Biomarker and Stable Isotope Characterization of Coastal Pond Organic Matter, McMurdo Dry Valleys, Antarctica

Small coastal ponds containing photosynthetic microbial mat communities represent a potentially significant source of labile organic carbon within the McMurdoDryValleys, Antarctica. To distinguish coastal pond derived organic matter (CPDOM) from other sources of organic matter in the dry valleys, I...

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Bibliographic Details
Main Author: Hage, Melissa Margaret
Format: Text
Language:unknown
Published: TRACE: Tennessee Research and Creative Exchange 2006
Subjects:
Geology
Garwood
Garwood Valley
Hjorth Hill
McMurdo Dry Valleys
Antarc*
Antarctica
Online Access:https://trace.tennessee.edu/utk_gradthes/1565
https://trace.tennessee.edu/context/utk_gradthes/article/3015/viewcontent/HageMelissa.pdf
Description
Summary:Small coastal ponds containing photosynthetic microbial mat communities represent a potentially significant source of labile organic carbon within the McMurdoDryValleys, Antarctica. To distinguish coastal pond derived organic matter (CPDOM) from other sources of organic matter in the dry valleys, I investigated bulk organic carbon and nitrogen isotopic signatures and phospholipid fatty acid (PLFA) profiles of benthic microbial mats located at two sites, HjorthHillCoastand GarwoodValley. The average δ13C values at Hjorth Hill Coast and Garwood Valley are -10.91 ‰ and -10.19 ‰, respectively. The average δ15N values are 3.73 ‰ and -1.25 ‰, respectively. Microbial mats from all ponds are dominated by monounsaturated PLFAs, which are indicative of gram negative bacteria, and polyunsaturated PLFAs, which are indicative of microeukaryotes. Specific biomarkers for aerobic prokaryotes, eukaryotes, photoautotrophic microeukaryotes, and sulfur-reducing bacteria are present in all samples. Benthic mats atGarwoodValley are thicker, more laminated, have a higher biomass, and greater % C and % N, suggesting greater productivity than mats atHjorthHillCoast. Greater productivity is supported, as well, by greater dissolved oxygen contents likely derived from greater photosynthetic productivity. Higher productivity atGarwoodValley likely results from greater influx of terrestrial surface water and concomitant nutrient loading.

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