Whole-lake experiments reveal the fate of terrestrial particulate organic carbon in benthic food webs of shallow lakes
Scharnweber, K., Syväranta, J., Hilt, S., Brauns, M., Vanni, M. J., Brothers, S., Köhler, J., Knezevic-Jaric, J., & Mehner, T. (2014). Whole-lake experiments reveal the fate of terrestrial particulate organic carbon in benthic food webs of shallow lakes. Ecology, 95(6), 1496-1505. https://doi.org/10.1890/13-0390.1
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EcologyAuthors
Date
2014Copyright
© 2014 by the Ecological Society of America. Published in this repository with the kind permission of the publisher.
Lake ecosystems are strongly linked to their terrestrial surroundings by material
and energy fluxes across ecosystem boundaries. However, the contribution of terrestrial
particulate organic carbon (tPOC) from annual leaf fall to lake food webs has not yet been
adequately traced and quantified. In this study, we conducted whole-lake experiments to trace
artificially added tPOC through the food webs of two shallow lakes of similar eutrophic status,
but featuring alternative stable regimes (macrophyte rich vs. phytoplankton dominated).
Lakes were divided with a curtain, and maize (Zea mays) leaves were added, as an isotopically
distinct tPOC source, into one half of each lake. To estimate the balance between
autochthonous carbon fixation and allochthonous carbon input, primary production and
tPOC and tDOC (terrestrial dissolved organic carbon) influx were calculated for the treatment
sides. We measured the stable isotope ratios of carbon (d13C) of about 800 samples from all
trophic consumer levels and compared them between lake sides, lakes, and three seasons. Leaf
litter bag experiments showed that added maize leaves were processed at rates similar to those
observed for leaves from shoreline plants, supporting the suitability of maize leaves as a tracer.
The lake-wide carbon influx estimates confirmed that autochthonous carbon fixation by
primary production was the dominant carbon source for consumers in the lakes. Nevertheless,
carbon isotope values of benthic macroinvertebrates were significantly higher with maize
additions compared to the reference side of each lake. Carbon isotope values of omnivorous
and piscivorous fish were significantly affected by maize additions only in the macrophytedominated
lake and d13C of zooplankton and planktivorous fish remained unaffected in both
lakes. In summary, our results experimentally demonstrate that tPOC in form of autumnal
litterfall is rapidly processed during the subsequent months in the food web of shallow lakes
and is channeled to secondary and tertiary consumers predominantly via the benthic
pathways. A more intense processing of tPOC seems to be connected to a higher structural
complexity in littoral zones, and hence may differ between shallow lakes of alternative stable
states.
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Economical Society of AmericaISSN Search the Publication Forum
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http://www.esajournals.org/doi/abs/10.1890/13-0390.1Publication in research information system
https://converis.jyu.fi/converis/portal/detail/Publication/23563164
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