学习与工作经历
2025.1至今 华南农业大学,资源环境学院,副教授
2022.6至2024.12 中国科学院地球化学研究所,特别研究助理
2020.6至2022.5 中国科学院地球化学研究所,博士后
2017.9至2020.6 中国科学院地球化学研究所,博士,环境科学,导师:刘承帅
2019.3至2019.6 纽约城市大学,访问学者,合作导师:王峥嵘
2016.7至2017.8 广东省科学院生态环境与土壤研究所,科研助理
2013.9至2016.7 中国地质大学(北京),硕士,地球化学,导师:滕方振,柯珊
2009.9至2013.6 中国地质大学(北京),学士,资源勘查工程
获奖经历
2019年“中科院三好学生”
2019年“国家奖学金”
2020年“北京市优秀毕业生”
2020年“中科院院长优秀奖”
2020年“中科院优秀毕业生”
研究方向
1)金属稳定同位素地球化学,
2)土壤金属自然-人为源贡献解析;
3)土壤金属元素跨尺度迁移机制解析;
4)植物金属吸收转运的多策略调控机制解析。
主持和参与的项目
1. 国家自然科学基金委员会,面上项目,工业革命以来镉污染历史重建:冰川退缩区的稳定同位素记录(42177242),2022-01-01至2025-12-31,57万元,在研,主持
2. 国家自然科学基金委员会,青年科学基金项目,石灰岩稻田土壤中铁锰结核对镉同位素分馏的制约(41701266),2018-01-01至2020-12-31,22万元,结题,主持
3. 中国博士后科学基金会,面上资助二等,粘土矿物形成过程中的镁同位素分馏研究(256609),2020-11至2022-12,8万元,结题,主持
4. 广东省科学院,百名青年人才计划项目,铁锰结核作用下土壤镉环境行为耦合同位素分馏特征机制(2019GDASYL‐0103048),2019-01-01至2021-12-31,22万元,结题,主持
5. 中国科学院,战略性先导B专项,土壤基质元素形态演化的气候环境和人类活动响应(XDB40020402),2020-01-01至2024-12-31,180万元,在研,骨干
6. 国家自然科学基金委员会(42330712),重点项目,碳酸盐岩地质高背景区土壤镉形态演化过程及其关键影响因素,2024-01-01至2028-12-31,233万元,在研,骨干
学术成果
已发表的第一/通讯作者论文
第一/通讯作者论文:
1.Xu WP, Gao T*, Wang ZR, Liu YZ, Liu P, Chen MJ, Liu CS* (2025). Experimental investigation of Cd isotope fractionation during adsorption on montmorillonite and kaolinite. Environmental Science & Technology, 59, 3737-3748.
2.Gao T, Ke S, Wang S-J, Li FB, Liu CS*, Lei J, Liao CZ, Wu F (2018). Contrasting Mg isotopic compositions between Fe-Mn nodules and surrounding soils: Accumulation of light Mg isotopes by Mg-depleted clay minerals and Fe oxides. Geochimica et Cosmochimica Acta, 237, 205-222.
3.Liu YH, Xia YF, Wang ZR, Gao T*, Zhu J-M, Qi M, Sun J, Liu CS* (2022). Lithologic controls on the mobility of Cd in mining-impacted watersheds revealed by stable Cd isotopes. Water Research, 220, 118619.
4.Gao T, Wu QQ, Xia YF, Liu YH, Zhu J-M, Qi M, Song CS, Liu YZ, Sun GY, Liu CS* (2022). Flooding-drainage alternations impact mobilization and isotope fractionation of cadmium in soil-rice systems. Journal of Hazardous Materials, 436, 129048.
5.Qi M, Liu CS*, Gao T*, Wang ZR, Liu YH, Xia YF (2025), Song CS. Iron isotope fractionation during granite weathering under contrasting climate. Global and Planetary Change, 244, 104653.
6.Gao T, Qi M, Wang ZR, Yin RS, Liu CS*, Liu YH, Ke S, Zhao Z-Q (2023). Magnesium Isotope Variations in Granite Regoliths from Two Contrasting Climates. JGR: Earth Surface, 128, e2023JF007217.
7.Liu YH, Xia YF, Zhu J-M, Wang ZR, Liu CS*, Qi M, Lv YW, Gao T* (2024). Cd mobilization in mining-impacted soils with different bedrock lithology: Insights from stable Cd isotopes. Journal of Hazardous Materials, 480, 135798.
8.Qi M, Liu CS, Gao T*, Wang ZR, Song KD, Liu YH, Xia YF (2024). Coupled iron and heavy metal accumulation in karst soils in Southwestern China: Iron isotope perspective. Journal of Hazardous Materials, 480, 136105.
9.Qi M, Gao T*, Wang ZR, Liu YH, Liu CS* (2022). Iron solid-phase differentiation controls isotopic fractionation during lateritic weathering of basalt. Catena, 217, 106512.
10.Wu QQ, Liu CS, Wang ZR, Gao T*, Liu YH, Xia YF, Yin RS, Qi M (2022). Zinc regulation of iron uptake and translocation in rice (Oryza sativa L.): Implication from stable iron isotopes and transporter genes. Environmental Pollution, 297, 118818.
11.Gao T, Liu YH, Xia YF, Zhu J-M, Wang ZR, Qi M, Liu YZ, Ning ZP, Wu QQ, Xu WP, Liu CS* (2021). Cadmium isotope compositions of Fe-Mn nodules and surrounding soils: Implications for tracing Cd sources. Fundamental Research, 1, 269-276.
12.Liu YH#, Gao T#, Xia YF, Wang ZR, Liu CS*, Li SH, Wu QQ, Qi M, Lv YW (2020). Using Zn isotopes to trace Zn sources and migration pathways in paddy soils around mining area. Environmental Pollution, 267, 115616.
13.Xia YF#, Gao T#, Liu YH, Wang ZR, Liu CS*, Wu QQ, Qi M, Lv YW, Li FB (2020). Zinc isotope revealing zinc's sources and transport processes in karst region. Science of The Total Environment, 724, 138191.
14.Fu YC, Gao T*, Wu QQ, Qi M, Wang ZR, Liu CS* (2024). Mechanism of zinc stress on magnesium deficiency in rice plants (Oryza sativa L.): Insights from magnesium isotopes. Science of The Total Environment, 924, 171463.
15.Chen D, Liu CS, Gao T*, Yang BZ, Kwon SY, Yin RS* (2024). Granite weathering profiles accumulate vegetation-derived mercury. Chemical Geology, 658, 122056.
16.Song KD, Qi M, Gao T*, Liu CS. Kaolinite as a key transporter of Mg and Fe in subtropical weathering crust: Insights from Mg and Fe isotopes (2025). ACS Earth and Space Chemistry, 9, 681-688.
17.Gao T, Li RY, Liu CS, Ke S*, et al (2019). High-precision magnesium isotope analysis of geological and environmental reference materials by multiple-collector inductively coupled plasma mass spectrometry. Rapid Communications in Mass Spectrometry, 33, 767-777.
18.Liu CS#, Gao T#,Liu JY, Li FB*, Li YZ, Tong H, Liu YH, Song ZY, Reinfelder R, Huang WL (2019). Isotopic fingerprints indicate distinct strategies of Fe uptake by rice plant. Chemical Geology, 524, 323-328.
19.Gao T, Ke S*, Teng F-Z*, Chen SM, He YS, Li S-G (2016). Magnesium isotope fractionation during dolostone weathering. Chemical Geology, 445, 14-23.
其他合作发表论文
1.Jin YL, Gao T, Zhao B, Liu YZ, Liu CS, Qin MH (2025).Modeling spatial trends and exchange fluxes of contaminants in agricultural soil under pollution prevention measures.Journal of Environmental Management, 381, 125267.
2.Xia YF, Gao T, Liu YZ, Qi M, Zhu JM, Tong H, Lv YW, Liu CS (2025). Cd/Pb behavior during combustion in a coal-fired power plant and their spatiotemporal impacts on soils: New insights from Cd/Pb isotopes. Journal of Environmental Sciences, 150, 582-593.
3.Dong XH, Wang SJ, Wang WZ, Huang SC, Li QL, Liu CS, Gao T, Li SG, Wu ST (2024). Highly oxidized intraplate basalts and deep carbon storage. Science Advances, 10, eadm8138.
4.Xia YF, Liu YH, Liu CS*, Gao T, Yin RS, Qi M, Wu HC (2023). Lake sediment archive reveals a distinct response to anthropogenic Pb and Zn deposition with historical periods: Pb-Zn isotope evidence. Environmental Science & Technology, 57, 15184-15192.
5.Chang H, Zhu J-M*, Wang XL, Gao T (2023). High-precision measurement of Cd isotopes in ultra-trace Cd samples using double spike-standard addition MC-ICP-MS. Journal of Analytical Atomic Spectrometry, 38, 950-962.
6.Liu YZ, Liu CS, Song CS, Chen ZJ, Guan HY, Xing D, Gao T, Sun J., Ning ZP, Xiao TF (2023). Geochemical factors controlling the mobilization of geogenic cadmium in soils developed on carbonate bedrocks in Southwest China. Geoderma, 437, 116606.
7.Liu CS, Massey MS, Latta DE, Xia YF, Li FB*, Gao T, Hua J (2021). Fe(II)-induced transformation of iron minerals in soil ferromanganese nodules. Chemical Geology, 559, 119901.
8.Liu CS, Chen MJ, Li FB*, Tao L, Lin J, Gao T, Tong H, Liu YH, Long SQ, Wu F, Xia YF (2019). Stabilization of Cd2+/Cr3+ during aqueous Fe(II)-induced recrystallization of Al-substituted goethite. Soil Science Society of America Journal, 83, 483-491.
9.Hua J, Liu CS*, Li FB, Zhu ZK, Wei ZQ, Chen MJ, Gao T, Qiu GH (2019). Effects of rare earth elements’ physicochemical properties on their stabilization during the Fe(II)aq-induced phase transformation of ferrihydrite. ACS Earth Space Chemistry, 3, 895-904.
10.Fei YH, Hua J, Liu CS*, Li FB, Xiao TF, Chen MJ, Gao T, Wei ZQ, Hao LK (2018). Aqueous Fe(II)-induced phase transformation of ferrihydrite coupled adsorption/immobilization of rare earth elements. Minerals, 8, 367.
11.Hua J, Chen MJ, Liu CS*, Li FB, Long J, Gao T, Wu F, Lei J, Gu MH (2018). Cr release from Cr-substituted goethite during aqueous Fe(II)-induced recrystallization. Minerals, 8, 357.
12.夏亚飞, 刘宇晖, 高庭, 刘承帅* (2022). 基于金属稳定同位素的矿冶影响区土壤重金属污染源解析研究进展. 地球科学进展, 38, 331-348.
13.夏亚飞, 齐猛, 高庭, 刘宇晖, 刘承帅* (2022). 高强度自然和人为作用影响区土壤Zn的再分配机制:Zn稳定同位素证据. 矿物岩石地球化学通报, 41, 945-955+1032.
