代表论著
1.Wang, M.(#), Wang, R., Zhang, X.M., Ungerfeld, E.M., Long, D.L., Mao H.X., Jiao J.Z., Beauchemin, K.A., Tan, Z.L. (*) Molecular hydrogen generated by elemental magnesium supplementation alters rumen fermentation and microbiota in goats. British journal of Nutrition, 2017. Accepted
2.Wang Z(#), Elekwachi C, Jiao JZ, Wang M(*), Tang SX, Zhou CS, Tan ZL, and Forster RJ(*). Investigation and manipulation of metabolically active methanogen community composition during rumen development in black goats. Scientific Reports. 2017. 7: 422
3.Wang M(#),Wang R,Xie TY,Janssen PH,,Sun XZ,Beauchemin KA,,Tan ZL(*),Gao M,Shifts in rumen fermentation and microbiota are associated with dissolved ruminal hydrogen concentrations in lactating dairy cows fed different types of carbohydrates,Journal of Nutrition,2016,146:1714-1721。
4.Wang M(#),Ungerfeld EM,Wang R,Zhou CS,Basang ZZ,Ao SM,Tan ZL(*),Supersaturation of dissolved hydrogen and methane in rumen of Tibetan Sheep,Frontiers in Microbiology,2016,7:850。
5.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 in the rumen of dairy cows,Journal of Animal Science,2016,94:1159-1169。
6.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 ruminal fermentation,Livestock Science,2016,184:41-45。
7.Wang M(#),Wang R,Yang S,Deng JP,Tang SX,Tan ZL(*),Effects of three methane mitigation agents on parameters of kinetics of total and hydrogen gas production, ruminal fermentation and hydrogen balance using invitro technique,Animal Science Journal,2016,87:224-232。
8.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 diurnal pattern of enteric methane emissions from non-lactating dairy cows post-feeding,Animal Nutrition,2015,1(4):329-338。
9.Wang M(#),X.Z. Sun,P.H. Janssen,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。
10.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。
11.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。
12.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。
13.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。
14.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。
15.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。
16.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。
17.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。
18.Zhan XA(#),Wang, M(*), Ren H, Zhao RQ, Li JX, Tan ZL. 2007. Effect of Early Feed Restriction on Metabolic Programming and Compensatory Growth in Broiler Chickens. Poultry Science. 2007. 86(4):654-60.
19.Zhan XA(#),Wang, M(*), Xu ZR, Li WF, Li JX. 2006. Effects of fuoride on hepatic antioxidant system and transcription of Cu/Zn SOD gene in young pigs. Journal Of Trace Elements In Medicine And Biology. 6:83-87.
20.Zhan XA(#),Wang, M(*), Xu ZR,Li WF, Li JX. 2006. Evaluation of caspase-dependent apoptosis during fluoride-induced liver lesion in pigs. Archive of Toxicology. 80: 74–80。
21.Zhan XA(#),Wang, M(*), Xu ZR, Li JX. 2006. Toxic effects of fluoride on kidney function and histological structure in young pigs. Fluoride. 39(1): 5-9.
CSCD核心论文:
1.毛宏祥,高凤仙*,王敏*,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.2017:48(4):193-200
2.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( 3) : 853-862
3.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(21): 1-11
4.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 (5): 1586-1595
5.谢天宇,王敏*,王荣,颜志成,石惠宇,高民,谭支良. 2015. 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.46(9):1574-1583.
专利:
1.王敏, 汤少勋,谭支良。一种体外厌氧发酵温室气体实时检测装置及检测方法. 申请号:2012102849273. 授权日期:2014年4月。授权公告号:CN102787067B
2.王敏,汤少勋,谭支良。 一种测定瘤胃发酵液中溶解氢气含量的简易方法. 申请号:201310418880X,授权日期:2015年5月。 授权公告号:CN103472171B
3.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. 申请号:2014102054006. 授权日期:2015年6月。 授权公告号:CN103954706B
4.王敏;汤少勋;周传社;谭支良。一种山羊多功能代谢笼。申请号:CN201410348979.1. 授权日期:2016年3月。 授权公告号:CN104067948A
奖励:
1.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,反刍动物营养调控与饲料高效利用技术研究与应用湖南省科学技术进步奖一等奖.
学术任职:
Frontiers in Microbiology,系统微生物学的评审编辑(Review editor)