王恬 详细介绍
性别 男
职称 教授
最高学历 博士
毕业院校 香港大学（The University of Hong Kong）
专业领域 动物营养与饲料科学
联系方式 E-mail：tianwang@njau.edu.cn； Tel:；
研究方向 动物生长的营养调控；饲料源生物活性物质（饲料添加剂）的开发与应用；新生动物营养生理及发育生理
参加学术团体
及任职情况 全国饲料评审委员会委员、全国饲料工业标准化技术委员会（SAC/TC76）委员；中国畜牧兽医学会动物营养学分会常务理事、中国畜牧兽医学会家畜生态学分会常务理事；中国饲料工业协会常务理事；江苏省饲料营养研究会理事长、江苏省饲料工业协会副会长、江苏省饲料标准化专业技术委员会副主任委员。《Journal of Animal Science and Biotechnology》《Animal Nutrition》《中国畜牧杂志》《动物营养学报》《畜牧与兽医》《高等农业教育》《中国农业教育》等杂志编委，《家畜生态学报》副主编。
承担项目 先后主持或参与了国家级与部省级30多项纵向科研课题、国际合作与企业横向课题20多项，各级教育教学研究与实践项目20多项。承担的主要科研课题有: [1] 基于SIRT1/PGC-1α信号调控线粒体功能探讨白藜芦醇改善IUGR猪代谢程序化的机制，国家自然科学基金项目；[2] IUGR猪树突状细胞的表观遗传修饰特征及姜黄素的调控研究，国家自然科学基金项目；[3] 宫内发育迟缓猪的脂肪沉积机理及营养调控研究，国家自然科学基金项目； [4] 生长因子对IUGR仔猪胃肠道生长发育的调控机制，国家自然科学基金项目；[5] HSPs和mTOR在IUGR猪胃肠道中的表达及其信号通路研究，国家自然科学基金项目；[6] 早期营养干预对IUGR猪胃肠道发育及肉品质的影响，国家自然科学基金项目；[7] 乳源性活性肽在仔猪胃肠道生长发育调控中的作用机理，国家自然科学基金项目；[8] 优质高效绿色饲料配制及无抗饲养技术集成与示范，十三五国家重点研发计划项目子课题；[9] 猪肌纤维发育与肌内脂肪沉积的机制与营养调控，国家重点基础研究发展计划项目（973）子课题；[10]畜禽肉品质性状形成的营养代谢与调控机理，国家重点基础研究发展计划项目（973）子课题； [11]新型微生态制剂的创制与应用， “十二五”国家支撑计划项目子课题； [12]畜禽健康养殖过程控制关键技术研究，“十一五”国家科技支撑计划项目；[13]猪规模化健康养殖新型模式研究与示范，“十一五”国家科技支撑计划项目；[14]日粮外源蛋白酶对断奶仔猪胰腺内源蛋白酶分泌与合成的影响，教育部高校博士点基金；[15]高产奶牛高效生产关键技术研究，农业部农业结构调整重大技术研究专项；[16]新型液态发酵生物饲料的创制及应用，江苏省重点研发计划项目；[17]新型高效广谱饲用微生物抗菌脂肽制剂的研究，江苏省高技术研究项目；[18]早期断奶仔猪高免疫无抗生素饲料配制技术研究，江苏省科技支撑计划项目；[19]利用油脂下脚料提取植物甾醇生产饲料添加剂研究与产品开发，江苏省科技攻关项目； [20]饲用功能性维生素的创新研制与应用，江苏省产学研联合创新资金-前瞻性联合研究项目； [21]农作物秸秆饲料化高效利用关键技术研究与开发，江苏省科技支撑计划项目； [22]以WSN为核心的多模态融合的畜禽养殖物联网监控系统及应用示范，江苏省物联网应用示范工程项目；[23]多功能生态型水产饲料的研发和应用推广，江苏省水产三项工程项目；[24]Effects of dietary supplementation with methionine on growth performance, intestinal health and muscle development in intrauterine growth retarded pigs，国际合作项目；[25]The efficacy of phytase products（from Schizosaccharomyces pombe）for improving the performances of weaned piglets fed Corn/Soya-based diets，国际合作项目；[26]Effects of dietary organic acids on gut health in nursery pigs，国际合作项目
奖励及荣誉 国家“****”教学名师、国务院“政府特殊津贴”获得者、全国教育系统先进工作者、新中国60年畜牧兽医科技贡献奖（杰出人物）、江苏省高等学校教学名师奖、江苏省优秀教育工作者、 江苏省畜牧兽医学会60周年“杰出贡献奖。主持与参加的科研成果先后获国家科学技术进步奖二等奖、教育部提名国家自然科学奖二等奖、上海市科技进步奖二等奖、江苏省科技进步奖二等奖、中国粮油学会科学技术奖二等奖等。主持与参加的教学成果先后获国家级教学成果奖（高等教育类）二等奖、江苏省高等教育教学成果特等奖、一等奖、二等奖。主持《饲料学》获国家精品资源共享课程、国家精品课程、江苏省精品课程、江苏省在线开放课程、《高级动物营养学》获江苏省研究生优秀课程。
论文论著

在国内外核心学术刊物上发表论文800多篇，其中SCI/EI论文120多篇，公开出版科技著作及教材28本/部。出版/发表的主要著作、教材与论文有:　　
1. 出版的主要著作与教材　　
[1] 王恬，王成章（主编）（2018）饲料学（第3版）（“十一五”与“十二五”国家级规划教材）中国农业出版社
[2] 王恬（主编）（2011）畜牧学通论（第2版）（“十一五”与“十二五”国家级规划教材）高等教育出版社
[3] 王恬（主编）（2016）饲料学（数字课程）高等教育出版社/高等教育电子音像出版社
[4] 陈代文，王恬（主编）（2011）动物营养与饲养学（全国养殖领域研究生教学用书）中国农业出版社
[5] 龚利敏，王恬（主编）（2010）饲料加工工艺学（“十一五”国家级规划教材）中国农业大学出版社
[6] 周安国，陈代文（主编）王恬，吴德，姚军虎，张克英，周小秋（副主编）（2011）动物营养学（第3版）（“十一五”国家级规划教材）中国农业出版社
[7] 盖钧镒（主编）王恬（参编）（2014）当代食物安全，江苏凤凰科学技术出版社
[8] 王恬（主编）（2006）饲料营养研究进展，中国农业科技出版社
[9] 王成章，王恬（主编）（2006）饲料学实验指导（面向21世纪课程教材）中国农业出版社
[10] 李德发，龚利敏（主编）王恬，王春维（副主编）（2003）配合饲料制造工艺与技术（“十五”国家级规划教材）中国农业大学出版社
[11] 翟虎渠（主编）王恬（参编）（2016）农业概论（第3版）（“十一五”国家级规划教材）高等教育出版社
[12] 王恬（副主编）（2004）养猪词典，中国农业出版社
[13] 王恬（副主编）（2003）配合饲料制造工艺与技术（“十五”国家级规划教材）中国农业大学出版社
[14] 王恬，陈桂银（主编）（2002）畜禽生产，高等教育出版社
[15] 王恬（主编）（2002）畜牧学通论（面向21世纪课程教材）高等教育出版社
[16] 王恬，丁晓明主编（2001）高效饲料配方及配制技术，中国农业出版社
[17] 王恬（参编）（1998）农业大词典，中国农业出版社
[18] 王恬（参编）（1996）中国农业百科全书（畜牧业卷）中国农业出版社
[19] 王恬（主编）（1994）饲料添加剂应用原理及技术，江苏科学技术出版社
2. 近10年发表的主要论文
[1] Effects of dietary Bacillus amyloliquefacienssupplementation on growth performance, intestinal morphology, inflammatoryresponse, and microbiota of intra-uterine growth retarded weanling piglets.Journal of Animal Science and Biotechnology，2018，(9): 2049-1891.
[2] Curcumin attenuates lipopolysaccharide -induced hepaticlipid metabolism disorder by modification of m6A RNA methylation in piglets，Lipids，2018，53(1):53-63.
[3] Curcumin attenuates hepatic mitochondrial dysfunctionthrough the maintenance of thiol pool, inhibition of mtDNA damage, andstimulation of the mitochondrial thioredoxin system in heat-stressed broilers，Journal of Animal Sciences，2018，96(3): 867-879.
[4] Effects of dietary supplementation with oridonin on thegrowth performance, relative organ weight, lymphocyte proliferation, andcytokine concentration in broiler chickens. BMC Veterinary Research，2048，(14):1746-6148.
[5] Effects of dietary supplementation with enzymaticallytreated Artemisia annua on growth performance, intestinal morphology, digestiveenzyme activities, immunity, and antioxidant capacity of heat-stressed broilers，Poultry Science，2018，97(2):430-437.
[6] N-acetylcysteine attenuates intrauterine growthretardation-induced hepatic damage in suckling piglets by improving glutathionesynthesis and cellular homeostasis，European Journal of Nutrition，2018，57(1):327-338.
[7] An evaluation of natural and synthetic vitamin Esupplementation on growth performance and antioxidant capacity of broilers inearly age, Canaian Jornal of Animal Sciencr, 2018 ,98(1):187-193.
[8] Choline supplementation improves the lipid metabolism ofintrauterine-growth-restricted pigs, Asian-Australasian Journal of AnimalSciences，2018, 31(5):686-695.
[9] Dietary enzymatically treated Artemisia annua L. improvesmeat quality, antioxidant capacity and energy status of breast muscle inheat-stressed broilers，Journal of theScience of Food & Agriculture. 2018, 98(10):3715-3721.
[10] Dietary effects of Bacillus subtilis fmbj on growthperformance, small intestinal morphology, and its antioxidant capacity ofbroilers，Poultry Science，2018，97(7):2312-2331.
[11] Effects of dietary zinc oxide nanoparticles on growth,diarrhea, mineral deposition, intestinal morphology, and barrier of weanedpiglets，Biological Trace Element Research，2018，185(2):364-374.
[12] Modification of N-6-methyladenosine RNA methylation onheat shock protein expression,PloS One, 2018, 13(6):e**.
[13] PCV2 infection aggravates ochratoxin A-inducednephrotoxicity via autophagy involving p38 signaling pathway in vivo and invitro, Environmental Pollution，2018，238:656-662.
[14] Regulationofanantioxidantblendonintestinalredoxstatusandmajormicrobiotainearlyweanedpiglets.Nutrition, 2014,30（5）:584–589.
[15] Protective effects ofleucine on redox status and mitochondrial-related gene abundance in the jejunumof intrauterine growth-retarded piglets during early weaning period，Archives of Animal Nutrition，2017,71(2):93-107.
[16] Effects of medium-chaintriglycerides on intestinal morphology and energy metabolism of intrauterinegrowth retarded weanling piglets. Archives of Animal Nutrition. 2017，71(3): 231-245.
[17] Effects of dietary leucinesupplementation on the hepatic mitochondrial biogenesis and energy metabolismin normal birth weight and intrauterine growth-retarded weanling piglets.Nutrition Research and Practice. 2017,11(2): 121-129.
[18] Supplemental effects ofprobiotic Bacillus subtilis fmbJ on growth performance, antioxidantcapacity, and meat quality of broiler chickens. Poultry Science,2017,96(1):74-82.
[19] Effects of dietary vitamin Etype on the growth performance and antioxidant capacity in cyclophosphamideimmunosuppressed broilers. Poultry Science. 2017，96(5):1159-1166.
[20] Evaluation of enzymaticallytreated Artemisia annua L. on growth performance, meat quality and oxidativestability of breast and thigh muscles in broilers. Poultry Science. 2017,96(4):844-850.
[21] Effect of supplemental fermented Ginkgo biloba leaves at differentlevels on growth performance, meat quality, and antioxidant status of breastand thigh muscles in broiler chickens. Poultry Science. 2017,96(4): 869-877.
[22] Effect of soy lecithin on growth performance, nutrient digestibility and hepatic antioxidant parameters of broiler chickens. InternationalJournal of Pharmacology. 2017,13(4):396-402.
[23] Resveratrol attenuates mitochondrial dysfunction in the liver ofintrauterine growth retarded suckling piglets by improving mitochondrialbiogenesis and redox status. Molecular Nutrition & Food Research. 2017,61(5):1613-4125.
[24] Evaluation of long-termtoxicity of oral zinc oxide nanoparticles and zinc sulfate in mice. BiologcalTrace Element Research. 2017,178(2):276-282.
[25] Zinc oxide nanoparticles asa substitute for zinc oxide or colistin sulfate: Effects on growth, serumenzymes, zinc deposition, intestinal morphology and epithelial barrier inweaned piglets. PloS One. 2017,12(7):e**.
[26] De Novo Assembly andCharacterization of Transcriptome in Somatic Muscles of the PolychaetePerinereis aibuhitensis. Journal of Coastal Research. 2017,33(4):931-937.
[27] Effects of dietarymethionine on growth performance, meat quality and oxidative status of breastmuscle in fast- and slow-growing broilers，Poultry Science. 2017,96(6): 1707-1714.
[28] Dietary enzymaticallytreated Artemisia annua L. supplementation alleviates liver oxidativeinjury of broilers reared under high ambient temperature, International Journalof Biometeorology. 2017，61(9): 1629-1636.
[29] Emulsifiers in poultryindustry - A review. World Poultry Science Journal. 2017,73(3):611-620.
[30] Dietary effects of Bacillussubtilis fmbj on the antioxidant capacity of broilers at an early age, PoultryScience. 2017,96(10):3564-3573.
[31] Effects of enzymaticallytreated Artemisia annua L. on growth performance and some bloodparameters of broilers exposed to heat stress, Animal Science Journal. 2017,88(8):1239-1246.
[32] Effects of dietaryL-methionine supplementation on the growth performance, carcasscharacteristics, meat quality, and muscular antioxidant capacity and myogenicgene expression in low birth weight pigs. Journal of Animal Science, 2017,95(9):3972-3983.
[33] Dietary enzymatically treated Artemisia annua L. supplementationalleviates liver oxidative injury of broilers reared under high ambienttemperature. International Journal of Biometeorology. 2017,61(9):1629-1636.
[34] The effects of five dietarylipid sources on growth, body composition and antioxidant parameters of theclamworm, Perinereis aibuhitensis，Aquaculture Research，2017,48(11):5472-5480.
[35] Dietary supplementation of enzymatically treated Artemisia annuacould alleviate the intestinal inflammatory response in heat-stressed broilers，Journal of Thermal Biology, 2017,69:184-190.
[36] Growth, serum biochemicalindices, antioxidant status and meat quality of broiler chickers fed dietsupplemented with sodiumstearoyl-2-lactylate. Pakistan Veterinary Journal，2017,37(4):445-449.
[37] Dietary methionine restriction alleviates hyperglycemia in pigs with intrauterine growth restriction by enhancing hepatic protein kinase B signaling and glycogen synthesis，Journal of Nutrition, 2017,147(10):1892-1899.
[38] Effects of dietarymethionine on breast muscle growth, myogenic gene expression and IGF-Isignaling in fast- and slow-growing broilers. Scientific Reports. 2017,7(1):1924.
[39] Leucine improves growthperformance of intrauterine growth retardation piglets by modifying gene andprotein expression related to protein synthesis, Nutrition.2016, 32(1):114-121.
[40] Supplementation oftributyrin improves the growth and intestinal digestive and barrier functionsin intrauterine growth-restricted piglets，ClinicalNutrition, 2016, 35(2):399-407.
[41] Assessment of free radicalscavenging activity of dimethylglycine sodium salt and its role in providingprotection against lipopolysaccharide-induced oxidative stress in mice, PLoSOne, 2016, 11(5):e**.
[42] Medium-chain TAG improveenergy metabolism and mitochondrial biogenesis in the liver of intra-uterinegrowth-retarded and normal-birth-weight weanling piglets, British Journal of Nutrition,2016,115(9):1521-1530.
[43] Influence of butyrate loadedclinoptilolite dietary supplementation on growth performance, development ofintestine and antioxidant capacity in broiler chickens, PLoS One, 2016,11(4):e**.
[44] A Comparison of natural (D-alpha-tocopherol)and synthetic (DL-alpha-tocopherol Acetate) vitamin E supplementation onthe growth performance, meat quality and oxidative status of broilers，Asian-Australasian Journal of Animal Sciences，2016, 29(5):681-688.
[45] Antioxidant capacities of Artemisiaannua L. leaves and enzymatically treated Artemisia annua L. in vitro and in broilers. Animal Feed Science and Technology. 2016, 221: 27-34.
[46] Effects of long-term exposure to zincoxide nanoparticles on development, zinc metabolism and biodistribution ofminerals (Zn,Fe,Cu,Mn) in mice, PLoS One, 2016,11(10): e**..
[47] Dietary probiotic bacillus subtilisstrain fmbj increases antioxidant capacity and oxidative stability of chickenbreast meat during storage, PLoS One, 2016,11(12): e**.
[48] Effects of Oridonin on growthperformance and oxidative stress in broilers challenged withlipopolysaccharide, Poultry Science, 2016, 95(10):2281-2289.
[49] Effects of phytosterols ongrowth performance and fat metabolism in broilers. Pakistan Journal of Zoology,2015, 47(1): 111-118.
[50] Effect of medium-chantriglycerides on growth performance,nutrient digestibility,plasma metabolitesand antioxidant capacity in weanling pings, Aniaml Nutrition, 2015, 1(1):12-18.
[51] Effect of various levels ofdietary Curcumin on meat quality and antioxidant profile of breast muscle inbroilers, Journal of Agricultural and Food Chemistry，2015, 63(15):3880-3886.
[52] Impaired intestinal mucosalimmunity is associated with the imbalance of T lymphocyte sub-populations inintrauterine growth-restricted neonatal piglets. Immunobology, 2015,220(6):775-781.
[53] Bacillus amyloliquefacienssupplementation alleviates immunological stress in lipopolysaccharide -challenged broilers at early age，Poultry Science, 2015, 94(7):1504-1511.
[54] Dietary curcumin supplementationprotects against heat-stress -impaired growth performance of broilers possiblythrough a mitochondrial pathway, Journal of Animal Science, 2015,93(4):1656-1665.
[55] Effects of choline on meatquality and intramuscular fat in intrauterine growth retardation pigs, PLoSOne, 2015, 10(6):e**.
[56] Bacillus amyloliquefacienssupplementation alleviatesimmunological stress and intestinal damageinlipopolysaccharide -challenged broilersa, Animal Feed Science and Technology,2015, 208: 119-131.
[57] Dietary tributyrinsupplementation attenuates insulin resistance and abnormal lipid metabolism insuckling piglets with intrauterine growth retardation, PLoS One, 2015,10(8):e**.
[58] Antioxidant capacity andconcentration of redox-active trace mineral in fully weaned intra-uterinegrowth retardation piglets, Journal of Animal Science and Biotechnology, 2015,6(1):1-7.
[59] Effects of differentformulations of a-tocopherol acetate (Vitamin E) on growth performance, meatquality and antioxidant capacity in broiler chickens, British Poultry Science.2015, 56(6): 687-695.
[60] Medium-chain TAG attenuatehepatic oxidative damage in intra-uterine growth-retarded weanling piglets byimproving the metabolic efficiency of the glutathione redox cycle，British Journal ofNutrition, 2014, 112 (6): 876-885.
[61] The effect of dietarysupplementation with the natural carotenoids curcumin and lutein onpigmentation, oxidative stability and quality of meat from broiler chickensaffected by a coccidiosis challenge, British Poultry Science, 2014, 55(4):501-509.
[62] Effects of steam-treatedrice straw feeding on growth, digestibility, and plasma volatile fatty acids ofgoats under different housing systems, Tropical Animal Health And Production,2014, 46(8): 1475-1482.
[63] Evaluation of antioxidantactivities of ampelopsin and its protective effect in lipopolysaccharide-induced oxidative stress piglets. PLos One, 2014, 9(9): e108314.
[64] Effects of linseed oil andpalm oil on growth performance, tibia fatty acid and biomarkers of bonemetabolism in broilers，British Poultry Science, 2014, 55(3):335-342.
[65] AssessmentoffreeradicalsscavengingactivityofsevennaturalpigmentsandprotectiveeffectsinAAPH-challengedchickenerythrocytes，FoodChemistry，2014,145,57-65.
[66] Methionineimprovestheperformanceandbreastmusclegrowthofbroilerswithlowerhatchingweightbyalteringthe expressionofgenesassociatedwiththeinsulin-likegrowthfactor-Isignallingpathway.BritishJournalofNutrition,2014,111(2):201-206.
[67] Utilizationofsteamtreatedagriculturalby-productasruminantfeed.PakistanJournalofAgriculturalSciences,2014, 51(1):229-234.
[68] IntrauterineGrowthRestrictionImpairsSmallIntestinalMucosalImmunityinNeonatalPiglets,JournalofHistochemistry& Cytochemistry,2014,62(1):510-518.
[69] EffectofdietarysupplementationofCurcuminongrowthperformance,intestinalmorphologyandnutrientsutilizationof broilerchicks.TheJournalofPoultryScience,2013,50(1):44-52.
[70]TheeffectsofnaturalandmodifiedclinoptiloliteonintestinalbarrierfunctionandimmuneresponsetoLPSinbroiler chickens,VeterinaryImmunologyandImmunopathology，2013,153(1-2):70-76.
[71] Theeffectofdietarysupplementationwiththenaturalcarotenoidscurcuminandluteinonbroilerpigmentationand immunity,PoultryScience,2013,92(5):1177-1185.
[72] Effectsofclinoptiloliteandmodifiedclinoptiloliteonthegrowthperformance,intestinalmicroflora,andgutparameters ofbroilers,PoultryScience,2013,92(3):684-692.
[73] Intestinaldevelopmentandfunctionofbroilerchickensondietssupplementedwithclinoptilolite,Asian-AustralasianJournalofAnimalSciences,2013,26(7):987-994.
[74] Effectsofclinoptiloliteongrowthperformanceandantioxidantstatusinbroilers,BiologicalTraceElementResearch,2013, 155(2):228–235.
[75] Cloningoflipoproteinlipase(LPL)andtheeffectsofdietarylipidlevelsonLPLexpressioninGIFTtilapia(Oreochromis niloticus),AquacultureInternational,2013,21(6):1219-1232.
[76] ComparisonofcarcassyieldsandmeatqualitybetweenBaicheng-YouchickensandArborAcresbroilers,PoultryScience,2013,92(10):2776-2782.
[77] Theeffectsofbambooleafextractongrowthperformance,antioxidanttraits,immunefunction,andlipidmetabolismof weaningpiglets，JournalofAnimalandFeedSciences，2013,22(3):238-246.
[78] Combinationoflinseedandpalmoilsisabetteralternativethansingleoilforbroilersexposedtohighenvironmental temperature.JournalofPoultryScience,2013,50(4):332-339.
[79] EffectsofformicacidontheadsorptionofescherichiacoliK-88onmodifiedclinoptilolite,AdsorptionScience&Technology,2013,31(8):671-681.
[80] Heatshockprotein70expressionisincreasedintheliverofneonatalintrauterinegrowthretardationpiglets.Asian-AustralasianJournalofAnimalSciences.2012,25:1096-1101.
[81] Dietaryl-argininesupplementationimprovestheintestinaldevelopmentthroughincreasingmucosalAktandmammalian target ofrapamycinsignalsinintra-uterinegrowthretardedpiglets.BritishJournalofNutrition,2012,108:1371–1381.
[82] Impairmentofcellularimmunityisassociatedwithoverexpressionofheatshockprotein70inneonatalpigswith intrauterinegrowthretardation，CellStressandChaperones,2012,17(4):495-505.
[83] Effectsofglutaminesupplementationontheimmunestatusinweaningpigletswithintrauterinegrowthretardation, ArchivesofAnimalNutrition,2012,66(5):347-356.
[84] Effectsofdietarysodiumseleniteandseleniumyeastonantioxidantenzymeactivitiesandoxidativestabilityofchicken breastmeat,JournalofAgriculturalandFoodChemistry,2012，60(29):7111-7120.
[85] EffectofdietarysupplementationofcompoundenzymesonendogenousdigestiveenzymesinCherryValleyducksfed miscellaneousmealdiet.PakistanJournalofZoology,2012,44(6):1561-1566.
[86] EffectofRRR-α-tocopherolsuccinateonthemeatqualityandantioxidativestatusinbroilers.SouthAfricanJournalofAnimal Science，2012,42(4):341-353.
[87] RegulatoryrolesofFoxOtranscriptionfactorsinmetabolism,JournalofAnimalScienceandBiotechnology,2011,2(3):179-184.
[88] Intestinalgrowthandmorphologyisassociatedwiththeincreaseinheatshockprotein70expressioninweaningpiglets throughsupplementationwithglutamine,JournalofAnimalScience,2011,89(11):3634-3642.
[89] DietaryVitaminEInfluencestheLevelsofNitricOxideandCytokinesinBroilerChickens,Asian-AustralasianJournalofAnimalSciences,2011, 24 (10):1440-1446.
[90] TraditionalChinesemedicinedecoctionenhancesgrowthperformanceandintestinalglucoseabsorptioninheat-stressedpigsbyup-regulatingtheexpressionofSGLT1,GLUT2mRNA,LivestockScience,2010,128(1):75-81.
[91] Heatshockprotein70isupregulatedintheintestineofintrauterinegrowthretardationpiglets,CellStressand Chaperones,2010,15:335-342.
[92] DietaryRRR-α-tocopherolsuccinateattenuateslipopolysaccharide-nducedinflammatorycytokinessecretioninbroilerchicks. BritishJournalofNutrition, 2010, 104(12):1796–1805.
[93] Improvedenergyutilizingefficiencybyenzymepreparationsupplementinbroilerdietswithdifferentmetabolizable energylevels,PoultryScience,2009,89(1):316-322.
[94] Molecularcloning,tissuedistributionandontogeneticexpressionofsodiumprotonexchangerisoform2(NHE-2)mRNAinthesmallintestineofpigs,Animal,2009,3(3):402-407.
[95] Chinesemedicinegranuleaffectstheabsorptionandtransportofglucoseinporcinesmallintestinalbrushborder membranevesiclesunderheatstress，Asian-Aust.J.Anim.Sci.,2009,22(.2):246-253.
[96] EffectofRRR-α-tocopherolsuccinateonthegrowthandimmunityinbroilers.PoultryScience,2009,88:959-966.
[97] SegmentaldistributionandexpressionoftwoheterodimericaminoacidtransportermRNAsintheintestineofpigs duringdifferentages,JournaloftheScienceofFoodandAgriculture,2008,88:1012-1018.
[98] Effectsofdifferentlevelsofsupplementaryalpha-amylaseondigestiveenzymeactivitiesandpancreaticamylasemRNAexpressionofyoungbroilers，Asian-Aust.J.Anim.Sci.,2008,21(1):97-102.
[99] Effectsofsoy-lecithinonlipidmetabolismandhepaticexpressionoflipogenicgenesinbroilerchickens,LivestockScience, 2008,118:53-60.　　
[100] 日粮中不同油脂对肉鸡小肠组织形态的影响，中国粮油学报，2014,1:72-76，82.
[101] 母猪饲粮中添加精氨酸对仔猪肠道免疫细胞数量的影响，动物营养学报，2014,8:2077-2084.
[102] 添加外源纤维水解酶对羊草体外瘤胃发酵酶活性及特性的影响，草业学报，2013,1:315-322.
[103] 斜发沸石对肉鸡肠道抗氧化功能、脂肪沉积与肉品质的影响，畜牧兽医学报，2013,1:57-65.
[104] 甲酸与纤维素酶和木聚糖酶对多花黑麦草与白三叶混合青贮料发酵品质的影响，江苏农业学报，2013,1:140-146
[105] 丁酸钾对断奶仔猪生长性能、腹泻率和养分消化率的影响，饲料研究，2013,1:1-4.
[106] 沸石提高动物健康及其机制，中国粮油学报，2013，5:105-111.
[107] 肠道屏障功能障碍及其铝硅酸盐防治研究进展，动物医学进展，2013，7:103-107.
[108] 在不同营养水平日粮中添加益生菌对肉鸡抗氧化功能、黏膜免疫及回肠菌群的影响，中国粮油学报，2013,1:70-75.
[109] Notch信号通路对免疫细胞的调节作用，中国生物化学与分子生物学报，2013,12:1106-1112.
[110] L-精氨酸对IUGR仔猪胰岛结构及功能的调控研究，畜牧兽医学报，2013,11:115-120.
[111] 有机酸化剂对断奶仔猪生长性能和肠道健康的影响，动物营养学报，2012,3:507-514.
[112] 不同硒源及水平对肉鸡组织硒含量及抗氧化功能的影响，动物营养学报，2012,6:1030-1037.
[113] 大豆卵磷脂对子宫内发育迟缓仔猪肠道抗氧化和热休克蛋白70表达的影响，中国农业科学，2012,13:2711-2717.
[114] L-精氨酸和乳酸菌对早期断奶仔猪生长性能、血液生化指标和小肠黏膜形态的影响，福建农林大学学报，2012,4:514-519.
[115] 天然及甲酸改性沸石对沙门氏菌K533吸附作用的影响，中国环境科学，2012,8:1508-1513.
[116] 饲粮中添加不同水平L-精氨酸对妊娠母猪繁殖性能及血液生化指标的影响，动物营养学报，2012，10:2013-2020.
[117] 饲粮添加不同水平L-精氨酸对泌乳母猪生产性能、血清氨基酸浓度和免疫生化指标的影响，动物营养学报，2012，11:2103-2109.
[118] 饲粮中不同锌源及锌水平对固始鸡和AA肉鸡肝脏金属硫蛋白含量及基因表达的影响，南京农业大学学报，2012，6:111-117.
[119] 姜黄素对谷胱甘肽代谢酶诱导及抗氧化机制研究进展，食品科学，2012，21:359-362.
[120] 大肠杆菌K88噬菌体的分离鉴定及其生物学特性，华北农学报，2012，4:163-167.
[121] 杂粕型饲粮添加复合酶制剂对樱桃谷肉鸭生产性能、消化酶活性及血清生化指标的影响，动物营养学报，2011，2:285-292.　　
[122] 抗菌脂肽对断奶仔猪生长性能、肠道微生物及血液指标的影响研究，中国粮油学报，2011，5:76-82.
[123] 低磷日粮中添加植酸酶对蛋鸡产蛋性能、内源消化酶及养分消化率的影响，江苏农业学报，2011，2:347-353.　　
[124] 凹凸棒石黏土对产气荚膜梭菌攻毒肉鸡抗氧化功能及血清一氧化氮含量和一氧化氮合酶活性影响，动物营养学报，2011，3:440-46.
[125] 饲喂不同配比油脂饲料对肉鸡肉品质及肌肉中脂肪酸组成的影响，食品科学，2011，15:245-250.
[126] 枯草芽孢杆菌抗菌脂肽对嗜水气单胞菌抑菌效果，食品科学，2011，1:193-198.　
[127] 不同油脂配比对黄羽肉鸡生产性能、屠宰性能和器官指数的影响，粮食与饲料工业，2010，2:42-45，52.　　
[128] 日粮不同蛋能比对黄羽黄鸡脂肪沉积和肠道酶活性影响，中国畜牧杂志，2010, 5:34-39.
[129] α-生育酚琥珀酸酯对肉鸡抗氧化功能与肌肉品质的影响.畜牧兽医学报，2010，3:286-294.
[130] 大蒜油对体外瘤胃发酵#甲烷生成和微生物区系的影响，动物营养学报，2010，2:386-392.
[131] 一氧化氮信号通路关键酶在猪肌肉系统中的定位，南京农业大学学报，2010，2:79-82.　
[132] 合生素对团头鲂生产性能、肠道菌群及肠道形态的影响，中国粮油学报，2010，5:73-80,76.
[133] 不同油脂日粮中添加RRR-α-生育酚琥珀酸酯对肉鸡生产性能、抗氧化和免疫功能的影响，动物营养学报，2010，3:653-661.　　
[134] 饲料脂肪水平对异育银鲫生长性能、体脂沉积、肌肉成分及消化酶活性的影响，动物营养学报，2010，3:625-633.　　
[135] 吉富罗非鱼FAS基因的克隆及再投喂和饲料脂肪水平对其表达的影响，水产学报，2010,7:113-1120.　　
[136] 复合酶对蛋鸡生产性能鸡蛋品质血液生化指标的影响，粮食与饲料工业，2010，5:41-44.　
[137] 蛋白质螯合铜对母猪繁殖力、仔猪生长性能及血清微量元素水平的影响，浙江农业学报，2010，4:469-473　　
[138] 丁酸钠对断奶仔猪生长性能和肠道消化酶活性的影响，动物营养学报，2010，5:719-726.　
[139] 氧化油脂日粮中添加RRR-α-生育酚琥珀酸酯对鸡肉品质的影响，中国粮油学报，2010，10:82-87.
[140] 抗菌脂肽对肉鸡生产性能和免疫机能的影响，江苏农业学报，2010，5:1009-1014.
[141] 白头翁浸膏对肉鸡生产性能、血液指标及免疫指标的影响，江苏农业学报，2009，1:136-141.
[142] 载锌坡缕石的制备及其体内外抗菌性能研究，中国粮油学报，2009，4:87-92.　　
[143] FoxO转录因子的活性调节及对哺乳动物细胞进程的调控，生物技术通报，2009，7:31-34.　
[144] 不同粒度沸石对肉鸡生产性能、肠道菌群及组织重金属残留的影响，中国粮油学报，2009，6:84-88.
[145] 破壁处理超细绿茶粉对肉鸡脂类代谢的影响，扬州大学学报，2009，1:35-37，41.
[146] 拭子法筛选抗菌药物敏感菌种和最适培养基，江苏农业学报，2009，3:673-679.　
[147] 金霉素在鸡排泄物中的残留及降解动态，南京农业大学学报，2009，1:85-89.　　
[148] HPLC-VWD法测定猪粪中喹乙醇的残留，江苏农业学报，2009，2:411-415.　　
[149] 兽药喹乙醇在猪粪便上的吸附特征研究，浙江农业学报，2009，2:96-100.　　
[150] 4种中药提取物对大鼠小肠上皮细胞IEC-6增殖及其葡萄糖吸收的影响，中草药，2009，8:1263-1266.　　
[151] 纤维素酶与木聚糖酶对象草青贮发酵品质的影响，南京农业大学学报，2009，4:148-153.
[152] 植酸酶对樱桃谷肉鸭能量、蛋白质和氨基酸利用率及消化酶活性的影响，动物营养学报，2009，6:938-944.　　
[153] 天然沸石及其改性产品控制霉菌毒素毒性的研究进展，硅酸盐学报，2008，3:417-424.　
[154] 沸石、凹凸棒石黏土对肉鸡生产性能、免疫指标和肠道形态的影响，非金属矿，2008，1:37-42.
[155] 去皮膨化全脂大豆对断奶仔猪生长性能和肠道发育的影响，江苏农业学报，2008，1:59-64.
[156] 高温应激对仔猪小肠上皮脂质过氧化的动态影响，动物营养学报，2008，1:75-79.
[157] 兽药金霉素在畜禽粪便上的吸附特征研究，环境科学，2008，5:1363-1368.　　
[158] 添加酪蛋白酶解物对宫内生长迟缓仔猪肠道生长发育的影响，畜牧兽医学报，2008，5:594-600.
[159] 植物甾醇对蛋鸡产蛋后期生产性能、鸡蛋胆固醇含量及血清生殖激素水平的影响，中国粮油学报，2008，6:166-171.　　
[160] 鸡排泄物中金霉素残留的测定方法研究，华北农学报，2008，S1:248-251.
[161] 载Zn2+凹凸棒石黏土对肉鸡生长、免疫和血液生化指标的影响，中国粮油学报，2008，3:131-135.
[162] 敌百虫胁迫对异育银鲫鱼体中4种酶活性变化的影响，环境科学学报，2008，6:1198-1205.
[163] 日粮中添加溶血卵磷脂对肉仔鸡脂类代谢的影响，福建农林大学学报，2008，4:394-398.
[164] 组织块种植法体外培养奶牛乳腺上皮细胞，南京农业大学学报，2008，4:91-96.
（资料统计截止2018年9月）