Abstract

The McMurdoDryValleysofAntarcticaare a unique environment characterized by extreme lows in temperature and precipitation, which supports a low diversity microbial and multicellular fauna and flora. Terrestrial biomass is largely limited to soil microbes and mosses, while perennially ice-covered lakes host aerobic and anaerobic microbial communities, algae, and a low diversity eukaryotic fauna. This study provides a scanning electron microscope survey of the distribution of siliceous-walled algae in the water columns and surface sediments of fourTaylorValleylakes. No patterns of distribution of algae, chrysophyte cysts and diatoms, are detected, suggesting that cores taken from perennially ice-covered lakes contain basin-wide records, rather than records specific to the lake depth or other lake-specific criteria. Since Taylor Valley lakes became perennially ice-covered, shifts in diatom assemblages in cores are more likely to record changes to sediment and microfossil transport, e.g. the dominance of eolian vs. stream input, rather than other ecological conditions. Basin-wide records are episodically overprinted by lake-specific events, as demonstrated by a marked increase of the stream diatom genus Hantzschia during a period of increased stream flow into East Lake Bonney.

Highlights

  • The McMurdo Dry Valleys (MDV’s) of Antarctica comprise a unique environment maintained by extreme cold and low levels of precipitation [1]

  • particulate organic matter (POM) samples contain stream-associated genera not found in the benthic organic matter (BOM)

  • One species (Naviculagregaria) is found throughout the BOM, it is completely absent from the POM

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Summary

Introduction

The McMurdo Dry Valleys (MDV’s) of Antarctica comprise a unique environment maintained by extreme cold and low levels of precipitation [1]. Resource distribution within the lakes is not uniform, and each nutrient input source (stream, glacial, and eolian) has a unique distribution. Streams contain a higher microbial diversity and higher amounts of organic material than soil communities [3]. Eolian sediment and nutrients blanket Dry Valley lakes. This wind-blow material is deposited in all lake regions, and is the only material to reach deep benthic habitats, planktonic areas away from moats, and within ice habitats. It could be hypothesized that algal communities within Dry Valley lakes could be predicted based on the amounts of each input source feeding nutrients to any given location in the lake. No patterns of distribution of siliceous-walled algae are identified within or between lakes

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