China Swine Industry ›› 2025, Vol. 20 ›› Issue (1): 26-34.doi: 10.16174/j.issn.1673-4645.2025.01.007
• Nutrition and Feed • Previous Articles Next Articles
CLC Number:
- S828
| [1] 吴买生, 谭红, 李玉莲, 等. 沙子岭猪遗传资源持续保种40年[J]. 猪业科学, 2024, 41(6): 118-121. WU MS, TAN H, LI YL, et al. Shaziling pig genetic resources have been conserved for 40 years[J]. Swine Industry Science, 2024, 41(6):118-121. [2] 章勇. 为地方猪资源保护与开发寻找突破口[N]. 中国畜牧兽医报, 2024-06-09(001). ZHANG Y. Finding a breakthrough for the protection and development of local pig resources [N].Chinese Journal of Animal Husbandry and Veterinary Medicine, 2024-06-09(001). [3] 王秀芬, 刘芳, 何忠伟. 中国地方猪种保护利用价值及策略研究[J]. 农业展望, 2024, 20(7): 68-73. WANG XF, LIU F, HE ZW. Value and strategy of conservation and utilization of local pig breeds in China[J]. Agricultural Outlook, 2024, 20(7):68-73. [4] SHIN MJ, LEE JH, JANG Y, et al. Micellarphytosterols effectively reduce cholesterol absorption at lowdoses[J]. Annals of Nutrition and Metabolism, 2005, 49(5):346-351. [5] COLEMAN CI, HEBERT JH, REDDY P, et al. The effect of phytosterols on quality of life in the treatment of benign prostatic hyperplasia[J]. Pharmacother, 2002, 22(11):1426-1432. [6] JIA X, EBINE N, WANG Y, et al. Effects of different phytosterol analogs on colonic mucosal cell proliferation in hamsters[J]. Journal of Nutritional Biochemistry, 2006, 17(6):396-401. [7] MORA-RANJEVA MP, ChARVERON M, FABRE B, et al. Incorporation of phytosterols in human keratinocytesconsequences on UVA-induced lipid peroxidation andcalcium ionophore-induced prostaglandin release[J]. Chemistry & Physics of Lipids, 2006, 141(1-2):216-224. [8] NIEMINEN P, MUSTONEN AM, LINDSTROM-SEPPA P, et al. Phytosterols act as endocrine and metabolic disruptorsin the European polecat (mustela putorius)[J]. ToxicolAppl Pharmacol, 2002, 178(1):22-28. [9] ZOU TD,DENG CX,WANG ZR,et al. Dietary alanylglutamine improves growth performance of weaned piglets through maintaining intestinal morphology and digestionabsorption function[J]. Animal: an International Journal of Animal Bioscience, 2019, 13(9):1826-1833. [10] YU H, DING X, SHANG L, et al. Protective ability of biogenic antimicrobial peptide microcin J25 against enterotoxigenic escherichia coli-induced intestinal epithelial dysfunction and inflammatory responses IPEC-J2 cells[J]. Frontiers in Cellular and Infection Microbiology, 2018, 8:242. [11] 祝倩, 胡汉宇, 孔祥峰. 甜菜碱对猪的“母子一体化”营养调控研究进展[J]. 中国猪业, 2024, 19(5):3-10. ZHU Q, HU HY, KONG XF. Research progress on the nutritional regulation of betaine on sow and piglet integration[J]. China Swine Industry, 2024. 19(5):3-10. [12] YU DY, XU ZR, LI WF. Effects of betaine on growth performance and carcass characteristics in growing pigs[J]. Asian-Australasian Journal of Animal Sciences, 2004, 17(12):1700-1704. [13] PARK BS, PARK SO. Effects of feeding time with betaine diet on growth performance, blood markers, and short chain fatty acids in meat ducks exposed to heat stress[J]. Livestock Science, 2017, 199:31-36. [14] 中华人民共和国农业部. 瘦肉型猪胴体性状测定技术规范: NY/T 825-2004[S]. 北京: 中国农业出版社, 2004. Ministry of Agriculture of the People’s Republic of China. Technical regulation for testing of carcass traits in lean-type pig: NY/T 825-2004[S]. Beijing:China Agriculture Press, 2004. [15] 中华人民共和国农业农村部. 猪肉品质测定技术规程: NY/T 821-2019[S]. 北京: 中国农业出版社, 2019. Ministry of Agriculture of the People’s Republic of China. Technical regulations for determination of pork quality: NY/T 821-2019[S]. Beijing:China Agriculture Press, 2019. [16] 中华人民共和国农业部. 肉嫩度的测定 剪切力测定法: NY/T 1180-2006[S]. 北京: 中国农业出版社, 2006. Ministry of Agriculture of the People’s Republic of China. Determination of meat tenderness shear force method: NY/T 1180-2006[S]. Beijing: China Agriculture Press, 2006. [17] 李颜, 姜敏杰, 梁强, 等. 菜籽油植物甾醇生理功能及影响因素[J]. 四川农业科技, 2023(7): 90-93. LI Y, JIANG MJ, LIANG Q, et al. Physiological function and influencing factors of phytosterol in rapeseed oil[J]. Sichuan Agricultural Science and Technology, 2023(7):90-93. [18] 胡毓元. 亲水性β-谷甾醇糖基衍生物的酶法制备及其降胆固醇特性研究[D]. 郑州: 河南工业大学, 2023. HU YY. Enzymatic preparation of hydrophilic β -sitosterol glycosyl derivatives and their cholesterol-lowering properties[D]. Zhengzhou: Henan University of Technology, 2023. [19] 王小康, 陈文, 张太军, 等. 植物甾醇(酯)的研究与应用前景[J]. 日用化学工业(中英文), 2023, 53(4):445-452. WANG XK, CHEN W, ZHANG TJ, et al. Research and application prospect of phytosterols(esters)[J]. China Surfactant Detergent & Cosmetics, 2023, 53(4):445-452. [20] 刘雅谦, 李琳, 孙万成, 等. 植物甾醇的抗炎性研究进展[J]. 中国油脂, 2022, 47(5):93-99. LIU YQ, LI L, SUN WC, et al. Progress on anti-inflammatory properties of phytosterols[J]. China Oils and Fats, 2022, 47(5):93-99. [21] 马朝, 李洁, 余成龙, 等. 复方中草药饲料添加剂对断奶仔猪生产性能、肠道功能及肠道微生物菌群的影响[J]. 养猪, 2023(1):12-22. MA Z, LI J, YU CL, et al. The effects of compound Chinese herbal feed additives on the production performance, intestinal function, and gut microbiota of weaned piglets[J]. Swine Production, 2023(1):12-22. [22] 何昭友. 植物甾醇对肥育猪生长性能、血清指标及猪肉品质的影响研究[D]. 南宁: 广西大学, 2012. HE ZY. Effects of phytosterols on growth performance, serum indexes and pork quality of finishing pigs[D]. Nanning: Guangxi University, 2012. [23] 周萌, 闫涛, 冯志芬. 日粮中添加植物甾醇对育肥猪生长性能、屠宰性能及养殖经济效益的影响[J]. 饲料研究, 2022, 45(18):24-28. ZHOU M, YAN T, FENG ZF. Effect of dietary phytosterols on growth performance, slaughter performance and breeding economic benefits of finishing pigs[J]. Feed Research, 2022, 45(18):24-28. [24] 彭俊平, 舒鑫标, 施杏芬, 等. 饲粮中添加植物甾醇、枯草芽孢杆菌及复合酶制剂对育肥猪生长性能和肉品质的影响[J]. 中国饲料, 2018(15): 62-64. PENG JP, SHU XB, SHI XF, et al. Effects of dietary supplementation of phytosterols, Bacillus subtilis and compound enzyme on growth performance and meat quality of growing-finishing pigs[J]. China Feed, 2018(15):62-64. [25] 雷霆. 植物甾醇对育肥猪生长性能、肉品质和血清生化指标的影响[D]. 长沙: 湖南农业大学, 2022. LEI T. Effects of phytosterol on growth performance, meat quality and serum biochemical indexes of finishing pigs[D]. Changsha: Hunan Agricultural University, 2022. [26] 徐来玲. 日粮中酯化植物甾醇对育肥猪生长性能的影响[J]. 国外畜牧学(猪与禽), 2023, 43(6): 28-31. XU LL. Effect of esterified phytosterol in diet on growth performance of finishing pigs[J]. Animal Science Abroad (Pigs and Poultry), 2023, 43(6):28-31. [27] 许栋, 李景军, 林丽秀, 等. 植物甾醇对猪生产性能、免疫指标及不同组织Wnt1基因表达的影响[J]. 饲料研究, 2021, 44(17): 14-17. XU D, LI JJ, LIN LX, et al. Effects of phytosterol on performance, immune indexes and Wnt1 gene expression in different tissues of pigs[J]. Feed Research, 2021, 44(17):14-17. [28] FU RQ, ZHANG HZ, CHEN DW, et al. Long-term dietary supplementation with betaine improves growth performance, meat quality and intramuscular fat deposition in growing-finishing pigs[J]. Foods, 2023, 12(3):494. [29] CHEN R, WEN C, CHEN YP, et al. PSIX-22 Effects of betaine supplementation on growth performance, muscle amino acid contents, meat quality and antioxidant capacity in finishing pigs[J]. Journal of Animal Science, 2019, 97(Supplement_3):349-350. [30] 陈雨诗, 刘禹熙, 杨童寓丹, 等. 饲粮中添加甜菜碱和表没食子儿茶素没食子酸酯对育肥猪生长性能、肉品质、血清生化和抗氧化指标的影响[J]. 动物营养学报, 2024, 36(3):1525-1536. CHEN YS, LIU YX, YANG TYD, et al. Effects of dietary betaine and epigallocatechin gallate on growth performance, meat quality, serum biochemical and antioxidant indices of finishing pigs[J]. Chinese Journal of Animal Nutrition, 2024, 36(3):1525-1536. [31] 胡成, 史浩, 陈嘉敏. 甜菜碱对猪生产性能影响的研究进展[J]. 养猪, 2022(1):19-20. HU C, SHI H, CHEN JM. Research progress on the effect of betaine on pig production performance[J]. Swine Production, 2022(1):19-20. [32] 杜海涛. 日粮中添加甜菜碱对育肥猪生长性能、胴体品质和血清生化指标的影响[J]. 中国猪业, 2023, 18(4): 66-71. DU HT. Effects of dietary betaine supplementation on growth performance, ketone body quality and serum biochemical indices of large body weight finishing pigs[J]. China Swine Industry, 2023, 18(4):66-71. [33] 仲银召. 日粮补充甘氨酸与甜菜碱对环江香猪生长性能、胴体性状、肉品质及脂质代谢的影响[D]. 广州: 华南农业大学, 2020. ZHONG YZ. Effects of dietary glycine and betaine supplementation on growth performance, carcass traits, meat quality and lipid metabolism of Huanjiang Xiang pig[D]. Guangzhou: South China Agricultural University, 2020. [34] 宋明彤. 饲粮添加甜菜碱对巴马香猪生长性能、肉品质及肠道微生态的影响[D]. 南京: 南京农业大学, 2020. SONG MT. Effects of dietary betaine supplementation on growth performance, meat quality and intestinal microecology of Bama Xiang pigs[D]. Nanjing: Nanjing Agricultural University, 2020. [35] 王宗伟, 庄佳荣, 李洪涛, 等. 支链氨基酸的生物学作用机制及在猪和鸡生产中的应用[J]. 动物营养学报, 2023, 35(7): 4108-4118. WANG ZW, ZHUANG JR, LI HT, et al. Biological mechanism of branched-chain amino acids and their application in pig and poultry production[J]. Chinese Journal of Animal Nutrition, 2023, 35(7):4108-4118. [36] 李轶伟. 饲料添加复合支链氨基酸对生猪生长性能和肉质品质的影响[J]. 特种经济动植物, 2024, 27(1):21-22,25. LI YW. The effect of adding compound branched chain amino acids to feed on the growth performance and meat quality of pigs[J].Special Economic Animals and Plants, 2024, 27(1):21-22,25. [37] 张露露. 低蛋白质饲粮对育肥猪消化率和生长性能的影响[J]. 养猪, 2024(6):15-18. ZHANG LL. The effect of low protein feed on digestibility and growth performance of fattening pigs [J].Swine Production, 2024(6):15-18. [38] 岳玉秀, 岳玉妍. 不同支链氨基酸水平对育肥猪生长性能和血清生化指标的影响[J]. 中国饲料, 2023(16): 45-48. YUE YX, YUE YY. Effects of different balanced amino acid levels on growth performance and serum biochemical indexes of finishing pigs[J]. China Feed, 2023(16):45-48. |
| [1] | . [J]. China Swine Industry, 2025, 20(1): 3-11. |
| [2] | . [J]. China Swine Industry, 2025, 20(1): 12-25. |
| [3] | . [J]. China Swine Industry, 2024, 19(6): 60-65. |
| [4] | . [J]. China Swine Industry, 2024, 19(5): 3-10. |
| [5] | . [J]. China Swine Industry, 2024, 19(5): 11-21. |
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| [9] | . [J]. China Swine Industry, 2022, 17(2): 13-16. |
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| [11] | . [J]. China Swine Industry, 2022, 17(2): 27-32. |
| [12] | . [J]. China Swine Industry, 2022, 17(2): 63-66. |
| [13] | . [J]. China Swine Industry, 2022, 17(2): 67-69. |
| [14] | . [J]. China Swine Industry, 2021, 16(6): 60-62. |
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