Using integrative taxonomy to distinguish cryptic halfbeak species and interpret distribution patterns, fisheries landings, and speciation

Context Management of Rita rita (Hamilton) in India is hampered by a lack of understanding of possible stock structure. Aim To investigate possible spatial stock structure of Rita rita in the Ganges Basin. Methods Independent analyses of landmark-based truss morphometry, otolith elemental analysis and otolith shape were conducted to investigate the stock structure of the catfish (Rita rita) from the Ganga River and its tributaries Yamuna and Ramganga. Key results Each of the stock-delineation approaches, namely, truss morphometrics, otolith elemental composition and otolith shape, showed significant differences among the fish groups from three sampling locations (P ≤ 0.003). Despite these differences, reclassification analyses showed variable (although all greater than random) reclassification rates (truss morphometry: 78%, otoliths elemental data: 98%, otolith shape: 50%). Conclusions An integrated view of the three analyses suggested spatial structuring and that there may be multiple stocks of Rita rita in the Ganges Basin. Implications Future investigations should consider possible variations in demographic parameters that may affect fisheries management. The multiple-lines-of-evidence approach taken in this study can serve as a template for studies of other species in any region.

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A new discovery of cryptic species in barred sand burrower Limnichthys fasciatus (Pisces: Creediidae) from the western Pacific, with evolutionary perspectives of anti‐equatorial species

Lee,

Kim

2024

Journal of Fish Biology

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Although the barred sand burrower, Limnichthys fasciatus, is widely distributed throughout the western Pacific, including Japan, Taiwan, and Australia, its morphology and genetics are poorly known. We discovered four cryptic species of Limnichthys from the western Pacific based on mtDNA cytochrome c oxidase subunit I (COI) and 16S ribosomal RNA (rRNA) sequences. Genetic distances showed remarkably large differences (12.7%–24.3% in COI and 7.9%–19.6% in 16S rRNA) between true L. fasciatus (type locality: southeastern Australia) and the others. A relaxed clock model with optimized selected substitution models showed that their deep divergence began in the middle Miocene epoch and subsequently diverged into the current cryptic species in the Plio‐Pleistocene. A eurythermal common ancestor may have evolved independently in each region due to geographical events and paleoclimatic fluctuations, which made it possible for L. fasciatus complex to be an anti‐equatorial species. Despite their deep genetic divergence, they showed marked phenotypic similarity, suggesting that they have experienced similar selective pressures related to their specific behavior.

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Using integrative taxonomy to distinguish cryptic halfbeak species and interpret distribution patterns, fisheries landings, and speciation

Cited by 4 publications

References 77 publications

Phylogenetic and genetic variation of common mudskippers (Periophthalmus kalolo Lesson, 1831) from the southern coast of Java, Indonesia inferred from the COI mitochondrial gene

Phylogenetic and genetic variation of common mudskippers (Periophthalmus kalolo Lesson, 1831) from the southern coast of Java, Indonesia inferred from the COI mitochondrial gene

Evidence of multiple stocks of catfish, Rita rita (Hamilton), from the Ganges Basin on the basis of an integrated analysis of truss morphometrics, otolith microchemistry, and otolith shape

A new discovery of cryptic species in barred sand burrower Limnichthys fasciatus (Pisces: Creediidae) from the western Pacific, with evolutionary perspectives of anti‐equatorial species

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