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潘科

博士,研究员

panke#szu.edu.cn

致知楼

广东省“珠江人才计划”青年拔尖人才,深圳市海外高层次人才,深圳市优秀教师,深圳市南山区领航人才,深圳大学优秀本科教师,深圳大学新锐研究生导师,深圳市“圳品”评审专家。潘科博士毕业于香港科技大学,长期从事海洋生物学和海洋生态毒理学研究。近5年来主要围绕我国近海突出的环境污染问题,综合野外调查、模拟实验与数学模型等技术方法,研究污染物在近海海洋生态系统中的迁移转化、生物累积过程和生态毒理效应。在Environmental Science & TechnologyEnvironmental InternationalJournal of Hazardous MaterialsAquatic Toxicology,生态毒理学报等国内外主流海洋科学与环境科学期刊发表论文多篇,并多次受邀在国内外学术会议作报告。


主要科研项目:

国家自然科学基金区域创新发展联合基金:北部湾陆海系统氮磷循环及其生态环境效应,2023.01-2026.12,主持

国家自然科学基金面上项目:硅在钙化浮游植物颗石藻中的作用,2024.01-2027.12,主持

国家自然科学基金面上项目:酸化对海洋硅藻镉吸收的影响及其机制研究, 2020.01-2023.12,主持

国家自然科学基金面上项目:非稳态条件下河口牡蛎累积铜的生物动力学模型,2017/01-2020/12,主持


教育背景:

2009年 香港科技大学生命科学学部,生物学专业,理学博士;

2006年 厦门大学海洋系,海洋生物专业,理学硕士;

2003年 厦门大学海洋系,海洋生物专业,理学学士;


工作经历:

2009年-2015年 香港科技大学生命学部,博士后

2013年-2015年 香港科技大学深圳研究院,研究助理教授;


研究兴趣:

环境中污染物的生物地球化学行为;

污染物的生物累积过程与毒性效应;

污染物的生物监测与健康风险;


目前主要研究方向:

河口贝类对重金属等污染物的生理生态学响应

海洋微塑料的生态毒理效应

湿地环境中汞的生物地球化学行为

海洋微藻对酸化的生理响应


已发表论文:

[1]Afzal, S. *, Mehmood, A., Jin, L., Pan, K., Ahmad, M., Javid, M.,Ikram, M., Zhang, M.,&Liu, L.(2025). Efficiency and mechanism of high surface area mesoporous nanocast NC-LaCoO3for activating peroxymonosulfate to degrade atrazine in water. Separation and Purification Technology ,354, 128823.


[2]Chen, F., Ma, J., & Pan, K*. (2025). Synergistic effect of silicon availability and salinity on metal adsorption in a common estuarine diatom. Journal of Environmental Sciences, 148, 364-374.


[3]Liu, J., Li, Y., Zhang, A., Zhong, H., Jiang, H., Tsui, M.T.-K., Li, M.,& Pan, K *.(2024). Impact of geochemistry and microbes on the methylmercury production in mangrove sediments. Journal of Hazardous Materials ,479, 135627.


[4]Tao, Z., Xia, T., Chen, F., Zhang, L., Wei, R., Chen, S.,Jia, L., Lan, W.,& Pan, K *.(2024). Cadmium contamination in sediments from a mangrove wetland: Insights from lead isotopes. Journal of Hazardous Materials ,479, 135667.


[5] Ma, J., Chen, F., Zhang, Z., Li, Y., Liu, J., Chen, C. C., & Pan, K*. (2023). Eukaryotic community succession on discarded face masks in the marine environment. Science of The Total Environment, 854, 158552.


[6]Zhang, L., Huang, L., Ye, Z., Pan, K., Xiong, Z., Long, J.-Y., Zhang, G., Guo, Y*.,&Zhang, W*.(2024). Integrating Transcriptome and Metabolome Analyses Revealed Salinity Induces Arsenobetaine Biosynthesis in Marine Medaka (Oryzias melastigma). Environmental Science & Technology,acs.est.4c07382.


[7]Chai, B., Xiao, T.*, Xiao, E., Du, S., Yang, S., Yin, H.*,Dang, Z.,& Pan, K.(2024). Enhancing microplastics removal from soils using wheat straw and cow dung-derived biochars. Journal of Cleaner Production ,470, 143288.


[8]Lao, Y., Ma, J*., Pan, K * ., Chen, F., &Zhang, Z.(2024). A Brief Review of Effects of Aluminum on Marine Diatoms. Bulletin of Environmental Contamination and Toxicology ,113, 31.


[9]Tao, Z., Peng, G., Chen, F., Guo, Q., Wei, R., Pan, K.,Deng, Y., Jiao, L., Zhang, Z., Chen, S.,& Xia, T*.(2024). Elevated lead mobility in sediments of a eutrophic drinking water reservoir during spring and summer seasons: Insights from isotopic signatures. Journal of Hazardous Materials ,475, 134833.


[10]Chen, F., Chen, Y., Pan, K*., & Liu, H*. (2024). Species-specific deformation of microalgae in the presence of microplastics. Environmental Chemistry Letters,22, 953-959.


[11]Afzal, S*., Chen, L., Jin, L., Pan, K., Wei, Y., Ahmad, M.,Hassan, Q. U., Zhang, M., Ashraf, G. A.,& Liu, L. (2024). LaCoO3/SBA-15 as a high surface area catalyst to activate peroxymonosulfate for degrading atrazine in water. Environmental Pollution, 349, 123885.


[12]Zhang, Z., Ma, J., Chen, F., Chen, S., Pan, K*., & Liu, H*. (2024). Effect of increased CO2on calcium homeostasis and signaling in a marine diatom. Limnology and Oceanography,69, 1365–1377.


[13]Yang, S., Li, Y., Chen, F., Chen, S., Luo, X., Duan, W.,Liao, Y., Jiang, H.,& Pan, K*. (2024). Understanding the variable metal concentrations in estuarine oystersCrassostrea hongkongensis: A biokinetic analysis. Marine Environmental Research,196,106393.


[14]Wu, C., Deng, C., Zhang, J. X., Pan, W., Yang, L., Pan, K.,Tan, Q., Yue, T*.,& Miao, A. J*. (2024). Silica nanoparticles inhibit cadmium uptake by the protozoanTetrahymena thermophilawithout the need for adsorption. Journal of Hazardous Materials, 466, 133569.


[15]Chai, B., Yin, H*., Xiao, T*., Xiao, E., Dang, Z., & Pan, K. (2024). Effects of Microplastics on Endophytes in Different Niches of Chinese Flowering Cabbage (Brassica campestris). Journal of Agricultural and Food Chemistry, 72(9), 4679-4688.


[16]Cai, J., Yin, B., Wang, Y., Pan, K., Xiao, Y., & Wang, X*. (2024). Gut microbiome play a crucial role in geographical and interspecies variations in mercury accumulation by fish. Science of The Total Environment, 912, 169381.


[17]Zhang, Z., Ma, J., Chen, F., Chen, Y., Pan, K*., & Liu, H*. (2024). Mechanisms underlying the alleviated cadmium toxicity in marine diatoms adapted to ocean acidification. Journal of Hazardous Materials, 463, 132804.


[18]Yang, S., Deng, Y., Shu, J., Luo, X., Peng, X., Pan, K., & Jiang, H*. (2024). Nitrate budget of a terrestrial-to-marine continuum in South China: Insights from isotopes and a Markov chain Monte Carlo model. Marine Pollution Bulletin, 199, 116000.


[19]Wang, M., Huang, Z., Wu, C., Yan, S., Fang, H. T., Pan, W.,Tan, Q., Pan, K., Ji, R., Yang, L., Pan, B., Wang, P*.,& Miao, A. J*. (2024). Stimulated Raman Scattering Microscopy Reveals Bioaccumulation of Small Microplastics in Protozoa from Natural Waters. Environmental Science & Technology, 58(6), 2922-2930.


[20]Zhang, L., Tsui, M. T. K., Kwong, R. W., & Pan, K*. (2024). Metal contamination, bioaccumulation, and toxicity in coastal environments under increasing anthropogenic impacts. Frontiers in Marine Science.


[21]Xu, H., Chen, F., Zhang, X., Zhang, Z., Pan, K*., & Liu, H*. (2024). Grazer‐induced changes on mechanical properties of diatoms frustule: A new proof for a watery arms race. Limnology and Oceanography Letters ,lol2.10419.


[22]Zhang, Z., Pan, K*., & Liu, H*. (2024). Survival of Nutrient-Starved Diatoms Under Ocean Acidification: Perspective from Nutrient Sensing, Cadmium Detection, and Nitrogen Assimilation. Bulletin of Environmental Contamination and Toxicology, 112(1), 21.


[23]Chen, F., Zhang, Z., Li, Y., Jiang, H., Zhou, Y., Liu, H., Pan, K*.,& Ma, J*. (2023). Impact of facemask debris on marine diatoms: Physiology, surface properties, sinking rate, and copepod ingestion. Science of The Total Environment, 905, 167222.


[24]Xu, H., Liu, H., Chen, F., Zhang, X., Zhang, Z., Ma, J., Pan, K*.,& Liu, H*. (2023). Ocean acidification affects physiology of coccolithophoreEmiliania huxleyiand weakens its mechanical resistance to copepods. Marine Environmental Research, 192, 106232.


[25]Tao, Z., Hu, J., Guo, Q., Wei, R., Jiao, L., Li, Y.,Chen, F., Fan, B., Lan, W.,& Pan, K*. (2023). Coupling isotopic signatures and partial extraction method to examine lead pollution in mangrove sediments. Journal of Hazardous Materials, 459, 132252.


[26]Yin, B., Tan, S., Pan, K., Xiao, Y., & Wang, X*. (2023). Effects of diet composition on gut microbiome and mercury biotransformation in the gobyfish. Science of The Total Environment, 892, 164776.


[27]Tao, Z., Peng, G., Chen, F., Guo, Q., Wei, R., Liu, J.,Li, Y., Jiang, H., Liao, Y.,& Pan, K*. (2023). Isotopic signatures unveil the lead sources and migration in surface mangrove sediments. Science of The Total Environment, 892, 164765.


[28]Jiang, H., Li, S., Zhang, W., Guo, W., Tan, X., Wang, W., Wang, D., Ye, C., Gong, Y., Liu, W., Xu, Z., Pan, K., Li, S., & Zhang, Q*. (2023). Coupling geochemical and microbial molecular techniques to reveal catchment-scale nitrate yield and fluvial export dynamics. Science of The Total Environment,888,163993.


[29]Zhou, Y., Wu, C., Li, Y., Jiang, H., Miao, A., Liao, Y., & Pan, K*. (2023). Effects of nanoplastics on clamRuditapes philippinarumat environmentally realistic concentrations: Toxicokinetics, toxicity, and gut microbiota. Journal of Hazardous Materials,456,131647.


[30]Ma, J., Chen, F., Chen, C. C., Zhang, Z., Zhong, Z., Jiang, H., Pu, J., Li, Y., & Pan, K*. (2023). Comparison between discarded facemask and common plastic waste on microbial colonization and physiochemical properties during aging in seawater. Journal of Hazardous Materials,455,131583.


[31]Cao, X., Zhong, G., Pan, K., Qian, J., Xie, M., Chen, R., Liao, Y., & Tan, Q. G. (2023). Interspecies calibration for biomonitoring metal contamination in coastal waters using oysters and mussels. Science of The Total Environment,883,163703.


[32]Li, Y., Chen, F., Zhou, R., Zheng, X., Pan, K., Qiu, G., Wu, Z., Chen, S*., & Wang, D*. (2023). A review of metal contamination in seagrasses with an emphasis on metal kinetics and detoxification. Journal of Hazardous Materials, 454, 131500.


[33]Peng, G., Pu, Z., Chen, F., Xu, H., Cao, X., Chen, C., Wang, J., Liao, Y., Zhu, X., & Pan, K*. (2023). Metal leaching from plastics in the marineenvironment: An ignored role of biofilm. Environment International,177,107988.


[34]Guo, W., Zhang, D., Zhang, W., Li, S., Pan, K., Jiang, H., & Zhang, Q. (2023). Anthropogenic impacts on the nitrate pollution in an urban river: Insights from a combination of natural-abundance and paired isotopes. Journal of Environmental Management, 333, 117458.


[35]Zhou, Y., He, G., Jiang, H., Pan, K*., & Liu, W*. (2023). Nanoplastics induces oxidative stress and triggers lysosome-associated immune-defensive cell death in the earthwormEisenia fetidaEnvironment International, 174, 107899.


[36]Guo, W. B., Wu, C., Pan, K., Yang, L., & Miao, A. J. (2023). Pre-exposure to Fe2O3or TiO2nanoparticles inhibits subsequent biological uptake of55Fe-labeled Fe2O3nanoparticles. Environmental Science & Technology, 57(12), 4831-4840.


[37]Chen F., Ma J., Zhong Z., Liu H., Miao A, Zhu X., & Pan K*. (2023). Silicon limitation impairs the tolerance of marine diatoms to pristine microplastics. Environmental Science & Technology. 57(8), 3291–3300


[38]Afzal, S., Mehmood, A., Jin, L., Pan, K*., Ahmad, M., Duan, D., Wei, Y., Raza, W., Hao, T., Sharif, H. M. A., Sohail, M., & Chen, F. (2023). Facile fabrication of cobalt doped manganese oxide with hierarchical porosity for peroxymonosulfate activation: Performance investigation and mechanistic insight to degrade organic pollutants in water and DFT study. Journal of Hazardous Materials Advances,9,100244.


[39]Cao, X., Yu, Z. X., Xie, M., Pan, K., & Tan, Q. G. (2023). Higher risks of copper toxicity in turbid waters: Quantifying the bioavailability of particle-bound metals to set site-specific water quality criteria. Environmental Science & Technology. 57(2), 1060-1070


[40]Yan, N., Wang, Y., Wong, T. Y., Hu, Y., Xu, H., Alessandro, P., Pan, K., Liu, J., Tang, B*.,& Shi, J*. (2023). Surface topography of nanoplastics modulates their internalization and toxicity in liver cells. Environmental Science: Nano, 10(10), 2685-2700.


[41]Ma, J., Chen, F., Zhang, Z., Li, Y., Liu, J., Chen, C. C., & Pan, K*. (2023). Eukaryotic community succession on discarded face masks in the marine environment.Science of The Total Environment,854, 158552.


[42]Zhou, Y., Li, Y., Lan, W., Jiang, H., & Pan, K*. (2022). Short-term exposure to MPs and DEHP disrupted gill functions in marine bivalves. Nanomaterials, 12(22), 4077.


[43]Pan, K., Chen, C. C., Lin, L., Xu, H., Chen, F., Li, Y., Zhu, X., Ma, J., & Lan, W. (2022). Adsorption of di (2-ethylhexyl) phthalate (DEHP) to microplastics in seawater: A comparison between pristine and aged particles. Bulletin of Environmental Contamination and Toxicology, 109(5), 776-782.


[44]Peng, G., Lan, W., & Pan, K*. (2022). Mechanisms of metal tolerance in halophytes: A mini review. Bulletin of Environmental Contamination and Toxicology, 109(5), 671-683.


[45]Afzal, S., Jin, L., Pan, K*., Duan, D., Wei, Y., Ahmad, M.,Shah, M. N.,& Chen, F. (2022). CoM/diatomite (M= Mg and Al) for the activation of peroxymonosulfate to degrade atrazine in water: Effect of preparation method, role of acidic/basic sites, and catalytic mechanism. Applied Surface Science,600, 154026.


[46]Zhang, Y. X., Wang, M., Yang, L., Pan, K., & Miao, A. J*. (2022). Bioaccumulation of differently-sized polystyrene nanoplastics by human lung and intestine cells. Journal of Hazardous Materials,439, 129585.


[47]Chen, S., Pan, K., Li, W., & Duan, D*. (2022). Influence of algal organic matter on metal accumulation in adjacent sediments of aquaculture from a tropical coast region. Environmental Science and Pollution Research, 1-14.


[48]Ma, J., Chen, F., Zhou, B., Zhang, Z., & Pan, K*. (2022). Effects of nitrogen and phosphorus availability on cadmium tolerance in the marine diatomPhaeodactylum tricornutumScience of The Total Environment,838,156615.


[49]Wang, C., Zhou, H. R., Zhao, Y. T., Xiang, Z. Q., Pan, K., Yang, L., & Miao, A. J*. (2022). A label-free technique to quantify and visualize gold nanoparticle accumulation at the single-cell level. Chemosphere,302, 134857.


[50]Ma, J., Chen, F., Xu, H., Liu, J., Chen, C. C., Zhang, Z., Jiang, H., Li, Y., & Pan, K*. (2022). Fate of face masks after being discarded into seawater: Aging and microbial colonization. Journal of H azardous M aterials,436, 129084.


[51]Lin, L., Chen, C. C., Zhu, X*., Pan, K., & Xu, X. (2022). Risk of aquaculture-derived microplastics in aquaculture areas: An overlooked issue or a non-issue?. Frontiers in Marine Science, 1353.


[52]Chen, C. C., Shi, Y., Zhu, Y., Zeng, J., Qian, W., Zhou, S., Ma, Jie., Pan, K., Jiang, Y., Tao, Y., & Zhu, X*. (2022). Combined toxicity of polystyrene microplastics and ammonium perfluorooctanoate to Daphnia magna: Mediation of intestinal blockage. Water Research, 219, 118536.


[53]Liu, J., Li, Y., Duan, D., Peng, G., Li, P., Lei, P., Zhong, H., Tsui, M. T. K., & Pan, K*. (2022). Effects and mechanisms of organic matter regulating the methylmercury dynamics in mangrove sediments. Journal of Hazardous Materials,432, 128690.


[54]Li, P., Li, X., Bai, J., Meng, Y., Diao, X., Pan, K., Zhu, X*., & Lin, G*. (2022). Effects of land use on the heavy metal pollution in mangrove sediments: Study on a whole island scale in Hainan, China. Science of The Total Environment,824, 153856.


[55]Zhou, B., Zou, Y., Ma, J., Yanping, L., & Pan, K*. (2022). Toxicity and bioaccumulation of copper inPhaeodactylum tricornutumunder different macronutrient conditions. Frontiers in Marine Science, 9, 907114.


[56]Li, P., Liu, J., Bai, J., Tong, Y., Meng, Y., Diao, X., Pan, K., Zhu, X*., & Lin, G. (2022) Community structure of benthic macrofauna and the ecological quality of mangrove wetlands in Hainan, China. Frontiers in Marine Science, 771.


[57]Guo, W. B., Wu, C., Yang, L., Pan, K., & Miao, A. J*. (2022). Nanoparticle pre-or co-exposure affects bacterial ingestion by the protozoanTetrahymena thermophilaJournal of Hazardous Materials,429, 128268.


[58]Yin, B., Tan, S., Wang, J., Pan, K., Wang, W. X., & Wang, X*. (2022). Antibiotic application may raise the potential of methylmercury accumulation in fish. Science of the Total Environment,819, 152946.


[59]Chai, B., Li, Y., Wang, L., Zhang, X. T., Wan, Y. P., Chen, F., Ma, J., Lan, W., & Pan, K*. (2022). Microplastic contamination on the beaches of South China. Frontiers in Marine Science, 9, 863652.


[60]Chai, B., She, Y., Wei, Q., Lan, W., & Pan, K*. (2022). Micro-and nanoplastic pollution in terrestrial ecosystems. In Advances in Toxicology and Risk Assessment of Nanomaterials and Emerging Contaminants(pp. 207-226). Springer, Singapore.


[61]Li, Y., Pan, K., & Chen, Y*. (2022). Poly (β‐trimethylsilyloxy ester): A degradable polymer based onretromukaiyama aldol reaction. Macromolecular Rapid Communications,43(6), 2100808.


[62]Luo, X., Pan, K., Wang, L., Li, M., Li, T., Pang, B., Kang, J., Fu, J., & Lan, W*. (2022). Anthropogenic inputs affect phytoplankton communities in a subtropical estuary. Water,14(4), 636.


[63]Li, Y., Xu, S., Ling, J., Pan, K., Liu, Y., & Chen, Y*. (2022). Diphenyl phosphate/ethyl diphenylphosphinite as an efficient organocatalytic system for ring-opening polymerization ofε-caprolactone andδ-valerolactone. Polymer Chemistry,13(4), 545-557.


[64]Xu, S., Wu, C., Guo, W. B., Yang, L., Ji, R., Pan, K., & Miao, A. J*. (2021). Polystyrene nanoplastics inhibit the transformation of tetrabromobisphenol A by the bacteriumRhodococcus jostiiACS nano,16(1), 405-414.


[65]Pan, K., Lan, W., Li, T., Hong, M., Peng, X., Xu, Z., Liu, W., & Jiang, H*. (2021). Control of phytoplankton by oysters and the consequent impact on nitrogen cycling in a Subtropical Bay. Science of The Total Environment,796, 149007.


[66]Pan, K., Zheng, X., Liu, X., & Jiang, H*. (2021). Nitrogen cycling in a tropical coral reef ecosystem under severe anthropogenic disturbance in summer: Insights from isotopic compositions. Water Research,207, 117824.


[67]Ma, J., Chen, F., Xu, H., Jiang, H., Liu, J., Li, P., Chen, C., & Pan, K*. (2021). Face masks as a source of nanoplastics and microplastics in the environment: Quantification, characterization, and potential for bioaccumulation. Environmental Pollution,288, 117748.


[68]Ikram, M., Hu, F., Peng, G., Basharat, M., Jabeen, N., Pan, K., & Gao, Y*. (2021). Light-activated fuel-free Janus metal organic framework colloidal motors for the removal of heavy metal ions. ACS Applied Materials & Interfaces,13(43), 51799-51806.


[69]Chen, C. C., Zhu, X., Xu, H., Chen, F., Ma, J., & Pan, K*. (2021). Copper adsorption to microplastics and natural particles in seawater: A comparison of kinetics, isotherms, and bioavailability. Environmental Science & Technology,55(20), 13923-13931.


[70]Xu, H., Shi, Z., Zhang, X., Pang, M., Pan, K*., & Liu, H*. (2021). Diatom frustules with different silica contents affect copepod grazing due to differences in the nanoscale mechanical properties. Limnology and Oceanography,66(9), 3408-3420.


[71]Lei, P., Zhang, J., Zhu, J., Tan, Q., Kwong, R. W., Pan, K., Jiang, T., Naderi, M., & Zhong, H*. (2021). Algal organic matter drives methanogen-mediated methylmercury production in water from eutrophic shallow lakes. Environmental Science & Technology,55(15), 10811-10820.


[72]Jiang, H., Zhang, Q., Liu, W., Zhang, J., Pan, K., Zhao, T., & Xu, Z*. (2021). Isotopic compositions reveal the driving forces of high nitrate level in an urban river: Implications for pollution control. Journal of Cleaner Production,298, 126693.


[73]Duan, D., Lei, P., Lan, W., Li, T., Zhang, H., Zhong, H., & Pan, K*. (2021). Litterfall-derived organic matter enhances mercury methylation in mangrove sediments of South China. Science of the Total Environment,765, 142763.


[74]Afzal, S., Pan, K*., Duan, D., Wei, Y., & Chen, L. (2021). Heterogeneous activation of peroxymonosulfate with cobalt incorporated fibrous silica nanospheres for the degradation of organic pollutants in water. Applied Surface Science,542, 148674.


[75]Jiang, H., Ma, J., Xu, H., Xu, Z., Liu, W., & Pan, K*. (2021). Multiple isotopic compositions reveal complex nitrogen cycling in a subtropical estuary. Environmental Pollution,272, 116410.


[76]Ma, J., Zhou, B., Chen, F., & Pan, K*. (2021). How marine diatoms cope with metal challenge: Insights from the morphotype-dependent metal tolerance inPhaeodactylum tricornutumEcotoxicology and Environmental Safety,208, 111715.


[77]Mao, Z., Feng, M., Li, Z., Zhou, M., Xu, L., Pan, K., Wang, S., Su, W., & Zhang, W*. (2021). ETV5 regulates hepatic fatty acid metabolism through PPAR signaling pathway. Diabetes,70(1), 214-226.


[78]Dong, F., Wu, C., Miao, A. J., & Pan, K*. (2021). Reduction of silver ions to form silver nanoparticles by redox-active organic molecules: Coupled impact of the redox state and environmental factors. Environmental Science: Nano,8(1), 269-281.


[79]Lei, P., Zhu, J., Zhong, H., Pan, K., Zhang, L., & Zhang, H*. (2021). Distribution of nitrogen and phosphorus in pore water profiles and estimation of their diffusive fluxes and annual loads in guanting reservoir (Gtr), Northern China. Bulletin of Environmental Contamination and Toxicology,106(1), 10-17.


[80]Jiang, H., Lan, W., Li, T., Xu, Z., Liu, W., & Pan, K*. (2020). Isotopic composition reveals the impact of oyster aquaculture on pelagic nitrogen cycling in a subtropical estuary. Water Research,187, 116431.


[81]Lu, G., Pan, K., Zhu, A., Dong, Y., & Wang, W. X*. (2020). Spatial-temporal variations and trends predication of trace metals in oysters from the Pearl River Estuary of China during 2011–2018. Environmental Pollution,264, 114812.


[82]Jiang, H., Liu, W., Zhang, J., Zhou, L., Zhou, X., Pan, K., Zhao, T., Wang, Y., & Xu, Z*. (2020). Spatiotemporal variations of nitrate sources and dynamics in a typical agricultural riverine system under monsoon climate. Journal of Environmental Sciences,93, 98-108.


[83]Zhou, B., Ma, J., Chen, F., Zou, Y., Wei, Y., Zhong, H., & Pan, K*. (2020). Mechanisms underlying silicon-dependent metal tolerance in the marine diatomPhaeodactylum tricornutumEnvironmental Pollution,262, 114331.


[84]Duan, D., Lan, W., Chen, F., Lei, P., Zhang, H., Ma, J., Wei, Y., & Pan, K*. (2020). Neutral monosaccharides and their relationship to metal contamination in mangrove sediments. Chemosphere,251, 126368.


[85]Ma, J., Zhou, B., Tan, Q., Zhang, L., & Pan, K*. (2020). The roles of silicon in combating cadmium challenge in the marine diatomPhaeodactylum tricornutumJournal of hazardous materials,389, 121903.


[86]Gutierrez Moreno, J. J., Pan, K., Wang, Y., & Li, W*. (2020). Computational study of APTES surface functionalization of diatom-like amorphous SiO2surfaces for heavy metal adsorption. Langmuir,36(20), 5680-5689.


[87]Xu, S., Ma, J., Ji, R., Pan, K*., & Miao, A. J*. (2020). Microplastics in aquatic environments: Occurrence, accumulation, and biological effects. Science of the Total Environment,703, 134699.


[88]Lei, P., Zhu, J., Pan, K., & Zhang, H*. (2020). Sorption kinetics of parent and substituted PAHs for low-density polyethylene (LDPE): Determining their partition coefficients between LDPE and water (KLDPE) for passive sampling. Journal of Environmental Sciences,87, 349-360.


[89]Zheng, X., Kuo, F., Pan, K., Huang, H., & Lin, R*. (2019). Different calcification responses of two hermatypic corals to CO2-driven ocean acidification. Environmental Science and Pollution Research,26(30), 30596-30602.


[90]Lei, P., Zhong, H., Duan, D., & Pan, K*. (2019). A review on mercury biogeochemistry in mangrove sediments: Hotspots of methylmercury production?. Science of The Total Environment,680, 140-150.


[91]Lei, P., Pan, K., Zhang, H., & Bi, J*. (2019). Pollution and risk of PAHs in surface sediments from the tributaries and their relation to anthropogenic activities, in the main urban districts of Chongqing city, Southwest China. Bulletin of environmental contamination and toxicology,103(1), 28-33.


[92]Mao, Z., Lin, H., Su, W., Li, J., Zhou, M., Li, Z., Zhou, B., Yang, Q., Pan, K.,He, J*., & Zhang, W*. (2019). Deficiency of ZnT8 promotes adiposity and metabolic dysfunction by increasing peripheral serotonin production. Diabetes,68(6), 1197-1209.


[93]Lei, P., Nunes, L. M., Liu, Y. R., Zhong, H*., & Pan, K*. (2019). Mechanisms of algal biomass input enhanced microbial Hg methylation in lake sediments. Environment international,126, 279-288.


[94]Huang, B., Wei, Z. B., Yang, L. Y., Pan, K*., & Miao, A. J*. (2019). Combined toxicity of silver nanoparticles with hematite or plastic nanoparticles toward two freshwater algae. Environmental science & technology,53(7), 3871-3879.


[95]马捷,陈丰源,周贝贝,段丹丹,韦阳, & 潘科*. (2019).海洋硅藻细胞表面物理化学特性对镉累积的影响. 生态毒理学报,14(1), 75-82.


[96]Ma, J., Zhou, B., Duan, D., & Pan, K*. (2019). Salinity-dependent nanostructures and composition of cell surface and its relation to Cd toxicity in an estuarine diatom. Chemosphere,215, 807-814.


[97]Zheng, X., Wang, C., Hadi, T. A., Ye, Y., & Pan, K*. (2018). An ocean acidification-simulated system and its application in coral physiological studies. Acta Oceanologica Sinica,37(12), 55-62.


[98]Ma, J., Zhou, B., Duan, D., Wei, Y., & Pan, K*. (2018). Silicon limitation reduced the adsorption of cadmium in marine diatoms. Aquatic Toxicology,202, 136-144.


[99]雷沛,张洪,王超, & 潘科*. (2018).沉积物水界面污染物迁移扩散的研究进展. 湖泊科学,30(6), 1489-1508.


[100]Pan, K., & Wang, W. X*. (2016). Radiocesium uptake, trophic transfer, and exposure in three estuarine fish with contrasting feeding habits. Chemosphere,163, 499-507.


[101]Pan, K., Tan, Q. G., & Wang, W. X*. (2016). Two-compartment kinetic modeling of radiocesium accumulation in marine bivalves under hypothetical exposure regimes. Environmental Science & Technology,50(5), 2677-2684.


[102]Yin, R., Feng, X., Zhang, J., Pan, K., Wang, W. X., & Li, X*. (2016). Using mercury isotopes to understand the bioaccumulation of Hg in the subtropical Pearl River Estuary, South China. Chemosphere,147, 173-179.


[103]Chen, L., Lam, J. C., Zhang, X., Pan, K., Guo, C., Lam, P. K., Wang, W. X., Liu, H., & Qian, P. Y*. (2015). Relationship between metal and polybrominated diphenyl ether (PBDE) body burden and health risks in the barnacleBalanus amphitriteMarine pollution bulletin,100(1), 383-392.


[104]Wang, W. X., Pan, K., Tan, Q., Guo, L., & Simpson, S. L*. (2014). Estuarine pollution of metals in China: Science and mitigation. Environmental science & technology,48(17), 9975.


[105]Zhang, Q., Pan, K., Kang, S., Zhu, A., & Wang, W. X*. (2014). Mercury in wild fish from high-altitude aquatic ecosystems in the Tibetan Plateau. Environmental science & technology,48(9), 5220-5228.


[106]Pan, K., Chan, H., Tam, Y. K., & Wang, W. X*. (2014). Low mercury levels in marine fish from estuarine and coastal environments in southern China. Environmental pollution,185, 250-257.


[107]潘科,朱艾嘉,徐志斌, &王文雄*. (2014).中国近海和河口环境铜污染的状况. 生态毒理学报,9(4), 618-631.


[108]Sharma, C. M., Basnet, S., Kang, S., Rosseland, B. O., Zhang, Q., Pan, K., Borgstrøm, R., Li, Q., Wang, W. X., Huang, J., Teien, H., & Sharma, S*. (2013). Mercury concentrations in commercial fish species of Lake Phewa, Nepal. Bulletin of environmental contamination and toxicology,91(3), 272-277.


[109]Yu, X. J., Pan, K., Liu, F., Yan, Y., & Wang, W. X*. (2013). Spatial variation and subcellular binding of metals in oysters from a large estuary in China. Marine pollution bulletin,70(1-2), 274-280.


[110]Pan, K., & Wang, W. X*. (2012). Reconstructing the biokinetic processes of oysters to counteract the metal challenges: Physiological acclimation. Environmental science & technology,46(19), 10765-10771.


[111]Yu, X., Li, H., Pan, K., Yan, Y., & Wang, W. X*. (2012). Mercury distribution, speciation and bioavailability in sediments from the Pearl River Estuary, Southern China. Marine pollution bulletin,64(8), 1699-1704.


[112]Pan, K., & Wang, W. X*. (2012). Trace metal contamination in estuarine and coastal environments in China. Science of the total environment,421, 3-16.


[113]Pan, K., & Wang, W. X*. (2011). Mercury accumulation in marine bivalves: Influences of biodynamics and feeding niche. Environmental pollution,159(10), 2500-2506.


[114]Zhang, Y., Xiao, K., Xu, S. Y., Pan, K., Wang, W. X., & Qian, P*. (2011). Acute toxicity of the antifouling compound butenolide in non-target organisms. PLoS ONE, 6(8), e23803.


[115]Pan, K., Lee, O. O., Qian, P. Y., & Wang, W. X*. (2011). Sponges and sediments as monitoring tools of metal contamination in the eastern coast of the Red Sea, Saudi Arabia. Marine pollution bulletin,62(5), 1140-1146.


[116]Pan, K., & Wang, W. X*. (2009). Inter-individual variations in cadmium and zinc biodynamics in the scallopChlamys nobilisMarine Ecology Progress Series,383, 151-160.


[117]Pan, K., & Wang, W. X*. (2009). Biodynamics to explain the difference of copper body concentrations in five marine bivalve species. Environmental science & technology,43(6), 2137-2143.


[118]Pan, K. (2009). Application of biokinetic model in studying the bioaccumulation of cadmium, zinc, and copper in the scallop chlamys nobilis. Hong Kong University of Science and Technology (Hong Kong).


[119]Pan, K., & Wang, W. X*. (2008). The subcellular fate of cadmium and zinc in the scallopChlamys nobilisduring waterborne and dietary metal exposure. Aquatic toxicology,90(4), 253-260.


[120]Pan, K., & Wang, W*. (2008). Allometry of cadmium and zinc concentrations and bioaccumulation in the scallopChlamys nobilisMarine Ecology Progress Series,365, 115-126.


[121]Pan, K., & WANG, W. X*. (2008). Validation of biokinetic model of metals in the scallopChlamys nobilisin complex field environments. Environmental science & technology,42(16), 6285-6290.


[122]Pan, K., Huang, L*., Guo, F&Huang, B. (2006). The quantitative relationship between flagellate abundance and suspended particle density in Huanghai Sea and East China Sea in summer. Acta Oceanologica Sinica(02),109-118.


[123]赵立波,黄凌风, 潘科,郭丰,向平.(2004).内湾沉积物中生物硅的测定方法及其应用初探. 厦门大学学报(自然科学版 ) (S1),153-158.



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