https://doi.org/10.4081/jlimnol.2014.937

Archaea and Bacteria in deep lake hypolimnion: in situ dark inorganic carbon uptake

Vol. 73 No. 1 (2014)
Submitted: 29 December 2013
Accepted: 14 January 2014
Published: 12 February 2014
Archaea and Bacteria, Thaumarchaeota, dark inorganic carbon uptake, lake Maggiore, hypolimnion
Abstract Views: 6171
PDF: 985
HTML: 1392
Publisher's note
All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article or claim that may be made by its manufacturer is not guaranteed or endorsed by the publisher.

Authors

Cristiana Callieri
c.callieri@ise.cnr.it
CNR - Institute of Ecosystem Study, Italy.
Manuela Coci
CNR - Institute of Ecosystem Study, Italy.
Ester M. Eckert
University of Zurich, Switzerland.
Michaela M. Salcher
University of Zurich, Switzerland.
Roberto Bertoni
CNR - Institute of Ecosystem Study, Italy.
The interest for microorganisms inhabiting the hypolimnion and for their role in biogeochemical cycles of lakes is considerable, but knowledge is far from complete. The presence of chemolithoautotrophic Bacteria and mesophilic Archaea (e.g., Thaumarchaeota) assimilating inorganic carbon in the deep hypolimnion of lakes has been ascertained. We measured, for the first time at 350 m in Lake Maggiore (Northern Italy), the prokaryotic in situ dark [14C]HCO3 incorporation with a new custom-made apparatus, which takes samples and adds tracers in situ. Thereby stress factors affecting prokaryotes during sample recovery from the depth were avoided. We tested the new instrument at different depths and conditions, performing parallel conventional on board incubations. We found that dark [14C]HCO3 incorporations had lower standard deviation in in situ incubations with respect to the on board ones, but their means were not statistically different. At 350 m we estimated an uptake of 187.7±15 μg C m–3 d–1, which is in line with the published uptake rates in aquatic systems. By inhibiting the bacterial metabolism, we found that Archaea were responsible for 28% of the total CO2 uptake. At the same depth, Thaumarchaeota, on average, constituted 11% of total DAPI counts. Dark [14C]HCO3 incorporation integrated along the aphotic water column was 65.8±5.2 mg C m–2 d–1 which corresponds to 87% of picophytoplanktonic autotrophic fixation in the euphotic layer. This study provides the first evidence of Bacteria and Archaea dark CO2 fixation in the deep hypolimnion of a subalpine lake and indicates a potentially significant prokaryotic CO2 sink.

Dimensions

Altmetric

PlumX Metrics

Downloads

Download data is not yet available.

Citations

Crossref
Scopus
Google Scholar
Europe PMC

Supporting Agencies

Part of the research on Lake Maggiore was funded by the International Commission for the Protection of Italian-Swiss Waters (CIPAIS).
Ester M. Eckert, University of Zurich
Limnological Station, Institute of Plant Biology
Michaela M. Salcher, University of Zurich

Limnological Station, Institute of Plant Biology

How to Cite

Callieri, Cristiana, Manuela Coci, Ester M. Eckert, Michaela M. Salcher, and Roberto Bertoni. 2014. “Archaea and Bacteria in Deep Lake Hypolimnion: In Situ Dark Inorganic Carbon Uptake”. Journal of Limnology 73 (1). https://doi.org/10.4081/jlimnol.2014.937.

List of Cited By :

Crossref logo