ISSN:
1573-5117
Keywords:
ice cover
;
shallow lake
;
bacterioplankton
;
phytoplankton
;
growth efficiency
;
dissolved organic matter
;
humic matter
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
Notes:
Abstract In an attempt to assess bacterioplankton production and growth yieldunder low temperature conditions and to compare bacterioplankton withphytoplankton production in the ice-covered water column of the shallowNeusiedler See, outdoor measurements under near in situ conditions wereperformed during the winter of 1995/96. During the investigation period,mean chlorophyll (Chl) a concentration was 21.03 ± 14.95 µg Chla l-1. Phytoplankton primary production integrated over thewater column ranged from 1.35 to production integrated over the water columnranged from 1.35 to 4.23 mg C m-2 d-1 (mean± SD = 2.46 ± 1.06 mg C m-2d-1). Bacterial abundance varied from 20 to 40×105 ml-1 for most of the investigationperiod and increased by the end of March concomitantly with the increase intemperature from 1.3 to 6.3 °C within 5 days. Mean bacterial productionwas 15.3 ± 12.8 µg C l-1 d-1(range: 3.0 to 41.7 µg C l-1 d-1) and meanbacterial growth rate 0.23 ± 0.16 d-1 following closelythe pattern in bacterial production. DOC concentration declined linearlyfrom 20.7 mg C l-1 to 16.45 mg C l-1 over the 4months period of ice cover. The contribution of humic substances to thetotal DOC pool declined from 43.6% at the end of November to37.3% at the end of March. Calculated on an area basis, phytoplanktonproduction amounted to only 16% of bacterial production which makesit unlikely that phytoplankton supply substrate for bacterioplankton growthin significant quantities when the lake is ice covered. From the observeddecline in DOC over the investigation period and assuming only negligibleinput of DOC from other sources we calculated an average DOC uptake by thebacterioplankton community of 47.5 µg C l-1d-1 resulting in a bacterial growth efficiency of 15.9%for the ice covered conditions. Based on the growth efficiency we estimatethat pelagic primary production amounts to 2.8% of the bacterialcarbon demand. This might indicate that the bacterioplankton in NeusiedlerSee sustain their high growth rates at low temperatures (〈2°C formost of the investigation period) by using probably the DOC originating fromthe previous season. This DOM stems most likely from the decay of the reedPhragmites australis and its epiphytes and, probably of minor importance,from phytoplankton leachates.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1023/A:1003151323756
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