1. Adapted to change: The rapid development of symbiosis in newly settled, fast-maturing chemosymbiotic mussels in the deep sea.
- Author
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Laming SR, Duperron S, Gaudron SM, Hilário A, and Cunha MR
- Subjects
- Animals, Atlantic Ocean, In Situ Hybridization, Fluorescence, Mytilidae anatomy & histology, Mytilidae growth & development, Portugal, Adaptation, Physiological, Bacterial Physiological Phenomena, Ecosystem, Mytilidae microbiology, Mytilidae physiology, Symbiosis
- Abstract
Symbioses between microbiota and marine metazoa occur globally at chemosynthetic habitats facing imminent threat from anthropogenic disturbance, yet little is known concerning the role of symbiosis during early development in chemosymbiotic metazoans: a critical period in any benthic species' lifecycle. The emerging symbiosis of Idas (sensu lato) simpsoni mussels undergoing development is assessed over a post-larval-to-adult size spectrum using histology and fluorescence in situ hybridisation (FISH). Post-larval development shows similarities to that of both heterotrophic and chemosymbiotic mussels. Data from newly settled specimens confirm aposymbiotic, planktotrophic larval development. Sulphur-oxidising (SOX) symbionts subsequently colonise multiple exposed, non-ciliated epithelia shortly after metamorphosis, but only become abundant on gills as these expand with greater host size. This wide-spread bathymodiolin recorded from sulphidic wood, bone and cold-seep habitats, displays a suite of adaptive traits that could buffer against anthropogenic disturbance., (Copyright © 2015 Elsevier Ltd. All rights reserved.)
- Published
- 2015
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