杨伟芳 - 自然资源部海底科学重点实验室

2017.6-至今自然资源部第二海洋研究所，助理研究员，副研究员

2013.9-2017.6 浙江大学矿物学、岩石学、矿床学专业，理学博士学位
2006.9-2009.6 中国科学院广州地球化学研究所海洋地质学专业，理学硕士学位
2002.9-2006.6 中国石油大学（华东）资源勘查工程专业，工学学士学位

（1）洋脊轴部岩浆型热液区硫化物堆积体成矿过程研究：以西南印度洋断桥热液区为例，国家自然科学青年基金，2025.1-2027.12，主持

（2）深海硫化物资源矿床表层物理力学特性勘查与分析，国家重点研发项目子课题，2023.12-2027.11，主持

（3）海洋环境传感器应用需求分析与数据应用研究，国家重点研发项目子课题，2022.1-2025.12，主持

（4）硫化物成矿作用，大洋专项，2025.1-2025.12，主持

（4）硫化物资源勘查-大西洋区资源评价，大洋专项，2018.1-2020.12，主持

（5）超慢速扩张洋脊局部岩浆供应的深部过程及其成矿效应研究，国家重点研发课题，2018.1-2020.12，（代）主持

（6）西南印度洋中脊热液硫化物的230Th/238U年代学研究，基本科研业务费专项，2018.1-2019.12，主持

（7）多金属硫化物合同区硫化物成矿作用与成矿规律，大洋专项，2017.1-2020.12，课题副组长

参与项目：

（1）深海硫化物资源移动式高效钻测技术与示范，国家重点研发计划项目，2023.12-2027.11，项目骨干

（2）多金属硫化物合同区资源勘探与评价，大洋专项，2017.1-2020.12，项目骨干

（3）硫化物合同区资源评价与区域放弃，大洋专项，2017.1-2020.12，项目骨干

（4）硫化物合同区资源评价（大洋43、49、52、65、78、85航次），2017.1-2025.12，项目骨干

（5）蛟龙号载人潜水器在热液区的科学应用，国家重点研发课题，2018.1-2022.12，项目骨干

（6）西南印度洋龙旂矿化区烟囱体形成过程重构：来自微区元素和同位素的信息，2019.1-2022.12，国家自然科学青年基金，项目骨干

（1）Yang, W.F., Tao, C.H., Liao, S.L., Zhang, H.C., Zhu, C.W., Li, W., Zhang,G.Y., Wang, X.F., Wang, L.S., 2024. Evolution of a seafloor massive sulfide deposit on axial volcanic ridges: a case study of the Duanqiao hydrothermal field, Southwest Indian Ridge. Frontiers in marine science, 11:153802

（2）Yang, W.F., Tao, C.H., Liao, S.L., Liang, J., Li, W., Ding, T., Dias, A.A., Wang, X.F., Wang, L.S.,2023. Record of hydrothermal activity in the Yuhuang hydrothermal field and its implications for the Southwest Indian Ridge:evidence from sulfide chronology. Acta Oceanologica Sinica, 42（11）:60-69

（3）Yang, W.F., Liao, S.L., Dias, A.A., Liang, J., Li, W., Ding, T., Tao, C.H.,2023. Geochemistry, sulfur and lead isotopic composition of hydrothermal sulfide from the Duanqiao hydrothermal field on the Southwest Indian Ridge: implications for ore genesis. International Geology Review, 65（6）:883-899

（4）Yang, W.F., Tao, C.H., Li, H.M., Liang, J., Liao, S.L., Long, J.P., Ma, Z.B., Wang, L.S., 2017.

230Th/238U dating of hydrothermal sulfides from Duanqiao hydrothermal field, Southwest Indian Ridge. Marine Geophysical Research，38：71-83.

（5）Tao,C.H., Guo, Z.K., Liang, J., Ding, T., Yang, W.F., Liao, S.L., Chen, M., Zhou, F., Chen. J., Wang, N. N., Liu, X. H., Zhou, J.P., 2023. Sulfide metallogenic model for the ultraslow-spreading Southwest Indian Ridge. Science China Earth Science, 66（6）：1212-1230

（6）Liao, S.L., Tao, C.H.,Wen, H.J., Yang, W.F., Liu, J., Jamieson, J.W., Dias, A.A., Zhu, C.W., Liang, J., Li, W., Ding, T.,Li, X.H., Zhang, H.C., 2022. Hydrothermal remobilization of subseafloor sulfide mineralization along mid-ocean ridgescontributes to the global oceanic zinc isotopic mass balance Geochimica et Cosmochimica Acta,335:56-67

（7）Chen, K.A., Zhang, H.C., Cook, N.J., Tao, C.H., An, F., Liang, J., Yang, W.F.,2024. Gold enrichment mechanism in mid-ocean ridge hydrothermal systems: an example from the longqi hydrothermal field on the ultraslow-spreading Southwest Indian Ridge. Economic Geology, 119(6):20

（8）Liao, S.L., Tao, C.H., Dias, A.A., Liu, J., Su, X., Lv, S.H., Jamieson, J.W., Zhou, J.P., Deng, X.M., Liang, J., Yang, W.F., Li, W., Yang, X.H., 2024. Sediment geochemistry reveals abundant off-axis hydrothermal fields on the ultraslow-spreading Southwest Indian Ridge. Earth and Planetary Science Letters, 643:118916

（9）Zhang, H.C., Chen, K.A., Tao, C.H., Dias, A.A., Liang, J., Yang, W.F., Liao, S.L., An, F., Yin, B.H., Sun, C.Q., 2023. Occurrence and precipitation mechanism of silver in pyrite from chimney fragments in the Edmond hydrothermal field, Central Indian Ridge. Ore Geology Reviews, 158:105471

（10）Liang, J., Tao, C.H., Zheng, Y., Zhang, G.Y., Su, C., Yang, W.F., Liao, S.L., Wang, N. N.,2023. Geology context, vent morphology, and sulfide paragenesis of the Longqi-1 modern seafloor hydrothermal system on the ultraslow-spreading Southwest Indian ridge. Deep-Sea Research Part I, 194:103962

（11）Liao, S.L., Tao, C.H., Dias, A.A., Deng, X.M., Hu, S.Y., Liang, J., Yang, W.F., Yang, X.H., 2023. Evidence of a distal axis inactive high-temperature hydrothermal field on the ultraslow spreading Southwest Indian Ridge: Insights from mineralogy and geochemistry studies. Marine Geology, 465: 107158

（12）Chen, K.Y., Tao, C.H., Liao, S.L., Ge, C.D., Li, W., Liang, J., Yang, W.F., Yu, J.Y., Chen, M., Wang, N. N., 2022. Genesis of the distal axis East Longjing-2 hydrothermal field on the ultraslow-spreading Southwest Indian Ridge: Evidences from fluid inclusions. Marine Geology, 446: 106775

（13）Yu, J.Y., Tao, C.H., Liao, S. L., Dias, A.A., Liang, J., Yang, W.F., Zhu, C.W., 2021. Resource estimation of the sulfide-rich deposits of the Yuhuang-1 hydrothermal field on the ultraslow-spreading Southwest Indian Ridge. Ore Geology Reviews, 134:104169

（14）Zhang, Y.X., Liao, S.L., Tao, C.H., Wen, H.J., Fan, H. F., Wen, J., Yang, W.F., Li, W., 2021. Ga isotopic fractionation in sulfides from the Yuhuang and Duanqiao hydrothermal fields on the Southwest Indian Ridge. Geoscience Frontiers, 12:101137

（15）Huang, Y.J., Tao, C.H., Liang, J., Liao, S. L., Wang, Y., Chen, D., Yang, W.F., 2021. Geological characteristics of the Qiaoyue Seamount and associated ultramafic-hosted seafloor hydrothermal system (~52.1°E, Southwest Indian Ridge). Acta Oceanologica Sinica, 40(11): 138-146

（16）Liu, J., Hirano, N., Machida. S., Xia, Q.K., Tao,C.H., Liao, S.L., Liang, J., Yang, W.F., Zhang,G.Y., Ding, T., 2020. Melting of recycled ancient crust responsible for the Gutenberg discontinuity. Nature Communications, 11:172

（17）Zhu, C.W., Tao, C.H., Yin, R. S., Liao, S.L., Yang, W.F., Liu, J., Barriga, F.J.A.S., 2020. Seawater versus mantle sources of mercury in sulfide-rich seafloor hydrothermal systems, Southwest Indian Ridge. Geochimica et Cosmochimica Acta, 281:91-101

（18）Ding, T., Tao, C., Dias, A.A., Liang, J., Chen, J., Wu, B., Ma, D.S., Zhang, R,Q., Wang, J., Liao, S.L., Wang. Y., Yang, W.F., Liu, J., Li, W., Zhang, G.Y., Huang, H., 2020. Sulfur isotopic compositions of sulfides along the Southwest Indian Ridge: implications for mineralization in ultramafic rocks. Mineralium Deposita, 56: 991–1006

（19）Liang, J., Tao, C., Yang, W.F., Feng, W., Liao, S.L., Huang, W., 2018. 230Th/238U Dating of Sulfide Chimneys in the Longqi-1 Hydrothermal Field, Southwest Indian Ridge.

Acta Oceanologica Sinica(English Edition) ,92: 77-78.

（20）Liao, S.L., Liao, S.L., Li, H.M., Barriga, F.J.A.S., Liang, J., Yang, W.F., Yu,J.Y., Zhu, C.W., 2018.Bulk geochemistry, sulfur isotope characteristics of the Yuhuang-1 hydrothermal field on the ultraslow-spreading Southwest Indian Ridge. Ore Geology Reviews, 96:13-27

（21）Liao, S.L., Tao, C., Li, H.M., Zhang, G.Y., Liang, J., Yang, W.F., 2017. Application of portable X-ray fluorescence to analysis of surficial sediments in the exploration of hydrothermal vents on the Southwest Indian Ridge. Acta Oceanologica Sinica, 36(7):66-76.

（22）洋中脊多金属硫化物成矿预测与资源量估算方法，2019. 科学出版社，排名11

（23）洋中脊多金属硫化物勘查方法与技术，2018. 科学出版社，排名12

	姓名：杨伟芳
	职称：副研究员
	邮件：yangweifang@sio.org.cn
	通讯地址：杭州市西湖区保俶北路36号
	专业：矿物学、岩石学、矿床学
	研究方向：洋中脊热液成矿
个人简介： 2017.6-至今自然资源部第二海洋研究所，助理研究员，副研究员 2013.9-2017.6 浙江大学矿物学、岩石学、矿床学专业，理学博士学位 2006.9-2009.6 中国科学院广州地球化学研究所海洋地质学专业，理学硕士学位 2002.9-2006.6 中国石油大学（华东）资源勘查工程专业，工学学士学位承担项目：（1）洋脊轴部岩浆型热液区硫化物堆积体成矿过程研究：以西南印度洋断桥热液区为例，国家自然科学青年基金，2025.1-2027.12，主持（2）深海硫化物资源矿床表层物理力学特性勘查与分析，国家重点研发项目子课题，2023.12-2027.11，主持（3）海洋环境传感器应用需求分析与数据应用研究，国家重点研发项目子课题，2022.1-2025.12，主持（4）硫化物成矿作用，大洋专项，2025.1-2025.12，主持（4）硫化物资源勘查-大西洋区资源评价，大洋专项，2018.1-2020.12，主持（5）超慢速扩张洋脊局部岩浆供应的深部过程及其成矿效应研究，国家重点研发课题，2018.1-2020.12，（代）主持（6）西南印度洋中脊热液硫化物的230Th/238U年代学研究，基本科研业务费专项，2018.1-2019.12，主持（7）多金属硫化物合同区硫化物成矿作用与成矿规律，大洋专项，2017.1-2020.12，课题副组长参与项目：（1）深海硫化物资源移动式高效钻测技术与示范，国家重点研发计划项目，2023.12-2027.11，项目骨干（2）多金属硫化物合同区资源勘探与评价，大洋专项，2017.1-2020.12，项目骨干（3）硫化物合同区资源评价与区域放弃，大洋专项，2017.1-2020.12，项目骨干（4）硫化物合同区资源评价（大洋43、49、52、65、78、85航次），2017.1-2025.12，项目骨干（5）蛟龙号载人潜水器在热液区的科学应用，国家重点研发课题，2018.1-2022.12，项目骨干（6）西南印度洋龙旂矿化区烟囱体形成过程重构：来自微区元素和同位素的信息，2019.1-2022.12，国家自然科学青年基金，项目骨干科研成果：（1）Yang, W.F., Tao, C.H., Liao, S.L., Zhang, H.C., Zhu, C.W., Li, W., Zhang,G.Y., Wang, X.F., Wang, L.S., 2024. Evolution of a seafloor massive sulfide deposit on axial volcanic ridges: a case study of the Duanqiao hydrothermal field, Southwest Indian Ridge. Frontiers in marine science, 11:153802 （2）Yang, W.F., Tao, C.H., Liao, S.L., Liang, J., Li, W., Ding, T., Dias, A.A., Wang, X.F., Wang, L.S.,2023. Record of hydrothermal activity in the Yuhuang hydrothermal field and its implications for the Southwest Indian Ridge:evidence from sulfide chronology. Acta Oceanologica Sinica, 42（11）:60-69 （3）Yang, W.F., Liao, S.L., Dias, A.A., Liang, J., Li, W., Ding, T., Tao, C.H.,2023. Geochemistry, sulfur and lead isotopic composition of hydrothermal sulfide from the Duanqiao hydrothermal field on the Southwest Indian Ridge: implications for ore genesis. International Geology Review, 65（6）:883-899 （4）Yang, W.F., Tao, C.H., Li, H.M., Liang, J., Liao, S.L., Long, J.P., Ma, Z.B., Wang, L.S., 2017. 230Th/238U dating of hydrothermal sulfides from Duanqiao hydrothermal field, Southwest Indian Ridge. Marine Geophysical Research，38：71-83. （5）Tao,C.H., Guo, Z.K., Liang, J., Ding, T., Yang, W.F., Liao, S.L., Chen, M., Zhou, F., Chen. J., Wang, N. N., Liu, X. H., Zhou, J.P., 2023. Sulfide metallogenic model for the ultraslow-spreading Southwest Indian Ridge. Science China Earth Science, 66（6）：1212-1230 （6）Liao, S.L., Tao, C.H.,Wen, H.J., Yang, W.F., Liu, J., Jamieson, J.W., Dias, A.A., Zhu, C.W., Liang, J., Li, W., Ding, T.,Li, X.H., Zhang, H.C., 2022. Hydrothermal remobilization of subseafloor sulfide mineralization along mid-ocean ridgescontributes to the global oceanic zinc isotopic mass balance Geochimica et Cosmochimica Acta,335:56-67 （7）Chen, K.A., Zhang, H.C., Cook, N.J., Tao, C.H., An, F., Liang, J., Yang, W.F.,2024. Gold enrichment mechanism in mid-ocean ridge hydrothermal systems: an example from the longqi hydrothermal field on the ultraslow-spreading Southwest Indian Ridge. Economic Geology, 119(6):20 （8）Liao, S.L., Tao, C.H., Dias, A.A., Liu, J., Su, X., Lv, S.H., Jamieson, J.W., Zhou, J.P., Deng, X.M., Liang, J., Yang, W.F., Li, W., Yang, X.H., 2024. Sediment geochemistry reveals abundant off-axis hydrothermal fields on the ultraslow-spreading Southwest Indian Ridge. Earth and Planetary Science Letters, 643:118916 （9）Zhang, H.C., Chen, K.A., Tao, C.H., Dias, A.A., Liang, J., Yang, W.F., Liao, S.L., An, F., Yin, B.H., Sun, C.Q., 2023. Occurrence and precipitation mechanism of silver in pyrite from chimney fragments in the Edmond hydrothermal field, Central Indian Ridge. Ore Geology Reviews, 158:105471 （10）Liang, J., Tao, C.H., Zheng, Y., Zhang, G.Y., Su, C., Yang, W.F., Liao, S.L., Wang, N. N.,2023. Geology context, vent morphology, and sulfide paragenesis of the Longqi-1 modern seafloor hydrothermal system on the ultraslow-spreading Southwest Indian ridge. Deep-Sea Research Part I, 194:103962 （11）Liao, S.L., Tao, C.H., Dias, A.A., Deng, X.M., Hu, S.Y., Liang, J., Yang, W.F., Yang, X.H., 2023. Evidence of a distal axis inactive high-temperature hydrothermal field on the ultraslow spreading Southwest Indian Ridge: Insights from mineralogy and geochemistry studies. Marine Geology, 465: 107158 （12）Chen, K.Y., Tao, C.H., Liao, S.L., Ge, C.D., Li, W., Liang, J., Yang, W.F., Yu, J.Y., Chen, M., Wang, N. N., 2022. Genesis of the distal axis East Longjing-2 hydrothermal field on the ultraslow-spreading Southwest Indian Ridge: Evidences from fluid inclusions. Marine Geology, 446: 106775 （13）Yu, J.Y., Tao, C.H., Liao, S. L., Dias, A.A., Liang, J., Yang, W.F., Zhu, C.W., 2021. Resource estimation of the sulfide-rich deposits of the Yuhuang-1 hydrothermal field on the ultraslow-spreading Southwest Indian Ridge. Ore Geology Reviews, 134:104169 （14）Zhang, Y.X., Liao, S.L., Tao, C.H., Wen, H.J., Fan, H. F., Wen, J., Yang, W.F., Li, W., 2021. Ga isotopic fractionation in sulfides from the Yuhuang and Duanqiao hydrothermal fields on the Southwest Indian Ridge. Geoscience Frontiers, 12:101137 （15）Huang, Y.J., Tao, C.H., Liang, J., Liao, S. L., Wang, Y., Chen, D., Yang, W.F., 2021. Geological characteristics of the Qiaoyue Seamount and associated ultramafic-hosted seafloor hydrothermal system (~52.1°E, Southwest Indian Ridge). Acta Oceanologica Sinica, 40(11): 138-146 （16）Liu, J., Hirano, N., Machida. S., Xia, Q.K., Tao,C.H., Liao, S.L., Liang, J., Yang, W.F., Zhang,G.Y., Ding, T., 2020. Melting of recycled ancient crust responsible for the Gutenberg discontinuity. Nature Communications, 11:172 （17）Zhu, C.W., Tao, C.H., Yin, R. S., Liao, S.L., Yang, W.F., Liu, J., Barriga, F.J.A.S., 2020. Seawater versus mantle sources of mercury in sulfide-rich seafloor hydrothermal systems, Southwest Indian Ridge. Geochimica et Cosmochimica Acta, 281:91-101 （18）Ding, T., Tao, C., Dias, A.A., Liang, J., Chen, J., Wu, B., Ma, D.S., Zhang, R,Q., Wang, J., Liao, S.L., Wang. Y., Yang, W.F., Liu, J., Li, W., Zhang, G.Y., Huang, H., 2020. Sulfur isotopic compositions of sulfides along the Southwest Indian Ridge: implications for mineralization in ultramafic rocks. Mineralium Deposita, 56: 991–1006 （19）Liang, J., Tao, C., Yang, W.F., Feng, W., Liao, S.L., Huang, W., 2018. 230Th/238U Dating of Sulfide Chimneys in the Longqi-1 Hydrothermal Field, Southwest Indian Ridge. Acta Oceanologica Sinica(English Edition) ,92: 77-78. （20）Liao, S.L., Liao, S.L., Li, H.M., Barriga, F.J.A.S., Liang, J., Yang, W.F., Yu,J.Y., Zhu, C.W., 2018.Bulk geochemistry, sulfur isotope characteristics of the Yuhuang-1 hydrothermal field on the ultraslow-spreading Southwest Indian Ridge. Ore Geology Reviews, 96:13-27 （21）Liao, S.L., Tao, C., Li, H.M., Zhang, G.Y., Liang, J., Yang, W.F., 2017. Application of portable X-ray fluorescence to analysis of surficial sediments in the exploration of hydrothermal vents on the Southwest Indian Ridge. Acta Oceanologica Sinica, 36(7):66-76. （22）洋中脊多金属硫化物成矿预测与资源量估算方法，2019. 科学出版社，排名11 （23）洋中脊多金属硫化物勘查方法与技术，2018. 科学出版社，排名12

实验室概况

姓名：杨伟芳