Feeding strategies in symbiotic and asymbiotic thyasirid bivalves

Feeding strategies in symbiotic and asymbiotic thyasirid bivalves

Many bivalves living in symbiosis with chemoautotrophic bacteria are mixotrophs, deriving nutrients both from their symbionts and from external sources. The bivalve family Thyasiridae contains symbiotic and asymbiotic species that live infaunally and presumably suspension-feed. Symbiotic thyasirids...

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Bibliographic Details
Published in:Journal of sea research Vol. 145; pp. 16 - 23
Main Authors: Zanzerl, Heather, Salvo, Flora, Jones, Silas W., Dufour, Suzanne C.
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 01-03-2019
Elsevier BV
Subjects:
Abundance
Bacteria
Bivalve
Bivalvia
Burrowing organisms
Burrows
Chemoautotrophic bacteria
Farms
Feeding
Feet
Fjords
Food
Food sources
Foods
Isotopes
Linings
Microorganisms
Mineral nutrients
Mollusks
Nitrogen isotopes
Nutrients
Ocean floor
Organic matter
Oxidation
Particulate organic matter
Sampling
Sediments
Stable isotopes
Sulfur
Sulfur-oxidizing bacteria
Sulphur
Suspended organic matter
Suspended particulate matter
Symbionts
Symbiosis
Taxa
Thyasiridae
Tissue
Zoobenthos
Symbiosis
Thyasiridae
Bivalve
Isotopes
Sulfur-oxidizing bacteria
Feeding
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Summary:Many bivalves living in symbiosis with chemoautotrophic bacteria are mixotrophs, deriving nutrients both from their symbionts and from external sources. The bivalve family Thyasiridae contains symbiotic and asymbiotic species that live infaunally and presumably suspension-feed. Symbiotic thyasirids use their foot to construct numerous elongate and ramified burrows, or pedal tracts, in surrounding sediments; pedal tracts were interpreted as conduits for accessing reduced sulfur required by gill-associated symbionts. Recently, some asymbiotic thyasirids were found to form similar burrows, and this behaviour, accompanied by the irrigation of pedal tracts, was thought to be associated with deposit feeding. We used stable isotope analyses to examine the food sources of three taxa of co-occurring symbiotic and asymbiotic thyasirids sampled from a fjord in Newfoundland, Canada at different dates and sampling sites. We considered suspended particulate organic matter, sedimentary organic matter, and sulfur-oxidizing bacteria as potential food sources, and found that sediment organic matter characteristics varied significantly according to site but not sampling date, and that suspended organic matter near the seafloor was of relatively low quality and abundance at all dates and sites. The non-gill tissues of symbiotic and asymbiotic thyasirids had similar carbon isotopic compositions, but nitrogen isotope signatures were heavier and less variable in asymbiotic taxa than in the symbiotic Thyasira cf. gouldi. The two asymbiotic thyasirid species studied herein appeared to vary in their feeding strategies, with Parathyasira appearing to mostly farm sulfur-oxidizing bacteria along burrow linings and then collect them using their foot (a mode of bivalve deposit-feeding known as pedal feeding). This work expands our understanding of the breadth of feeding strategies in the widespread and often abundant thyasirid bivalves, and provides support for microbial farming along burrow linings in some thyasirids. •Symbiotic Thyasira cf. gouldi meets part of its dietary needs by deposit-feeding.•Co-occurring asymbiotic T. cf. gouldi (a different taxon) mainly suspension-feeds.•Asymbiotic Parathyasira sp. mainly feeds on sulfur-oxidizing bacteria.•Some thyasirids may farm bacteria along burrow linings and pedal feed.
ISSN:1385-1101
1873-1414
DOI:10.1016/j.seares.2018.12.005