Genealogical structure and genetic variability: A step towards conservation of white Morada Nova sheep in semi-arid region

Q3 Agricultural and Biological Sciences

Ecological Genetics and Genomics Pub Date : 2024-05-06 DOI:10.1016/j.egg.2024.100256

Daniel Caetano Sales , José Ernandes Rufino de Sousa , Marcos Aurelio Victor de Assunção , Natanael Silva Félix , Bianca Ferreira do Nascimento , Wanderson Lucas Alves dos Santos , Antonia Gessica Beatriz de Araujo Noronha , Robson Mateus Freitas Silveira , Concepta McManus , Débora Andréa Evangelista Façanha

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Abstract

Morada Nova breed has a low effective herd, and its white variety is in risk of extinction in Brazilian semi-arid region. This study aimed to evaluate white Morada Nova sheep’s genetic variability and population structure in four flocks. These are the only flocks in the world. The assessed parameters of pedigree integrity and a genealogy record of 219 animals. 44.74 % did not have pedigree information on their mother or father, and 50.47 % did not have available information on their grandparents. 52.97 % had a pedigree in their first ancestry (obtained through the average of known parents), 23.74 % in the second, 13.58 % in the third, and 5.33 % in the fourth. The effective size was 10.7, considering the complete equivalent generation. The effective number of founding animals (fe) and ancestors (fa) was 10, indicating the effective participation of all founding animals in the population over the generations, reducing losses of genetic variability. Out of all the ancestors, only 3 explained 50 % of the population’s genetic variability, reflecting the low values of fa and fe. The population’s average inbreeding and kinship coefficients were 2.61 and 4.54. The F statistics of Wright, Fis, Fst, and Fit, were −0.012, 0.016, and 0.003. The genetic conservation index (GCI) had an average of 2.01 ± 1.29, with minimum and maximum values of 1.0 and 6.38, respectively. Approximately, 71 % of the population had GCI below 2.0, while only 5.9 % of sheep had an GCI bigger than 5.0. This indicates the absence of sub-structures inf the population. There is no population subdivision, considering the genealogical structure of the evaluated flocks. The inbreeding and kinship coefficient values are controlled and serve as a starting point for establishing a future management plan for the genetic variability of the flock. It is recommended to use strategies to increase the effective population size, to meet the minimum number recommended by FAO and to promote the conservation and genetic improvement of the breed.

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家系结构和遗传变异：保护半干旱地区莫拉达诺瓦白羊的一个步骤

Morada Nova 品种的有效群数较低，其白色品种在巴西半干旱地区面临灭绝的危险。本研究旨在评估四个羊群中 Morada Nova 白羊的遗传变异性和种群结构。这些羊群是世界上唯一的羊群。该研究评估了 219 头羊的血统完整性参数和系谱记录。44.74%的牲畜没有其母亲或父亲的血统信息，50.47%的牲畜没有其祖父母的信息。52.97%的动物在第一代祖先中有血统信息（通过已知父母的平均值获得），23.74%的动物在第二代祖先中有血统信息，13.58%的动物在第三代祖先中有血统信息，5.33%的动物在第四代祖先中有血统信息。考虑到完整的等价世代，有效规模为 10.7。始祖动物（fe）和祖先（fa）的有效数量为 10，这表明所有始祖动物都有效参与了种群的世代交替，从而减少了遗传变异的损失。在所有祖先中，只有 3 个祖先解释了种群遗传变异的 50%，反映了 fa 和 fe 值较低。种群的平均近交系数和亲缘系数分别为 2.61 和 4.54。Wright、Fis、Fst 和 Fit 的 F 统计量分别为 -0.012、0.016 和 0.003。遗传保护指数（GCI）的平均值为 2.01 ± 1.29，最小值和最大值分别为 1.0 和 6.38。大约 71% 的羊群的遗传保护指数低于 2.0，只有 5.9% 的羊群的遗传保护指数大于 5.0。这表明种群中不存在亚结构。从被评估羊群的系谱结构来看，种群没有细分。近亲繁殖和亲缘关系系数值是可控的，可作为未来制定羊群遗传变异管理计划的起点。建议采用增加有效种群数量的策略，以达到粮农组织建议的最低数量，并促进该品种的保护和遗传改良。

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来源期刊

Ecological Genetics and Genomics Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics

CiteScore

1.80

自引率

0.00%

发文量

期刊介绍： Ecological Genetics and Genomics publishes ecological studies of broad interest that provide significant insight into ecological interactions or/ and species diversification. New data in these areas are published as research papers, or methods and resource reports that provide novel information on technologies or tools that will be of interest to a broad readership. Complete data sets are shared where appropriate. The journal also provides Reviews, and Perspectives articles, which present commentary on the latest advances published both here and elsewhere, placing such progress in its broader biological context. Topics include: -metagenomics -population genetics/genomics -evolutionary ecology -conservation and molecular adaptation -speciation genetics -environmental and marine genomics -ecological simulation -genomic divergence of organisms