Shell death and density influences habitat use of intertidal pinnid (Pinna bicolor) ecosystems
Bivalve aggregations shape coastal ecosystems, yet their influence in soft‑bottom habitats remains understudied. In a temperate Australian estuary, researchers examined how live and dead razor clams (Pinna bicolor) structure fish and invertebrate assemblages. Using shell scrapings, infauna cores, sweep nets, unbaited video and squidpops, they found that pinnid beds significantly increased structural complexity and faunal diversity in otherwise homogeneous sediments. Species abundances varied with pinnid mortality status and density, with densities above 10 clams per m² optimizing benthic and epifaunal habitat functions. Aggregations provided settlement surfaces, refugia and trophic resources, benefiting fisheries‑targeted species. Results highlight the ecological importance of Pinnidae ecosystems and point to opportunities for improved habitat management and conservation.
Subject Tags
- Coastal
- Ecosystem management
- Wildlife
Abstract
Extensive bivalve aggregations, including shellfish reefs and beds, influence the structure and functions of coastal environments. In soft-bottom habitats, bivalves contribute consolidated structures which can influence species distributions, often long after bivalve death. Understanding this process is essential to inform habitat management and conservation efforts. Here, we describe how intertidal razor clams Pinna bicolor (Pinnidae) influence fish and invertebrate assemblages within a temperate Australian estuary. Specifically, we assessed how pinnid mortality status (dead and alive) and density influenced assemblage habitat use. Assemblages were assessed using a combination of shell scrapings, infauna cores, sweep nets, unbaited video stations and squidpops. Evidence from multiple methods demonstrated that pinnids underpinned structural and faunal species diversity in an otherwise homogenous benthic environment. Fauna species abundances varied with pinnid mortality status and density. Pinnid aggregations provided settlement surfaces, refugia and trophic resources that facilitated a range of sessile and mobile organisms. This benefited fisheries-targeted fish and decapod species which used this habitat for foraging based on video monitoring and predation assays. Additionally, densities of > 10 pinnids m−2 optimised the facilitation of benthic and epifaunal habitat functions. Further studies of Pinnidae ecosystems, incorporating broader seascape assessments, will improve knowledge of their habitat use by mobile species. Our results illustrate how Pinna bicolor aggregations can influence intertidal species assemblages, and identified opportunities for improved Pinnidae ecosystem management.
Citation
Martin, B., Huveneers, C., Reeves, S., & Baring, R. (2025). Shell death and density influences habitat use of intertidal pinnid (Pinna bicolor) ecosystems. Estuaries and Coasts, 48(4), 100. https://doi.org/10.1007/s12237-025-01539-8
TNC Authors
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Simon Reeves
The Nature Conservancy