Does size matter? Particle size vs. quality in bivalve suspension feeding

Tuttle‐Raycraft, Shaylah; Ackerman, Josef Daniel

doi:10.1111/fwb.13184

Cited by 18 publications

(10 citation statements)

References 54 publications

(88 reference statements)

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“…Lampsilis siliquoidea from the turbid river were less affected by increased TSS (i.e., smaller reduction in CR by increased TSS) compared to L. siliquoidea from the clear river at all water velocities. The results for the clear river mussels are consistent with similar reductions in CR that have been reported at these TSS concentrations for mussels from the Thames River (e.g., Tuttle‐Raycraft et al ; Tuttle‐Raycraft and Ackerman ). Furthermore, these results indicate that populations of mussels from turbid rivers have morphological/anatomical features that provide them the ability to live under high TSS concentration conditions.…”

Section: Discussionsupporting

confidence: 87%

“…Similar variation in gill anatomy has also been found among coexisting species of unionids in which denser cirral plates have been attributed to higher CR of smaller particles (Galbraith et al ). If this attribution is correct, then the denser cirral plates in our turbid river mussels would enable them to remove small‐sized particles that dominate the suspended load (i.e., clay and silt; Tuttle‐Raycraft and Ackerman ). Regardless, an increase in particle capture efficiency and/or particle sorting abilities of the turbid river mussels as a result of gill anatomy would facilitate their existence in turbid rivers.…”

Section: Discussionmentioning

confidence: 99%

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Living the high turbidity life: The effects of total suspended solids, flow, and gill morphology on mussel feeding

Tuttle‐Raycraft

Ackerman

2019

Limnology & Oceanography

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Unionid mussels from clear‐water rivers are often found in turbid waters in which their feeding and reproductive efficiency should be impaired. We examined the feeding response of Lampsilis siliquoidea from a clear and turbid river in response to increased concentrations of total suspended solids (TSS) and water velocity in a funnel chamber and a recirculating flow chamber. Four TSS concentrations (0, 5, 20, and 100 mg L−1) and four velocities (0, 0.05, 0.15, and 0.25 m s−1) were used to create 16 experimental conditions corresponding to nine TSS flux (concentration × velocity) levels. TSS flux significantly affected clearance rates (CR); however, the relationship was complex. Increased TSS led to lower CR in mussels from clear and turbid river at all velocities; however, increases in velocity reduced the magnitude of the decline with respect to TSS. Overall, the turbid river mussels were less affected by increased TSS than those from the clear‐water rivers. The mussels from the turbid river also differed anatomically (i.e., greater palp:gill ratio; number of cilia per cirri; number of cirri cm−1; and thickness of palp cilia, and less cilia per unit area of palp) from the clear river animals. It is likely that these anatomical differences allow the mussels to feed more efficiently in turbid water, which explains the observed differences in CR response to TSS. These results demonstrate the importance of multistressor approaches in evaluating aquatic organisms, as well as providing a potential mechanism to explain how mussels thrive in turbid rivers.

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Section: Discussionsupporting

confidence: 87%

Section: Discussionmentioning

confidence: 99%

Living the high turbidity life: The effects of total suspended solids, flow, and gill morphology on mussel feeding

Tuttle‐Raycraft

Ackerman

2019

Limnology & Oceanography

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“…Unfortunately, data for volatile suspended solids were not available through the MNPCA website. Finally, Tuttle-Raycraft & Ackerman (2018) found that the size and quality of suspended solids may influence feeding rates in unionids. They found that clearance rates of mussels in a fine silt treatment were higher than for treatments of mixed sediment, clay or coarse silt.…”

Section: Attributed Highermentioning

confidence: 99%

Influence of surrounding land-use on mussel growth and glycogen levels in the St. Croix and Minnesota River Basins

et al. 2019

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Freshwater mussels face threats from climate change and changing land use that are dramatically altering their habitat. The health of mussel populations and the state of current and past environmental conditions can be monitored by measuring mussel growth and glycogen levels. In this study, we measured growth and glycogen levels in mussels from two small river basins impacted by different land uses. The Snake River in the St. Croix Basin, Minnesota, had low levels of suspended sediments and was surrounded mostly by forest and some developed land. The Chippewa, Cottonwood, and Le Sueur rivers in the Minnesota River Basin had significantly higher annual suspended sediment loads and highly agricultural basins. Mussel growth was highest in the Le Sueur and Cottonwood rivers followed by the Chippewa and the Snake rivers. Mussels in the Minnesota Basin rivers all had higher mussel foot glycogen concentrations than the Snake River. These patterns were similar for two mussel species, suggesting that environmental conditions are likely determining levels of growth. Although agriculture had a negative effect on mussel population abundance and diversity, it had a positive effect on growth and glycogen levels.

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“…In addition, other possible factors that could have caused or contributed to the reduction in concentration of F. columnare are, for example, competitive interactions between F. columnare and the microbiota present in and on the mussels (Rubiolo et al 2019) or antimicrobial properties in mussel mucus (Cilia & Fratini 2018). Filtration capacity in bivalves varies based on particle size and quality, among other things (Faust et al, 2009;Tuttle-Raycraft & Ackerman, 2018). Freshwater mussels can capture a wide range of particles sized 1-40 lm, including bacteria-at least large bacteria (Strayer, 2008).…”

Section: Discussionmentioning

confidence: 99%

Does the freshwater mussel Anodonta anatina remove the fish pathogen Flavobacterium columnare from water?

et al. 2021

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Global decline of freshwater mussels (Unionoida) is threatening biodiversity and the essential ecosystem services that mussels provide. As filter-feeding organisms, freshwater mussels remove phytoplankton and suspended particles from the water. By filtering bacteria, freshwater mussels also decrease pathogen loads in the water. The objective of this study was to evaluate whether the common freshwater bivalve Anodonta anatina (duck mussel) could remove the bacterial fish pathogen Flavobacterium columnare from the water. Mussels reduced bacteria in both of the two experiments performed, so that the bacterial concentration at the end of the 96-h monitoring in mussel treatments was only 0.3–0.5 times that of the controls. Surprisingly, mussels did not reduce algal cell concentration statistically significantly. Mussel behavior (shell openness, foot position, and movement) was not affected by the presence of bacteria or algae, except for biodeposition formation, which was greatest in algal-fed treatments, followed by bacterial-fed treatments and controls, respectively. The intestines of bacteria-incubated A. anatina harbored F. columnare, suggesting that mussels ingested the bacteria. Present results suggest that freshwater mussels may also have a potential to mitigate aquaculture pathogen problems, as well as play a role in water quality management.

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Does size matter? Particle size vs. quality in bivalve suspension feeding

Cited by 18 publications

References 54 publications

Living the high turbidity life: The effects of total suspended solids, flow, and gill morphology on mussel feeding

Living the high turbidity life: The effects of total suspended solids, flow, and gill morphology on mussel feeding

Influence of surrounding land-use on mussel growth and glycogen levels in the St. Croix and Minnesota River Basins

Does the freshwater mussel Anodonta anatina remove the fish pathogen Flavobacterium columnare from water?

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