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Impacts of microcystins on the feeding behaviour and energy balance of zebra mussels, Dreissena polymorpha: a bioenergetics approach
Juhel, G.; Davenport, J.; O’Halloran, J.; Culloty, S.C.; O’Riordan, R.M.; James, K.F.; Furey, A.; Allis, O. (2006). Impacts of microcystins on the feeding behaviour and energy balance of zebra mussels, Dreissena polymorpha: a bioenergetics approach. Aquat. Toxicol. 79(4): 391-400. https://dx.doi.org/10.1016/j.aquatox.2006.07.007
In: Aquatic Toxicology. Elsevier Science: Tokyo; New York; London; Amsterdam. ISSN 0166-445X; e-ISSN 1879-1514, more
Peer reviewed article  

Available in  Authors 

Keywords
    Behaviour > Feeding behaviour
    Microorganisms > Bacteria
    Population functions > Growth
    Properties > Biological properties > Toxicity
    Microcystis aeruginosa (Kützing) Kützing, 1846 [WoRMS]
    Marine/Coastal
Author keywords
    microcystins; cyanobacteria; Microcystis aeruginosa; mussel feedingbehaviour; scope for growth; toxicity

Authors  Top 
  • Juhel, G.
  • Davenport, J., more
  • O’Halloran, J.
  • Culloty, S.C.
  • O’Riordan, R.M.
  • James, K.F.
  • Furey, A.
  • Allis, O.

Abstract
    Microcystins are produced by bloom-forming cyanobacteria and pose significant health and ecological problems. To investigate the impacts of these biotoxins on the physiology of the zebra mussels, Dreissena polymorpha, a series of short-term feeding experiments were conducted in the laboratory. We used five microalgal diets consisting of single-cell suspensions of the green algae, Chlorella vulgaris, the diatom, Asterionella formosa, the cryptophyte, Cryptomonas sp. and two strains of the toxic cyanobacterium, Microcystis aeruginosa (strains CCAP 1450/06 and CCAP 1450/10). A sixth diet was a mixture of the diatom and the CCAP 1450/10 cyanobacterial strain. The low-toxicity strain CCAP 1450/06 contained 7.4 μg l−1 of the MC-LR variant while the very toxic strain CCAP 1450/10 contained 23.8 μg l−1 of MC-LR and 82.9 μg l−1 of MC-LF. A flow-through system was designed to measure the following feeding parameters: clearance, filtration, ingestion and absorption rates. Ultimately the scope for growth (SFG) was determined as a net energy balance. We observed that mussels cleared the cyanobacterial species containing MC-LF (mean ± 95% confidence interval) at a significant lower rate (498 ± 82 ml h−1 g−1 for the single cell suspension and 663 ± 100 ml h−1 g−1 for the mixture diet) than all of the non-toxic species and the cyanobacterium containing MC-LR (all above 1 l h−1 g−1). The same pattern was observed with all the feeding parameters, particularly absorption rates. Furthermore, MC-LF caused an acute irritant response manifested by the production of ‘pseudodiarrhoea’, unusually fluid pseudofaeces, rich in mucus and MC-LF-producing Microcystis cells, ejected through the pedal gape of the mussels. This overall response therefore demonstrates selective rejection of MC-LF-producing cyanobacteria by zebra mussels, enhancing the presence of the very toxic MC-LF-producing M. aeruginosa in mixed cyanobacterial blooms and in the benthos.

    Finally, we observed that the SFG (mean ± 95% confidence interval) of mussels feeding on M. aeruginosa containing MC-LF was significantly lower (34.0 ± 18.8 J h−1 g−1 for the single cell suspension and 83.1 ± 53.0 J h−1 g−1 for the mixture diet) than for mussels ingesting non-toxic diets, except for C. vulgaris (all above 200 J h−1 g−1). This reveals a sublethal, stressful effect of microcystins (particularly MC-LF) on the feeding behaviour and energy balance of the zebra mussel.


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