邵濤

1981年9月~1985年7月甘肅農業大學本科學士學位。

1995年4月~1997年3月日本九州大學生物資源與環境學部動物與海洋生物資源科學系修士學位。

1997年4月年~2001年3月日本九州大學生物資源與環境學部動物與海洋生物資源科學系博士學位。

1985年8月~1990年12月 中國農業科學院畜牧與獸藥研究所研究實習員。

1991年1月~1994年10月 中國農業科學院畜牧與獸藥研究所助理研究員。

2001年4月~2003年3月 九州大學農學部動物飼料生產與利用研究室研究員。

2003年4月-2004年5月 九州大學先端科學技術共同研究中心研究員(日本文部教官)

2004年5月~2012年12月 南京農業大學動物科技學院南方草業工程系教授，博士生導師。

2013年1月~至今 南京農業大學草業學院教授，博士生導師。

中國草學會草產品加工委員會 副主任委員；中國草學會飼料生產委員會 常務理事；江蘇省牧草與草地專業委員會 常務理事；《畜牧與獸醫》、《草業科學》、《草學》等學術期刊編委。 ^[1] 

（1）“長三角區域奶牛高效健康養殖關鍵技術研究、集成與應用” 2010年獲江蘇省科學技術進步獎二等獎，江蘇省人民政府。6/10

（2）“西藏河谷農區草產業關鍵技術研究與示範” 2013年獲西藏自治區科學技術進步獎一等獎，西藏自治區人民政府。9/12

（3）“西藏主要農作物秸稈與栽培牧草混合青貯關鍵技術研究”2014年獲西藏自治區科學技術進步獎一等獎，西藏自治區人民政府。1/12

(4) “農業秸稈資源化綜合利用關鍵技術集成與應用” 2017年度上海市科學技術進步獎三等獎，上海市人民政府。2/7

（5）西藏自治區草業科技工作“先進個人”稱號。2017

（6）南京農業大學“133人才工程”優秀學術帶頭人。(第一期，第二期-至今)

（7）南京農業大學 第四屆優秀研究生教師。2018

（8）南京農業大學 優秀共產黨員。2015

（9）南京農業大學 優秀共產黨員。2018

（10）發表論文170餘篇，其中SCI論文108篇。 ^[1] 

1. Wang Siran; Jie Zhao; Zhihao Dong; Junfeng Li; Niaz Ali Kaka; Tao Shao* Sequencing and microbiota transplantation to determine the role of microbiota on the fermentation type of oat silage. Bioresource Technology, 2020, 309:123371.

2. Mudasir Nazar; Wang Siran; Jie Zhao; Zhihao Dong; Junfeng Li; Niaz Ali Kaka; Tao Shao* The feasibility and effects of exogenous epiphytic microbiota on the fermentation quality and microbial community dynamics of whole crop corn. Bioresource Technology Online, 2020, (SCI, JCR一區, IF=6.669)

3. Niaz Ali; Siran Wang; Jie Zhao; Zhihao Dong; Junfeng Li; Tao Shao*Microbial diversity and fermentation profile of red clover silage inoculated with reconstituted indigenous and exogenous epiphytic microbiota. Bioresource Technology, 2020,123606. (IF=7.539)

4. Liu Q; Li J; Zhao J; et al. Enhancement of lignocellulosic degradation in high-moisture alfalfa via anaerobic bioprocess of engineered Lactococcus lactis with the function of secreting cellulase[J]. Biotechnology for Biofuels, 2019, 12(1).

5. Jie Zhao; Zhihao Dong; Junfeng Li; Lei Chen; Yunfeng Bai; Yushan Jia; Tao Shao* Ensiling as pretreatment of rice straw: The effect of hemicellulase and Lactobacillus plantarum on hemicellulose degradation and cellulose. Bioresource Technology, 2019, 158-165.

6. Effect of Ensiling Density on Fermentation Quality of Guineagrass (Panicum maximum Jacq.) Silage During the Early Stage of Ensiling. Asian–Australasian Journal of Animal Sciences(SCI)，2005. Vol 18, No.9:1273-1278. 1/4

7. Effect of Additives on the Fermentation Quality and Residual Mono- and Di-saccharides Compositions of Forage Oats (Avena sativa, L.) and Italian Ryegrass (Lolium multiflorum Lam.) Silages. Asian–Australasian Journal of Animal Sciences(SCI)， 2005. Vol 18, No.11: 1582-1588. 1/4

8. Comparison of Fermentation Characteristics of Italian Ryegrass (Lolium multiflorum Lam.) and Guineagrass (Panicum maximum Jacq.)during the Early Stage of Ensiling. Asian–Australasian Journal of Animal Sciences(SCI), 2005. Vol 18, No. 12: 1727-1734. 1/5

9. Effect of Adding Glucose, Sorbic Acid and Pre-Fermented Juice on the Fermentation Quality of Guineagrass (Panicum maximum Jacq.) Silage. Asian–Australasian Journal of Animal Sciences(SCI), 2004. Vol.17, No.6: 808-813. 1/4.

10. Changes in Mono–and Disaccharides Compositions of

Guineagrass (Panicum Maximum Jacq.) Silage During Early Stages of Ensiling. Journal of Faculty of Agriculture, Kyushu University(SCI), 2003, 47(2):333-339. 1/4

11. Fermentation Quality of Forage Oat (Avena sativa L.) Silages Treated with Pre-Fermented Juices, Sorbic Acid, Glucose and Encapsulated-Glucose. Journal of Faculty of Agriculture, Kyushu University(SCI), 2003, 47(2):341-349. 1/4

12. Effects of Addition of Glucose and Sorbic Acid on the Fermentation Quality of Guineagrass (Panicum Maximum Jacq.) Silages. Journal of Faculty of Agriculture, Kyushu University(SCI), 2003, 47(2):351-358. 1/4

13. Dynamics of Early Fermentation of Italian Ryegrass (Lolium multiflorum Lam.) Silage. Asian–Australasian Journal of Animal Sciences(SCI), 2002, Vol.15. No.11:1606-1610, 1/4.

14. Effect of Slower Nitrogen Releasing Additive on the Quality of Napiergrass (Pennisetum Purpureum Schumach.) Silage. Journal of Faculty of Agriculture, Kyushu University(SCI),2001, 45(2):415–421, 3/8.

15. Effect of Ensiling Density on Fermentation Quality of Napiergrass (Pennisetum Purpureum Schumach.) Silage. Journal of Faculty of Agriculture, Kyushu University(SCI),2001, 45(2):423–429, 3/7.

16. The Changes in pH value in silo during the ensiling. The west Japan Journal of Animal Science. 1997, Vol.48. 1/3.

17. Characteristics of gas and organic acid production during the early stage of ensiling. The west Japan Journal of Animal Science.1998, Vol.49. 1/3.

18. Characteristics of gas and organic acid production of tropical grass silages during the early stage of ensiling. Grassland Science Japan. 1998, Vol.44. 1/3.

19. Changes in pH value of tropical grass silages in silo during the ensiling. Japanese Society of Zootechnical Science.1998, Vol.48. 1/3.

20. Effect of parking density on the fermentation quality of guineagrass silage　during the early stage of ensiling. The west Japan Journal of Animal Science. 1999, Vol.50. 1/6.

21. Effect of parking density on the fermentation quality of phasey bean silage during the early stage of ensiling. The west Japan Journal of Animal Science. 2000, Vol.51. 1/5.

22. Studies on various factors affecting well fermentation quality of phasey bean silage------I. Changes in water soluble carbohydrates. Grassland Science Japan. 2000, Vol.46. 2/6.

23. Studies on various factors affecting well fermentation quality of phasey bean silage------II. Changes in nitrogenous compounds and protein hydrolysis of plant enzyme activities. Grassland Science Japan. 2000,