期刊
REGIONAL STUDIES IN MARINE SCIENCE
卷 46, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.rsma.2021.101900
关键词
Maxent; Ecological niche models; Environmental suitability; Sharks; Bonnethead; Scalloped hammerhead; Great hammerhead
资金
- CONACYT-Mexican Ministry of Energy-Hydrocarbon Fund [201441]
- Mexican National Council for Science and Technology (CONACYT) [765998]
Understanding the overlap between fishing operations and the distribution of exploited populations is crucial for population assessments and management measures. Ecological niche models were used to estimate the potential distribution of hammerhead sharks in the southern Gulf of Mexico, revealing high environmental suitability for bonnethead and great hammerhead sharks in shallow and intermediate waters, and for scalloped hammerhead in intermediate and deep waters within the continental shelf.
Understanding the degree to which fishing operations overlap with the distribution of exploited populations is essential for population assessments and in the formulation of management measures. Here we used ecological niche models to estimate hammerhead sharks' potential distribution that allowed the first assessment of their overlap with small-scale fishing operations in the southern Gulf of Mexico (GOM). The models were better than random models, with bathymetry as the most important predictor variable for bonnethead shark and average Chl-a for scalloped and great hammerheads. Shallow and intermediate waters of the GOM are of high environmental suitability for bonnethead shark and great hammerhead, and intermediate and deep waters within the continental shelf are more suitable for scalloped hammerhead. The spatial distribution of the small-scale fleet that operates on the western Yucatan Peninsula, southern GOM, had a high overlap with the estimated high environmental suitability of both bonnethead and great hammerhead sharks. We highlight the bonnethead shark, since its coastal habitat preference spans all ontogenetic stages, thus making it highly vulnerable to coastal anthropogenic impacts, including several small-scale fisheries. (c) 2021 Elsevier B.V. All rights reserved.
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