中国猪业 ›› 2024, Vol. 19 ›› Issue (2): 3-14.doi: 10.16174/j.issn.1673-4645.2024.02.001

• 营养饲料 •    下一篇

地方猪品种改良及营养调控研究进展

张雯韬,马思奇,向鸿坤,贺建华,伍树松   

  • 出版日期:2024-05-09 发布日期:2024-04-25

  • Online:2024-05-09 Published:2024-04-25

摘要: 我国是生猪养殖和肉产品消费大国,猪肉在我国肉类食品消费中占据主导地位。近年来,随着人们对优质畜产品需求的不断增加,保障优质猪肉供给成为畜牧业发展的重中之重。我国地方猪种相较于外来猪种具有更好的抗逆性能和更高的肉品质,因此保护并发展丰富多样的地方猪品种、加强对优质地方猪品种资源的合理利用显得尤为重要。然而目前在保护地方猪种的过程中“重引进、轻保护”的现象普遍存在,导致地方猪种的遗传丰富度降低、地方猪种优良性状的挖掘评估与选育利用不足,在生猪产业中利用地方品种资源生产的商品猪肉占比偏低等。因此本文主要综述我国地方猪品种改良的主要措施及主要的营养调控手段,为充分开发利用地方猪种资源,推动我国生猪产业健康发展提供参考。

关键词: 地方猪种, 品种改良, 营养调控

中图分类号:  S828.2

[1] 孙姣姣. 我国猪肉质量安全的现状、问题及对策研究[D]. 淄博: 山东理工大学, 2023. SUN JJ. Research on the status quo, problems and countermeasures of pork quality and safety in China[D]. Zibo: Shandong University of Technology, 2023. [2] 王能武. 浅谈地方猪品种育成与发展[J]. 中国畜禽种业, 2020, 16(12):83-84. WANG NW. Brief discussion on the breeding and development of local pig breeds[J]. The Chinese Livestock and Poultry Breeding, 2020, 16(12):83-84. [3] 王璐菊, 郭全奎, 王玺年, 等. 新形势下我国养猪业高质量发展的模式及思考[J]. 国外畜牧学(猪与禽), 2023, 43(4):39-43. WANG LJ, GUO QK, WANG XN, et al. The model and thinking of the high-quality development of China's pig industry under the new situation[J]. Animal Science Abroad(Pigs and Poultry), 2023, 43(4):39-43. [4] 吴买生. 利用地方猪种开发高端猪肉的思考[J]. 猪业科学, 2023, 40(4):122-124. WU MS. Thinking about using local pig breeds to develop high-end pork[J]. Swine Industry Science, 2023, 40(4):122-124. [5] 全国生猪遗传改良计划(2021—2035年)[J]. 猪业观察, 2021(3):6-9. National Pig Genetic Improvement Plan(2021—2035)[J]. Swine Industry Outlook, 2021(3):6-9. [6] 周怀宗. 印遇龙院士:优良地方猪品种是实现种业振兴的基础[J]. 今日养猪业, 2023(6):88. ZHOU HZ. Academician Yin Yulong: excellent local pig breeds are the basis for the revitalization of seed industry[J]. Pigs Today, 2023(6):88. [7] 吴买生. 品种创新推动地方猪特色产业发展[J]. 猪业科学, 2023, 40(11):120-123. WU MS. Breed innovation promotes the development of local pig characteristic industry[J]. Swine Industry Science, 2023, 40(11):120-123. [8] 赵思思, 贾青, 胡慧艳, 等. 华北型猪品种资源变化状况分析[J]. 黑龙江畜牧兽医, 2017, (19):111-115. ZHAO SS, JIA Q, HU HY, et al. Analysis of variation of North China type pig breed resources[J]. Heilongjiang Animal Science and Veterinary Medicine, 2017, (19):111-115. [9] 郑美丽, 张存瑞. 我国地方猪种的多样性及保护现状[J]. 中国畜牧业, 2017(9):52-53. ZHENG ML, ZHANG CR. Diversity and conservation status of local pig species in China[J]. China Animal Industry, 2017(9):52-53. [10] 段晓红. 不同地方猪品种杂交组合生产性能研究[D]. 杨凌: 西北农林科技大学, 2016. DUAN XH. The research of production performance in different hybrid local pigs[D]. Yangling: Northwest A&F University, 2016. [11] 里雨曦, 张赫书. 中国工程院院士印遇龙:实现生猪种源自主可控是当务之急[J]. 猪业观察, 2022(1):16-18. LI YX, ZHANG HS. Yin Yulong, academician of the Chinese Academy of Engineering: it is urgent to realize the independent control of pig provenance[J]. Swine Industry Outlook, 2022(1):16-18. [12] 孙仁修. 种猪品种改良及改进措施[J]. 中国动物保健, 2021, 23(3):71,76. SUN RX. Breeding pig breed improvement and improvement measures[J]. China Animal Health, 2021, 23(3):71,76. [13] 常天鹏, 陈冉, 柳小斌, 等. 陕西正能种猪选育体系的构建及成效探析[J]. 中国畜禽种业, 2023, 19(11):31-35. CHANG TP, CHEN R, LIU XB, et al. Analysis on the construction and effectiveness of the breeding system of positive breeding pigs in Shaanxi[J]. The Chinese Livestock and Poultry Breeding, 2023, 19(11):31-35. [14] 王丽芹. 种猪优良育种技术改进的几点思考[J]. 中国畜牧业, 2023(24):56-57. WANG LQ. Some thoughts on the improvement of excellent breeding technology for breeding pigs[J]. China Animal Industry, 2023(24):56-57. [15] 刘兵. 种猪场繁育及健康饲养关键技术[J]. 畜牧兽医科技信息, 2023(2):124-126. LIU B. Key technology of pig breeding and healthy feeding[J]. Chinese Journal of Animal Husbandry and Veterinary Medicine, 2023(2):124-126. [16] 朱勇. 提高种猪养殖生产性能的措施探讨[J]. 中国动物保健, 2022, 24(9):76-77. ZHU Y. Discussion on measures to improve the production performance of breeding pigs[J]. China Animal Health, 2022, 24(9):76-77. [17] 夏艳丽. 种猪养殖技术探究[J]. 吉林畜牧兽医, 2023, 44(10):45-46. XIA YL. Research on breeding technology of pig[J]. Jilin Animal Husbandry and Veterinary Medicine, 2023, 44(10):45-46. [18] 雷世福. 猪品种改良与人工授精技术的应用[J]. 畜牧兽医科学(电子版), 2022(5):48-49. LEI SF. Pig breed improvement and application of artificial insemination technology[J]. Graziery Veterinary Sciences(Electronic Version), 2022(5):48-49. [19] 盈明镜. 规模化养猪场种猪高效饲养管理与常用繁殖技术[J]. 北方牧业, 2023(21):21. YING MJ. Efficient breeding and management of breeding pigs in large-scale pig farms and common breeding techniques[J]. Northern Animal Husbandry, 2023(21):21. [20] 马海霞. 猪品种的改良与人工授精技术的应用[J]. 畜禽业, 2020, 31(7):13,15. MA HX. Improvement of pig breeds and application of artificial insemination technology[J]. Livestock and Poultry Industry, 2020, 31(7):13,15. [21] 张海龙. 基于畜禽遗传资源保护视角下地方品种猪资源的保护与利用研究[J]. 中国猪业, 2022, 17(4):106-108. ZHANG HL. Study on the protection and utilization of local breed pig resources based on the perspective of livestock and poultry genetic resources protection[J]. China Swine Industry, 2022, 17(4):106-108. [22] 于福清. 我国地方猪种资源最新状况与保护利用建议[J]. 中国猪业, 2012, 7(3):21-23. YU FQ. The latest situation and protection and utilization of local pig breeding resources in China[J]. China Swine Industry, 2012, 7(3):21-23. [23] 方晓敏, 涂枫, 陈慧, 等. 非洲猪瘟疫情形势下轮回杂交在养猪生产中的应用与前景分析[J]. 猪业科学, 2021, 38(11):30-32. FANG XM, TU F, CHEN H, et al. Application and prospect analysis of recurrent hybridization in pig production under the epidemic situation of African swine fever[J]. Swine Industry Science, 2021, 38(11):30-32. [24] 洪学. 提高瘦肉型猪瘦肉率的途径[J]. 中国猪业, 2009, 4(11):35. HONG X. Ways to improve lean meat rate of lean type pigs[J]. China Swine Industry, 2009, 4(11):35. [25] 胡锦平, 陆建定, 吴金仙, 等. 瘦肉型猪新品系选育改良研究[J]. 养猪, 2001(3):25-28. HU JP, LU JD, WU JX, et al. Study on breeding and improvement of new strains of lean pig[J]. Swine Production, 2001(3):25-28. [26] 任守文, 李碧侠, 葛云山, 等. 苏山猪选育研究[J]. 中国畜牧杂志, 2020, 56(11):47-51. REN SW, LI BX, GE YS, et al. Study on breeding of Sushan pig[J]. Chinese Journal of Animal Science, 2020, 56(11):47-51. [27] 侯兴才, 陈福斌. 凉州区畜禽品种改良现状及对策建议[J]. 中国畜禽种业, 2016, 12(10):27-28. HOU XC, CHEN FB. Liangzhou district livestock breed improvement status and countermeasures[J]. The Chinese Livestock and Poultry Breeding, 2016, 12(10):27-28. [28] 赵书强, 姜肖军, 王明成, 等. 确山黑猪改良后代耐粗饲性能及其生化机理研究[J]. 黑龙江畜牧兽医, 2019(16):72-75. ZHAO SQ, JIANG XJ, WANG MC, et al. Study on the roughage tolerance of the improved offspring of the Queshan black pig and its biochemical mechanism[J]. Heilongjiang Animal Science and Veterinary Medicine, 2019(16):72-75. [29] 朱吉, 杨仕柳. 湖南生猪产业化进程中猪种改良的探讨[J]. 家畜生态学报, 2006(6):188-192. ZHU J, YANG SL. Discussion on pig variety improvement in the course of Hunan province industrialization[J]. Journal of Domestic Animal Ecology, 2006(6):188-192. [30] SUPAKANKUL P, MEKCHAY S. Association of NLK polymorphisms with intramuscular fat content and fatty acid composition traits in pigs[J]. Meat science, 2016, 118:61-65. [31] 田紫金, 李碧侠, 吴萍. 猪肌内脂肪沉积调控机制研究进展[J]. 猪业科学, 2023, 40(11):114-117. TIAN ZJ, LI BX, WU P. Research progress on the regulatory mechanism of intramuscular fat deposition in pigs[J]. Swine Industry Science, 2023, 40(11):114-117. [32] 曾勇庆, 王根林, 魏述东, 等. 含不同比例莱芜猪血缘杂交猪胴体品质及肉质特性的研究[J]. 遗传, 2005(1):65-69. ZENG YQ, WANG GL, WEI SD, et al. Studies on carcass and meat quality performance of crossbred pigs with graded proportions of Laiwu black genes[J]. Hereditas(Beijing), 2005(1):65-69. [33] 于永生, 张志彬, 李娜, 等. 不同日龄东北民猪与大白猪背最长肌游离水和肌内脂肪含量的测定[J]. 养猪, 2015(1):47-48. YU YS, ZHANG ZB, LI N, et al. Determination of free water and intramuscular fat content in Longissimus dorsi muscle of Northeast pigs and large white pigs at different ages[J]. Swine Production, 2015(1):47-48. [34] 陆雪林, 吴昊旻, 薛云, 等. 上海4个地方猪种的肥育性能和肉质特性分析[J]. 养猪, 2020(4):65-69. LU XL, WU HM, XUE Y, et al. Analysis of fattening performance and meat quality characteristics of 4 local pig breeds in Shanghai[J]. Swine Production, 2020(4):65-69. [35] 王文涛, 何鑫淼, 亓美玉, 等. 民猪不同杂交组合重要生产性能研究[J]. 猪业科学, 2022, 39(11):114-115. WANG WT, HE XM, QI MY, et al. Study on important production performance of different hybrid combinations of civilian pigs[J]. Swine Industry Science, 2022, 39(11):114-115. [36] 吴赛辉, 何鑫淼, 王文涛, 等. 松巴民猪和巴松民猪胴体及肉质性状的比较研究[J]. 养猪, 2022(5):53-54. WU SH, HE XM, WANG WT, et al. Comparative study on carcass and meat quality traits of Songba civilian pigs and Basong civilian pigs[J]. Swine Production, 2022(5):53-54. [37] 丁东. 生猪的品种改良技术[J]. 畜牧兽医科技信息, 2018(8):113-114. DING D. Breed improvement techniques of live pigs[J]. Chinese Journal of Animal Husbandry and Veterinary Medicine, 2018(8):113-114. [38] 付亚伟, 王亚东, 徐康, 等. 地方猪瘦肉率影响因素及调控技术[J]. 动物营养学报, 2021, 33(6):3043-3054. FU YW, WANG YD, XU K, et al. Influencing factors and regulation techniques of lean meat percentage of Chinese indigenous pigs[J]. Chinese Journal of Animal Nutrition, 2021, 33(6):3043-3054. [39] 杨运, 胡诚军, 吕仁龙, 等. 我国地方猪能量需要研究进展[J]. 饲料工业, 2023, 44(23):9-13. YANG Y, HU CJ, LV RL, et al. Research progress on energy requirement of Chinese indigenous pigs[J]. Feed Industry, 2023, 44(23):9-13. [40] DENG L, LI W, LIU W, et al. Integrative metabolomic and transcriptomic analysis reveals difference in glucose and lipid metabolism in the longissimus muscle of Luchuan and Duroc pigs[J]. Frontiers in Genetics, 2023, 14:1128033. [41] 邹田德. 母体能量水平与高能饲粮添加白藜芦醇对胎儿及生后骨骼肌和脂肪组织发育的影响及机制[D]. 成都: 四川农业大学, 2018. ZOU TD. Effects of maternal dietary energy intake and resveratrol supplementation in a high-energy diet on the growth and development of fetal and postnatal skeletal muscle and adipose tissue and the underlying mechanisms[D]. Chengdu: Sichuan Agricultural University, 2018. [42] WANG WH, WANG ZJ, MING DX, et al. Effect of maternal dietary starch-to-fat ratio and daily energy intake during late pregnancy on the performance and lipid metabolism of primiparous sows and newborn piglets[J]. Journal of Animal Science, 2022, 100(4). doi: 10.1093/JAS/SKAC033. [43] YANG Y, HU CJ, ZHAO X, et al. Dietary energy sources during late gestation and lactation of sows: effects on performance, glucolipid metabolism, oxidative status of sows, and their offspring1[J]. Journal of Animal Science, 2019, 97(11):4608-4618. [44] BEAULIEU AD, WILLIAMS NH, PATIENCE JF. Response to dietary digestible energy concentration in growing pigs fed cereal grain-based diets[J]. Journal of Animal Science, 2009, 87(3):965-976. [45] 谭占坤, 张定华, 商鹏, 等. 饲粮能量水平对断奶藏仔猪生产性能、养分消化率和血液生化指标的影响[J]. 西南农业学报, 2017, 30(7):1667-1671. TAN ZK, ZHANG DH, SHANG P, et al. Effect of dietary energy concentration on performance, nutrient digestibility and blood biochemical parameters of tibetan piglets[J]. Southwest China Journal of Agricultural Sciences, 2017, 30(7):1667-1671. [46] NONG Q, WANG L, ZHOU Y, et al. Low dietary n-6/n-3 PUFA ratio regulates meat quality, reduces triglyceride content, and improves fatty acid composition of meat in Heigai pigs[J]. Animals (Basel), 2020, 10(9):1543. [47] CHEN J, CHEN F, LIN X, et al. Effect of excessive or restrictive energy on growth performance, meat quality, and intramuscular fat deposition in finishing Ningxiang pigs[J]. Animals (Basel), 2020, 11(1):27. [48] 杨凯, 鲁绍雄, 严达伟, 等. 中国地方猪能量、蛋白质和氨基酸需要研究进展[J]. 饲料工业, 2021, 42(24):59-64. YANG K, LU SX, YAN DW, et al. Research progress on energy, protein and amino acid requirements of Chinese local pigs[J]. Feed Industry, 2021, 42(24):59-64. [49] LIU R, HE J, JI X, et al. A moderate reduction of dietary crude protein provide comparable growth performance and improve metabolism via changing intestinal microbiota in Sushan nursery pigs[J]. Animals (Basel), 2021, 11(4):1166. [50] ZHENG J, DUAN Y, YU J, et al. Effects of long-term protein restriction on meat quality and muscle metabolites of Shaziling pigs[J]. Animals (Basel), 2022, 12(15):2007. [51] 霍永久, 刘正旭, 方伟, 等. 饲粮蛋白质水平对育肥东串猪生长性能、血清生化指标及胴体性状的影响[J]. 动物营养学报, 2015, 27(8):2502-2508. HUO YJ, LIU ZX, FANG W, et al. Effects of dietary protein levels on growth performance, serum biochemical indices and carcass characteristics of fattening Dongchuan pigs[J]. Chinese Journal of Animal Nutrition, 2015, 27(8):2502-2508. [52] 周慧. 沂蒙黑猪生长育肥期蛋白质代谢规律及需要量研究[D]. 泰安: 山东农业大学, 2018. ZHOU H. Study on protein metabolism and requirement of yimeng black pig in growing and fattening period[D]. Taian: Shandong Agricultural University, 2018. [53] 朱建平. 淮猪生长肥育期日粮粗蛋白质需要量初步研究[D]. 扬州: 扬州大学, 2014. ZHU JP. Preliminary study on the requirement of dietary crude proteinin growing-finishing Huai pigs[D]. Yangzhou: Yangzhou University, 2014. [54] 薛星星. “巴×八”二元猪杂交选育及育肥期日粮适宜能蛋比的研究[D]. 西宁: 青海大学, 2023. XUE XX. Study on selection breeding of "Berkshire x Bamei" Pigs and suitable energy-protein ratios in fattening diet[D]. Xining: Qinghai University, 2023. [55] 陈佳亿, 龙际飞, 陈凤鸣, 等. 不同能量和蛋白质水平饲粮对宁乡猪生长性能、胴体品质和肉品质的影响[J]. 动物营养学报, 2021, 33(1):208-216. CHEN JY, LONG JF, CHEN FM, et al. Effects of diets with different energy and protein levels on growth performance, carcass traits and meat quality of Ningxiang pigs[J]. Chinese Journal of Animal Nutrition, 2021, 33(1):208-216. [56] JHA R, BERROCOSO JD. Review: dietary fiber utilization and its effects on physiological functions and gut health of swine[J]. Animal, 2015, 9(9):1441-1452. [57] DING S, CHENG Y, AZAD MAK, et al. Dietary fiber alters immunity and intestinal barrier function of different breeds of growing pigs[J]. Frontiers in Immunology, 2023, 14:1104837. [58] 李文新. 日粮粗纤维水平对马身猪和杜长大猪生长性能、消化代谢和肠道发育的影响[D]. 太谷: 山西农业大学, 2023. LI WX. Effects of dietary crude fiber level on growth performance, digestion and metabolism and intestinal health of Mashen pigs and Duroc×Landrace×Large[D]. Taigu: Shanxi Agricultural University, 2023. [59] 张兆博, 侯黎明, 李平华, 等. 基于血浆代谢组学筛选日粮纤维影响二花脸猪肉质性状的候选代谢物[J]. 畜牧兽医学报, 2023, 54(9):3758-3769. ZHANG ZB, HOU LM, LI PH, et al. Screening candidate metabolites of dietary fiber affecting meat quality traits of Erhualian pigs based on plasma metabolomics[J]. Acta Veterinaria et Zootechnica Sinica, 2023, 54(9):3758-3769. [60] 何晓芳, 杜陶然, 蒲广, 等. 日粮纤维水平对新淮猪生长性能、血清生化指标、肠道相对重量和养分表观消化率的影响[J]. 畜牧与兽医, 2022, 54(11):31-35. HE XF, DU TR, PU G, et al. Effects of high dietary fiber levels on the growth performance, serum biochemical indexes, gut relative weight and apparent digestibility of nutrients in Xinhuai pigs[J]. Animal Husbandry & Veterinary Medicine, 2022, 54(11):31-35. [61] 韩丽, 黄兴国, 尹杰. 营养调控对宁乡猪肉品质的影响及其分子机制研究[J]. 动物营养学报, 2023, 35(10):6164-6175. HAN L, HUANG XG, YIN J. Effects of nutrition regulation on meat quality of Ningxiang pigs and its molecular mechanism[J]. Chinese Journal of Animal Nutrition, 2023, 35(10):6164-6175. [62] 赵金波, 黄合特, 刘盈序, 等. 非常规饲料资源在畜禽饲料粮减量化营养调控的优化利用[J]. 中国饲料, 2023(15):123-129. ZHAO JB, HUANG HT, LIU YX, et al. Optimal utilization of unconventional feeding resources in reducing nutritional regulation of feed grain for livestock and poultry[J]. China Feed, 2023(15):123-129. [63] 陈鑫珠, 刘景, 陈炳钿, 等. 非常规饲料资源的开发利用成效分析与发展对策[J]. 中国草食动物科学, 2020, 40(1):56-60. CHEN XZ, LIU J, CHEN BD, et al. Analysis on the effectiveness of exploitation and utilization of unconventional feed resources and development countermeasures[J]. China Herbivore Science, 2020, 40(1):56-60. [64] 丁鹏, 李霞, 丁亚南, 等. 发酵饲料桑粉对宁乡花猪生长性能、肉品质和血清生化指标的影响[J]. 动物营养学报, 2018, 30(5):1950-1957. DING P, LI X, DING YN, et al. Effects of fermented feed mulberry powder on growth performance, meat quality and serum biochemical indexes of Ningxiang pigs[J]. Chinese Journal of Animal Nutrition, 2018, 30(5):1950-1957. [65] WANG S, TANG C, LI J, et al. The effects of dietary inclusion of mulberry leaf powder on growth performance, carcass traits and meat quality of Tibetan pigs[J]. Animals (Basel), 2022, 12(20):2743. [66] ZOU S, SUN C, LI F, et al. Effect of gardenia pomace supplementation on growth performance, blood metabolites, immune and antioxidant indices, and meat quality in Xiangcun pigs[J]. Animals (Basel), 2022, 12(17):2280. [67] TIAN X, LI D, ZHAO X, et al. Dietary grape pomace extract supplementation improved meat quality, antioxidant capacity, and immune performance in finishing pigs[J]. Frontiers in microbiology, 2023, 14:1116022. [68] 张元庆, 张丹丹, 曹亮, 等. 藻类饲料的营养价值及其在家兔生产中的应用研究进展[J]. 中国畜牧杂志, 2023, 59(12):56-61. ZHANG YQ, ZHANG DD, CAO L, et al. Advancesin nutritional value of algal feeds and its application in rabbit production[J]. Chinese Journal of Animal Science, 2023, 59(12):56-61. [69] RIBEIRO DM, MARTINS CF, COSTA M, et al. Quality traits and nutritional value of pork and poultry meat from animals fed with seaweeds[J]. Foods, 2021, 10(12):2961. [70] 张继忠. 半胱胺、糖萜素和复方螺旋藻提取物组合使用对早期断奶八眉仔猪生长性能及经济效益的影响[J]. 养猪, 2019(2):38-40. ZHANG JZ. Effects of cysteamine, glycoterpene and compound spirulina extracts on growth performance and economic benefit of early weaned Bamei piglets[J]. Swine Production, 2019(2):38-40. [71] 杨为敏, 孟玉学. 功能性饲料添加剂的研究进展及其在动物生产中的应用[J]. 中国饲料, 2022(14):5-8. YANG WM, MENG YX. Research progress and application of functional feed additives in animal production[J]. China Feed, 2022(14):5-8. [72] 冷来福, 包世利, 邱小宇, 等. 复合益生菌和酶制剂对猪生长性能、肉品质、抗氧化性能及肠道短链脂肪酸的影响[J]. 中国畜牧杂志, 2024, 60(3):207-212. LENG LF, BAO SL, QIU XY, et al. Effects of compound probiotics and enzymes on growth performance, meat quality, antioxidant performance and intestinal short-chain fatty acids of pigs[J]. Chinese Journal of Animal Science, 2024, 60(3):207-212. [73] 邓运江, 秦茂, 田军, 等. 微生态制剂对湘西黑猪保育及育成阶段生长性能和血液、粪便中微量元素水平影响试验[J]. 湖北畜牧兽医, 2021, 42(6):7-9,12. DENG YJ, QIN M, TIAN J, et al. Effects of microecological preparations on growth performance and levels of trace elements in blood and feces of Xiangxi black pigs during conservation and growing stages[J]. Hubei Journal of Animal and Veterinary Sciences, 2021, 42(6):7-9,12. [74] ZHU Q, SONG M, AZAD MAK, et al. Probiotics and synbiotics addition to Bama Mini-pigs' diet improve carcass traits and meat quality by altering plasma metabolites and related gene expression of offspring[J]. Frontiers in Veterinary Science, 2022, 9:779745. [75] YAN Z, ZHONG Y, YIN Y, et al. Effects of dietary tea powder on the growth performance, carcass traits, and meat quality of Tibetan pig×Bama Miniature pigs[J]. Animals (Basel), 2021, 11(11):3225. [76] 楼芳芳, 刘禹熙, 陈雨诗, 等. 表没食子儿茶素没食子酸酯对金华猪生产性能、肉品质、肠道菌群及抗氧化能力的影响[J]. 中国畜牧杂志, 2023, 59(8):345-351. LOU FF, LIU YX, CHEN YS, et al. Effects of epigallocatechin gallate on performance, meat quality, intestinal flora and antioxidant capacity of Jinhua pigs[J]. Chinese Journal of Animal Science, 2023, 59(8):345-351. [77] WANG Z, ZENG X, ZHANG C, et al. Higher niacin intakes improve the lean meat rate of Ningxiang pigs by regulating lipid metabolism and gut microbiota[J]. Frontiers in Nutrition, 2022, 9:959039. [78] WANG Y, CHEN J, JI Y, et al. Effect of betaine diet on growth performance, carcass quality and fat deposition in finishing Ningxiang pigs[J]. Animals (Basel), 2021, 11(12):3408.
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