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教师目录

潘龙

来源: 发布时间 : 2021-06-10 点击量:

   

潘龙

 

   

学历学位

农学博士学位研究生学历

   

副教授

导师类别

硕士生导师

专业领域

动物营养与饲料科学

研究方向

1饲料资源的开发与应用;2饲用活性调节剂的开发与应用

教育与工作经历

20079-20116月,扬州大学,动物科学,学士

20119-20146月,中国农业科学院北京畜牧兽医研究所,动物(奶牛)营养与饲料科学,硕士

20149-20186月,中国农业大学,农业农村饲料工业中心动物 (猪) 营养与饲料科学,博士

20187-至今,南京农业大学动物科技学院,讲师/副教授

联系方式

panlong@njau.edu.cn025-84395523

奖励及荣誉

2018年,动物营养科学青年学者奖特等奖

2022年,新希望六和奖教金

学术团体

及任职情况

中国畜牧兽医学会动物营养学分会

江苏饲料工业协会理事

青年i猪联盟

承担

科研项目

1. 国家自然科学基金青年项目,基于宿主酶和肠道微生物消化研究高、低单宁高粱营养素在猪肠道中释放的时空差异及机制,2022.01-2024.12,主持。

2. 国家重点研发计划子课题,生长猪高粱、大麦、木薯消化发酵动力学模型的建立,2021.12-2026.11,主持。

3. 国家重点研发计划子课题,肠道微生物介导日粮活性物代谢转化对肉风味形成的调控(技术)2024.01-2028.12,主持。

4. 江苏省青年基金项目,单宁降低高粱能量利用效率的猪肠道消化代谢机制,2019.07-2022.06,主持。

5. 中国博士后科学基金第67批面上资助,高粱单宁对猪粪尿氮排放的影响及其机制研究,2020.07-2022.06,主持。

6. 江苏省博士后科研资助,高粱单宁降低生长猪氮素沉积效率的机制研究,2020.06-2022.06主持。

7. 企业项目,复合预混料的技术研发及应用效果2023.12-2024.06,主持。

8. 中央高校基本业务费,舍饲藏猪的肠道微生物对高、低纤维日粮的响应研究,2023.01-2023.12,主持。

9. 中央高校基本业务费,高粱和玉米碳氮营养素在猪肠道中释放差异的机制研究,2022.01-2022.12,主持。

10. 国家自然科学基金重大项目课题,猪肠道微生物代谢与碳氮协同利用的互作机制, 2024.01-2028.12,参与。

论文论著:

一直从事动物营养与饲料科学方向的教学与科研工作

教学工作:

1)本科生课程:动物营养学、饲料学、饲料安全与质量评定、饲料配方及配制技术、饮食营养与健康,等;

指导本科生获全国大学生动科专业技能大赛(鱼粉掺假鉴别)单项特等奖、优秀毕业论文/毕业

2)研究生课程:饲料行业发展动向、高级饲料学

指导研究生获国家奖学金、优秀报告奖、优秀毕业生等

科研工作:主要以猪和禽等为试验动物

1)非常规饲料资源(以高粱为主)的开发与应用;

2)饲用活性调节剂(酶制剂、植物提取物、益生菌益生素、功能性维、矿元素等)的开发与应用

高粱原料的开发与应用:

1. Pan*, L., Feng, S.X., Li, W., Zhu, W.Y., 2023. Sorghum tannin extract impedes in vitro digestibility and fermentability of nutrients in the simulated porcine gastrointestinal tract. J. Anim. Sci. 101, 1-11.

2. Pan*, L., Feng, S.X., Li, W., Zhu, W.Y., 2022. Comparative digestion and fermentation characteristics of low-tannin or high-tannin sorghum grain in the porcine gastrointestinal tract. J. Anim. Sci. 100, 1-8.

3. Pan*, L., Li, W., Gu, X.M., Zhu, W.Y., 2022. Comparative ileal digestibility of gross energy and amino acids in low and high tannin sorghum fed to growing pigs. Anim. Feed Sci. Technol. 292, 115419.

4. Pan*, L., An, D., Zhu, W.Y., 2021. Sorghum as a dietary substitute for corn reduces the activities of digestive enzymes and antioxidant enzymes in pigs. Anim. Feed Sci. Technol., 273, 114831.

5. Pan*, L., An, D., Zhu, W.Y., 2021. Low tannin sorghum grain could be used as an alternative to corn in diet for nursery pigs. J. Anim. Physiol. Anim. Nutr., 105, 890-897.

6. Pan*, L., An, D., 2020. Comparative energy and nitrogen excretion from growing pigs fed on corn, sorghum and wheat-based diets. Anim. Feed Sci. Technol., 264, 114477.

7. Pan*, L., An, D., 2020. Nitrogen utilization is lower for sorghum-based diets compared with corn-based diets in pigs. Livest. Sci., 237, 104066.

8. Pan, L., Ma, X.K., Hu, J.X., Liu. L., Yuan, F.M., Liu, L., Li, D.F., Piao*, X.S., 2019. Low-tannin white sorghum contains more digestible and metabolizable energy than high-tannin red sorghum if fed to growing pigs. Anim. Prod. Sci., 59, 524-530.

9. Pan, L., Piao*, X.S., Wu, Y., Ma, H., Ma, X.K., Shang, Q.H., Liu, L., Li. D.F., 2018. Digestible energy of sorghum grain for pigs could be predicted using a computer-controlled simulated digestion system. Anim. Feed Sci. Technol., 240, 31-39. 

10. Pan, L., Shang, Q.H., Ma, X.K., Wu, Y., Long, S.F., Wang, Q.Q., Piao*, X.S., 2017. Coated compound proteases improve nitrogen utilization by decreasing manure nitrogen output for growing pigs fed sorghum soybean meal based diets. Anim. Feed Sci. Technol., 230, 136-142.

11. Pan, L., Shang, Q.H., Wu, Y., Ma, X.K., Long, S.F., Liu, L., Li, D.F., Piao*, X.S., 2017. Concentration of digestible and metabolizable energy, standardized ileal digestibility, and growth performance of pigs fed diets containing sorghum produced in the United States or corn produced in China. J. Anim. Sci., 95, 4880-4892.

12. Pan, L., Li, P., Ma, X.K., Xu, Y.T., Tian, Q.Y., Liu, L., Li, D.F., Piao*, X.S., 2016. Tannin is a key factor in the determination and prediction of energy content in sorghum grains fed to growing pigs. J. Anim. Sci., 94, 2879-2889.

13. 刘晓英, 张凯, 张梦瑶, 杨向科, 朱伟云, 潘龙*, 2024. 基于猪体外仿生消化技术研究高粱与玉米养分降解效率的差异. 动物营养学报. 36(6):1-8.

14. 李旺, 顾晓明, 安冬, 李军, 冯少轩, 朱伟云, 潘龙*, 2023. 基于猪体外仿生消化法研究高粱单宁对高粱养分降解效率的影响. 南京农业大学学报. 46(2):354-359.

15. 李旺, 顾晓明, 安冬, 朱伟云, 潘龙*, 2023. 基于猪体外仿生消化法研究聚乙二醇对高单宁高粱养分降解效率的影响. 南京农业大学学报. 46(5):907-912.

16. 潘龙. 高粱的猪有效能预测方程及高效应用的研究:[博士论文]. 北京:中国农业大学,2018.

其它原料(玉米、大麦、小麦、酶解羽毛粉、酵母提取物等)的开发与应用:

17. Pan§, L., Tian§, Q.Y., Wu, Y., Long, S.F., Yin, J.D., Piao*, X.S., 2019. Yeast extract could be used as a partial substitute for spray-dried porcine plasma in diets for weaned pigs. Livest. Sci., 224, 20-25.

18. Pan§, L., Ma§, H., Piao*, X.S., Liu, L., Li, D.F., 2018. A computer controlled simulated digestion system is a promising in vitro digestibility technique to predict digestible energy of corn grain for growing pigs. Anim. Feed Sci. Technol., 235, 43-49.

19. Wu, Y§., Pan§, L., Tian, Q.Y., Piao*, X.S., 2018. Comparative digestibility of energy and ileal amino acid in yeast extract and spray-dried porcine plasma fed to pigs. Arch. Anim. Nutr., 72, 76-84.

20. Xie, F§., Pan§, L., Li, Z.C., Shi, M., Liu, L., Li, Y.K., Huang, C.F., Li, D.F., Piao*, X.S., Cao* Y.H., 2017. Comparative digestibility of energy in four cereal grains fed to barrows at four body weights. Anim. Feed Sci. Technol., 232, 215-221.

21. Pan, L., Ma, X.K., Wang, H.L., Xu, X., Zeng, Z.K., Tian, Q.Y., Zhao, P.F., Zhang, S., Yang, Z.Y., Piao*, X.S., 2016. Enzymatic feather meal as an alternative animal protein source in diets for nursery pigs. Anim. Feed Sci. Technol., 212, 112-121.  

动物饲用活性调节剂(酶制剂、植物提取物、益生菌益生素抗应激维矿等)的开发与应用:

22. Pan§, L., Ma§, X.K., Zhao, P.F., Piao*, X.S., 2019. Weeping forsythia extract alleviates dexamethasone-induced oxidative injury of breast muscles in broilers. Animal, 13, 2660-2668.

23. Pan, L., Ma, X.K., Zhao, P.F., Shang, Q.H., Long, S.F., Wu, Y., Piao*, X.S., 2018. Forsythia suspensa extract attenuates breast muscle oxidative injury induced by transport stress in broilers. Poult. Sci., 97(5), 1554-1563.

24. Pan, L., Zhao, P.F., Ma, X.K., Shang, Q.H., Long, S.F., Wu, Y., Wang, W., Piao*, X.S., 2018. Forsythia suspensa extract protects broilers against breast muscle oxidative injury induced by corticosterone mimicked pre-slaughter acute stress. Poult. Sci., 97(6), 2095-2105.

25. Pan, L., Zhao, P.F., Ma, X.K., Shang, Q.H., Xu, Y.T., Long, S.F., Wu, Y., Yuan, M.F., Piao*, X.S., 2017. Probiotic supplementation protects weaned pigs against enterotoxigenic Escherichia coli K88 challenge and improves the performance in similar to antibiotics. J. Anim. Sci., 95, 2627-2639.

26. Wu§, Y., Pan§, L., Shang, Q.H., Ma, X.K., Long, S.F., Xu, Y.T., Piao*, X.S., 2017. Effects of isomalto-oligosaccharides as potential prebiotics on performance, immune function and gut microbiota in weaned pigs. Anim. Feed Sci. Technol., 230, 126-135. 

27. Pan, L., Zhao, P.F., Yang, Z.Y., Long, S.F., Wang, H.L., Tian, Q.Y., Xu, Y.T., Xu, X., Zhang, Z.H., Piao*, X.S., 2016. Effects of coated compound proteases on apparent total tract digestibility of nutrients and apparent ileal digestibility of amino acids for pigs. Asian-Aust. J. Anim. Sci., 29, 1761-1767.

28. Pan, L., Bu*, D.P., Wang, J.Q., Cheng, J.B., Sun, X.Z., Zhou, L.Y., Qin, J.J., Zhang, X.K., Yuan, Y.M., 2014. Effects of Radix Bupleuri extract on lactation performance and rumen fermentation in heat-stressed lactating Holstein cows. Anim. Feed Sci. Technol., 187, 1-8.

注:§代表共同一作。

其它(标准或者著作)

29. 参与行业标准修订2项(饲料原料 高粱 NY/T115-2021;饲料原料 稻谷 NY/T116-2023

30. 参编著作1部(常见农产品加工副产物饲料化利用,印遇龙 主编,2021

 

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