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Energetic costs in the coevolutionary relationship between bitterling fish and freshwater mussels

Research output: Contribution to journalArticle

Open Access Status

  • Embargoed (until 7/11/19)

Author(s)

Caroline Methling, Karel Douda, Huanzhang Liu, Romain Rouchet, Veronika Bartáková, Dan Yu, Carl Smith, Martin Reichard

School/Research organisations

Abstract

Bitterling fishes and unionid mussels are involved in a two-sided co-evolutionary association. On the one side, bitterling exploit unionids by ovipositing in their gills. On the other side, unionids develop via a larval stage (glochidium) that attaches to fish gills. Both interactions are parasitic and expected to have negative consequences for the host. Here, we examine the effects of this association on the metabolic rates of mussel and fish hosts by measuring oxygen uptake rates (MO2). Measurements were performed on two widespread and broadly coexisting species, namely the rose bitterling Rhodeus ocellatus and Chinese pond mussel Sinanodonta woodiana. As predicted, we observed an increase in routine MO2 in mussels parasitized by bitterling, but only when hosting early stages of bitterling embryos that reside in the interlamellar space of the gills and obstruct water circulation. Hosting later-stage bitterling embryos (that reside in the suprabranchial cavity outside the host gills) was not associated with a higher routine MO2. We did not observe an acute negative effect of glochidial infestations on maximal oxygen uptake rate (MO2max), but glochidia-infested bitterling showed consistently lower oxygen consumption rates during recovery from MO2max. Our results suggest that acute costs of this mutually parasitic relationship might be mitigated, at least in part, by adaptations to limit infestation rates.
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Details

Original languageEnglish
JournalBiological Journal of the Linnean Society
VolumeAdvance Articles
Early online date7 Nov 2018
DOIs
Publication statusE-pub ahead of print - 7 Nov 2018

    Research areas

  • Acheilognathinae, Branchial parasites, Evolutionary arms race, Metabolic rate, Unionidae

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ID: 256160479