Publication: Population dynamics, habitat use and trapping efficiency of the invasive crab Callinectes sapidus in a Mediterranean hypersaline coastal lagoon
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Date
2025-10-07
Authors
Herrero Reyes, Antonio A. ; Guerrero Gómez, Adrián ; Zamora López, Antonio ; Torralva, Mar ; Zamora Marín, José Manuel ; Oliva Paterna, Francisco José
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Publisher
Pensoft Publishers
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DOI
https://doi.org/10.3897/neobiota.102.148388
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info:eu-repo/semantics/article
Description
Abstract
The blue crab (Callinectes sapidus) has rapidly invaded several coastal lagoons along the Western Mediterranean. However, there are still no comprehensive assessments of its population biology, habitat use and trapping efficiency in critical habitats. A two-year study (November 2021 – September 2023) was conducted in a natural corridor zone placed between the hypersaline Mar Menor coastal lagoon and the Mediterranean Sea. Our main goal was to assess the population structure, habitat use and trapping efficiency (four types of traps) of the blue crab. The blue crab shows a population dynamic and structure that reflects its full settlement and reproductive movements across the study area. Most
captures corresponded to adults and subadults, peaking in summer, and largest crabs were recorded in November. A significant relationship was found between crab size, habitat type (Cymodocea nodosa meadows, Caulerpa prolifera meadows and bare substrates) and trap effectiveness. Trapping efficiency varied with both habitat characteristics and crab size, showing a positive relationship of juveniles and adults with muddy substrates, while water depth had a negative influence on juveniles and subadults. However, results supported great plasticity at the microhabitat scale. Fyke nets were identified as the most effective trapping method. Trap type significantly affected the number of captures as a function of crab size and sex, with subadults and females being predominantly captured in fyke nets. These findings provide novel insights into the species’ population biology in invaded regions and cost-efficient control methods, enabling the design of priority management strategies in shallow waters to minimize impacts from crab invasions and to ensure ecological integrity.
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Citation
NeoBiota 102: 351–375 (2025)
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