Microbial carbon processing in oligotrophic Lake Lucerne (Switzerland): results of in situ 13C-labelling studies

J.M. Lammers; C.J. Schubert; J.J. Middelburg; G.J. Reichart

doi:10.1007/s10533-017-0389-7

Microbial carbon processing in oligotrophic Lake Lucerne (Switzerland): results of in situ ¹³C-labelling studies

J.M. Lammers, C.J. Schubert, J.J. Middelburg, G.J. Reichart

Department of Surface Waters - Research and Management, Eawag - Swiss Federal Institute of Aquatic Science and Technology, Seestrasse 79, 6047 Kastanienbaum, Switzerland
Royal Netherlands Institute for Sea Research - NIOZ

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Although lakes play a major role in the storage of organic carbon, processes involved are not yet very well characterized, especially for oligotrophic lakes. Whether a lake functions as a net source or sink for carbon depends on relative rates of primary production, inputs of terrestrial organic matter and respiration. The microbial community will affect the efficiency of carbon cycling and thereby potential carbon storage. Because the organic matter fluxes are smaller in oligotrophic lakes they have been studied less intensively with respect to their carbon cycling compared to eutrophic lakes. Whether they play an appreciable role in freshwater carbon cycling relies on unraveling primary and secondary production. Here we present the results from such a study in oligotrophic Lake

Original language	English
Pages (from-to)	131-149
Journal	Biogeochemistry
Volume	136
Issue number	2
DOIs	https://doi.org/10.1007/s10533-017-0389-7
Publication status	Published - Nov 2017

Keywords

Lacustrine food-web
Phytoplanktonbacteria coupling
d13C tracer
Biomarkers

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10.1007/s10533-017-0389-7

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Cite this

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title = "Microbial carbon processing in oligotrophic Lake Lucerne (Switzerland): results of in situ 13C-labelling studies",

abstract = "Although lakes play a major role in the storage of organic carbon, processes involved are not yet very well characterized, especially for oligotrophic lakes. Whether a lake functions as a net source or sink for carbon depends on relative rates of primary production, inputs of terrestrial organic matter and respiration. The microbial community will affect the efficiency of carbon cycling and thereby potential carbon storage. Because the organic matter fluxes are smaller in oligotrophic lakes they have been studied less intensively with respect to their carbon cycling compared to eutrophic lakes. Whether they play an appreciable role in freshwater carbon cycling relies on unraveling primary and secondary production. Here we present the results from such a study in oligotrophic Lake",

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