Impacts of stocking on the genetic diversity of Colossoma macropomum in central Amazon, Brazil

Queiroz, Cláudia Afras de; Sousa, N. R.; Silva, G.F. da; Inoue, L. A. K. A.

doi:10.4238/gmr.15027700

Cited by 11 publications

(14 citation statements)

References 26 publications

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“…While the production of C. macropomum is expanding, there are increasing concerns with regard to the maintenance of the genetic diversity of the farmed stocks, inbreeding depression, the potential of the farm stocks for the development of programs of genetic improvement, and the risk of intraspecific hybridization with wild populations. These problems have been aggravated by the history of domestication, the lack of any systematic breeding management, and the potential for interaction with wild populations in the Amazon basin, which makes the genetic improvement of existing stocks ever more necessary (Aguiar et al., ; Lopes et al., ; Queiroz, Sousa, Silva, & Inoue, ; Santos, Santana, Sá Leitão, Paula‐Silva, & Almeida‐Val, ).…”

Section: Introductionmentioning

confidence: 99%

“…This reflects a number of sampling problems, such as the regional focus of many studies, the use of markers with a poor resolution, and the inadequate or indirect sampling of the broodstocks through the analysis of the fry. In addition, the studies often overlook important aspects of the captive environment, such as reproductive patterns, the effective population size of the farmed stocks, the risks of inbreeding depression, the potential for genetic improvement based on the existing broodstock, the differences in comparison with natural populations, and the associated chances of hybridization with these populations (Aguiar et al., ; Calcagnotto & Toledo‐filho, ; Gomes et al., ; Jacometo et al., ; Lopera‐Barrero et al., ; Lopes et al., ; Queiroz et al., ; Ribeiro et al., ; Santos et al., ; dos Santos et al., ).…”

Section: Introductionmentioning

confidence: 99%

“…These problems have been aggravated by the history of domestication, the lack of any systematic breeding management, and the potential for interaction with wild populations in the Amazon basin, which makes the genetic improvement of existing stocks ever more necessary (Aguiar et al, 2013;Lopes et al, 2009;Queiroz, Sousa, Silva, & Inoue, 2016;Santos, Santana, S a Leitão, Paula-Silva, & Almeida-Val, 2016).…”

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confidence: 99%

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Loss of genetic variability in the captive stocks of tambaqui,Colossoma macropomum(Cuvier, 1818), at breeding centres in Brazil, and their divergence from wild populations

et al. 2018

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The loss of variability in farmed populations and the risks of interactions with wild populations support the need for the genetic monitoring of species farmed throughout the world. In Brazil, the tambaqui is the most widely farmed native fish species. Despite this, there are no data on the pedigree of the farmed stocks, and the potential for interactions with wild populations in the Amazon basin has raised concerns with regard to the genetic variability of these stocks. The present study analysed sequences of the mitochondrial Control Region and 12 microsatellites to characterize the genetic variability of seven historically important commercial tambaqui breeding centres located in four different regions of Brazil, and compared these sequences with those obtained from individuals collected from a wild population. High levels of genetic diversity were found in the wild population, whereas genetic diversity was reduced in both markers in most captive populations, except for the broodstock located near the Amazon River. High FST and DEST indices were recorded between the wild population and most of the captive stocks analysed. The drastic reduction in genetic diversity found in most captive stocks and the difference between these stocks and the wild population may have been the result of the small size of the founding populations and the absence of breeding management. The renewal of the broodstocks and the application of breeding management techniques are recommended. In the Amazon region, in addition, the use of broodstocks that are genetically very different from local wild populations should be avoided.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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confidence: 99%

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Loss of genetic variability in the captive stocks of tambaqui,Colossoma macropomum(Cuvier, 1818), at breeding centres in Brazil, and their divergence from wild populations

et al. 2018

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“…Total DNA and cDNA were used as templates for amplification. The DNA was extracted from tambaqui fin samples as described by de Queiroz et al (2016), and the cDNA was transcribed from total RNA isolated from the ovary. Cloning was performed in a pGEM-T Easy vector, and sequencing was performed in a 3500 Genetic Analyzer (Applied Byosystems ® ).…”

Section: Gene Cloning and Sequencingmentioning

confidence: 99%

SHORT-COMMUNICATION Validation of reference genes for real-time quantitative PCR in tambaqui (Colossoma macropomum)

et al. 2016

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Tambaqui, Colossoma macropomum, is the main native freshwater fish in Brazilian aquaculture. Therefore, intensive research pressure has been applied to the species to support new technologies for tambaqui farming. Molecular biology represents a tool that can be used to investigate every field of applied biology, from fish physiology to the effects of climate change. Based on the importance of reference genes for the relative or absolute quantification of gene transcripts, we cloned and sequenced three candidate reference genes in tambaqui (18S ribossomal RNA - 18s, glyceraldehyde-3-phosphate dehydrogenase - gapdh, and actin beta - β-actin), and validated a set of primers for each gene for use in real-time quantitative PCR. The results were evaluated by RefFinder, which indicated that β-actin is the most suitable reference gene for tambaqui among those studied, followed by 18s.

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“…P. Aguiar et al, 2013;2018;N.M. Lopera-Barrero et al, 2015;Queiroz, Souza, da Silva, & Inoue, 2016;Ribeiro et al, 2016;Fazzi-Gomes et al, 2017). M. C. F. Santos et al (2007) and Fazzi- Gomes et al (2017) found high genetic variability in natural populations when compared to cultivated stock and little genetic differentiation and high gene flow between populations, indicating that these natural populations form a large panmictic population in the tributary system of the Amazon River.…”

Section: Introductionmentioning

confidence: 99%

Genetic characterization of tambaqui stocks from two pisciculture stations in the lower São Francisco River

Melo¹,

Nascimento²,

Corrêa³

et al. 2020

Semina: Ciênc. Agrár.

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Pisciculture has been an important part of the economy in many regions of Brazil, and the tambaqui (Colossoma macropomum) stands out as one of the country’s most commercialized native freshwater fish species. Loss of genetic variability can affect characteristics such as reproduction and growth rates, as well as disease resistance and is of great concern in this field. Molecular markers such as mitochondrial DNA genes have been increasingly used to understand genetic variability in species of economic importance. This study aimed to characterize the genetic variability of tambaqui populations reared in two fish farms (Itiúba, AL and Betume, SE) of the lower São Francisco River by analyzing the control region and ATPase genes of mitochondrial DNA. Sequencing of samples from progenies and breeding individuals identified 42 haplotypes (32 unique), of which four haplotypes were shared between the two fish farms as a result of a founder effect, because individuals from Itiúba formed the stock of the Betume fish farming Station. Haplotype diversity was high in both locations. Analysis of Molecular Variance (AMOVA) revealed greater genetic variation within populations (96.76%) than between them (3.24%) and the FST value (0.03) indicated low genetic differentiation between the two populations. The observed high genetic variability can be explained by the number of breeders in the two fish farms (200 in Itiúba and 1400 in Betume) and the breeding management system, which seems to be effective in maintaining stock variability.

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Impacts of stocking on the genetic diversity of Colossoma macropomum in central Amazon, Brazil

Cited by 11 publications

References 26 publications

Loss of genetic variability in the captive stocks of tambaqui,Colossoma macropomum(Cuvier, 1818), at breeding centres in Brazil, and their divergence from wild populations

Loss of genetic variability in the captive stocks of tambaqui,Colossoma macropomum(Cuvier, 1818), at breeding centres in Brazil, and their divergence from wild populations

SHORT-COMMUNICATION Validation of reference genes for real-time quantitative PCR in tambaqui (Colossoma macropomum)

Genetic characterization of tambaqui stocks from two pisciculture stations in the lower São Francisco River

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