Celeste Osiris Montoya Ponce, Apolinar Santamaría Miranda, José Ángel Trigueros Salmerón, Juan Pablo Apún Molina, Francisco Guadalupe Valenzuela Orduño, Refugio Riquelmer Lugo Gamboa
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The growth rates were K = 0.320, K = 0.160, and K = 0.440 for C. viridis, C. nigrescens, and C. medius, respectively. Individual growth was 1.8 g/day for C. viridis, 1.47 g/day for C. nigrescens, and 0.91 g/day for C. medius. The length-to-weight ratio indicated negative allometric growth (b = 2.82, b = 2.72, and b = 2.73, respectively) for C. viridis, C. nigrescens, and C. medius. The simulation for possible commercial cultivation reflected varied sizes: 600 g for C. viridis and C. nigrescens and 400 g for C. medius. The financial projection of C. viridis produced IRRs of 14% and 48% in captured fishing and aquaculture models, respectively, with positive NPV. However, simulations for C. nigrescens and C. medius were not economically viable. We conclude that, according to the aquaculture model, the most financially feasible species to farm in the north of Sinaloa is C. viridis, which showed the highest growth based on fishery data compared to those for C. nigrescens and C. medius.","PeriodicalId":12405,"journal":{"name":"Fishes","volume":null,"pages":null},"PeriodicalIF":2.1000,"publicationDate":"2024-01-18","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Bioeconomic Analysis of Snook Centropomus viridis, C. nigrescens, and C. medius for the Development of Mariculture in Northern Sinaloa\",\"authors\":\"Celeste Osiris Montoya Ponce, Apolinar Santamaría Miranda, José Ángel Trigueros Salmerón, Juan Pablo Apún Molina, Francisco Guadalupe Valenzuela Orduño, Refugio Riquelmer Lugo Gamboa\",\"doi\":\"10.3390/fishes9010039\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The bioeconomy offers an opportunity to implement a truly sustainable global economy based on biological resources, which, thanks to biotechnologies, become renewable. In this study, we conducted a bioeconomic analysis of the three most important species of sea snook in northern Sinaloa using fishery and mathematical models to support the selection of the species with the highest growth and feasibility. Our results showed a condition factor lower than 1 (K < 1) for the three species. The size condition factor was higher in younger organisms for the three snook species. The growth rates were K = 0.320, K = 0.160, and K = 0.440 for C. viridis, C. nigrescens, and C. medius, respectively. Individual growth was 1.8 g/day for C. viridis, 1.47 g/day for C. nigrescens, and 0.91 g/day for C. medius. The length-to-weight ratio indicated negative allometric growth (b = 2.82, b = 2.72, and b = 2.73, respectively) for C. viridis, C. nigrescens, and C. medius. The simulation for possible commercial cultivation reflected varied sizes: 600 g for C. viridis and C. nigrescens and 400 g for C. medius. The financial projection of C. viridis produced IRRs of 14% and 48% in captured fishing and aquaculture models, respectively, with positive NPV. However, simulations for C. nigrescens and C. medius were not economically viable. 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引用次数: 0
摘要
生物经济为在生物资源的基础上实现真正可持续的全球经济提供了机会,而生物资源在生物技术的作用下是可再生的。在这项研究中,我们利用渔业和数学模型对锡那罗亚州北部三个最重要的海蛇鱼种进行了生物经济分析,以支持选择具有最高生长速度和可行性的鱼种。结果显示,这三个鱼种的条件系数均低于 1(K < 1)。这三种塘鲉的体型条件因子在年轻生物中较高。箭鱼、黑箭鱼和中箭鱼的生长率分别为 K = 0.320、K = 0.160 和 K = 0.440。C. viridis 的个体生长量为 1.8 克/天,C. nigrescens 为 1.47 克/天,C. medius 为 0.91 克/天。长度重量比显示,C. viridis、C. nigrescens 和 C. medius 的负异速生长(b = 2.82、b = 2.72 和 b = 2.73)。可能的商业栽培模拟反映了不同的大小:C. viridis 和 C. nigrescens 为 600 克,C. medius 为 400 克。在捕获捕捞和水产养殖模型中,C. viridis 的财务预测产生的内部收益率分别为 14% 和 48%,净现值为正值。然而,对 C. nigrescens 和 C. medius 的模拟在经济上并不可行。我们的结论是,根据水产养殖模型,在锡那罗亚北部养殖经济上最可行的物种是 C. viridis,根据渔业数据,与 C. nigrescens 和 C. medius 相比,C. viridis 的增长率最高。
Bioeconomic Analysis of Snook Centropomus viridis, C. nigrescens, and C. medius for the Development of Mariculture in Northern Sinaloa
The bioeconomy offers an opportunity to implement a truly sustainable global economy based on biological resources, which, thanks to biotechnologies, become renewable. In this study, we conducted a bioeconomic analysis of the three most important species of sea snook in northern Sinaloa using fishery and mathematical models to support the selection of the species with the highest growth and feasibility. Our results showed a condition factor lower than 1 (K < 1) for the three species. The size condition factor was higher in younger organisms for the three snook species. The growth rates were K = 0.320, K = 0.160, and K = 0.440 for C. viridis, C. nigrescens, and C. medius, respectively. Individual growth was 1.8 g/day for C. viridis, 1.47 g/day for C. nigrescens, and 0.91 g/day for C. medius. The length-to-weight ratio indicated negative allometric growth (b = 2.82, b = 2.72, and b = 2.73, respectively) for C. viridis, C. nigrescens, and C. medius. The simulation for possible commercial cultivation reflected varied sizes: 600 g for C. viridis and C. nigrescens and 400 g for C. medius. The financial projection of C. viridis produced IRRs of 14% and 48% in captured fishing and aquaculture models, respectively, with positive NPV. However, simulations for C. nigrescens and C. medius were not economically viable. We conclude that, according to the aquaculture model, the most financially feasible species to farm in the north of Sinaloa is C. viridis, which showed the highest growth based on fishery data compared to those for C. nigrescens and C. medius.
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