一、个人信息

姓名：李福厚

政治面貌：中共党员

职称：副教授，硕士生导师

所在部门：动物科学系

研究方向：饲草生产加工与高效转化利用

电子邮箱：lifh@jlu.edu.cn

办公地点：畜牧兽医楼527B

二、教育背景

• 2017.09-2021.06，兰州大学草地农业科技学院，畜牧学，农学博士学位，导师郭旭生教授

• 2014.09-2017.06，兰州大学草地农业科技学院，草学，农学硕士学位，导师程云湘副教授、侯扶江教授

• 2010.09-2014.06，吉林农业大学动物科学技术学院，草业科学，农学学士学位

三、工作背景

• 2025.02-2026.02，美国伊利诺伊大学厄巴纳-香槟分校，访问学者

• 2024.02-今，吉林大学动物科学学院，唐敖庆青年学者，副教授

• 2021.06-2024.01，兰州大学草地农业科技学院，萃英博士后

四、主持项目

• 吉林大学高层次人才引进科研启动经费。

• 吉林大学动物科学学院青年教师科研培育项目，“肉羊生物发酵全混合日粮生产关键技术研究与应用”，2024/06-2025/12。

• 吉林大学“强农兴农行动计划”优秀青年教师培育项目，“肉羊生物发酵全混合日粮生产关键技术研究与应用”，2024/06-2025/12。

• 国家自然科学基金青年基金，“接种产阿魏酸酯酶乳酸菌苜蓿青贮饲料对奶山羊生产和健康的影响及作用机制（32301493）”，2024/01-2026/12。

• 中国博士后科学基金面上项目二等资助，“接种产阿魏酸酯酶乳酸菌苜蓿青贮饲料调控奶山羊抗氧化的分子机制研究（2022M711451）”，2023/01-2024/12。

• 中国博士后科学基金第16批特别资助（站中），“基于宏基因组学解析接种产阿魏酸酯酶乳酸菌苜蓿青贮饲料调控奶山羊瘤胃微生物组成和功能特性研究（2023T160284）”，2023/01-2024/12。

• 甘肃省青年科技基金计划，“产阿魏酸酯酶乳酸菌青贮接种剂调控奶山羊抗氧化的分子机制研究（22JR5RA527）”，2023/01-2024/12。

五、博士及博士后参与项目

• 国家重点研发计划政府间（中美）国际科技创新合作重点专项项目，“我国南北方青贮饲料发酵品质与安全调控技术研究（2017YFE0104300）”，2018-2020。

• 国家自然科学基金面上项目，“产IIa类细菌素乳酸菌对饲草青贮品质与体外瘤胃发酵特性的影响及其调控机制（31872417）”，2019-2021。

• 国家自然科学基金面上项目，“基于微生物组与代谢组学的青贮饲料发酵调控技术研究（31672487）”，2017-2020。

• 国家自然科学基金联合基金重点项目，“青藏高原牧草青贮乳酸菌遗传多样性、生物学特性及其环境适应的遗传进化机制研究（U20A2002）”，2021-2024。

• 甘肃省科技重大专项，“甘肃陇中陇东黄土高原丘陵区种养生态循环农业关键技术研究与应用（212D4NA012）”，2021-2023。

• 甘肃省其他项目，“黄土高原半干旱丘陵沟壑区人工草地建植与生态修复关键技术研究（LCJ20210016）”，2021-2022。

六、科研成果（论文、专利、标准、奖项）

期刊论文：

1. Li, F.,Jia, M., Chen, H., Chen, M., Su, R., Usman, S., Ding, Z., Hao, L., Marcia, F., Guo, X. Responses of microbial community composition and CAZymes encoding gene enrichment in ensiledElymus nutansto altitudinal gradients in alpine region.Applied and Environmental Microbiology,2024, 26, e00986-24. (JCR Q1,中科院2区Top, IF₂₀₂₄=3.9)

2. Li, F.,Usman, S., Huang, W., Jia, M., Zohreh, A. K., Ran, T., Li, F., Ding, Z., Guo, X. Effects of inoculating feruloyl esterase-producingLactiplantibacillus plantarumA1 on ensiling characteristics, in vitro ruminal fermentation and microbiota of alfalfa silage.Journal of Animal Science and Biotechnology,2023, 14, 43. (JCR Q1,中科院1区Top, IF₂₀₂₂=7.0).

3. Li, F.,Zhang, B., Zhang, Y., Zhang, X., Usman, S., Ding, Z., Hao, L., Guo, X. Probiotic effect of feeding feruloyl esterase-producingLactobacillus plantaruminoculated alfalfa silage on digestion, antioxidant, and immunity status of lactating dairy goats.Animal Nutrition,2022, 11, 38-47. (JCR Q1,中科院1区Top, IF₂₀₂₂=6.383)

4. Abdelraheem, N^#.,Li, F^#.,Guo, P., Sun, Y., Liu, Y., Cheng, Y., Cui, X., Tan, Y., Hou, F. Nutrient utilization of native herbage and oat forage as feed for Tibetan sheep (Ovis aries).Grassland Science, 2022, 69, 12-22. (共同一作，JCR Q3,中科院3区，IF₂₀₂₁=1.440)

5. Li, F.,Ding, Z., Zhang, Y., Ke, W., Zhang, X., Li, Z., Usman, S., Guo, X. The effects ofLactobacillus plantarumwith feruloyl esterase-producing ability or high antioxidant activity on the fermentation, chemical composition, and antioxidant status of alfalfa silage.Animal Feed Science and Technology,2021, 273, 114835.（JCR Q1,中科院2区，IF₂₀₂₁=3.313）

6. Li, F.,Ding, Z., Adesogan, A. T., Ke, W., Jiang, Y., Bai, J., Mudassar, S., Zhang, Y., Huang, W., Guo, X. S. Effects of class IIa bacteriocin-producingLactobacillusspecies on fermentation quality and aerobic stability of alfalfa silage.Animals,2020, 10, 1575.（JCR Q1,中科院2区, IF₂₀₂₀=2.752）

7. Li, F.,Ke, W., Ding, Z., Bai, J., Zhang, Y., Xu, D., Li, Z., Guo, X. Pretreatment ofPennisetum sinesesilages with ferulic acid esterase-producing lactic acid bacteria and cellulase at two dry matter contents: fermentation characteristics, carbohydrates composition and enzymatic saccharification.Bioresource Technology,2020, 295, 122261.（JCR Q1,中科院1区Top, IF₂₀₂₀=9.642）

8. Li, F.,Ding, Z., Ke, W., Xu, D., Zhang, P., Bai, J., Mudassar, S., Muhammad, I. Guo, X. Ferulic acid esterase-producing lactic acid bacteria and cellulase pretreatments of corn stalk silage at two different temperatures: Ensiling characteristics, carbohydrates composition and enzymatic saccharification.Bioresource Technology,2019, 282, 211-221.（JCR Q1,中科院1区Top, IF₂₀₁₉=7.539）

9. Li, X., Jin, Y.,Li, F.,Yu, M., Du, J., Yi, Q., Zhao, T., Yuan, B., Wang, P. Effects ofLactobacillus plantarumand Cellulase on Mixed Silages ofAmaranthus hypochondriacusand Cornmeal: Fermentation Characteristics, Nutritional Value, and Aerobic Stability.Fermentation,2024, 10(8), 378.

10. Jin, Y., Wang, P.,Li, F.,Yu, M., Du, J., Zhao, T., Yi, Q., Tang, H., Yuan, B. The Effects ofLactobacillus plantarumandLactobacillus buchnerion the Fermentation Quality, In Vitro Digestibility, and Aerobic Stability ofSilphium perfoliatumL. Silage.Animals,2024, 14(15), 2279.

11. Yu, M., Wang, P.,Li, F.,Du, J., Jin, Y., Zhao, T., Yi, Q., Tang, H., Yuan, B. Fermentation Quality and In Vitro Digestibility of Sweet Corn Processing Byproducts Silage Mixed with Millet Hull or Wheat Bran and Inoculated with a Lactic Acid Bacteria.Fermentation,2024, 10(5), 254.

12. Zhang, Y., Usman, S., Li, Q.,Li, F.,Zhang, X., Luiz, G. N., Guo, X. Effects of high-antioxidant activityLactiplantibacillus plantaruminoculated alfalfa silage on rumen fermentation, antioxidant and immunity status, and mammary gland gene expression in dairy goats.Journal of Animal Science and Biotechnology, 2024, 59, 25-30.

13. Ke, W., Wang, Y., Marketta, R., Marcia, F.,Li, F.,Lin, Y., Zhang, Q., Cai, Y., Zhang, G. Effects of lactic acid bacteria and molasses on the fermentation quality, in vitro dry matter digestibility, and microbial community ofKorshinsk peashrub(Caragana korshinskiiKom.) silages harvested at two growth stages.Grass and Forage Science, 2023.

14. Su, R.,Li, F.,Liang, Y., Sheoran, N., Bai, J., Hao, L., Ke, W., Chen, H., Jia, M., Usman, S., Chen, M., Guo, X. Responses of microbial community dynamics, co-occurrences, functional shifts, and natural fermentation profiles ofElymus nutanssilage to altitudinal gradients.Microbiology Spectrum, 2023, e02516-23.

15. Li, Z., Wang, M., Samaila, U., Ashiq, K., Zhang, Y.,Li, F.,Bai, J., Chen, M., Zhang, Y., Guo, X. Effects of nisin on bacterial community and fermentation profiles, in vitro rumen fermentation, microbiota, and methane emission of alfalfa silage.Journal of the Science of Food and Agriculture,2023, 12765.

16. Cui, X., Wang, Z., Guo, P.,Li, F.,Chang, S., Yan, T., Zheng, H., Hou, F. Shift of feeding strategies from grazing to different forage feeds reshapes the rumen microbiota to improve the ability of Tibetan sheep (Ovis aries) to adapt to the cold season.Microbiology Spectrum,2023, 11(2), e0281622.

17. Li, Z.,Li, F.,Zohreh, A. K., Guo, X. Effect of Inoculating Two Bacteriocin-ProducingLactiplantibacillus plantarumStrains at Ensiling on In Vitro Rumen Fermentation and Methane Emissions of Alfalfa Silage with Two Dry Matter Contents.Animals,2023, 13(3), 384.

18. Guo, X., Xu, D.,Li, F.,Su, R. Current approaches on the roles of lactic acid bacteria in crop silage.Microbial Biotechnology. 2023, 16(1), 67-87.

19. Li, Z.,Li, F.,Xie, D., Zhang, B., Zohreh A. K., Guo, X. Effects of Bacteriocin-ProducingLactiplantibacillus Plantarumon Fermentation, Dynamics of Bacterial Community, and Their Functional Shifts of Alfalfa Silage with Different Dry Matters.Fermentation, 2022, 8(12), 690.

20. Zhang, Y., Wang, M., Usman, S.,Li, F.,Bai, J., Zhang, J., Guo, X. Lignocellulose conversion of ensiled Caragana korshinskii Kom. facilitated by Pediococcus acidilactici and cellulases.Microbial Biotechnology,2022, 00, 1-16.

21. Zhang, X., Guo, X.,Li, F.,Usman, S., Zhang, Y., Ding, Z. Antioxidant, flavonoid, α-tocopherol, β-carotene, fatty acids, and fermentation profiles of alfalfa silage inoculated with novelLactiplantibacillus plantarumandPediococcus acidilacticistrains with high-antioxidant activity.Animal Feed Science and Technology,2022, 288, 115301.

22. Usman, S.,Li, F.,An, D., Shou, N., Deng, J., Zhang, Y., Guo, X., Shen, Y. Lignocellulose Degradation and Enzymatic Hydrolysis of Soybean Incorporated Sorghum Silage Inoculated with Feruloyl-Esterase ProducingLactobacillus plantarum.Fermentation, 2022, 8(2), 70.

23. Liu, F., Bai, J., Huang, W.,Li, F.,Ke, W., Zhang, Y., Xie, D., Zhang, B., Guo, X. Characterization of a novel beta-cypermethrin-degrading strain ofLactobacillus pentosus3-27 and its effects on bioremediation and the bacterial community of contaminated alfalfa silage.Journal of Hazardous Materials,2022, 423, 127101.

24. Ishaq, M., Khan, A., Bacha, A. S., Shah, T., Hanif, A., Ahmad, A. A., Ke, W.,Li, F.,Din, A, U., Ding, Z., Guo, X. Microbiota Targeted Interventions of ProbioticLactobacillusas an Anti-Ageing Approach: A Review.Antioxidants, 2021, 10(12), 1930.

25. Ke, W., Ding, Z.,Li, F.,Xu, D., Bai, J., Muhammad, I., Zhang, Y., Zhao, L., Guo, X. Effects of malic or citric acid on the fermentation quality, proteolysis and lipolysis of alfalfa silage ensiled at two dry matter contents.Journal of Animal Physiology and Animal Nutrition,2021, 1-7.

26. Guo, X., Bai, J.,Li, F.,Xu, D., Zhang, Y., Bu, D., Zhao, L. Effects of malate, citrate, succinate and fumarate on fermentation, chemical composition, aerobic stability, and digestibility of alfalfa silage.Animal Feed Science and Technology,2020, 268, 114604.

27. Ding, Z., Bai, J., Xu, D.,Li, F.,Zhang, Y., Guo, X. Microbial community dynamics and natural fermentation profiles of ensiled alpine grassElymus nutansprepared from different regions of the Qinghai-Tibetan plateau.Frontiers in Microbiology, 2020, 11, 855.

28. Xu, D., Ding, Z., Bai, J., Ke, W., Zhang, Y.,Li, F.,Guo, X. Evaluation of the effect of feruloyl esterase-producingLactobacillus plantarumand cellulase pretreatments on lignocellulosic degradation and cellulose conversion of co-ensiled corn stalk and potato pulp.Bioresource Technology, 2020, 310, 123476.

29. Zhang, Y., Ke, W., Bai, J.,Li, F.,Xu, D., Ding, Z., Guo, X. The effect ofPediococcus acidilacticiJ17 with high-antioxidant activity on antioxidant, α‑tocopherol, β‑carotene, fatty acids, and fermentation profiles of alfalfa silage ensiled at two different dry matter contents.Animal Feed Science and Technology,2020, 268, 114614.

30. Zhang, Y., Huang, Z., Vyas, D., Adesogan, A. T., Franco, M., Ke, W.,Li, F.,Bai, J., Ding, Z., Guo, X. Antioxidant status, chemical composition and fermentation profile of alfalfa silage ensiled at two dry matter contents with a novelLactobacillus plantarumstrain with high-antioxidant activity.Animal Feed Science and Technology,2020, in press.

31. Xu, D., Wang, N., Rinne, M., Ke, W., Weinberg, Z. G., Mi, D., Bai, J., Zhang, Y.,Li, F.,Guo, X. The bacterial community and metabolome dynamics and their interactions modulate fermentation process of whole crop corn silage prepared with or without inoculants.Microbial Biotechnology,2020.

32. Guo, P., Gao, P.,Li, F.,Chang, S., Wang, Z., Yan, T., Hou, F. Prediction of Metabolizable Energy Concentrations of Herbage in the Qinghai–Tibetan Plateau Using Tibetan Sheep Digestibility Data.Animals, 2020, 10, 376.

33. Abdelraheem, N.,Li, F.,Guo, P., Sun, Y., Liu, Y., Cheng, Y., Hou, F. Oat Hay as Winter Feed Improves Digestibility, Nitrogen Balance and Energy Utilization of Tibetan Sheep (Ovis aries) in the Qinghai Tibetan Plateau.Livestock Science,2019, 230, 103854.

34. Ding, Z. T., Xu, D. M., Bai, J.,Li, F. H.,Adesogan, A. T., Zhang, P., Yuan, X. J., Guo, X. S. Characterization and identification of ferulic acid esterase-producingLactobacillusspecies isolated fromElymus nutanssilage and their application in ensiled alfalfa.Journal of Applied Microbiology,2019, 127, 985-995.

35. Xu, D., Ding, W., Ke, W.,Li, F.,Zhang, P., Guo, X. Modulation of metabolome and bacterial community in whole crop corn silage by inoculating homofermentative Lactobacillus plantarum and heterofermentative Lactobacillus buchneri.Frontiers in Microbiology, 2019, 9, 3299.

36. Xu, D. M., Ke, W. C., Zhang, P.,Li, F. H.,Guo, X. S. Characteristics of Pediococcus pentosaceus Q6 isolated from Elymus nutans growing on the Tibetan Plateau and its application for silage preparation at low temperature.Journal of Applied Microbiology,2019, 126, 40-48.

37. Ke, W. C., Ding, W. R., Ding, L. M., Xu, D. M., Zhang, P.,Li, F. H.,Guo, X. S. Influences of malic acid isomers and their application levels on fermentation quality and biochemical characteristics of alfalfa silage.Animal Feed Science and Technology,2018, 245, 1-9.

38. 李福厚,王召锋,侯扶江,程云湘.藏绵羊燕麦青干草冷季补饲特征研究进展[J].中国畜牧兽医, 2016, 43(9):2358-2365.

39. 张勃,柯文灿,李福厚,郭旭生.干草防腐剂在不同规格苜蓿干草捆中的应用效果研究[J].草地学报, 2022, 30(6), 1569.

40. 冉丽娟,李福厚,程云湘,侯扶江.夏季不同比例燕麦草与天然牧草混合饲喂对藏羊消化代谢的影响[J].草业科学, 2020, 37(0):1-9.

41. 张娟,李文苑,高利娥,马莹,丁梓桐,李福厚,郭旭生.青藏高原牦牛酸奶中降胆固醇乳酸菌的筛选及特性研究[J].中国食品工业, 2019(10):72-77.

42. 朱晋佳,陈梁,杨国杰,马志远,李飞,郭旭生,李福厚.发酵苹果渣全混合日粮对肉牛育肥性能和胃肠道细菌组成的影响[J].草业科学, 2024, 41(9):2118-2132.

    国际会议论文：

43. Li, F.,Ding, Z., Ke, W., Bai, J., Zhang, X., Guo, X. S. Effects of class IIa bacteriocin-producingLactobacillusspecies on fermentation quality and aerobic stability of alfalfa silage. In: Proceedings of 18th International Symposium Forage Conservation, Brno, Czech Republic, 14/8~17/8/2019.

44. Ke, W., Xu, D., Zhang, P.,Li, F.,Shah, M., Guo, X. Effects of four organic acids known as key intermediates in citric acid cycle on fermentation quality of lucerne silage. In: Proceedings of the XVIII International Silage Conference, July 24-26, 2018, Bonn, Germany. p. 264-265.

45. Zhang, Y.,Li, F.,Bai, J., Ke, W., Guo, X. S. 2019. Antioxidant profiles ofLactobacillus plantarum24-7 and its applications on alfalfa silage: fermentation characteristics, fatty acid composition and antioxidant potential. VI International Symposium on Forage Quality and Conservation, Piracicaba, SP-Brazil, 7/11-8/11/2019.

46. Li, F.,Ding, Z., Ke, W., Bai, J., Zhang, X., Guo, X. S. 2019. Effects of class IIa bacteriocin-producingLactobacillusspecies on fermentation quality and aerobic stability of alfalfa silage.VI International Symposium on Forage Quality and Conservation, Piracicaba, SP-Brazil, 7/11-8/11/2019.

47. Ke, W., Ding, Z., Bai, J.,Li, F., Xu, D., Zhang, P., Guo, X. S. 2019.Effects of four organic acids known as key intermediates in citric acid cycle on fermentation, biochemical composition, aerobic stability and digestibility of alfalfa silage. VI International Symposium on Forage Quality and Conservation, Piracicaba, SP-Brazil, 7/11-8/11/2019.

48. Li, F.,Zhang, B., Zhang, Y., Guo, X. Feed digestibility, rumen fermentation, antioxidant and immunity status of lactating dairy goats fed alfalfa silage-based diets with feruloyl esterase-producingLactobacillus plantaruminoculation. In: Proceedings of the XIX International Silage Conference, Beijing, China, 8/8-12/8/2023.

49. Li, F.,Huang, W., Jia, M., Zhang, B., Guo, X. Effects of inoculation of feruloyl esterase-producingLactobacillusin ensiled alfalfa on conservation, in vitro ruminal digestibility, gas production, fermentation and microbiota. In: Proceedings of the XIX International Silage Conference, Beijing, China, 8/8-12/8/2023.

50. Jiang, Q.,Li, F.,Mauck, J., Usman, M., Unnawong, N., Cherdthong, A., Wichasit, N., Guyader, J., Fernandes, T., Cardoso, F. C., Loor, J. J. Rumen-protected methionine and its effects on ruminal microbiota during a heat stress challenge in lactating Holstein cows. In: Proceedings of the American Dairy Science Association 2025 Annual Meeting, Louisville, Kentucky, US, 22/6-25/6/2025.

    授权专利：

51. 王鹏,金怡彤,袁宝,唐鸿宇,李福厚.一种全自动微生物青贮饲料加工设备及方法.专利号：ZL202411045228.2.

52. 程云湘,李福厚,王召峰,侯扶江,郭鹏辉,常生华.一种可拆卸藏绵羊消化代谢实验装置.专利号：CN205585030U.

53. 候扶江,郭鹏辉,常生华,陈先江,李福厚.用于固定六氟化硫渗透管的固定支架.专利号：CN204583248U.

54. 候扶江,郭鹏辉,常生华,陈先江,李福厚.固定袋.专利号：CN204594756U.

55. 候扶江,郭鹏辉,常生华,陈先江,李福厚.用于采集反刍动物释放的甲烷的采集装置.专利号：CN204581341U.

    地方标准：

56. 郭旭生,赵真,罗莉宁,李福厚,李润桦,李天银,秦国生,许冬梅,贾涪钧,于应文.苜蓿草高水分打捆技术规程, DB62/T 4919-2024.

57. 郭旭生,张勃,张红梅,汪建辉,朱煦国,许冬梅,李福厚,李润桦,白洁,郑立东,于建海.高水分玉米籽粒青贮技术规程, DB62/T 4918-2024.

    获得奖项：

58. 甘肃省科技进步一等奖,黄土高原丘陵区饲草优质高效青贮关键技术装备研发与产业化应用（9/15）, 2025.

七、获得荣誉

• 2025年，甘肃省科技进步一等奖

• 2024年，吉林大学动物科学学院学术年会二等奖

• 2024年，入选吉林大学第四批“培英工程计划”

• 2024年，凡科优秀评审专家称号

• 2024年，吉林大学唐敖庆青年学者，副教授

• 2023年，个人优秀事迹被兰州大学党委宣传部弘扬报道

• 2021年，获兰州大学草地农业科技学院中国共产党建党一百周年“优秀共产党员”荣誉称号

• 2021年，获兰州大学优秀毕业研究生荣誉称号

• 2020年，获兰州大学优秀研究生荣誉称号

• 2020年，获第三届草地农业生态系统国家重点实验室“学术十杰”优秀奖

• 2019年，获兰州大学“刘冰奖学金”