中国猪业 ›› 2026, Vol. 21 ›› Issue (3): 23-35.doi: 10.16174/j.issn.1673-4645.2026.03.003

• 专题报道 • 上一篇    下一篇

基于全基因组SNP的广东地方猪遗传独特性与商品猪基因渗入风险评估

梁崇霄,魏文康,王子帅,李奎   

  1. 1岭南现代农业科学与技术广东省实验室深圳分中心/农业农村部畜禽生物组学重点实验室/中国农业科学院(深圳)农业基因组研究所,广东深圳518000; 2广东省农业科学院农业生物基因研究中心,畜禽育种国家重点实验室,广东广州 510640
  • 出版日期:2026-07-15 发布日期:2026-06-25

  • Online:2026-07-15 Published:2026-06-25

摘要: 为系统评估广东地方猪品种的遗传资源现状及商品猪基因渗入程度,本研究对5个广东地方猪品种(粤东黑猪、梅花猪、粤中大花白猪、蓝塘猪、两广小耳花猪,共48头)、3个商品猪品种(杜洛克猪、长白猪、大白猪,共43头)及7头外群米沙鄢野猪(Sus cebifrons)的全基因组SNP数据进行了遗传多样性与基因渗入分析。主成分分析(PCA)、祖先成分推断(ADMIXTURE)和邻接法系统发育树(NJ树)分析结果一致表明,广东地方猪与商品猪之间存在清晰的遗传分化,且广东地方猪自成一个独立的遗传类群;其中粤东黑猪内部存在显著的遗传分化,个体基因组由两广小耳花猪、杜洛克猪等多种祖先成分混合构成,呈现高度异质性。遗传多样性评估表明,广东地方猪的核苷酸多样性(π=0.002 229~0.002 885)整体高于商品猪(π=0.001 693~0.001 973),其中粤东黑猪的仔值最高(0.002885),提示其保留了较为丰富的变异。基于连续性纯合片段估算的近交系数(FROH)均值在广东地方猪中为0.131~0.273,显著低于商品猪的0.357~0.449,广东地方猪的连锁不平衡(LD)衰减普遍快于商品猪品种,反映出地方猪较低的人工选育强度与较高的遗传多样性储备。为校正参考基因组偏倚,采用基于外群重新极化的Dsuite D统计量分析,在无偏倚的(大白猪×长白猪、地方猪、外群)拓扑下,发现粤中大花白猪存在显著的大白猪基因渗入信号(D=0.019 6,校正P=5.41×10-3),两广小耳花猪和蓝塘猪存在渗入趋势但未达多重校正显著性,粤东黑猪和梅花猪未检测到显著渗入。上述结果表明,广东地方猪具有独特的遗传背景和丰富的多样性,但部分品种已受到商业猪种的不同程度基因渗入,建议依据品种遗传特点实施分级保护:对粤东黑猪应重点维系其群体内的亚群多样性;对已检出渗入信号的粤中大花白猪等品种需警惕外血引入导致的遗传独特性削弱,适时开展基因组辅助保种。

关键词: 广东地方猪, 保护基因组学, 遗传多样性, 基因渗入, 全基因组SNP

Abstract: To systematically evaluate the genetic status of indigenous pig resources in Guangdong province and evaluate the extent of gene introgression from commercial breeds, we analyzed genome-wide SNP data from five Guangdong indigenous breeds (Yuedong black, Meihua, Yuezhong large black-white, Lantang, and Liangguang small-ear spotted pigs; n = 48), three commercial breeds (Duroc, Landrace, and Large White; n = 43), and seven Visayan warty pigs (Sus cebifrons) used as out group. Principal component analysis (PCA), ancestry component estimation (ADMIXTURE), and neighbor-joining (NJ) phylogenetic reconstruction analysis consistently demonstrated clear genetic differentiation between Guangdong indigenous pigs and commercial breeds, with the indigenous pigs forming a distinct genetic cluster. Notably, Yuedong black pigs exhibited substantial within-breed genetic heterogeneity, with individuals showing mixed ancestral contributions from Liangguang small spotted pigs, Duroc, and other sources. Genetic diversity assessment showed that Guangdong indigenous pigs possessed higher nucleotide diversity (π = 0.002 229~0.002 885) than commercial breeds (π = 0.001 693~0.001 973). Among them, Yuedong black pigs displayed the highest 仔 value (0.002 885), indicating the retention of abundant genetic variation. Mean inbreeding coefficients estimated from runs of homozygosity (FROH) ranged from 0.131 to 0.273 in Guangdong indigenous pigs, significantly lower than those observed in commercial breeds (0.357 ~0.449). In addition, linkage disequilibrium (LD) decayed more rapidly in indigenous pigs, reflecting weaker artificial selection intensity and greater genetic diversity. To minimize reference genome bias, we performed Dsuite D-statistic analysis using out group based allele repolarization. Under the unbiased topology (Large White×Landrace, indigenous pig, out group), a significant signal of Large White introgression was detected in Yuezhong large black-white pigs (D = 0.019 6, adjusted P = 5.41 × 10-3). Introgression trends were also observed for Liangguang small spotted and Lantang pigs but did not reach significance after multiple-testing correction, while no significant introgression was detected in Yuedong black or Meihua pigs. Collectively, our results indicated that Guangdong indigenous breeds retain distinct genetic backgrounds and substantial genetic diversity. However, certain breeds have experienced varying levels of genetic introgression from commercial breeds. We recommend implementing tiered conservation strategies based on breed-specific genetic characteristics: for Yuedong black pigs, priority should be placed on maintaining its internal subpopulation diversity; for breeds such as Yuezhong large black-white pigs with detected introgression signals, vigilance is needed against the erosion of genetic distinctiveness caused by exotic introgression, and genomics-assisted conservation should be implemented in a timely manner.

Key words: Guangdong indigenous pigs, conservation genomics, genetic diversity, introgression, whole-genome SNP

中图分类号:  S828;S813

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