Living in a growing host: growth pattern and dwelling formation of the scallop Pedum spondyloideum in massive Porites spp. corals

Pedum spondyloideum is a byssally attached scallop in the Indo-Pacific that lives in deep fan-shaped dwellings within live scleractinian and hydrozoan corals, with the ventral edges of the scallops’ valves protruding slightly from the dwellings. Juvenile scallops have rounded, oval shells and live i...

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Bibliographic Details
Published in:Marine biology 2020-06, Vol.167 (7), Article 95
Main Authors: Chan, Benny K. K., Tan, James C. H., Ganmanee, Monthon
Format: Article
Language:English
Subjects:
Allometry
Biodiversity
Biomedical and Life Sciences
Coral reefs
Corals
Deep-sea fans
Dwellings
Freshwater & Marine Ecology
Growth
Growth patterns
Life Sciences
Marine & Freshwater Sciences
Marine biology
Marine molluscs
Microbiology
Oceanography
Original Paper
Porites
Predation
Scallops
Secretions
Statistics
Tentacles
Tissue
Valves
Zoology
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Description
Summary:Pedum spondyloideum is a byssally attached scallop in the Indo-Pacific that lives in deep fan-shaped dwellings within live scleractinian and hydrozoan corals, with the ventral edges of the scallops’ valves protruding slightly from the dwellings. Juvenile scallops have rounded, oval shells and live in shallow depressions. Complete scallop dwellings are formed by the growth of the host and allometric growth of the scallop, and by chemical and physical interactions between the scallop and its host. Scallops were extracted intact from their dwellings within massive corals in the genus Porites in Thailand (7°36′32″ N, 98°21′55″ E; in May 2019) and Malaysia (2°45′17″ N, 104°13′30″ E; in November 2019) to examine the relationship between shell height (SH) and shell width (SW). The slope of the regression of SH on SW within the first 2 years of settlement was 0.79–0.9, indicating that SW increased slightly faster than SH during this period. As the scallop grew further, the slope of the SH on SW was 1.29–1.54, indicating that SH increased faster than SW. A histological study on scallop pallial tissue, including the tentacles, and SEM observations of the dwelling walls suggested that the scallop has secretions that damage coral tissue and widen the dwelling during growth. Thus, the distinctive fan-shaped dwellings of the adult scallops are caused by a combination of allometric scallop growth and erosion of the host tissue and dwelling walls.
ISSN:0025-3162
1432-1793
DOI:10.1007/s00227-020-03716-8