the Antarctic
title_fullStr Total organic carbon in pond waters from the Labyrinth of southern Victoria Land in the Antarctic
title_full_unstemmed Total organic carbon in pond waters from the Labyrinth of southern Victoria Land in the Antarctic
title_sort total organic carbon in pond waters from the labyrinth of southern victoria land in the antarctic
publisher National Institute of Polar Research
series Antarctic Record
issn 0085-7289
2432-079X
publishDate 1987-11-01
description Total organic carbon (TOC) in 10 freshwater and saline ponds in the Labyrinth (77°33′S, 160°50′E) of southern Victoria Land, Antarctica, was preliminary studied to clarify their distribution and sources. The TOC concentrations ranged from 0.78 to 23.1mgC/l. The high TOC concentrations were found only in saline pond waters. The correlation coefficient between electric conductivity and TOC value was considerably high (0.82). This result can be explained as follows : Organic substances supplied from snow and glacial meltwaters are first concentrated in the residual pond waters by freezing out. Also in situ photosynthetic activity produces organic substances, but certain labile organic constituents may be degraded by microbial activity. Further, repeating freezing and evaporation of pond waters work to concentrate relatively refractory organic substances in the pond bottom waters, together with dissolved inorganic salts over a long period of time.
url https://doi.org/10.15094/00008557
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AT kunihikowatanuki totalorganiccarboninpondwatersfromthelabyrinthofsouthernvictorialandintheantarctic
AT tetsuyatorii totalorganiccarboninpondwatersfromthelabyrinthofsouthernvictorialandintheantarctic
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