RESUMO
Cyphocharax magdalenae, a Colombian freshwater fish species, plays a vital role in nutrients distribution and serves as a significant food source for other fish species and local fishing communities. Considered a short-distance migratory species, C. magdalenae populations face substantial extinction risk due to human activities impacting their habitats. To address the lack of knowledge on genetic diversity and population structure, this study used next-generation sequencing technology to develop species-specific microsatellite loci and conducted a population genetics analysis of C. magdalenae in the middle and lower sections of the Cauca River, Colombia. Out of 30 pairs of microsatellite primers evaluated in 324 individuals, 14 loci were found to be polymorphic, at linkage equilibrium and, in at least one population, their genotypic frequencies were in Hardy-Weinberg equilibrium. Results showed high genetic diversity levels compared to other neotropical Characiformes, with inbreeding coefficients similar to those reported for phylogenetically related species. Moreover, C. magdalenae exhibits seasonal population structure (rainy-dry) consisting of two genetic stocks showing bottleneck signals and high effective population sizes. This information is essential for understanding the current species genetics and developing future management programs for this fishery resource.
Assuntos
Caraciformes , Rios , Animais , Humanos , Colômbia , Caraciformes/genética , Genética Populacional , Repetições de Microssatélites/genética , Loci Gênicos , Variação GenéticaRESUMO
Pimelodus grosskopfii and Pimelodus yuma, two species endemic to the Magdalena-Cauca basin in Colombia, overlap in the ranges of some of their diagnostic characters, which hampers their correct morphological identification. Aiming to help discriminate these species, this study conducted an integrative analysis using traditional and geometric morphometrics, phylogenetic analysis based on partial sequences of the mitochondrial cytochrome c oxidase subunit 1 gene (COI, cox1) and the identification of diagnostic Single Nucleotide Polymorphism markers (SNP). The species differ significantly in body geometry, allowing 100% discrimination, which was reinforced by a phylogenetic analysis that recovered well-supported monophyly of each species (posterior probability > 0.95). Additionally, the traditional morphometric results corroborated some previously reported diagnostic traits for both species and let us describe one non-overlapping ratio related to the adipose fin length. Three of five SNP markers had reciprocally exclusive alleles suitable for identifying each species. The morphometric and molecular methods conducted in this study constitute alternative tools for the correct discrimination of P. grosskopfii and P. yuma in the wild and in captive populations used for aquaculture.(AU)
Pimelodus grosskopfii y Pimelodus yuma, dos especies endémicas de la Cuenca Magdalena-Cauca en Colombia, se superponen en los rangos de variación de algunos de sus caracteres diagnósticos, lo que dificulta su correcta diferenciación morfológica. Con el objetivo de contribuir a la discriminación de estas especies, se realizó un análisis integrativo utilizando la morfometría geométrica y tradicional, análisis filogenético basado en secuencias parciales del gen mitocondrial citocromo c oxidasa subunidad I (COI, cox1) y la identificación de marcadores diagnósticos de polimorfismo de nucleótido único (SNP). Las especies difieren significativamente en la geometría del cuerpo, permitiendo una discriminación del 100%, lo que fue reforzado por un análisis filogenético que recuperó una monofilia bien soportada para cada especie (probabilidad posterior > 0,95). Además, los resultados de la morfometría tradicional corroboraron algunos rasgos diagnósticos previamente reportados para ambas especies y nos permitieron describir una proporción que no se sobrepone, relacionada con la longitud de la aleta adiposa. Tres de los cinco marcadores SNP poseían alelos recíprocamente exclusivos, adecuados para identificar cada especie. Los métodos morfométricos y moleculares implementados en este estudio constituyen herramientas alternativas para la correcta discriminación de P. grosskopfii y P. yuma tanto en la naturaleza como en poblaciones cautivas utilizadas para la acuicultura.(AU)