招生专业

海洋生物学，海洋地质学

 

学科专业

海洋生物学、海洋地质学

 

一、教育背景和工作经历

 

[12] 自2010年起在新奥门31999新奥门31999任博士生导师(海洋地质学专业、海洋生物学专业)

[11] 自2009年起在新奥门31999海洋科学学院任教授

[10] 2002年4月-2008年12月在新奥门31999生命科学学院任教授

[9]   自2003年起在新奥门31999生命科学学院任博士生导师(生物技术专业)

[8]   在1997-2002年期间4次出访美国洛杉矶加州大学(UCLA)

[7]   自1997年起在中国科学院广州地球化学所任博士生导师(地球化学专业)

[6]   1996年4-8月出访香港大学(HKU)

[5]   1994年12月至2002年3月在中国科学院广州地球化学所任研究员

[4]   1993年5月至1994年11月在中国科学院广州地球化学所任副研究员

[3]   1990年11月至1993年4月在中国科学院地球化学所做博士后

[2]   1990年在中国地质大学(武汉)获岩石学专业博士学位

[1]   1986年在中国地质大学(武汉)获地质学专业学士学位

 

二、技术平台

 

1. 稳定同位素技术平台

该平台包括元素分析仪-同位素比值质谱仪(EA-IRMS)，复杂样品处理装置-同位素比值质谱仪(Multiflow-IRMS)和气相色谱-同位素比值质谱仪(GC-IRMS)，可对如下样品进行高精度同位素比值测定:

[1] 土壤/沉积物/植物/动物/提取物等样品的C/N比值及C-N稳定同位素比值

[2] 碳酸盐C-O同位素比值

[3] 单个有机化合物C稳定同位素比值

[4] 水样的H-O稳定同位素比值

 

2. 高精度黑碳和有机碳定量测定技术平台

       该技术平台主要由真空冷冻干燥机，定制的样品酸化-洗脱装置，定制的一次性微孔陶瓷干锅，定制的超大容量管式加热炉和高精度碳-硫分析仪组成，可对土壤、沉积物或其它颗粒样品中的黑碳和有机碳进行定量分析。技术优势：样品用量少(100-200 mg干样品)，黑碳和有机碳回收率高(高于99.8%)，数据重复性好，可为高分辨黑碳和有机碳时间序列的建立提供强有力的技术支撑

        详细的分析技术及其应用参见文献：

[1] Xu XM et al., 2018a. J Oceanol Limnol, 36: 105-113

[2] Xu XM et al., 2018b. J Oceanol Limnol, 36: 114-127

[3] Zhu Q et al., 2018. J Oceanol Limnol, 36: 128-138

[4] Wang JH et al., 2018. J Oceanol Limnol, 36: 139-152

[5] Lin J et al., 2018. J Oceanol Limnol, 36: 153-164

[6] Xiao X et al., 2019. Minerals, 9: 624

[7] Lin J et al., 2021. Sci Total Environ, 760: 144-316

[8] Lin J et al., 2021. Chemosphere, 270: 128658

[9] Li Y et al., 2021. Molecules, 26: 6868

[10] Ji P et al., 2021. Geophys Res Lett, 48: e2021GL094042

[11] Yuan Z et al., 2022. Quat Sci Rev, 289: 107615

[12] Dong X et al., 2023. Microb Ecol, 85: 465-477

[13] Ji P et al., 2023. J Hazard Mater, 448: 130972

[14] Ma X et al., 2023. Sci China, 66(2): 303-315

[15] Zhang C et al., 2023. Microbiome, 11: 37

[16] Lin J et al., 2024. J Hazard Mater, 469: 133872

[17] Lin J et al., 2024. J Hazard Mater, 478: 135531

[18] Li Y et al., 2024. Catena, 245: 108317

 

三、负责的主要科研项目

 

 

[29] 负责横向委托项目(HT9998-2024-0126)：一种新型水产饲料添加剂的组方优化与功效评价

[28] 负责广州海洋地质调查局委托项目(2020C-15-627)：QXX先导区沉积物微生物含量分析

[27] 负责广州海洋地质调查局委托项目(2019C-15-229)：QXX先导区沉积物微生物含量测试

[26] 负责广州海洋地质调查局委托项目(2018C-03-89)：先导区生物气源岩评价指标优选

[25] 负责广东省海洋与渔业发展专项(YCN2017-17)：海洋微生物表面活性剂在水产饲料中的应用研究

[24] 负责广东省公益研究与能力建设专项(2017B020218004)：南海溢油污染的化学-微生物复合处置技术研究 

[23] 负责广州海洋地质调查局委托项目(2016GMGS-D4-143)：海洋沉积物中甲烷菌含量检测及微结构制片

[22] 负责广州海洋地质调查局委托项目(2017C-03-150)：南海南部沉积物甲烷氧化菌含量分析检测

[21] 负责广州海洋地质调查局委托项目( 2017C-03-137)：南海北部沉积物甲烷氧化菌含量分析检测

[20] 负责中央高校基本科研业务费专项资助项目(16lgjc22)：闽浙沉积带水体中黑碳的分布和输运、沉降动力机制研究

[19] 负责广东省公益研究与能力建设专项(2014B020204004)：脂肽类海洋微生物表面活性剂的研发及其在禽畜养殖饲料中的应用研究

[18] 负责国家重大科学研究计划项目下属第4课题“黑潮长期变异及其对中国近海储碳的影响(2012CB956004)”

[17] 负责广州海洋地质调查局委托项目(GZH201100307-03-02-01)：原态微生物检测技术(iMOST)在海洋天然气水合物资源勘查评价中的应用研究

[16] 负责中央高校基本科研业务费专项资助项目(10lgzd07)：微生物油气勘探与油藏表征技术的集成与创新研究

[15] 负责教育部高等学校博士学科点专项科研基金课题(20090171110015)：西藏冬虫夏草寄主蝠蛾幼虫食性的稳定碳同位素示踪

[14] 负责广州海洋地质调查局委托项目(2009-42000-4205013-7102013)：天然气水合物成藏的地质控制因素研究

[13] 负责新奥门31999项目(2004-33000-1132091)：灵芝孢子的功效成分研究

[12] 负责中科院知识创新项目(KZCX2-101)：扬子地台西南缘高钾岩浆活动与新生代大陆碰撞过程

[11] 负责国家自然科学基金项目(49972026)：青藏东缘新生代两类高钾岩浆活动的对比研究

[10] 负责中国科学院知识创新项目(KZCX2-SW-117)下属课题：青藏东缘新生代岩浆活动与南海的形成演化的关系

[9]   负责广东省自然科学基金项目(990531)：粤东第三纪盆地系的成因及与成矿的关系研究

[8]   负责国家重点基础研究发展规划项目(973)下属课题(G1998040803)：大陆碰撞过程中壳幔物质能量交换及冈底斯带成矿背景评估

[7]   负责国家攀登预选项目(95-Y-25)下属课题：与寻找超大型矿床有关的基础研究

[6]   负责中国科学院重大B项目(KZ951-B1-413)下属课题：地球化学急变带与古板块构造重建

[5]   负责中国科学院重点A项目(KZ952-J1-408)下属课题：华南边缘海演化的地球化学动力学

[4]   负责广东省自然科学基金项目(950680)：粤西云开地块混合岩成岩机制及形成时代研究

[3]   负责中国科学院院长基金项目(YJZ348)：成岩成矿过程中非线性现象研究

[2]   负责国家自然科学基金项目(49472134)：大别山混合岩流体组成、演化及对浅色体有序化的作用

[1]   负责国家自然科学基金项目(49273176)：滇西若干典型热水沉积矿床的地质地球化学判别标志研究

 

四、科研成果

 

1. 奖励和荣誉

 

[6] 2009年：广东省科学技术奖三等奖(排名第一)

[5] 1999年：享受国务院政府津贴

[4] 1996年：广东省委、省政府授予“广东省优秀中青年专家”称号

[3] 1994年：中央组织部、国家人事部和中国科协第四届“中国青年科技奖”

[2] 1994年：西南西北地区优秀科技图书一等奖(排名第1)

[1] 1992年：中国矿物岩石地球化学学会第四届“侯德封奖”

 

2. 著作

 

[5] 王江海，2024. 科研诚信与学术规范. 广州: 新奥门31999出版社

[4] 周江羽, 王江海, 2007. 青藏高原中东部古近纪盆地演化与高原早期构造隆升. 北京: 地质出版社

[3] 王江海等, 1998. 陆相热水沉积作用: 以云南地区为例. 北京: 地质出版社

[2] 王江海等, 1993. 地质过程中非平衡自组织导论. 贵阳: 贵州科技出版社

[1] 王江海, 1991. 大别杂岩的早期演化及混合岩成因机制. 武汉: 中国地质大学出版社

 

3. 代表性论文

[114] Fan HD, Liu M, Zhao YM, Wang X, Lin J, Zhu Q, Huang W*, Wang JH*, 2025. Mechanisms of immune responses in juvenile Acanthopagrus latus to Aeromonas hydrophila infection revealed by multi-tissue transcriptomic analysis. Aquacult Rep, 41: 102724

[113] Li Y, Lin J, Liu M, Zhou QZ*, Wang JH*, 2025. A multiproxy comparison study on the source apportionment of organic matter in core sediments in the East China Sea. Catena, 251: 108816

[112] Fan HD, Zhao YM, Liu M, Wang X, Lin J, Huang W*, Wang JH*, 2025. Mechanisms of immune responses in Acanthopagrus latus to Streptococcus agalactiae infection revealed by transcriptomic analysis. Fish Shellfish Immunol, 157: 110114

[111] Lin J, Zheng JY, Zhan ZG, Zhao YM, Zhou QZ, Peng J, Li Y, Xiao X*, Wang JH*, 2024. Abundant small microplastics hidden in water columns of the Yellow Sea and East China Sea : Distribution, transportation and potential risk. J Hazard Mater, 478: 135531

[110] Li Y, Zou QZ, Lin J*, Wang JH, 2024. Terrestrial input changes and their controlling factors as revealed by the elemental geochemical evidence in the East China Sea muddy area during the last century. Catena, 245: 108317

[109] Liu Q^#, Peng Y^#, Liao J, Liu X, Peng J, Wang JH*, Shao Z*, 2024. Broad-spectrum hydrocarbon-degrading microbes in the global ocean metagenomes. Sci Total Environ, 926: 171746

[108] Lin J, Zhao YM, Zhan ZG, Zheng JY, Zhou QZ, Peng J, Li Y, Xiao X*, Wang JH*, 2024. Microplastics in remote coral reef environments of the Xisha Islands in the South China Sea : Source, accumulation and potential risk. J Hazard Mater, 469: 133872

[107] Wang QQ^#*, Lin J^#, Zhou QZ, Peng J, Zhang Q, Wang JH*, 2024. Hyper-production of pullulan by a novel fungus of Aureobasidium melanogenum ZH27 through batch fermentation. Int J Mol Sci, 25: 319

[106] Peng J*, Cao KL, Lv SB, Hu YX, Lin J, Zhou QZ, Wang JH, 2023. Algal strains, treatment systems and removal mechanisms for treating antibiotic wastewater by microalgae. J Water Process Eng, 56: 104266

[105] Zhang C^#, Fang YX^#, Yin X, Lai H, Kuang Z, Zhang T, Xu XP, Wegener G, Wang JH*, Dong X*, 2023. The majority of microorganisms in gas hydrate-bearing subseafloor sediments ferment macromolecules. Microbiome, 11: 37

[104] Dong X*, Lan H, Huang L, Zhang H, Lin X, Wen S, Peng Y, Lin J, Wang JH, Peng J, Yang Y*, 2023. Metagenomic views of microbial communities in sand sediments associated with coral reefs. Microb Ecol, 85: 465-477

[103] Hong YH^#, Feng AJ^#, Zhang HX, Lv JH, Liang JL, Wang JH*, 2023. Genome analysis of ammonia nitrogen: Degradable bacterium Paraburkholderia fungorum Gan-35. J Microbiol, 43(3): 39-51

[102] Li Y, Lin J, Xu XP, Liu JZ, Zhou QZ*, Wang JH, 2022. Multiple biomarkers for indicating changes of the organic matter source over the last decades in the Min-Zhe sediment zone, the East China Sea. Ecol Indic, 139: 108917

[101] Peng J^#, He YY^#, Zhang ZY, Chen XZ, Jiang YL, Guo H, Yuan JP*, Wang JH*, 2022. Removal of levofloxacin by an oleaginous microalgae Chromochloris zofingiensis in the heterotrophic mode of cultivation: removal performance and mechanism. J Hazard Mater, 425: 128036

[100] Li Y, Zhou QZ, Xu XP, Liu JZ, Fang YX*, Wang JH*, 2021. Source indication and geochemical significance of sedimentary organic matters from the Xisha area, the South China Sea. Molecules, 26: 6868

[99] Li Z^#, Pan D, Wei G, Pi W, Zhang C, Wang JH, Peng Y, Zhang L, Wang Y, Hubert CRJ, Dong X^#*, 2021. Deep sea sediments associated with cold seeps are a subsurface reservoir of viral diversity. ISME J, 15(8): 1-13

[98] Zhang C^#, Meckenstock RU, Weng S, Wei G, Hubert RJC, Wang JH*, Dong X*^#, 2021. Marine sediments harbor diverse archaea and bacteria with the potential for anaerobic hydrocarbon degradation via fumarate addition. FEMS Microbiol Ecol, 97(5): 1-12

[97] Li Y^#, Fang YX^#, Zhou QZ, Xu XP, Liu JZ, Zhou GY, Wang JH*, 2021. Geochemical insights into contribution of petroleum hydrocarbons to the formation of hydrates in the Taixinan Basin, the South China Sea. Geosci Front, 12: 100974

[96] Lin J, Xu XP, Yue BY, Li Y, Zhou QZ, Xu XM, Liu JZ, Wang QQ*, Wang JH*, 2021. A novel thermoanalytical method for quantifying microplastics in marine sediments. Sci Total Environ, 760: 144316

[95] Lin J, Xu XM, Yue BY, Xu XP, Liu JZ, Zhu Q*, Wang JH*, 2021. Multidecadal records of microplastic accumulation in the coastal sediment of the East China Sea. Chemosphere, 270: 128658

[94] Hong YH, Zhou QZ, Wang JH*, 2021. Transcriptome sequencing reveals the potential genes of biosurfactant synthesis in Achromobacter sp. HZ01. Genomics Appl Biol, 40(7-8): 2728-2740

[93] Li Y, Zhou QZ, Xu XP, Liu JZ, Zhou GY, Fang YX*, Wang JH*, 2020. Porewater geochemical and lipid biomarker signatures for anaerobic methane oxidation in the hydrate-bearing system from the Taixinan Basin, the South China Sea. J Asian Earth Sci, 203: 104559

[92] Jiang YL^#, Zhu Q^#, Liao YN, Wang QQ,·Li Y, Dong X, Peng J*,·Yuan JP*, Wang JH, 2020. The delta 5,7-sterols and astaxanthin in the marine microheterotroph Schizochytrium sp. S31. J Am Oil Chem Soc, 97(8): 839-850

[91] Dong SJ, Jiang YL, Peng J*, Zhang CX, Zhu Q, Wang QQ, Liao YN, Pi WL, Dong X, Yuan JP*, Wang JH, 2020. Evaluation of ergosterol composition and esterification rate in fungi isolated from mangrove soil, long-term storage of broken spores, and two soils. Appl Microbiol Biotechnol, 104: 5461-5475

[90] Zhou QZ^#, Xu XM^#, Xu H, Zheng GZ, Pi WL, Jiang YL, Xu XP, Li Y*, Wang JH*, 2020. Surface microbial geochemistry of the Beihanzhuang Oilfield, northern Jiangsu, China. J Petrol Sci Eng, 191: 107140

[89] Liang FR^#, Wang QQ^#*, Jiang YL, Yue BY, Zhou QZ, Wang JH*, 2020. Characterization of matrix metalloprotease-9 gene from Nile tilapia (Oreochromis niloticus) and its high-level expression induced by Streptococcus agalactiae challenge. Biomolecules, 10: 76

[88] Xiao X^#, Zhou QZ^#, Fu SY, Liang QY, Xu XP, Li Y^*, Wang JH^*, 2019. Petrographical and geochemical signatures linked to Fe-Mn reduction in the subsurface marine sediments from the hydrate-bearing area, Dongsha, the South China Sea. Minerals, 9(10): 624

[87] Lin J^#, Xu XM^#, Chen Y, Zhou QZ, Yuan LR, Zhu Q*, Wang JH*, 2019. Distribution and composition of suspended matters in the wintertime in the East China Sea. Sci Total Environ, 664: 322-333

[86] Zhou QZ^#, Li Y^#, Chen F, Li SF, Dong SJ, Zhang FL, Xu XM^*, Wang JH^*, 2019. Geochemical significance of biomarkers in the methane hydrate-bearing sediments from the Shenhu area, the South China Sea. Molecules, 24(3): 456

[85] Li Y^#, Guo LX^#, Zhou QZ, Chen D, Liu JZ, Xu XM*, Wang JH*, 2019. Characterization of humic substances in the soils of Ophiocordyceps sinensis habitats in the Sejila Mountain, Tibet: Implication for the food source of Thitarodes larvae. Molecules, 24(2): 246

[84] Zhou JY, Wang JH*, 2019. Early tectonic uplift affecting sedimentary filling and evolution of Paleogene basins in the central-eastern Tibetan Plateau. Acta Geol Sin (Chinese Ed), 93(8): 1793-1813

[83] Hong YH, Li WX, Chen DH, Xue JM, Wang JH*, 2019. Bioinformatics analysis of cytochrome P450 in Achromobacter sp. HZ01. Biol Chem Eng, 5(6): 1-6

[82] Guo LX^#, Zhang GW^#, Li QQ, Xu XM^*, Wang JH^*, 2018. Novel arsenic markers for discriminating wild and cultivated Cordyceps. Molecules, 23: 2804

[81] Hu SZ, Li SF, Wang JH, Cao J*, 2018. Origin of unresolved complex mixtures (UCMs) in biodegraded oils: Insights from artificial biodegradation experiments. Fuel, 231(11): 53-60

[80] Liang FR, He HS, Zhang CW, Xu XM, Zeng ZP, Yuan JP, Hong YH*, Wang JH*, 2018. Molecular cloning and functional characterization of cathepsin B from Nile tilapia (Oreochromis niloticus). Int J Biol Macromol, 116: 71-83

[79] Guo LX, Hong YH, Zhou QZ, Zhu Q, Xu XM*, Wang JH*, 2018. Publisher correction: Fungus-larva relation in the formation of Cordyceps sinensis as revealed by stable carbon isotope analysis. Sci Rep, 8: 5028

[78] Xu H*, Zhang WW, Zhu YR, Wei K, He QK, Jiang YS, Xu TT, Jiang XJ, Yan GJ, Song HY, Wang JH*, 2018. Ferroan dolomites discovered in Miocene sediments in the Xisha Islands and their genetic model. J Oceanol Limnol, 36(1): 165-180

[77] Lin J^#, Zhu Q^#, Hong YH, Yuan LR, Liu JZ, Xu XM*, Wang JH*, 2018. Synchronous response of sedimentary organic carbon accumulation on the inner shelf of the East China Sea to the water impoundment of Three Gorges and Gezhouba Dams. J Oceanol Limnol, 36(1): 153-164

[76] Wang JH*, Xiao X, Zhou QZ, Xu XM, Liu JZ, Yuan D*, 2018. Rates and fluxes of centennial-scale carbon storage in the fine-grained sediments from the central South Yellow Sea and Min-Zhe belt, East China Sea. J Oceanol Limnol, 36(1): 139-152

[75] Zhu Q^#, Lin J^#, Hong YH, Yuan LR, Liu JZ, Xu XM*, Wang JH*, 2018. Centennial-scale records of total organic carbon in sediment cores from the South Yellow Sea, China. J Oceanol Limnol, 36(1): 128-138

[74] Xu XM, Hong YH, Zhou QZ, Liu JZ, Yuan LR*, Wang JH*, 2018. Century-scale high-resolution black carbon records in sediment cores from the South Yellow Sea, China. J Oceanol Limnol, 36(1): 114-127

[73] Xu XM, Zhu Q, Zhou QZ, Liu JZ, Yuan JP*, Wang JH*, 2018. An improved method for quantitatively measuring the sequences of total organic carbon and black carbon in marine sediment cores. J Oceanol Limnol, 36(1): 105-113 (Highly cited paper based on the ESI dataset)

[72] Yuan D*, Wu Q, Chen B, Wang JH, 2018. Preface: National Basic Research Program of China (973 Program) Indo-Pacific Oceanic Channel Project Special Issue. J Oceanol Limnol, 36(1): 1-3

[71] Guo LX, Xu XM, Hong YH, Li Y*, Wang JH*, 2017. Stable carbon isotope composition of the lipids in natural Cordyceps sinensis from major habitats in China and its substitutes. Molecules, 22(9): 1567

[70] Hong YH, Ye CC, Zhou QZ, Wu XY, Yuan JP, Peng J, Deng H*, Wang JH*, 2017. Genome sequencing reveals the potential of Achromobacter sp. HZ01 for bioremediation. Front Microbiol, 8: 1507

[69] Guo LX, Hong YH, Zhou QZ, Zhu Q, Xu XM*, Wang JH*, 2017. Fungus-larva relation in the formation of Cordyceps sinensis as revealed by stable carbon isotope analysis. Sci Rep, 7: 7789

[68] Feng AJ, Xiao X, Ye CC, Xu XM, Zhu Q, Yuan JP, Hong YH*, Wang JH*, 2017. Isolation and characterization of Burkholderia fungorum Gan-35 with the outstanding ammonia nitrogen-degrading ability from the tailings of rare-earth-element mines in southern Jiangxi, China. AMB Express, 7: 140

[67] Liang FR, Hong YH, Ye CC, Deng H, Yuan JP, Hao YF*, Wang JH*, 2017. Molecular characterization and gene expression of cathepsin L in Nile tilapia (Oreochromis niloticus). Fish Shellfish Immunol, 67: 280-292

[66] Hong YH, Deng MC, Xu XM, Wu CF, Xiao X,Zhu Q, Sun XX, Zhou QZ, Peng J, Yuan JP*, WangJH*, 2016. Characterization of the transcriptome of Achromobacter sp. HZ01 with the outstanding hydrocarbon-degrading ability. Gene, 584: 185-194

[65] Deng MC, Li J, Hong YH, Xu XM, Chen WX,Yuan JP, Peng J, Yi M*, Wang JH*, 2016. Characterization of a novel biosurfactant produced by marine hydrocarbon-degrading bacterium Achromobacter sp. HZ01. J Appl Microbiol, 120: 889-899

[64] Guo LX, Xu XM, Liang FR, Yuan JP, Peng J, Wu CF*, Wang JH*, 2015. Morphological observations and fatty acid composition of indoor-cultivated Cordyceps sinensis at a high-altitude laboratory on Sejila Mountain, Tibet. PLoS One, 10(5): e0126095

[63] Wang JH*, Sun XX, Xu XM, Wu CF, Peng J, Yuan JP, 2015. Marine carbon sequestration: Current situation, problems and future. Adv Earth Sci, 30(1): 17-25

[62] Li X, He M, Yuan JP, Wang JH*, 2015. Separation, identification and antioxidant activities of lignans and their hydrolysates in flaxseeds. Food Sci, 36(17): 99-103

[61] Xu XM, Fu SY, Zhu Q, Xiao X, Yuan JP, Peng J, Wu CF*, Wang JH*, 2014. Depth-related coupling relation between methane-oxidizing bacteria (MOBs) and sulfate-reducing bacteria (SRBs) in a marine sediment core from the Dongsha region, the South China Sea. Appl Microbiol Biotechnol, 98(24): 10223-10230

[60] Wu XY, Xu XM, Wu CF, Fu SY, Deng MC, Feng L, Yuan JP*, Wang JH*, 2014. Responses of microbial communities to light-hydrocarbon microseepage and novel indicators for microbial prospecting of oil/gas in the Beihanzhuang oilfield, northern Jiangsu, China. Geomicrobiol J, 31(8): 697-707

[59] Deng MC, Li J, Liang FR, Yi M, Xu XM, Yuan JP, Peng J, Wu CF*, Wang JH*, 2014. Isolation and characterization of a novel hydrocarbon-degrading bacterium Achromobacter sp. HZ01 from the crude oil-contaminated seawater at the Daya Bay, southern China. Mar Pollut Bull, 83(1): 79-86

[58] Wu CF, Xu XM, Zhu Q, Deng MC, Feng L, Peng J, Yuan JP*, Wang JH*, 2014. An effective method for the detoxification of cyanide-rich wastewater by Bacillus sp. CN-22. Appl Microbiol Biotechnol, 98(8): 3801-3807

[57] Guo LX, Liang FR, Liang Y, Wang JH*, 2014. Discriminating the adulteration of commercial vegetable oils by stable carbon isotope analysis. Modern Food Sci Technol, 30(5): 292-296

[56] Guo LX, Liang FR, Liang Y, Wang JH*, 2014. Fatty acids and stable carbon isotope ratios in several substitutes of Ophicordyceps sinensis. Modern Food Sci Technol, 30(6): 52-58

[55] Guo LX, Liang FR, Zhao ZG, Wang JH*, 2014. Discrimination between the oils from animals and vegetables by stable carbon isotope analysis. Chem Res Appl, 26(8): 1232-1236

[54] Li X, Yuan JP, Wang JH*, 2014. Optimal alkaline hydrolysis conditions of flaxseed by using response surface method. Food Sci Technol, 39(7): 228-232

[53] Deng ZL, Yuan JP*, Zhang Y, Xu XM, Wu CF, Peng J, Wang JH*, 2013. Fatty acid composition in ergosteryl esters and triglycerides from the fungus Ganoderma lucidum. J Am Oil Chem Soc, 90(10): 1495-1502

[52] Peng J*, Yuan JP, Wang JH, 2012. Effect of diets supplemented with different sources of astaxanthin on the gonad of the sea urchin Anthocidaris crassispina. Nutrients, 4(8): 922-934

[51] Wu XY, Xu XM, Fu SY, Yuan JP, Peng J, Yan TP, Wu CF*, Wang JH*, 2012. Impact of different polymerase chain reaction (PCR) strategies on denaturing gradient gel electrophoresis-based analysis of bacterial communities in soils/sediments from the Northern Jiangsu Oil Field, China. Afr J Microbiol Res, 6(43): 7094-7102

[50] Peng J, Yin K, Yuan JP*, Cao GX, Xue M, Wu CF, Wang JH*, 2012. Characterization of a newly isolated green microalga Scenedesmus sp. as a potential source of biodiesel. Afr J Biotechnol, 11(94): 16083-16094

[49] Wu CF, Xu XM, Huang SH, Deng MC, Feng AJ, Peng J, Yuan JP, Wang JH*, 2012. An efficient fermentation method for the degradation of cyanogenic glycosides in flaxseed. Food Add Contam A, 29(7): 1085-1091

[48] Wu CF, Feng AJ, Xu XM, Huang SH, Deng MC, Zheng XN, Wu XY, Peng J, Yuan JP*, Wang JH*, 2012. Construction of recombinant Pichia strain GS115-Ch-Glu expressing β-glucosidase and cyanide hydratase for cyanogenic glycosides detoxification. Afr J Biotechnol, 11(19): 4424-4433

[47] Guo LX, Xu XM, Wu CF, Lin L, Zou SC, Luan TG, Yuan JP*, Wang JH*, 2012. Fatty acid composition of lipids in wild Cordyceps sinensis from major habitats in China. Biomed Prevent Nutr, 2(1): 42-50

[46] Peng J, Yuan JP*, Wu CF, Wang JH*, 2011. Fucoxanthin, a marine carotenoid present in brown seaweeds and diatoms: Metabolism and bioactivities relevant to human health. Mar Drugs, 9: 1806-1828 (Highly cited paper based on the ESI dataset)

[45] Yuan JP*, Peng J, Yin K, Wang JH*, 2011. Potential health promoting effects of astaxanthin, a high-value carotenoid mostly from microalgae. Mol Nutr Food Res, 55: 150-165 (Highly cited paper based on the ESI dataset)

[44] Guo LX, Xu XM, Yuan JP, Wu CF*, Wang JH*, 2010. Characterization and authentication of significant Chinese edible oilseed oils by stable carbon isotope analysis. J Am Oil Chem Soc 87: 839-848

[43] Yuan JP*, Liu YB, Peng J, Wang JH*, Liu X, 2009. Changes of isoflavone profile in the hypocotyls and cotyledons of soybeans during dry heating and germination. J Agric Food Chem, 57: 9002-9010

[42] Chen D, Yuan JP, Xu SP, Zhou XG, Zhang Y, Xu XM, Zou ZW, Zhang GR, Wang JH*, 2009. Stable carbon isotope evidence for tracing the diet of the host Hepialus larva of Cordyceps sinensis in the Tibetan Plateau. Sci China (D), 52(5): 655-659

[41] Zhang JP, Zheng L, Wang JH, Magnusson KE, Liu X*, 2009. Lipid extract from completely sporoderm-broken germinating Ganoderma sinensis spores elicits potent antitumor immune responses in human macrophages. Phytother Res, 23(6): 844-850

[40] Yuan JP, Li X, Xu SP, Wang JH*, Liu X, 2008. Hydrolysis kinetics of secoisolariciresinol diglucoside oligomers from flaxseed. J Agric Food Chem, 56: 10041-10047

[39] Yuan JP*, Kuang HC, Wang JH, Liu X, 2008. Evaluation of ergosterol and its esters in the pileus, gill and stipe tissues of agaric fungi and their relative changes in the comminuted fungal tissues. Appl Microbiol Biotechnol, 80: 459-465

[38] Li X, Yuan JP*, Xu SP, Wang JH*, Liu X, 2008. Separation and determination of secoisolariciresinol diglucoside oligomers and their hydrolysates in the flaxseed extract using HPLC. J Chromatogr A, 1185: 223-232

[37] Yuan JP*, Zhao SY, Wang JH, Kuang HC, Liu X, 2008. Distribution of nucleosides and nucleobases in edible fungi. J Agric Food Chem, 56: 809-815

[36] Yuan JP*, Wang JH, Liu X, 2007. Metabolism of dietary soy isoflavones to equol by human intestinal microflora:  Implications for health. Mol Nutr Food Res, 51(7): 765-781 (Highly Cited Paper Based on ESI)

[35] Yuan JP*, Wang JH, Liu X, Kuang HC, Zhao SY, 2007. Simultaneous determination of free ergosterol and ergosteryl esters in Cordyceps sinensis by HPLC. Food Chem, 105(4): 1755-1759

[34] Yuan JP*, Wang JH, Liu X, 2007. Distribution of free and esterified ergosterols in the medicinal fungus Ganoderma lucidum. Appl Microbiol Biotechnol, 77: 159-165

[33] Zhou JY*, Wang JH, Horton BK, Yin A, Spurlin MS, 2007. Sedimentology and chronology of Paleogene coarse clastic rocks in east-central Tibet and their relationship to early tectonic uplift. Acta Geol Sin, 81(3): 398-408

[32] Liu X, Xu SP, Wang JH*, Guo LX, Li X, Huang XN, 2007. Characterization of Ganoderma spore lipid by stable carbon isotope analysis: Implications for authentication. Anal Bioanal Chem, 388: 723-731

[31] Yuan JP*, Wang JH, Liu X, Kuang HC, Huang XN, 2006. Determination of ergosterol in Ganoderma spore lipid from the germinating spores of Ganoderma lucidum by high-performance liquid chromatography. J Agric Food Chem, 54: 6172-6176

[30] Li X, Yuan JP, Liu X, Wang JH*, 2006. Lignan: An important natural estrogen from plants. China J Chinese Materia Medica, 31(24): 2021-2025, 2093

[29] Spurlin MS, Yin A*, Horton BK, Zhou JY, Wang JH, 2005. Structural evolution of the Yushu-Nangqian region and its relationship to syncollisional igneous activity, east-central Tibet. Geol Soc Am Bull, 117(9): 1293-1317

[28] Liu X*, Wang JH, Yuan JP, 2005. Pharmacological and anti-tumor activities of Ganoderma spores processed by top-down approaches. J Nanosci Nanotechnol, 5(12): 2001-2013

[27] Zhang HH, He HY, Wang JH*, Xie GH, 2005. ⁴⁰Ar/³⁹Ar chronology and geochemistry of high-K volcanic rocks in the Mangkang basin, Tibet. Sci China (D), 48(1): 1-12

[26] Wang JH*, Yuan JP, Xu SP, Liu X, 2004. Determination of total triterpenoids in Ganoderma spore lipids by the TLC spectrophotometry method. J Chinese Institute Food Sci Technol, 4(3): 76-79

[25] Dupont-Nivet G*, Horton BK, Butler RF, Wang JH, Zhou JY, Waanders GL, 2004, Paleogene clockwise tectonic rotation of the Xining-Lanzhou region, northeastern Tibetan Plateau. J Geophys Res-Solid Earth, 109 (B4): Art B04401

[24] Horton BK, Dupont-Nivet G, Zhou JY, Waanders GL, Butler RF, Wang JH, 2004. Mesozoic-Cenozoic evolution of the Xining-Minhe and Dangchang basins, northeastern Tibetan Plateau: Magnetostratigraphic and biostratigraphic results, J Geophys Res-Solid Earth, 109 (B4): Art B04402

[23] Wang J, Li JP*, Wang JH, 2003. Shoshonitic magmatism in Dali-Jianchuan area, western Yunnan: A geochemical study of arc magmatism in a post-collisional strike-slip extensional setting. Acta Petrol Sin, 19(1): 60-70

[22] Wang JH*, Yin A, Harrison TM, Grove M, Zhou JY, Zhang YQ, Xie GH, 2003. Thermochronological constraints on two phases of Cenozoic high-K magmatism in eastern Tibet, Sci China (D), 46(7): 719-729

[21] Gilley LD, Harrison TM*, Leloup PH*, Ryerson FJ*, Lovera OM*, Wang JH*, 2003. Direct dating of left-lateral deformation along the Red River shear zone, China and Vietnam. J Geophys Res-Solid Earth, 108(B2): 2127-2147

[20] Horton BK*, Yin A, Spurlin MS, Zhou JY, Wang JH, 2002. Paleocene-Eocene syncontractional system in narrow, lacustrine-dominated basins of east-central Tibet. Geol Soc Am Bull, 114(7): 771-786

[19] Wang JH*, Sun M, Deng SX, 2002. Geochronological constrains on the timing of migmatization in the Dabie Shan, east-central China. Eur J Mineral, 14: 513-524

[18] Wang JH*, Deng SX, 2002. Emplacement age for the mafic-ultramafic plutons in the Northern Dabie Shan (Hubei): Zircon U-Pb, Sm-Nd and ⁴⁰Ar/³⁹Ar dating. Sci China (D), 45(1): 1-12

[17] Wang JH*, Tu XL, Sun DZ, 2001. U-Pb dating of anatectic migmatites in the Yunkai Block, Gaozhou, western Guangdong. Chinese J Geochem, 20(1): 20-27

[16] Deng SX, Wang JH, Zhu BQ*, 2001. P-T-t path of metamorphism for the Julin Group and its geodynamical implications in Yuanmou, Yunnan. Sci China (D), 44(7): 609-620

[15] Wang JH*, Qi L, Yin A, Xie GH, 2001. Emplacement age and PGE geochemistry of lamprophyres in the Laowangzhai gold deposit, Yunnan, SW China. Sci China (D), 44(Sup): 146-155

[14] Wang JH, Yin A*, Harrison TM, Grove M, Zhang YQ, Xie GH, 2001. A tectonic model for Cenozoic igneous activities in the eastern Indo-Asian collision zone. Earth Planet Sci Lett, 188: 123-133

[13] Kong YH*, Wu FM, Huang H, Jiang L, Wang JH, 2000. Self-organized genesis of Lunijianlaite and its apparent single-crystal. Sci China (D), 43(6): 638-645

[12] Wang JH*, 1998. New advances in reconstruction of the Proterozoic Rodinia supercontinent. Earth Sci Front, 5(4): 235-243

[11] Wang JH*, Deng SX, Zhang LY, Chang XY, 1997. Geological and geochemical evidence for discriminating anatectic and subsolidus migmatites in the Dabieshan Complex, NE Hubei Province. Chinese J Geochem, 16(2): 112-122

[10] Wang JH*, Chang XY, Zhou HW, 1996. Characteristics of corona texture in the Huangtuling granulite in the Dabie Complex, China and their implications for tectonic settings. Chinese J Geochem, 15(2): 121-128

[9] Wang JH*, Wu JP, 1995. Oscillatory zonation of minerals and self-organization in silicate solid-solution systems: A new nonlinear dynamic model. Eur J Mineral, 7: 1089-1100

[8] Wang JH*, 1995. Chemical oscillations and their genetic mechanism for sinters in Rehai, Tengchong, Yunnan. Chinese Sci Bull, 40(15): 1267-1271

[7] Wang JH*, Wu JP, Yang WH, 1995. Dynamic mechanism for migmatization in Dabie complex, northern Hubei Province. Acta Geol Sin, 5(2): 135-154

[6] Wang JH*, You ZD, Han YJ, 1994. REE characteristics and petrogenesis of amphibolites in Dabie Complex. Chinese J Geochem, 13(3): 303-311

[5] Wang JH*, 1993. Modeling of distribution patterns of rare earth elements in greygneisses and their petrogenesis of Dabie Complex. J Rare Earths, (2): 148-151

[4] Wang JH*, 1993. Study on the mass-balance of stripped migmatites in Dabie Complex, northeastern Hubei. Acta Petrol Sin, 13(1): 20-32

[3] Wang JH*, 1992. New method for studying mineral spatial distribution of migmatites. Chinese Sci Bull, 37(7): 593-597

[2] Wang JH*, Wu JP, 1991. Calculation of the crust cooling rate in the Precambrian Dabie Complex, Enghuangguan area, Hubei Province, China. Earth Sci-J China Univ Geosci, 16(2): 165-172

[1] Wang JH*, Wu JP, Wang RJ, 1991. Dynamics of columnar joints in basalt, Zhenhai area, Fujian Province, with special reference to its genesis. Acta Petrol Sin, 7(1): 16-25

 

4. 代表性专利

 

[7] 一种高盐水体中烷烃和多环芳烃的降解菌剂及其应用；中国发明专利号为202211336281.9

[6] 一种用于清除海洋石油污染的浮性复合微生物制剂及其制备方法; 中国发明专利号为202211355882.4

[5] 一株苏云金芽孢杆菌NH26菌株及其应用；中国发明专利号为202211336218.5

[4] 一种雏禽饲料及其制备方法; 中国发明专利号为202011554764.7

[3] 一种乌鳢幼鱼期浮性饲料及其制备方法; 中国发明专利号为201910838389.X

[2] 一种甲烷氧化菌体外特异性荧光染色的方法; 中国发明专利号为201110044583.4

[1] 一种以甲烷氧化菌活菌异常和总菌异常为指标进行油气勘探与油气藏表征的方法; 中国发明专利号为201110048830.8

 

五、教学与研究生培养

 

1. 教学

        主讲《海洋地球化学》、《海洋地质微生物学》、《食品科学概论》和《有机化学实验》等本科生课程；《高级海洋地球化学》、《高级海洋地质微生物学》、《科技论文写作》和《地质过程中非平衡自组织》等研究生课程

 

2. 培养研究生

[6] 资源与环境专业招收博士研究生2名，硕士研究生2名

[5] 海洋地质专业招收博士研究生1名，硕士研究生3名

[4] 海洋生物学专业招收博士生9名，硕士研究生11名

[3] 生物技术专业招收博士研究生6名、硕士研究生7名

[2] 生物工程专业招收硕士研究生1名

[1] 地球化学专业招收博士研究生1名、硕士研究生2名