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Effects of parasitic freshwater mussels on their host fishes : a review

Rock, Sebastian L. ; Watz, Johan ; Nilsson, P. Anders LU orcid and Österling, Martin (2022) In Parasitology 149(14). p.1958-1975
Abstract

Freshwater mussels in the order Unionida are highly adapted to parasitize fish for the primary purpose of dispersal. The parasitic larval stage affixes itself to the gills or fins of the host where it becomes encysted in the tissue, eventually excysting to develop into a free-living adult. Research on the parasitic interactions between unionids and their host fishes has garnered attention recently due to the increase in worldwide preservation efforts surrounding this highly endangered and ecologically significant order. With the exception of heavy infestation events, these mussels cause minor effects to their hosts, typically only observable effect in combination with other stressors. Moreover, the range of effect intensities on the... (More)

Freshwater mussels in the order Unionida are highly adapted to parasitize fish for the primary purpose of dispersal. The parasitic larval stage affixes itself to the gills or fins of the host where it becomes encysted in the tissue, eventually excysting to develop into a free-living adult. Research on the parasitic interactions between unionids and their host fishes has garnered attention recently due to the increase in worldwide preservation efforts surrounding this highly endangered and ecologically significant order. With the exception of heavy infestation events, these mussels cause minor effects to their hosts, typically only observable effect in combination with other stressors. Moreover, the range of effect intensities on the host varies greatly with the species involved in the interaction, an effect that may arise from different evolutionary strategies between long- and short-infesting mussels; a distinction not typically made in conservation practices. Lower growth and reduced osmotic potential in infested hosts are commonly observed and correlated to infestation load. These effects are typically also associated with increases in metabolic rate and behaviour indicative of stress. Host fish seem to compensate for this through a combination of rapid wound healing in the parasitized areas and higher ventilation rates. The findings are heavily biased towards Margaritifera margaritifera, a unique mussel not well suited for cross-species generalizations. Furthermore, the small body of molecular and genetic studies should be expanded as many conclusions are drawn from studies on the ultimate effects of glochidiosis rather than proximate studies on the underlying mechanisms.

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author
; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
conservation, freshwater mussel, glochidia, host effects, Unionida
in
Parasitology
volume
149
issue
14
pages
1958 - 1975
publisher
Cambridge University Press
external identifiers
  • scopus:85138174333
  • pmid:36050917
ISSN
0031-1820
DOI
10.1017/S0031182022001226
language
English
LU publication?
yes
id
707c525a-7ad0-470e-83e1-3270575844cd
date added to LUP
2022-12-05 11:00:06
date last changed
2024-04-18 16:31:05
@article{707c525a-7ad0-470e-83e1-3270575844cd,
  abstract     = {{<p>Freshwater mussels in the order Unionida are highly adapted to parasitize fish for the primary purpose of dispersal. The parasitic larval stage affixes itself to the gills or fins of the host where it becomes encysted in the tissue, eventually excysting to develop into a free-living adult. Research on the parasitic interactions between unionids and their host fishes has garnered attention recently due to the increase in worldwide preservation efforts surrounding this highly endangered and ecologically significant order. With the exception of heavy infestation events, these mussels cause minor effects to their hosts, typically only observable effect in combination with other stressors. Moreover, the range of effect intensities on the host varies greatly with the species involved in the interaction, an effect that may arise from different evolutionary strategies between long- and short-infesting mussels; a distinction not typically made in conservation practices. Lower growth and reduced osmotic potential in infested hosts are commonly observed and correlated to infestation load. These effects are typically also associated with increases in metabolic rate and behaviour indicative of stress. Host fish seem to compensate for this through a combination of rapid wound healing in the parasitized areas and higher ventilation rates. The findings are heavily biased towards Margaritifera margaritifera, a unique mussel not well suited for cross-species generalizations. Furthermore, the small body of molecular and genetic studies should be expanded as many conclusions are drawn from studies on the ultimate effects of glochidiosis rather than proximate studies on the underlying mechanisms.</p>}},
  author       = {{Rock, Sebastian L. and Watz, Johan and Nilsson, P. Anders and Österling, Martin}},
  issn         = {{0031-1820}},
  keywords     = {{conservation; freshwater mussel; glochidia; host effects; Unionida}},
  language     = {{eng}},
  number       = {{14}},
  pages        = {{1958--1975}},
  publisher    = {{Cambridge University Press}},
  series       = {{Parasitology}},
  title        = {{Effects of parasitic freshwater mussels on their host fishes : a review}},
  url          = {{http://dx.doi.org/10.1017/S0031182022001226}},
  doi          = {{10.1017/S0031182022001226}},
  volume       = {{149}},
  year         = {{2022}},
}