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中国科学院亚热带农业生态研究所导师教师师资介绍简介-王敏

本站小编 Free考研考试/2021-09-02


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研究员
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mwang@isa.ac.cn, wing_mail@hotmail.com
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研究员
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湖南省长沙市芙蓉区马坡岭远大二路644号
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博士,毕业于中国科学院大学,研究员,博士生导师,中国科学院青年创新促进会会员,2019年国家优秀青年基金获得者,畜牧兽医学会第三届井冈新秀奖,颐和青年成就奖。目前任农业生态过程重点实验室副主任,中科院青年创新促进会生命科学分会会长,动物营养学会理事,畜牧兽医学会高级会员。主要从事通过瘤胃氢迁移和甲烷排放研究反刍家畜能量代谢。学术成果:1)研制全自动体外模拟瘤胃发酵系统,观察并报道了瘤胃内氢气生成与消耗的现象,构建氢气和甲烷累积的LE系列模型;2)突破瘤胃内溶解态氢测定的技术难点,建立了瘤胃内溶解态氢的取样和测定方法;3)提出并证明溶解态氢具有调控瘤胃发酵模式和甲烷生成的重要营养学功能。
先后主持国家自然科学基金青年、面上、国际合作重点和优秀青年项目,科技部重点研发项目子课题和湖南省国际合作重点项目等10余项。相关研究成果在国内国际主流杂志上发表论文SCI论文80多篇,其中以(共同)第一/(共同)通讯作者在Journal of Nutrition、British Journal of Nutrition、Journal of Dairy Science、Journal of Animal Science、Animal Feed Science and Technology、Animal等本专业国际主流杂志上发表SCI论文30多篇。相关研究成果作为获湖南省科技进步一等奖1项。申请人应Frontiers in microbiology和 Innovation邀请担任编委。研究成果被J Sci Food Agri选为封面论文,美国动物科学学会亮点报道和Anim Feed Sci Technol 杂志 Top 25 (排名第7)最热门论文。

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SCI发表目录(*为通讯作者)
1. Wang R, Wang M(*), Lin B, Ma ZY, Ungerfeld EM, Wu TT, Wen JN, Zhang XM, Deng JP, Tan ZL. Association of fibre degradation with ruminal dissolved hydrogen in growing beef bulls fed with two types of forages. Br J Nutr. 2020 Jul 28:1-10. doi: 10.1017/S00071**.
2. Zhang X.M., Gruninger R.J., Alemu A.W., Wang M. (*), Tan Z.L., Kindermann M., Beauchemin K.A. 2020. 3-Nitrooxypropanol supplementation had little impact on fiber degradation and microbial colonization of forage particles evaluated using the in situ ruminal incubation technique. Journal of Dairy Science. 103:8986–8997.
3. Ma, Z.Y., Zhang, X.M., Wang, R., Wang, M. (*), Liu, T., Tan, Z.L. 2020. Effects of Chemical and Mechanical Lysis on Microbial DNA Yield, Integrity, and Downstream Amplicon Sequencing of Rumen Bacteria and Protozoa. Frontiers in Microbiology, 11:2812.
4. Zhang, X.M., Wang M(*), Yu, Q., Ma, Z.Y., Beauchemin, K.A., Wang, R., Wen, J.N., Lukuyu, B.A., Tan, Z.L. 2020. Liquid hot water treatment of rice straw enhances anaerobic degradation and inhibits methane production during in vitro ruminal fermentation. Journal of Dairy Science. 103:4252-4261.
5. Arowolo, M. A., Yang S., Wang M(*),He J. H., Wang C., Wang R., Wen J. N., Ma Z. Y., and Tan Z. L.. The effect of forage theoretical cut lengths on chewing activity, rumen fermentation, dissolved gases, and methane emissions in goats. Animal Feed Science and Technology 2020. 263:114454.
6. Teklebrhan T, Wang R, Wang M(*), Wen JN, Li Wei T, Zhang XM, Ma ZY, Tan ZL. Effect of dietary corn gluten inclusion on rumen fermentation, microbiota and methane emissions in goats. Animal Feed Science and Technology 2020:114314.
7. Beauchemin, K.A., Ungerfeld, E.M., Eckard, R.J., Wang, M. 2020. Review: Fifty years of research on rumen methanogenesis: lessons learned and future challenges for mitigation. Animal, 14(S1), s2-s16.
8. Kang J, Wang R, Tang S, Wang M(*), Tan Z, Bernard LA. 2020. Chemical composition and in vitro ruminal fermentation of pigeonpea and mulberry leaves. Agroforestry Systems. 94:1521–1528.
9. Liu, S., Zhang, Z., Hailemariam, S., Zheng, N., Wang, M(*), Zhao, S., Wang, J. 2020. Biochanin A Inhibits Ruminal Nitrogen-Metabolizing Bacteria and Alleviates the Decomposition of Amino Acids and Urea In Vitro. Animals, 10(3), 368.
10. Zhang XM, Medrano RF, Wang M(*), Beauchemin KA, Ma ZY, Wang R, Wen JN, Lukuyu BA, Tan ZL, He JH. Corn oil supplementation enhances hydrogen use for biohydrogenation, inhibits methanogenesis, and alters fermentation pathways and the microbial community in the rumen of goats. Journal of Animal Science 2019. 97:4999–5008
11. Wang R, Wang M (*), Zhang XM, Yang HM, Wen JN, Ma ZY, Feng BL, Deng JP, Tan ZL. Technical note: Evaluation of interval between measurements and calculation method for the quantification of enteric methane emissions measured by respiration chamber. Journal of Dairy Science 2019;102(7):6242-6247.
12. Ma ZY, Zhang XM, Wang M (*), Wang R, Jiang ZY, Tan ZL, Gao FX, Muhammed A. Molecular hydrogen produced by elemental magnesium inhibits rumen fermentation and enhances methanogenesis in dairy cows. Journal of Dairy Science 2019;102(6):5566-5576.
13. Wang R, Si HB, Wang M(*), Lin B, Deng JP, Tan LW, Liu WX, Sun XZ, Teklebrhan T, Tan ZL. Effects of elemental magnesium and magnesium oxide on hydrogen, methane and volatile fatty acids production in in vitro rumen batch cultures. Animal Feed Science and Technology 2019;252:74-82.
14. Zhang, X, Medrano, RF, Wang, M (*), Beauchemin, KA, Ma, Z, Wang, R, Wen, J, Bernard, LA, Tan Z. 2019, Effects of urea plus nitrate pretreated rice straw and corn oil supplementation on fiber digestibility, nitrogen balance, rumen fermentation, microbiota and methane emissions in goats. Journal of Animal Science and Biotechnology: 10:6.
15. Wang R, Wang M (*), Zhang XM, Wen JN, Ma ZY, Long DL, Deng JP(*), Tan ZL. Effects of rumen cannulation on dissolved gases and methanogen community in dairy cows. Journal of Dairy Science. 2019. 102(3):2275-82.
16. Wang M, Wang R, Liu M, Beauchemin KA, Sun XZ, Tang SX, Jiao JZ, Tan ZL, He ZX. Dietary starch and rhubarb supplement increase ruminal dissolved hydrogen without altering rumen fermentation and methane emissions in goats. Animal. 2019. 13(5):975-982.
17. He, ZX, Qiao JY, Yan QX, Tan ZL,Wang M (*).Quantitative evaluation of ruminal methane and carbon dioxide formation from formate through C-13 stable isotope analysis in a batch culture system.Animal. 2019. 13:90-97.
18. He ZX, Qiao JY, Tan ZL, Wang M (*). 2018. Carbon-13 stable isotope analysis reveals the existence but insignificance of ruminal methanogenic pathway from acetate in a batch culture system. Animal Feed Science and Technology 246:46-51.
19. Wang R, Wang M (*), Ungerfeld EM, Zhang XM, Long DL, Mao HX, Deng JP, Bannink A, Tan ZL. 2018. Nitrate improves ammonia incorporation into rumen microbial protein in lactating dairy cows fed a low-protein diet. Journal of Dairy Science101: 9789-9799.
20. Zhang X; Wang M(*);Wang R; Ma Z; Long D; Mao H; Wen J; Bernard LA; Beauchemin KA; Tan Z; 2018 Urea plus nitrate pretreatment of rice and wheat straws enhances degradation and reduces methane production in in vitro ruminal culture. Journal of the Science of Food and Agriculture 98: 5205-5211.(封面论文)
21. Ma, ZY; Wang, R; Wang, M(*); Zhang, XM; Mao, HX; Tan, ZL. Short communication: Variability in fermentation end-products and methanogen communities in different rumen sites of dairy cows. Journal of Dairy Science, 2018 101(6):5153-5158.
22. Wang, M; Wang, R; Zhang, XM; Ungerfeld, EM; Long, DL; Mao, HX; Jiao, JZ; Beauchemin, KA; Tan, ZL(*). Molecular hydrogen generated by elemental magnesium supplementation alters rumen fermentation and microbiota in goats. British Journal of Nutrition, 2017.9, 118(6): 401~410
23. Wang, Z; Elekwachi, CO; Jiao, JZ; Wang, M(*); Tang, SX; Zhou, CS; Tan, ZL; Forster, RJ. Investigation and manipulation of metabolically active methanogen community composition during rumen development in black goats. Scientific Reports, 2017.3.24, 7
24. Wang, M; Wang, R; Janssen, PH; Zhang, XM; Sun, XZ; Pacheco, D; Tan, ZL(*)Sampling procedure for the measurement of dissolved hydrogen and volatile fatty acids inthe rumen of dairy cows. Journal of Animal Science, 2016, 94: 1159~1169.
25. Wang, M; Wang, R; Xie, TY; Janssen, PH; Sun, XZ; Beauchemin, KA; Tan, ZL(*); Gao, M. Shifts in rumen fermentation and microbiotaare associated with dissolved ruminal hydrogen concentrations in lactatingdairy cows fed different types of carbohydrates. Journal of Nutrition, 2016.9.1, 146: 1714~1721
26. Wang, M; Ungerfeld, EM; Wang, R; Zhou, CS; Basang, ZZ; Ao, SM; Tan, ZL(*). Supersaturation ofdissolved hydrogen and methane in rumen of Tibetan Sheep. Frontiers in Microbiology, 2016, 7(850)
27. Wang, M; Wang, R; Tang, SX; Tan, ZL(*); Zhou, CS; Han, XF. Comparisons of manual and automated incubation systems: Effects of venting procedures on in vitro ruminalfermentation. Livestock Science, 2016, 184: 41~45
28. Wang, M; Wang, R; Yang, S; Deng, JP; Tang, SX; Tan, ZL(*).Effects of three methane mitigation agents onparameters of kinetics of total and hydrogen gas production, ruminalfermentation and hydrogen balance using in vitro technique. Animal Science Journal, 2016, 87: 224~232
29. Wang, M; Wang, R; Sun, XZ; Chen, L; Tang, SX; Zhou, CS; Han, XF; Kang, JH; Tan, ZL(*); He, ZX. A mathematical model to describe the diurnalpattern of enteric methane emissions from non-lactating dairy cows post-feeding. Animal Nutrition, 2015.12.1, 1(4): 329~338
30. Wang M; Sun XZ; Janssen PH; Tang SX; Tan ZL(*) Responses of methane production and fermentation pathways to the increased dissolved hydrogen concentration generated by eight substrates in in vitro ruminal cultures Animal Feed Science and Technology, 2014, 194: 1~11.
31. Wang M,Janssen PH,Sun XZ,Muetzel S,Tavendale M,Tan ZL(*),Pacheco D,A mathematical model to describe in vitro kinetics of H2 gas accumulation,Animal Feed Science and Technology,2013,184(1-4):1-16。
32. Wang M,D. PACHECO,X. Z. SUN,Tang sx,Tan zl(*),Deriving fractional rate of degradation of logistic-exponential (LE) model to evaluate early in vitro fermentation,Animal,2013,7:6:920-929。
33. Wang, M,Zhao, XG,Liao, HY,Tan, ZL(*),Tang, SX,Sun, ZH,Zhou, CS,Han, XF,Effects of rice straw particle size on digesta particle size distribution, nitrogen metabolism, blood biochemical parameters, microbial amino acid composition and intestinal amino acid digestibility in goats,Animal Science Journal,2011,82(1):78-85。
34. Wang M,Tan ZL(*),Tang SX,Modeling in vitro gas production kinetics: Derivation of Logistic–Exponential (LE) equations and comparison of models,Animal Feed Science and Technology,2011,165(3-4):137-150。
35. Wang, M,Zhao, X. G.,Tan, Z. L.(*),Tang, S. X.,Zhou, C. S.,Sun, Z. H.,Han, X. F.,Wang, C. W.,Effects of Increasing Level of Dietary Rice Straw on Chewing Activity, Ruminal Fermentation and Fibrolytic Enzyme Activity in Growing Goats,Asian-Australasian Journal of Animal Sciences,2010,23(8):1022-1027。
36. Wang, M,Jiang, J.,Tan, Z. L.(*),Tang, S. X.,Sun, Z. H.,Han, X. F.,In situ Ruminal Crude Protein and Starch Degradation of Three Classes of Feedstuffs in Goats,Journal of Applied Animal Research,2009,36(1):23-28。
37. Zhao, X. G.(#),Wang, M.(#),Tan, Z. L.(*),Tang, S. X.,Sun, Z. H.,Zhou, C. S.,Han, X. F.,Effects of Rice Straw Particle Size on Chewing Activity, Feed Intake, Rumen Fermentation and Digestion in Goats,Asian-Australasian Journal of Animal Sciences,2009,22(9):1256-1266。
38. Wang, M,Hu, Y,Tan, ZL(*),Tang, SX,Sun, ZH,Han, XF,In situ ruminal phosphorus degradation of selected three classes of feedstuffs in goats,Livestock Science,2008,117(2-3):233-237。
第一和通讯作者CSCD核心论文:
1. 张秀敏,王荣,马志远, 王敏(*),谭支良. 反刍家畜胃肠道甲烷排放与减排策略. 农业环境科学学报, 2020, 39(4):732-742.
2. 朱威力, 王荣, 龙婷, 石维宏, 瞿吉, 罗婵, 郑琛, 王敏(*). 2020. 玉米和大麦体外瘤胃发酵氢气、甲烷和挥发性脂肪酸产量差异研究. 动物营养学报 32(5):2440-2448.
3. 王荣, 文江南, 王敏(*), 邓近平,谭支良. 2019. 体外法研究延胡索酸对瘤胃甲烷、氢气产量和挥发性脂肪酸组成的影响. 动物营养学报 31(03):1198-1209.
4. 王荣, 文江南, 王敏(*), 邓近平,谭支良. 2019. 延胡索酸对妊娠后期山羊营养物质表观消化率、瘤胃挥发性脂肪酸含量、血清生化指标和繁殖性能的影响. 动物营养学报 31(02):850-857.
5. 文江南, 张秀敏, 王敏(*), 王荣, 龙栋磊, 邓近平,谭支良. 2019. 平菇处理小麦和水稻秸秆对纤维成分和体外瘤胃发酵特征的影响. 动物营养学报 31(02):892-899.
6. 毛宏祥;任傲;王敏(*);高凤仙(*);张秀敏;马致远;谭支良.化学计量学模型预测中国泌乳奶牛瘤胃挥发性脂肪酸组成的精度分析.动物营养学报,2018,30:1748-1759
7. 毛宏祥;高凤仙(*);王敏(*);蒋载阳;张秀敏;龙栋磊;王荣;谭支良.肉牛胃肠道甲烷排放模型估算精度的评估分析.畜牧兽医学报, 2017.4.15,(04):690-698
8. 龙栋磊;文江南;王敏(*); 王荣; 张秀敏; 毛宏祥; 邓近平(*); 谭支良. 全自动体外模拟瘤胃发酵系统:19kPa以下排气压力不影响发酵特征. 动物营养学报, 2017.12.7, 29: 4171~4179
9. 王荣; 邓近平; 王敏(*); 王玉诗; 张玉茹; 颜志成; 谭支良. 基于IPCC Tier l 层级分析中国反刍家畜胃肠道甲烷排放格局变化.生态学报,2015,35:7244-7254
10. 王荣; 颜志成; 王玉诗; 谢天宇; 王敏(*); 邓近平; 谭支良. 大黄和大黄素对体外瘤胃发酵甲烷、氢气和挥发性脂肪酸生成的影响. 动物营养学报, 2015, 27(03): 853~862
11. 王荣; 谭利伟; 王敏(*); 邓近平; 颜志成; 王玉诗; 谭支良. 硝酸钠和2-溴乙烷磺酸钠对山羊体外瘤胃发酵甲烷、氢气和挥发性脂肪酸生成的影响. 动物营养学报, 2015, 27: 1586~1595
12. 谢天宇; 王敏(*); 王荣; 颜志成; 石惠宇; 高民; 谭支良. 奶牛胃肠道甲烷排放模型估算精度的评估分析.畜牧兽医学报, 2015, 46(9): 1574~1583
二、授权专利
1. 王敏;王荣;谭支良,一种利用呼吸舱测定和计算奶牛胃肠道甲烷排放的方法.2019.04.18中国1.3发明专利
2. 张秀敏;王敏;谭支良;一种提高秸秆饲用价值和降低甲烷排放的处理方法.2017.11.18中国6.7
3. 王敏; 汤少勋; 周传社; 谭支良,一种山羊多功能代谢笼2014.7.22 中国ZL9.1发明专利
4. 王敏; 谭支良; 汤少勋, 一种测定瘤胃发酵液中溶解氢气含量的简易方法2013.9.14, 中国, ZL0.X 发明专利
5. 王敏; 汤少勋; 周传社; 韩雪峰; 谭支良,多通道厌氧发酵温室气体全自动在线检测方法及装置, 2014.5.15, 中国, ZL20** 发明专利
6. 王敏; 汤少勋; 汤少勋, 一种体外厌氧发酵温室气体实时检测装置及检测方法2012.8.10, 中国, ZL7.3发明专利
三、获奖情况
1. 王敏(11/12), 反刍动物营养调控与饲料高效利用技术研究与应用, 该湖南省人民政府,湖南省科学技术进步一等奖, 2014 (谭支良、 汤少勋、 周传社、 刘建新、高民、任国谱、肖文军、沈水宝、印遇龙、韩雪峰、王敏、孙志洪)

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一、主持项目
国家自然科学基金项目:
1.优秀青年项目,**,反刍家畜瘤胃氢代谢与甲烷减排,2020/01-2022/12
2.国际合作重点项目,, 瘤胃内纤维降解与甲烷生成过程氢迁移规律及甲烷减排调控机理,2016/01-2020/12
3.面上项目,**,瘤胃内溶解态和气体态氢动态平衡的生物数学机制及其调控,2015/01-2018/12
4.青年项目,山羊瘤胃温室气体生成的生物数学机制(**),执行时间2011.01-2013.12
科学院项目:
1.中国科学院青年促进会项目,青年促进会优秀会员,2021/01-2023/12
2.中国科学院青年促进会项目,**,青年促进会会员,2016/01/2019/12
3.国际访问****项目,2018VBA0031,Emilio Mauricio Ungerfeld,2018/02-2019/04
4.特聘研究员计划项目,2015VBBO35,Andre Bannink,2015/01-2015/12
科技部项目:
1.重点研发项目专题,2018YFD**,常规污染物减排技术研究与集成, 2018/01-2020/12
2.重点研发项目专题,2016YFD**,有害气体及前体物生成规律与分子机制,2016/07-2020/12
湖南省项目:
1.重大专项子课题,2017NK1020,肉牛高效快速肥育与肉品质提升关键技术研究与应用示范,2017/01-2020/12
2.科技计划区域科技合作重点项目,2015WK3043,奶牛胃肠道甲烷减排潜力和关键技术研究,2015/01-2016/12
其它项目:
1.动物营养学国家重点实验室开放课题,2004DA125184F1705 ,甲酸调控瘤胃发酵和甲烷生成的机制研究, 2017.10-2019.10
2.农业部奶牛产业技术体系:黑种草植物提取物和不同纤维来源对奶牛甲烷排放及产甲烷菌影响的研究, 2015/01-2020/12
二参加的研究项目
1.湖南省科技重大专项子课题,2017NK1020,牛奶与牛肉产量和品质提升关键技术研究与集成示范, 2017.07-2020.06, 在研,参加
相关话题/亚热带农业生态研究所 中国科学院