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Salinity, depth and the structure and composition of microbial mats in continental Antarctic lakes
Sabbe, K.; Hodgson, D.A.; Verleyen, E.; Taton, A.; Wilmotte, A.; Vanhoutte, K.; Vyverman, W. (2004). Salinity, depth and the structure and composition of microbial mats in continental Antarctic lakes. Freshwat. Biol. 49(3): 296-319. dx.doi.org/10.1111/j.1365-2427.2004.01186.x
In: Freshwater Biology. Blackwell: Oxford. ISSN 0046-5070; e-ISSN 1365-2427
Peer reviewed article  

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Keywords
    Algae > Diatoms
    Conductivity
    Diatoms
    Microbial mats
    Properties > Physical properties > Conductivity
    Ratios > Conductivity ratio
    Bacillariophyceae [WoRMS]; Cyanobacteria [WoRMS]
    Antarctica [Marine Regions]
    Marine/Coastal
Author keywords
    Antarctica; conductivity; cyanobacteria; diatom; microbial mat

Authors  Top 
  • Sabbe, K.
  • Hodgson, D.A.
  • Verleyen, E.
  • Taton, A.
  • Wilmotte, A., more
  • Vanhoutte, K.
  • Vyverman, W.

Abstract
    1. Lakes and ponds in the Larsemann Hills and Bølingen Islands (East-Antarctica) were characterised by cyanobacteria-dominated, benthic microbial mats. A 56-lake dataset representing the limnological diversity among the more than 150 lakes and ponds in the region was developed to identify and quantify the abiotic conditions associated with cyanobacterial and diatom communities. 2. Limnological diversity in the lakes of the Larsemann Hills and Bølingen Islands was associated primarily with conductivity and conductivity-related variables (concentrations of major ions and alkalinity), and variation in lake morphometry (depth, catchment and lake area). Low concentrations of pigments, phosphate, nitrogen, DOC and TOC in the water column of most lakes suggest extremely low water column productivity and hence high water clarity, and may thus contribute to the ecological success of benthic microbial mats in this region. 3. Benthic communities consisted of prostrate and sometimes finely laminated mats, flake mats, epilithic and interstitial microbial mats. Mat physiognomy and carotenoid/chlorophyll ratios were strongly related to lake depth, but not to conductivity. 4. Morphological-taxonomic analyses revealed the presence of 26 diatom morphospecies and 33 cyanobacterial morphotypes. Mats of shallow lakes (interstitial and flake mats) and those of deeper lakes (prostrate mats) were characterised by different dominant cyanobacterial morphotypes. No relationship was found between the distribution of these morphotypes and conductivity. In contrast, variation in diatom species composition was strongly related to both lake depth and conductivity. Shallow ponds were mainly characterised by aerial diatoms (e.g. Diadesmis cf. perpusilla and Hantzschia spp.). In deep lakes, communities were dominated by Psammothidium abundans and Stauroforma inermis. Lakes with conductivities higher than ±1.5 mS cm-1 became susceptible to freezing out of salts and hence pronounced conductivity fluctuations. In these lakes P. abundans and S. inermis were replaced by Amphora veneta. Stomatocysts were important only in shallow freshwater lakes. 5. Ice cover influenced microbial mat structure and composition both directly by physical disturbance in shallow lakes and by influencing light availability in deeper lakes, as well as indirectly by generating conductivity increases and promoting the development of seasonal anoxia. 6. The relationships between diatom species composition and conductivity, and diatom species composition and depth, were statistically significant. Transfer functions based on these data can therefore be used in paleolimnological reconstruction to infer changes in the precipitation-evaporation balance in continental Antarctic lakes.

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