发布于:2021-07-20
王有基,博士,教授,入选上海浦江人才和曙光计划,CSC-DAAD博士后学者称号(AWI-德国亥姆霍兹阿尔弗雷德魏格纳极地海洋研究所,合作导师Hans-Otto Pörtner)。先后承担中国国家自然科学基金,上海市自然基金,上海市教委创新项目,香港海洋公园保育基金等十多项科研课题,并与德国、瑞典、美国、新西兰、澳大利亚和香港等国家和地区的相关学者建立合作。在水产,海洋生物和环境学主流杂志如《Aquaculture》、《Marine Environmental Research》、《Environmental Pollution》、《Aquatic Toxicology》、《Science of the Total Environment》、《Chemosphere》发表论文100多篇。每年均有指导研究生获得国家奖学金,并指导研究生获得全额博士奖学金赴德国、瑞士攻读博士。目前主要从事保护生物学,贝类养殖及生态生理学研究,聚焦在全球变化驱动的环境压力下(海洋酸化,升温,缺氧以及微塑料和纳米污染物等)物种的生态生理应答和适应机制,围绕生态学,行为学,生理学,毒理学及养殖等方面开展研究。
ORCID:http://orcid.org/0000-0003-3011-1919
Researchgate: https://www.researchgate.net/profile/Youji_Wang
谷歌学术引用:Google scholar citations
教育背景
2008–2011 香港城市大学,海洋生物学,博士
2005–2008 华中农业大学,水产养殖学,硕士
2001–2005 华中农业大学,水产养殖学,学士
教学课程
动物生理学;濒危海洋动物保护;环境保护导论
水生动物生理学研究进展(博士)
研究方向
贝类养殖与生理生态学,海洋保护生物学,海洋生态毒理学与环境科学,多重环境变化下的适应和调控机制
学术兼职
SCI期刊Marine Environmental Research (IF=2.727)编委
SCI期刊Journal of Shellfish Research (IF=0.933)编委
SCI期刊Frontiers in Physiology (IF=3.367) Associate Editor (Aquatic Physiology)
SCI期刊Frontiers in Marine Science (IF=3.661) Associate Editor (Aquatic Physiology, Marine Pollution)
SCI期刊Scientific Reports (IF=3.998)编委 (Earth and Environmental Science)
担任Global Change Biology, Journal of Animal Ecology, Journal of Hazardous Materials, Environmental Science: Nano, Plos One, Aquatic Toxicology, Environmental Pollution, Marine Pollution Bulletin, Biogeosciences, Fish and Shellfish Immunology, Chemosphere, Physiology & Behavior, Marine Environmental Research, Science of the Total Environment, Environmental Research, Marine Ecology Progress Series, Ecotoxicology and Environmental Safety, Hydrobiologia, Comparative Biochemistry and Physiology - Part C: Toxicology & Pharmacology, Process Biochemistry, Environmental Toxicology and Pharmacology等60余种期刊审稿人。
国家自然基金评审人, 美国National Marine Fisheries Service (NMFS), National Oceanic and Atmospheric Administration (NOAA)基金评审人。
美国National Shellfisheries Association 委员会委员,中国贝类学会会员。
获奖情况
(8)2019年度上海市科技进步奖二等奖“厚壳贻贝种苗繁育与生态养殖关键技术”(排名第2)
(7)2018年度海洋工程科学技术奖“污染物对重要海洋经济生物早期生活史的毒理效应与生态风险评估”(排名第3)
(6)2017年度上海海洋大学科学技术奖三等奖“基于双壳贝类生理生态适应性评估多元水质环境变异的研究与应用”(排名第1)
(5)2017年中国新西兰科学家交流项目-奥克兰大学
(4)2014年CSC-DAAD博士后奖学金
(3)2013年度上海海洋大学-AquaFish CRSP杨毅青年学者国际交流基金奖
(2)2013年度上海海洋大学科技成果二等奖“主要经济贻贝繁育关键技术研究与应用”(排名第3)
(1)2014年度上海海洋大学教学成果二等奖“动物生理学课程体系建设”(排名第4)
科研项目
(17)国家自然科学基金,中国和瑞典沿海紫贻贝对海洋酸化和缺氧的生理适应性(3201101951), 2021.01-2023.12
(16)上海市曙光计划,海洋升温和纳米二氧化钛暴露耦合对贻贝的生理效应,2021.01-2023.01
(15)上海市高层次人才项目,水生动物生理生态,2020.01-2022.12
(14)国家自然科学基金,海水酸化和缺氧及其昼夜节律变化对东海两种贻贝复合携带效应的比较研究(31872587), 2019.01-2022.12
(13)上海市浦江人才计划,海洋酸化与微塑料对贻贝早期发育的交互生态生理效应(18PJ1404000),2018.07-2020.06
(12)2017国家海洋局北海市“十三五”海洋经济创新发展示范项目,鲎试剂及中华鲎生态利用产业链协同创新,2017.09–2020.08,子课题主持人
(11)国家海洋局海洋生态系统与生物地球化学重点实验室开放课题基金,东海典型贝类对海洋缺氧和酸化的生理生态响应(LMEB201702),2018–2019
(10)河口海岸学国家重点实验室开放课题基金,微塑料对厚壳贻贝早期发育的生态生理效应: 海水酸化的潜在交互作用?(SKLEC‐KF201706),2017–2019
(9)广西水产遗传育种与健康养殖重点实验室开放基课题,基于血淋巴功能评估海水酸化和缺氧对近江牡蛎复合胁迫效应,2016–2017
(8)浙江省有机污染过程与控制重点实验室开放基金,水中溶解性有机质对纳米TiOB2B贝类毒性效应的影响,2015-2016
(7)国家自然科学基金,海水酸化和温度对不同地理种群厚壳贻贝复合胁迫效应的比较研究(31302207),2014–2016
(6)上海市教委创新项目,基于血淋巴机能研究不同纬度种群厚壳贻贝对海洋酸化和升温的适应性(13YZ096),2013–2015
(5)上海市自然基金,厚壳贻贝不同生活史阶段对海洋酸化和升温的生理生态应答:不同纬度的比较研究(13ZR1455700),2013–2016
(4)上海高校青年教师培养资助计划,海水酸化和温度对蟹、贝能量收支及其捕食–反捕食行为的影响,2013.01-2014.12
(3)香港海洋公园保育基金,中华鲟保育之社会推广:以长江口地区为中心普及中华鲟之保育,2013.07-2014.06
(2)广西水产畜牧兽医局项目,珠母贝育珠技术优化,2013.01-2014.12
(1)校博士科研启动基金,翡翠贻贝在缺氧与低盐胁迫下的生理生态应答,2011.09-2013.08
近三年发表SCI论文(*通讯作者,Full list Google scholar citations)
98. Xie, Z#, Yan, M.Y.#, Wang, Y.J., Fang, J.K.H., Song, J., Hu, M.H.* (2020) Spirulina platensis powder is an applicable feed additive for Chinese horseshoe crab Tachypleus tridentatus. Aquaculture Research DOI: 10.1111/are.15064. (IF=1.1748)
97. Khan, F.U.#, Chen, H.#, Gu, H.X., Wang, T., Dupont, S., Kong, H., Shang, Y.Y., Wang, X.H., Lu, W.Q., Hu, M.H.*, Wang, Y.J.* (2020) Antioxidant responses of the mussel Mytilus coruscus co-exposed to ocean acidification, hypoxia and warming. Marine Pollution Bulletin DOI: 10.1016/j.marpolbul.2020.111869 (IF=4.049)
96. Yang, L.G.#, Lv L.L.#, Liu, H.J., Wang, M.R., Sui, Y.M.*, Wang, Y.J.*(2021) Effects of Ocean Acidification and Microplastics on Microflora Community Composition in the Digestive Tract of the Thick Shell Mussel Mytilus coruscus Through 16S RNA Gene Sequencing. Bulletin of Environmental Contamination and Toxicology https://doi.org/10.1007/s00128-020-03022-5. (IF=1.657)
95. Li, Z.Q., Hu, M.H., Song, H.T., Lin, D.H.*, Wang, Y.J.* (2021) Toxic effects of nano-TiO2 in bivalves-A synthesis of meta-analysis and bibliometric analysis. Journal of Environmental Sciences 104, 188-203. (IF=4.302)
94. Wang, S.X.#, Zhong, Z.#, Li, Z.Q., Wang, X.H., Gu, H.X., Huang, W., Fang, J.K.H., Shi, H.H., Hu, M.H., Wang, Y.J.* (2021) Physiological effects of plastic particles on mussels are mediated by food presence. Journal of Hazardous Materials 404, Part A,124136. (IF=9.038)
93. Wang, T.#, Hu, M.H.#, Xu, G.G., Shi, H.H., Leung, J.Y.S.*, Wang, Y.J. * (2021) Microplastic accumulation via trophic transfer: Can a predatory crab counter the adverse effects of microplastics by body defence? Science of the Total Environment 754, 142099 (IF=6.551)
92. Wang, S.X.#, Hu, M.H.#, Zheng, J.H., Huang, W., Shang, Y.Y., Fang, J.K.H., Shi, H.H., Wang, Y.J.* (2021)Ingestion of nano/micro plastic particles by the mussel Mytilus coruscus is size dependent. Chemosphere 263, 127957 (IF=5.778)
91. Wang, X.H.#, Hu, M.H.#, Gu, H.X., Shang, Y.Y., Wang, T.Y., Ma, L.K., Wei Huang, W.*, Wang, Y.J. (2020) Short-term exposure to norfloxacin induces oxidative stress, neurotoxicity and microbiota alteration in juvenile large yellow croaker Pseudosciaena crocea. Environmental Pollution 267, 115397 (IF=6.792)
90. Luo, Z.#, Li, Z.Q.#, Xie, Z.#, Sokolova, I.M., Song, L., Peijnenburg, W.J.G.M., Hu,M.H.*, Wang,Y.J.* (2020) Re-thinking nano-TiO2 safety: Overview of toxic effects in humans and aquatic animals. Small 16, 2002019 (IF=11.459)
89. Wang, T.#, Hu, M.H.#, Song, L.L., Yu, J., Liu, R.J., Wang, S.X., Wang, Z.F., Sokolova, I., Huang, W.*, Wang, Y.J. (2020) Coastal zone use influences the spatial distribution of microplastics in Hangzhou Bay, China. Environmental Pollution 266, 115137 (IF=6.792)
88. Miao, F.Z. #, Zhao, Z.H. #, Li, Q.Z., Song, J., Wang, Y.J., Hu, M.H.* (2020) Impact of Initial Feeding and Molting on Tachypleus tridentatus Gut Microbiota. Current Microbiology 77, 2847-2858 (5-Yr IF=1.1746)
87. Gao, K.S.*, Gao, G., Wang, Y.J., Dupont, S. (2020) Impacts of ocean acidification under multiple stressors on typical organisms and ecological processes. Marine Life Science & Technology 2, 279–291.
86. Khan, F.U.#, Hu, M.H.#, Kong, H., Shang, Y.Y., Wang, T., Wang, X.H., Xu, R., Lu, W.Q.*, Wang, Y.J.* (2020) Ocean acidification, hypoxia and warming impair digestive parameters of marine mussels. Chemosphere 256, 127096 (IF=5.778)
85. Gu, H.X.#, Wei, S.S. #, Hu, M.H.*, Huang, W., Wang, X.H., Shang, Y.Y., Li, L.A., Shi, H.H., Wang, Y.J.* (2020) Microplastics aggravate the adverse effects of BDE-47 on physiological and defense performance in mussels. Journal of Hazardous Materials 398, 122909 (IF=9.038)
84. Gu, H.X.#, Wang, S.X.#, Wang, X.H., Yu, X., Hu, M.H., Huang, W.*, Wang, Y.J.* (2020) Nanoplastics impair the intestinal health of the juvenile large yellow croaker Larimichthys crocea. Journal of Hazardous Materials 397, 122773 (IF=7.650)
83. Shang, Y.Y.#, Wang, X.H.#, Deng, Y.W., Wang, S.X., Gu, H.X., Wang, T., Xu, G.G., Kong, H., Feng, Y.X., Hu, M.H.*, Wang, Y.J.* (2020) Diel-cycling seawater acidification and hypoxia impair the physiological and growth performance of marine mussels. Science of the Total Environment 722, 138001 (IF=5.589)
82. Luo, Z.#, Miao, F.Z.#, Hu, M.H.*, Wang, Y.J.* (2020) Research development on horseshoe crab: A 30-year bibliometric analysis. Frontiers in Marine Science 7: 41. doi: 10.3389/fmars.2020.00041 (IF=3.086)
81. Wang, X.H.#, Shang, Y.Y.#, Kong, H., Hu, H.H., Yang, J.J, Deng, Y.W.*, Wang, Y.J. * (2020) Combined Effects of Ocean Acidification and Hypoxia on the Early Development of the Thick shell Mussel Mytilus coruscus. Helgoland Marine Research 74: 3. DOI: 10.1186/s10152-020-0535-9 (IF=1.208)
80. Wang, X.H., Huang, W., Wei, S.S., Shang, Y.Y., Gu, H.X., Wu, F.Z., Lan, Z.H., Hu, M.H., Shi, H.H., Wang, Y.J.* (2020) Microplastics impair digestive performance but show little effects on antioxidant activity in mussels under low pH conditions. Environmental Pollution 258, 113691. (IF=5.714)
79. Wu, F.Z.#, Wang, Y.J.#, Leung, Y.S.J, Huang, W.*, Zeng, J.N., Tang, Y.B., Chen, J.F., Shi, A.Q., Yu, X., Xu, X.Q., Zhang, H.G., Cao, L. (2020) Accumulation of microplastics in typical commercial aquatic species: a case study at a productive aquaculture site in China. Science of the Total Environment 708, 135432 (IF=5.589)
78. Shang, Y.Y.#, Wu, F.L.#, Wei, S.S., Guo, W., Chen, J.F., Huang, W.*, Hu, M.H.& Wang, Y.J.* (2020) Specific dynamic action of mussels exposed to TiO2 nanoparticles and seawater acidification. Chemosphere 241, 125104 (IF=5.108)
77. Xu, Z., Wang, Y.J., Gul, Y., Li, Q.Z., Song, J., Hu, M.H.* (2020) Effects of copper supplement on the immune function and blood-chemistry in adult Chinese horseshoe crab Tachypleus tridentatus. Aquaculture 515, 734576. (IF=3.022)
76. Yan, M.Y.#, Miao, F.Z.#, Zhang, X.Z., Guo, H.S., Gul, Y., Li, Q.Z., Song, J., Wang, Y.J., Hu, M.H. * (2019) ‘Delayed’ interference effects of air exposure on adult Chinese horseshoe crab Tachypleus tridentatus. Aquaculture Research DOI: 10.1111/are.14320. (IF=1.502)
75. Wang, T, Wang, Y.J.* (2019) Behavioral responses to ocean acidification in marine invertebrates: novel insights and future directions. Journal of Oceanology and Limnology. DOI: 10.1007/s00343-019-9118-5 (5-Yr IF=0.741)
74. Gu, H.X.#, Shang, Y.Y.#, Clements, J., Dupont, S., Wang, T., Wei, S.S., Wang, X.H., Chen, J.F., Huang, W.*, Hu, M.H., Wang, Y.J.* (2019) Hypoxia aggravates the effects of ocean acidification on the physiological energetics of the blue mussel Mytilus edulis. Marine Pollution Bulletin 149, 110538 (IF=3.782)
73. Wang, X.T., Wang, Y.J. (2019) Editorial: Molecular Physiology in Molluscs. Frontiers in Physiology 10:1131. doi: 10.3389/fphys.2019.01131. (IF=3.201)
72. Kong, H.#, Wu, F.#, Jiang, X., Wang, T., Hu, M., Chen, J., Huang, W., Bao, Y. & Wang, Y.J.* (2019) Nano-TiO2impairs digestive enzyme activities of marine mussels under ocean acidification. Chemosphere 237, 124561. (IF=5.108)
71. Li, Q.P., Sun, C.J., Wang, Y.J., Cai, H.W., Li, L.Y., Li, J.N., Shi, H.H.* (2019). Fusion of microplastics into the mussel byssus. Environmental Pollution 252, 420-426. (IF=5.714)
70. Gu, H.X.#, Hu, M.H.#, Wang, T., Kong, H., Huang, X.Z., Bao, Y.B.*, Wang, Y.J.* (2019) Combined effects of toxic Microcystis aeruginosa and hypoxia on the digestive enzyme activities of the triangle sail mussel Hyriopsis cumingii. Aquatic Toxicology 212, 241-246. (IF=3.794)
69. Kong, H., Clements, J.C., Dupont, S., Wang, T., Huang, X.Z., Shang, Y.Y., Huang, W., Chen, J.F., Hu, M.H.*, Wang, Y.J.* (2019) Seawater acidification and temperature modulate anti-predator defenses in two co-existing Mytilus species. Marine Pollution Bulletin 145, 118-127 (IF=3.782)
68. Wu, F.L.#, Xie, Z.#, Yan, M.Y., Li, Q.Z., Hu, M.H.*, Wang, Y.J.* (2019) Classification and characterization of hemocytes from two Asian horseshoe crab species Tachypleus tridentatus and Carcinoscorpius rotundicauda. Scientific Reports 9:7095. DOI: 10.1038/s41598-019-43630-8 (IF=4.011)
67. Wang, T.#, Huang, X.Z.#, Jiang, X.Y., Hu, M.H., Huang, W., Wang, Y.J.* (2019) Differential in vivo hemocyte responses to nano titanium dioxide in mussels: effects of particle size. Aquatic Toxicology 212, 28-36. (IF=3.794)
66. Shang, Y.Y., Wang, X.H., Kong, H., Huang, W.W., Hu, M.H., Wang, Y.J.* (2019) Nano-ZnO impairs anti-predation capacity of marine mussels under seawater acidification. Journal of Hazardous Materials 371,521-528 (IF=7.650)
65. Kong, H., Jiang, X.Y., Clements, J., Wang, T., Huang, X.Z., Shang, Y.Y., Chen, J.F., Hu, M.H., Wang, Y.J.* (2019) Transgenerational effects of short-term exposure to acidification and hypoxia on early developmental traits of the mussel Mytilus edulis. Marine Environmental Research 145, 73-80 (IF=3.445)
64. Wang, Y.J., Hu, M.H.*, Wu, F.L, Storch, D., Pörtner, H.O. (2018) Elevated pCO2 affects feeding behaviour and acute physiological response of the brown crab Cancer pagurus. Frontiers in Physiology 9:1164. doi: 10.3389/fphys.2018.01164 (IF=3.201)
63. Huang, X.Z.#, Jiang, X.Y.#, Sun, M., Dupont, S., Huang, W., Hu, M.H., Li, Q.Z.*, Wang, Y.J.* (2018) Effects of copper on hemocyte parameters in the estuarine oyster Crassostrea rivularis under low pH conditions. Aquatic Toxicology 203, 61-68 (IF=3.794)
62. Wang, T.#, Li, Q.Z.#, Jiang, X.Y., Liu, L.P., Hu, M.H., Wang, Y.J.* (2018) Effects of Gonadal Preoperative Treatment on the Physiological Metabolism of the Pearl Oyster Pinctada martensii: Implications for Pearl Production. Journal of Shellfish Research 37, 1051-1059 (IF=1.037)
61. Hu, M.H., O, S.Y., Cheung, S.G., Shin, P.K.S., Yan, M.Y., Wang, Y.J.* (2018) Growth performance and feed utilization of low-cost artificial feeds for juvenile Asian horseshoe crab culture. Journal of Shellfish Research 37, 581-589 (IF=1.037)
60. Shang, Y.Y.#, Lan, Y.W.#, Liu, Z.K., Kong, H., Huang, X.Z., Wu, F.L., Liu, L.P., Hu, M.H., Huang, W.*, Wang, Y.J.* (2018) Synergistic effects of nano-ZnO and low pH of sea water on the physiological energetics of the thick shell mussel Mytilus coruscus Frontiers in Physiology 9:757. doi:10.3389/fphys.2018.00757 (IF=3.201)
59. Huang, X.Z.#, Lan, Y.W.#, Liu, Z.K., Huang, W., Guo, Q.D., Liu, L.P., Hu, M.H., Sui, Y.M., Wu, F.L., Lu, W.Q., Wang, Y.J.* (2018) Salinity mediates the toxic effect of nano-TiO2 on the juvenile olive flounder Paralichthys olivaceus. Science of the Total Environment 640-641, 726-735 (IF=5.589)
58. Kwan, B.K.Y.#, Hu, M.H.#, Wang, Y.J., Cheung, S.G., Shin, P.K.S.* (2019) Fatty acids from controlled feeding as dietary markers of juvenile Chinese horseshoe crab, Tachypleus tridentatus. Journal of the Marine Biological Association of the United Kingdom 99, 421-428 (IF=1.578)
57. Qu, X.C.#, Hu, M.H.#, Shang, Y.Y., Pan, L.S., Jia, P.X., Fu, C.X., Liu, Q.G.*, Wang, Y.J.* (2018) Liver transcriptome and miRNA analysis of silver carp (Hypophthalmichthys molitrix) intraperitoneally injected with microcystin-LR. Frontiers in Physiology 9:381. doi: 10.3389/fphys.2018.00381 (IF=3.201)
56. Huang, X.Z.#, Liu, Z.K.#, Xie, Z., Dupont, S., Huang, W., Wu, F.L., Kong, H., Liu, L.P., Sui, Y.M., Lin, D.H., Lu, W.Q., Hu, M.H., Wang, Y.J.* (2018) Oxidative stress induced by titanium dioxide nanoparticles increases under seawater acidification in the thick shell mussel Mytilus coruscus. Marine Environmental Research 137,49-59(IF= 3.445)
55. Wu, F.L.#, Xie, Z.#, Lan, Y.W., Dupont, S., Sun, M., Cui, S.K., Huang, X.Z., Huang, W., Liu, L.P., Hu, M.H.*, Lu, W.Q., Wang, Y.J.* (2018) Short-term exposure of Mytilus coruscus to decreased pH and salinity change impacts immune parameters of their haemocytes. Frontiers in Physiology 9:166. doi: 10.3389/fphys.2018.00166 (IF=3.201)
54. Lan, Z.H.#, Xu, J.L.#, Wang, Y.J., Lu, W.Q.* (2018) Modulatory effect of glutamate GluR2 receptor on the caudal neurosecretory Dahlgren cells of the olive flounder, Paralichthys olivaceus. General and Comparative Endocrinology 261, 9-22 (IF=2.445)
53. Huang, X.Z.#, Liu, Y.M.#, Liu, Z.K., Zhao, Z.H., Dupont, S., Wu, F.L., Huang, W.*, Chen, J.F., Hu, M.H., Lu, W.Q., Wang, Y.J.* (2018) Impact of zinc oxide nanoparticles and ocean acidification on antioxidant responses of Mytilus coruscus. Chemosphere 196, 182-195 (IF=5.108)
52. Wu, F.L.#, Cui, S.K.#, Sun, M., Xie, Z., Huang, W., Huang, X.Z., Liu, L.P., Hu, M.H., Lu, W.Q., Wang, Y.J.*(2018) Combined effects of ZnO NPs and seawater acidification on the haemocyte parameters of thick shell mussel Mytilus coruscus. Science of the Total Environment 624, 820-830 (IF=5.589)
中文论文(*通讯作者)
19. 吴芳丽, 王月, 尚跃勇, 严桂珍, 孔辉, 胡梦红, 吕为群*, 王有基*, 2016. 水生无脊椎动物血淋巴细胞分类及免疫研究进展. 大连海洋大学学报 31(6), 1-9.
18. 葛春梅, 黄茜枝, 林道辉, 王有基*, 吕为群*, 2015. 人工纳米材料对贝类生态毒理效应的研究进展. 生态毒理学报10(4), 1–16.
17. 吴芳丽, 黄茜枝, 李琼珍, 胡梦红, 吕为群, 王有基*, 2015. 中国鲎和圆尾鲎血淋巴细胞分类和特征的比较研究. 水生生物学报39(6), 1183–1190.
16. 李琼珍, 罗帮, 王有基*, 2014. H术前限食处理对马氏珠母贝鳃和肝脏抗氧化功能的影响H. 水产科技情报41(05), 223–227.
15. 李琼珍, 罗帮, 张立, 王有基*, 2014. H术前饥饿处理对马氏珠母贝血淋巴免疫机能的影响H. 上海海洋大学学报23(04), 505–512.
14. 王有基, 李丽莎, 李琼珍, 吕为群*, 2014. 海洋酸化和全球变暖对贝类生理生态影响的研究进展. 生态学报34(13), 3499–3508.
13. 王有基, 林江兴, 李琼珍, 胡梦红, 吴芳丽,沙毅杰, 吕为群*, 2014. 翡翠贻贝血淋巴细胞亚群鉴定及相关免疫功能的流式细胞分析.水产学报 38(03), 385–399.
12. 张伟, 王有基, 李伟明, 吕为群*, 2014. 运输密度和盐度对大黄鱼幼鱼皮质醇、糖元及乳酸含量的影响. 水产学报 38(07), 82–89.
11. 郭勤单, 王有基, 吕为群*, 2014. 温度和盐度对褐牙鲆幼鱼渗透生理及抗氧化水平的影响. 水生生物学报 38(1), 58–67.
10. 吴芳丽, 胡梦红, 王有基*,2014.长江江豚资源现状及保护对策分析. 人民长江 45(S1), 40–44.
9. 袁明哲, 陈珊, 胡梦红, 王有基*,2014. 加强物种保护教育培养公众保育意识—以长江口中华鲟保育研究为例. 生物学通报49(7), 12–15.
8. 王有基, 吕为群, 2013. 依托科研项目培养本科生创新能力–以生物类专业为例. 中国高校科技 9, 58–59.
7. 王有基, 袁明哲, 吴芳丽, 胡梦红*, 2013. 长江流域中华鲟保育进展、存在问题及对策分析. 生物学通报48(12), 1–5.
6. 李琼珍, 黎一键, 王有基*, 罗帮, 2013. 广西海域靓巴非蛤性腺发育和生殖周期的初步研究. 生物学杂志30(2), 37–39.
5. 周作强, 丁晴晴, 刘其根, 王有基, 胡梦红*, 2013. 缺氧对贝类的胁迫效应及对其免疫系统的影响. 生态毒理学报 8(3), 324–330.
4. 胡梦红, 吴芳丽, 李琼珍, 甘晖, 龚竹林, 王有基*, 2013. 应用可视嵌入性荧光标记技术研究中国鲎幼体野外放流后的生境选择. 海洋环境科学 32(6), 907–910.
3. 郭勤单, 徐国成, 王有基, 程若冰, 赵虎, 张伟, 吕为群*, 2013. 急性盐度应激对银鲳(Pampus argenteus)幼鱼耐受水平评价. 海洋环境科学 32(4), 561–564.
2. 郭勤单, 徐国成, 王有基, 吕为群*, 2013. 银鲳仔鱼对不同盐度的耐受力及其耗氧量的研究. 水产学报 37(5), 719–726.
1. 李琼珍, 罗帮, 黎一键, 王有基*, 2012. 靓巴非蛤幼苗形态发育及生长的研究. 水产科技情报39(6), 275–278.
书籍章节
1.Wang, T., Wang, Y.J.* (2018) Ecophysiological Responses of Mollusks to Oceanic Acidification. In: Donat-P. Häder, Kunshan Gao (eds) Aquatic Ecosystems in a Changing Climate. CRC press, pp 288–302.
2.Hu, M.H., Kwan, B.K.Y., Wang, Y.J., Cheung, S.G., Shin, P.K.S. (2015) Population structure and growth of juvenile horseshoe crabs Tachypleus tridentatus and Carcinoscorpius rotundicauda (Xiphosura) in southern China. In: Carmichael, R.H., Botton, M.L., Shin, P.K.S., Cheung, S.G. (eds) Changing global perspectives on horseshoe crab biology, conservation and management. Springer International Publishing, Cham, pp 167–180.
授权专利
[13] 王有基,黄茜枝, 胡梦红, 吴芳丽, 严桂珍, 陈顾慧, 孔辉, 赵子豪, 成英波, 隋延鸣,一种厚壳贻贝人工催产及培育的方法,CN201510540081.9
[12] 王有基,孔辉,黄茜枝,胡梦红,吴芳丽,吕为群,隋延鸣,一种采用测力计评估贝类健康状况的方法,CN201510769453.5
[11] 王有基,吴芳丽,胡梦红,李丽莎,黄茜枝,孔辉,尚跃勇,吕为群,隋延鸣,一种海水有机污染物检测的仿生人工贻贝方法,CN201510817865.1
[10] 王有基,隋延鸣,孔辉,胡梦红,成英波,赵子豪,陈顾慧,一种活体贻贝运输箱,CN201520315482.X
[9] 王有基, 李丽莎,吕为群,胡梦红,张冬晓,沙毅杰,一种贻贝足丝的固着装置,CN201320256494.0
[8] 王有基, 李丽莎,胡梦红,吕为群,黄茜枝,王灿,一种海水中二氧化碳浓度可控的贝类养殖装置,CN201420111678.2
[7] 王有基, 隋延鸣,黄茜枝,胡梦红,孔辉,成英波,赵子豪,陈顾慧,一种鱼类和贝类两用呼吸效率测定装置,CN201420748767.8
[6] 胡梦红, 周作强, 刘其根, 王有基, 吴杰洋, 刘军, 一种溶氧可控的三角帆蚌养殖装置, CN201320088127.4
[5] 王帅,吕为群, 陈阿琴, 王有基, 陶贤继,封闭式组织研磨棒装置, CN201320030046.9
[4] 王帅, 吕为群, 陈阿琴, 王有基, 陶贤继,直线型批量组织脱水装置, CN201320029688.7
[3] 吕为群, 黄旭雄, 陈阿琴, 钟英斌, 王有基, 赵虎, 郭勤单, 程若冰, 徐国成,一种鲳鱼的低盐养殖方法, CN201210188622.2
[2] 何蓉, 吕为群, 夏华, 徐国成, 戴习林, 朱其建, 江敏, 王有基, 钟英斌, 陈阿琴,一种专捕小型鱼的撒网, CN201220135085.0
[1] 夏华, 吕为群, 戴习林, 何蓉, 徐国成, 陈阿琴, 钟英斌, 王有基, 陶贤继, 郭勤单, 弹簧式捕鱼装置, CN201220218154.4
联系方式
地址:上海市浦东新区沪城环路999号上海海洋大学水产与生命学院 A403
E-mail:youjiwang2@gmail.com; yj_wang@shou.edu.cn