Biology and epibiont community of the red decorator crab, Schizophrys aspera, on the southern Great Barrier Reef

Organismal symbioses are fundamental to biodiversity, evolution, and ecosystem functioning. On coral reefs, many decapod species have formed distinct epibiotic symbioses through decoration tendencies that enhance diet, camouflage, and defence. The red decorator crab, Schizophrys aspera (Majidae: Dec...

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Bibliographic Details
Published in:Coral reefs 2024-04, Vol.43 (2), p.455-466
Main Authors: Goodhill, Clare, Desbiens, Amelia A., Wolfe, Kennedy
Format: Article
Language:English
Subjects:
Algae
Aquatic crustaceans
Barrier reefs
Biochemistry
Biodiversity
Biology
Biomedical and Life Sciences
Camouflage
Carapace
Chemical defence
Chemical defense
Coral reefs
Crabs
Crustaceans
Cryptodromiopsis antillensis
Decoration
Diet
Ecological function
Ecology
Ecosystem biology
Freshwater & Marine Ecology
Juveniles
Life Sciences
Marine crustaceans
Marine invertebrates
Oceanography
Organisms
Predation
Predators
Schizophrys aspera
Sponges
Symbiosis
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Summary:Organismal symbioses are fundamental to biodiversity, evolution, and ecosystem functioning. On coral reefs, many decapod species have formed distinct epibiotic symbioses through decoration tendencies that enhance diet, camouflage, and defence. The red decorator crab, Schizophrys aspera (Majidae: Decapoda), has a broad Indo-Pacific distribution and is a successful predator of juvenile crown-of-thorns seastars (CoTS; Acanthaster sp.). However, little is known of the biology and decorating symbioses of S. aspera on the Great Barrier Reef (GBR), where CoTS pose ongoing management challenges. We characterised S. aspera and its epibiont community collected in coral rubble patches on the southern GBR. S. aspera predominantly used sponges (94 ± 1%; mean ± SE) in its decoration, with greater proportions of the carapace covered for juveniles (58 ± 5%) and females (46 ± 4%) compared to males (24 ± 4%). In short-term (8-d) experiments, S. aspera substantially reduced sponge (31%) and algal (47%) cover on rubble pieces, demonstrating its potential to alter sessile communities. The close association of S. aspera with sponges and algae likely reflects its diet and enhances camouflage and chemical defence in its coral rubble niche on the GBR. As sessile taxa are often noxious, we postulate that these symbioses may confer resilience of S. aspera to plancitoxins in its consumption of CoTS. Evaluating how epibiont diversity and biochemistry shape the habitat associations, distribution, and role of S. aspera as predator and prey may be important to understanding its ability to mediate CoTS densities on the GBR and elsewhere.
ISSN:0722-4028
1432-0975
DOI:10.1007/s00338-024-02479-8