研究人员

谭巧国 教授

学院单位:环境与生态学院

职务:

电子邮件:tanqg@xmu.edu.cn

联系电话:

个人主页:

主要研究领域:河口重金属风险预测模型, 重金属生物累积与毒性的模型预测, 海洋环境质量生物监测, 海鲜贝类食品安全

个人履历

南京大学环境工程系 学士 (2000-2004

同济大学环境工程系 硕士肄业 (2004-2006

香港科技大学生物系 博士 (2006-2010

厦门大学海洋系 博士后(2011-2013

蒙特利尔大学化学系 博士后(2012.09-12

厦门大学环境与生态学院 副教授(2013-2021

厦门大学环境与生态学院 教授(2021至今)

BSc, Department of Environmental Engineering, Nanjing University (2000-2004)

PhD, Department of Biology, The Hong Kong University of Science & Technology (2006-2010)

Postdoctoral Fellow, Department of Oceanography, Xiamen University (2011-2013)

Postdoctoral Fellow, Department of Chemistry, Montreal University (2012.09-12)

Associate Professor, College of the Environment & Ecology, Xiamen University (2013-2021)

Professor, College of the Environment & Ecology, Xiamen University (2021-present)

研究方向

河口重金属风险预测模型

重金属生物累积与毒性的模型预测

海洋环境质量生物监测

海鲜贝类食品安全

Modeling and prediction of metal risks in estuarine ecosystems

Toxicokinetic-toxicodynamic models for predicting metal bioaccumulation and toxicity

Biomonitoring of coastal marine environments

Shellfish food safety

科研项目

国家自然科学基金面上项目,(2020-2023),41977347,中国常见海洋贻贝与牡蛎镉累积能力种间差异机制研究(61万,主持)

2020-2023 “Mechanisms underlying the interspecies differences in cadmium bioaccumulation in common marine mussels and oysters of China”. Project from National Natural Science Foundation (41977347), 610,000 RMB, Role: PI.

国家自然科学基金面上项目(2015-2018),21477099,改进生物配体模型预测河口水体中铜和锌的水生毒性(90万,主持)

2015-2018 “An improved biotic ligand model for predicting the toxicity of Cu and Zn to estuarine organisms”. Project from National Natural Science Foundation (21477099), 900,000 RMB, Role: PI.

国家自然科学基金重点项目(2012-2016),21237004,中国南方典型河口生物的重金属生物动力学与毒理(300万,参与)

2012-2016 “Biokinetics and toxicity of heavy metals in estuarine organisms from southern China”. Key Project from National Natural Science Foundation (21237002), 3,000,000 RMB, Role: Co-PI.

代表性论文

Chen, W.-Q., Wang, W.-X., Tan Q.-G.* (2017). Revealing the complex effects of salinity on copper toxicity in an estuarine clam Potamocorbula laevis with a toxicokinetic-toxicodynamic model. Environmental Pollution 222: 323–330.

Tan, Q.-G., Zhou, W., Wang W.-X.* (2018). Modeling the toxicokinetics of multiple metals in the oyster Crassostrea hongkongensis in a dynamic estuarine environment. Environmental Science & Technology 52: 484–492.

Tan, Q.-G.*, Lu, S., Chen R., Peng J. (2019). Making acute tests more ecologically relevant: cadmium bioaccumulation and toxicity in an estuarine clam under various salinities modeled in a toxicokinetic-toxicodynamic framework. Environmental Science & Technology 53: 2873–2880.

Lin Z., Fan X., Huang J., Chen R., Tan Q.-G.* (2020). Intertidal mussels do not stop metal bioaccumulation even when out of water: Cadmium toxicokinetics in Xenostrobus atratus under influences of simulated tidal exposure. Environmental Pollution 261:114192.

Zhong, G., Lu, S., Chen, R., Chen, N., & Tan, Q.-G.* (2020). Predicting risks of cadmium toxicity in salinity-fluctuating estuarine waters using the toxicokinetic–toxicodynamic model. Environmental Science & Technology, 54(21), 13899-13907.

Liang, W. Q., Xie, M., & Tan, Q. G.* (2021). Making the Biotic Ligand Model kinetic, easier to develop, and more flexible for deriving water quality criteria. Water Research, 188, 116548.

Lin, Z., Xu, X., Xie, M., Chen, R., & Tan, Q.-G.* (2021). Measuring metal uptake and loss in individual organisms: a novel double stable isotope method and its application in explaining body size effects on cadmium concentration in mussels. Environmental Science & Technology, 55(14), 9979-9988.

获奖情况

国家自然科学基金面上项目(2015-2018),21477099,改进生物配体模型预测河口水体中铜和锌的水生毒性(90万,主持)

2015-2018 “An improved biotic ligand model for predicting the toxicity of Cu and Zn to estuarine organisms”. Project from National Natural Science Foundation (21477099), 900,000 RMB, Role: PI.

国家自然科学基金重点项目(2012-2016),21237004,中国南方典型河口生物的重金属生物动力学与毒理(300万,参与)

2012-2016 “Biokinetics and toxicity of heavy metals in estuarine organisms from southern China”. Key Project from National Natural Science Foundation (21237002), 3,000,000 RMB, Role: Co-PI.