https://doi.org/10.4081/jlimnol.2003.79

Blooms of the dinoflagellate Glenodinium sanguineum obtained during enclosure experiments in Lake Tovel (N. Italy)

Vol. 62 No. 1 (2003)
Submitted: 8 December 2011
Accepted: 8 December 2011
Published: 1 February 2003
phosphorus, light, enclosures, Glenodinium sanguineum, Lake Tovel, freshwater red tide
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Authors

Marco CANTONATI
cantonat@mtsn.tn.it
Massimiliano TARDIO
Monica TOLOTTI
Flavio CORRADINI
Freshwater red tides due to dinoflagellates are less common than their marine analogues, which are usually a serious problem and can even be toxic. This was not the case for Lake Tovel in the Adamello-Brenta Natural Park (Southern Alps, Italy), where the dinoflagellate Glenodinium sanguineum Marchesoni accumulated carotenoids (astaxanthin-like compound) and caused a spectacular and regular "summer reddening", which suddenly ceased in 1964. Today Lake Tovel is a temperate, meromictic (with dimictic mixolimnion), oligotrophic mountain lake, characterised by marked water level fluctuations. G. sanguineum is still present in the lake, although with markedly lower densities in comparison to the pre-1965 period. Enclosure studies were carried out to identify the main factors regulating the blooms. In 1998, by means of phosphorus enrichments, it was possible to obtain a marked increase in numbers of G. sanguineum. Phosphorus additions in similar enclosures in 1999, when weather conditions during the summer were not optimal (mostly cloudy with frequent rainfalls), did not have the same effect, since species known to thrive in spring or under icecover developed. In summer 2000, by attenuating light in one of the enclosures, it was shown that irradiance conditions strongly interacted with phosphorus availability in determining the species that dominated the phytoplankton. In summer 2001, G. sanguineum increased again in the enclosure enriched with phosphorus. Nitrogen was observed to become a limiting factor only in conditions forced by phosphorus additions. From the first four years of in situ experiments, we concluded that phosphorus and light conditions were among the key factors controlling the proliferation and the dominance of G. sanguineum.

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How to Cite

CANTONATI, Marco, Massimiliano TARDIO, Monica TOLOTTI, and Flavio CORRADINI. 2003. “Blooms of the Dinoflagellate Glenodinium Sanguineum Obtained During Enclosure Experiments in Lake Tovel (N. Italy)”. Journal of Limnology 62 (1):79-87. https://doi.org/10.4081/jlimnol.2003.79.

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