https://doi.org/10.4081/jlimnol.2012.e8

Phytoplankton functional traits and seston stable isotopes signature: a functional-based approach in a deep, subalpine lake, Lake Maggiore (N. Italy)

Vol. 71 No. 1 (2012)
Submitted: 18 January 2012
Accepted: 18 January 2012
Published: 19 January 2012
stable isotopes, seston, carbon, phytoplankton, functional analysis.
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Authors

Rossana Caroni
rossana.caroni@jrc.ec.europa.eu
European Commission - Joint Research Centre, IES-Rural, Water and Ecosystem Res. Unit, Italy.
Gary Free
Environmental Protection Agency, McCumiskey House, Richview, Ireland.
Anna Visconti
CNR Institute of Ecosystem Study, Italy.
Marina Manca
CNR Institute of Ecosystem Study, Italy.
The seasonal variation of seston stable isotopes signature of carbon (δ13C) in Lake Maggiore during 2008 was related to seasonal variation of the lake phytoplankton community, investigated in terms of phytoplankton taxonomic groups, morpho-functional groups (MBFG), cell size classes and cell shape classes. Three open water stations were selected to reflect truly pelagic, influenced by littoral and riverine carbon sources; phytoplankton samples were collected from two water depths, 0-20 m and 25-50 m. Among stations differences in δ13C signatures of seston were statistically non significant, confirming that allochthonous input may become important only after exceptional rainfall events. Nonparametric multiplicative regression (NPMR) was utilized to identify among the phytoplankton parameters (taxonomic groups, MBFG, cell shapes, cell sizes) which were the best predictors of the δ13C variation. Bacillariophyceae and two morpho-functional groups, Group 6 (non-flagellated organisms with siliceous exoskeletons) and Group 3 (large filamentous algae with aerotopes) were statistically significant. Non-metric multidimensional scaling (NMS) ordination was used to investigate differences in phytoplankton samples and their relationship with δ13C variation. When morphological and functional phytoplankton traits were superimposed, the NMS ordination showed that cylinder cells (for cell shape classes), class 500-2000 mm3 (for cell size classes) and Group 6 (for MBFG) were the most related to δ13C variation. Our study confirms that the variation in the pelagic δ13C seston most probably reflects changes in phytoplankton carbon isotopic signature, consequent to changes in availability of carbon sources depending on the season and due to different isotopic fractionation of phytoplankton taxonomic groups. Statistical investigations have allowed us to investigate the potential role of phytoplankton morphological and functional traits in the seasonal variation of δ13C and to suggest their importance in the interpretation of natural stable isotopes studies in lake ecosystems.

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How to Cite

Caroni, Rossana, Gary Free, Anna Visconti, and Marina Manca. 2012. “Phytoplankton Functional Traits and Seston Stable Isotopes Signature: A Functional-Based Approach in a Deep, Subalpine Lake, Lake Maggiore (N. Italy)”. Journal of Limnology 71 (1):e8. https://doi.org/10.4081/jlimnol.2012.e8.

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