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Abstract Background: Piracanjuba (Brycon orbignyanus) is a fish species highly affected by anthropogenic actions such as overfishing, water pollution, and hydroelectric developments. This species is currently considered in danger of extinction. Objective: To analyze the genetic diversity of a natural population (NP) and two captive broodstocks (SA and SB) of B. orbignyanus. Methods: Samples of caudal fins (NP: 24, SA: 30, and SB: 30) were collected. DNA was extracted and amplified for six RAPD primers and four microsatellite loci. Results: Sixty polymorphic fragments and 17 microsatellite alleles were detected. High intrapopulation heterozygosity (NP: 0.692, SA: 0.724, and SB: 0.686) was observed. Thirty-eight fragments and six alleles were shared among NP, SA, and SB. The FIS and Shannon's Index of diversity revealed a lack of inbreeding within groups. AMOVA analyses and FST indicated very high (NP vs SA and SB) and small (SA vs SB) genetic differentiation, confirmed by genetic distance and identity, number of migrants and a dendrogram, which revealed the formation of two genetic groups. Conclusions: The two marker types showed similar variability. The groups have adequate genetic variability, with high differentiation between NP and SA-SB, and similarity between broodstocks.
Resumen Antecedentes: Piracanjuba (Brycon orbignyanus) es una especie de pez fuertemente impactada por acciones antrópicas como sobrepesca, contaminación del agua y proyectos hidroeléctricos. Esta especie está considerada en peligro de extinción. Objetivo: Analizar la diversidad genética de una población natural (NP) y de dos lotes de reproductores (SA y SB) de B. orbignyanus en cautiverio. Métodos: Se colectaron 84 muestras de aleta caudal (NP: 24, SA: 30 y SB: 30). El ADN fue extraído y amplificado para seis cebadores RAPD y cuatro loci microsatélites. Resultados: Se obtuvieron 60 fragmentos polimórficos y 17 alelos microsatélites. Se observó alta heterocigosidad intra-poblacional (NP: 0,692; SA: 0,724 y SB: 0,686). Treinta y ocho fragmentos y seis alelos fueron compartidos entre NP, SA y SB. Los valores de FIS e índice de Shannon mostraron ausencia de endogamia entre los grupos. Los análisis de ANOVA y FST indicaron alta (NP vs SA y SB) y pequeña (SA vs SB) diferenciación genética; resultados confirmados por la distancia e identidad genética, número de migrantes y dendograma, evidenciando la formación de dos grupos genéticos. Conclusiones: Los grupos poseen adecuada variabilidad genética, con alta diferenciación entre NP vs SA-SB y similitud entre los lotes de reproductores.
Resumo Antecedentes: Piracanjuba (Brycon orbignyanus) é uma espécie peixe fortemente impactada por ações antrópicas como sobrepesca, poluição e construção de hidrelétricas. Atualmente, essa espécie engloba a lista de peixes que correm perigo de extinção. Objetivo: Analisar a diversidade genética de uma população natural (NP) e de dois estoques de reprodutores em cativeiro (SA e SB) de B. orbignyanus. Métodos: Foram coletadas amostras de nadadeira caudal de 84 indivíduos (NP: 24, SA: 30 e SB: 30). O DNA foi extraido e amplificado para seis primers RAPD e quatro loci microssatélites. Resultados: Foram obtidos 60 fragmentos polimórficos e 17 alelos microssatélites. Foi observada uma alta heterozigosidade intra-populacional (NP: 0,692; SA: 0,724 e SB: 0,686). Trinta e oito fragmentos e seis alelos foram compartilhados entre NP, SA e SB. Os valores de FIS e índice de Shannon demonstraram ausência de endogamia entre os grupos. As análises de AMOVA e FST indicaram alta (NP vs SA e SB) e pequena (SA vs SB) diferenciação genética, resultados confirmados pela distância e identidade genética, número de migrantes e dendrograma, que evidenciaram a formação de dois grupamentos genéticos. Conclusões: Os grupos possuem adequada variabilidade genética, com alta diferenciação entre NP e SA-SB e similaridade entre os estoques de reprodutores.
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Research in reintroduction biology has provided a greater understanding of the often limited success of species reintroductions and highlighted the need for scientifically rigorous approaches in reintroduction programs. We examined the recent genetic-based captive-breeding and reintroduction literature to showcase the underuse of the genetic data gathered. We devised a framework that takes full advantage of the genetic data through assessment of the genetic makeup of populations before (past component of the framework), during (present component), and after (future component) captive-breeding and reintroduction events to understand their conservation potential and maximize their success. We empirically applied our framework to two small fishes: Yarra pygmy perch (Nannoperca obscura) and southern pygmy perch (Nannoperca australis). Each of these species has a locally adapted and geographically isolated lineage that is endemic to the highly threatened lower Murray-Darling Basin in Australia. These two populations were rescued during Australia's recent decade-long Millennium Drought, when their persistence became entirely dependent on captive-breeding and subsequent reintroduction efforts. Using historical demographic analyses, we found differences and similarities between the species in the genetic impacts of past natural and anthropogenic events that occurred in situ, such as European settlement (past component). Subsequently, successful maintenance of genetic diversity in captivity-despite skewed brooder contribution to offspring-was achieved through carefully managed genetic-based breeding (present component). Finally, genetic monitoring revealed the survival and recruitment of released captive-bred offspring in the wild (future component). Our holistic framework often requires no additional data collection to that typically gathered in genetic-based breeding programs, is applicable to a wide range of species, advances the genetic considerations of reintroduction programs, and is expected to improve with the use of next-generation sequencing technology.
Assuntos
Cruzamento , Conservação dos Recursos Naturais , Austrália , Variação GenéticaRESUMO
Objective. The aim of this study was evaluate the genetic diversity of the following broodstocks: piapara (Leporinus elongatus), dourado (Salminus brasiliensis), jundiá (Rhamdia quelen) and cachara (Pseudoplatystoma fasciatum) already useful for restocking programs in the Paranapanema, Iguaçu and Paraná Brazilian Rivers. Materials and methods. Samples from the caudal fin of 122 fish were analyzed. DNA was extracted by NaCl protocol. PCR products were separated by a horizontal agarose gel electrophoresis. The fragments were visualized by staining with ethidium bromide. Results. The amplification of 25 primers generated different fragments in studied species that allowed characterizing 440 fragments of 100-2900 bp. High percentage of polymorphic fragments (66.67 to 86.29), Shannon index (0.365 to 0.486) and genetic diversity of Nei (0.248 to 0.331) were detected. Conclusions. The level of genetic variability in the broodstocks was adequate for allowing their use in restocking programs in the studied Rivers. However, periodical monitoring studies of genetic variability in these stocks, the mating system, reproductive system and general management must be made to guarantee the preservation of wild populations.
Objetivo. El objetivo de este estudio fue evaluar la diversidad genética de los siguientes lotes de reproductores: piapara (Leporinus elongatus), dourado (Salminus brasiliensis), jundiá (Rhamdia quelen) y cachara (Pseudoplatystoma fasciatum) utilizados para programas de repoblación en los ríos brasileños Paranapanema, Iguaçu y Paraná. Materiales y métodos. Muestras de aleta caudal de 122 peces fueron analizadas. El ADN fue extraído por el protocolo de NaCl. Los productos de PCR fueron separados por electroforesis horizontal en gel de agarosa. Los fragmentos fueron visualizados por marcación con bromuro de etidio. Resultados. La amplificación de los 25 iniciadores produjo diferentes fragmentos en las especies estudiadas que permitieron caracterizar 440 fragmentos de 100 a 2900 pb. Fueron detectados un alto porcentaje de fragmentos polimórficos (66.67 a 86.29), de índice de Shannon (0.365 a 0.486) y de diversidad genética de Nei (0.248 a 0.331). Conclusiones. El nivel de variabilidad genética en los lotes de reproductores fue adecuado para su utilización en programas de repoblación en los ríos estudiados. Sin embargo, estudios de monitoreo periódico de la variabilidad genética en esos lotes, del sistema de cruzamiento, del sistema reproductivo y del manejo general deben ser realizados para garantizar la preservación de las populaciones naturales.
Assuntos
Reprodução , BrasilRESUMO
Sex-determination methods are very diverse as they have become an enduring research field. Understanding the causes of gonadal development and elucidating the main factors involved in sex-determination of offspring required relating information from far-ranging areas such as cytology, embryology, morphology, molecular biology and even ecology and evolution. This article presents an overview of sex-determination in placental mammals, encompassing several levels of biological organization. The importance of the underlying molecular tools in the context of sex-determination assays and their implications in conservation genetics is also discussed.
Los sistemas de determinación de sexo son muy diversos y en consecuencia se ha aumentado la investigación en este campo. Entender el desarrollo gonadal y elucidar los factores involucrados en la determinación de sexo de la descendencia ha requerido tomar información de aéreas como: citología, embriología, morfología, biología molecular e incluso de ecología y evolución. Este artículo presenta una visión de los mecanismos de determinación de sexo en mamíferos placentarios, abarcando algunos niveles de organización biológica. También se discute la importancia de las herramientas moleculares en las pruebas de determinación del sexo y sus implicaciones en conservación genética.
