Changle Wang, born in 1988, Suizhou, Hubei Province
Associate professor of the institute of Geology and Geophysics, Chinese Academy of Sciences
Education Experience
2010.9-2015.7, Institute of Geology and Geophysics, Chinese Academy of Sciences, M.S.& PhD
2006.9-2010.7, China University of Geosciences (Wuhan), B.S.

Professional experience
2018.1-present, Associate professor, Institute of Geology and Geophysics, Chinese Academy of Sciences
2018.10-2020.12, Post-doctor, Yale University, USA
2017.3-2017.5 Visiting scholar, University of Birmingham, UK
2016.5-2016.6 Visiting scholar, University of Birmingham, UK
2015.6-2017.12, Post-doctor, Institute of Geology and Geophysics, Chinese Academy of Sciences

Depositional environment of Precambrian iron formations and their implications for atmospheric and oceanic conditions and the nature of photosynthesis

1. Member of Youth Innovation Promotion Association, Chinese Academy of Sciences (2019)
2. Excellent Doctoral Dissertation of Chinese Academy of Sciences (2016)
3. The 6th Li Siguang awards for outstanding students (2015)
4. Honorable mention of the Chinese Academy of Sciences, China (2015)

1. 2022.1-2026.12, National Natural Science Foundation of China
2. 2020.1-2025.12, the Key Research Program of the Institute of Geology and Geophysics, CAS
3. 2019.1-2022.12, National Natural Science Foundation of China
4. 2017.1-2019.12, National Natural Science Foundation of China
5. 2016.5-2017.12, Postdoctoral Science Foundation of China
6. 2015.12-2018.1, CPSF-CAS Joint Foundation for Excellent Postdoctoral Fellows

　　　2023

1. Wang, C.L., Robbins, L.J., Planavsky, N.J., Beukes, N.J., Patry, L.A., Lalonde, S.V., Lechte, M.A., Asael, D., Reinhard, C.T., Zhang, L.C., Konhauser, K.O., 2023. Archean to early Paleoproterozoic iron formations document a transition in iron oxidation mechanisms. Geochimica et Cosmochimica Acta, 343: 286-303.
2. Dong, Z.G., Peng, Z.D., Robbins, L.J., Konhauser, K.O., Zhang, B.L., Zhang, L.C., Li, J., Li, W.J., Zhang, L., Wang, C.L.*, 2023. Episodic ventilation of euxinic bottom waters triggers the formation of black shale-hosted Mn carbonate deposits. Geochimica et Cosmochimica Acta, 341: 132-149.
   
   2022
3. Wang, C.L., Lechte, M.A., Reinhard, C.T., Asael, D., Cole, D.B., Halverson, G.P., Porter, S.M., Galili, N., Halevy, I., Rainbird, R.H., Lyons, T.W., Planavsky, N.J., 2022. Strong evidence for a weakly oxygenated ocean–atmosphere system during the Proterozoic. Proceedings of the National Academy of Sciences, 119(6): e2116101119.
4. Mand, K., Planavsky, N.J., Porter, S.M., Robbins, L.J., Wang, C.L., Kreitsmann, T., Paiste, K., Romashkin, A.E., Deines, Y.E., Lepland, A., Konhauser, K.O., 2022. Chromium evidence for protracted oxygenation during the Paleoproterozoic. Earth and Planetary Science Letters, 584, 117501.
5. Zhang, B.L., Lv, Z.C., Dong, Z.G., Zhang, X., Yu, X.F., Li, Y.S., Zhen, S.M., Wang, C.L.*, 2022. Source Characteristics of the Carboniferous Ortokarnash Manganese Deposit in the Western Kunlun Mountains. Minerals, 12, 786.
6. Peng, Z.D., Wang, C.L.*, Poulton, S.W., Tong, X.X., Konhauser, K.O., Zhang, L.C., 2022. Origin of the Neoarchean VMS-BIF Metallogenic Association in the Qingyuan Greenstone Belt, North China Craton: Constraints from Geology, Geochemistry, and Iron and Multiple Sulfur (δ33S, δ34S, and δ36S) Isotopes. Economic Geology, 117(6), 1275-1298.
7. Dong, Z.G., Peng, Z.D., Wang, C.L.*, Zhang, B.L., Zhang, L.C., Li, J., Zhang, X., Li, W.J., Zhang, L., 2022. Insight into the genesis of the Zhaosu Carboniferous Mn carbonate deposit (NW China): constraints from petrography, geochemistry, and C–Mo isotopes. Mineralium Deposita, 57, 1269-1289.
   
   2021
8. Wang, C.L., Christopher Reinhard, Kyle Rybacki, Dalton Hardisty, Frantz Ossa Ossa, Wang, X.L., Axel Hofmann, Dan Asael, Leslie Robbins, Zhang, L.C., Noah Planavsky, 2021. Chromium isotope systematics and the diagenesis of marine carbonates. Earth and Planetary Science Letters, 562: 116824.
9. Tong, X.X., Mand, K., Li, Y., Zhang, L.C., Peng, Z.D., Wu, Q., Li, P.B., Zhai, M.G., Leslie Robbins, Wang, C.L.*, Konhauser, K. O. (2021). Iron and Carbon Isotope Constraints on the Formation Pathway of Iron-Rich Carbonates within the Dagushan Iron Formation, North China Craton. Minerals, 11(1), 94.
10. Tong, X.X., Wang, C.L.*, Peng, Z.D., Li, Y.H., Hao, W.D., M?nd, K., Robbins, L.J., Zhang, L.C., Ke, Q., Zhai, M.G., and Konhauser, K.O., 2021. Depositional and environmental constraints on the late Neoarchean Dagushan deposit (Anshan-Benxi area, North China Craton): An Algoma-type banded iron formation. Economic Geology, 116(7): 1575-1597.
11. Peng, Z.D., Zheng, M.T., Wang, C.L., Zhang, L.C., Fan, L.G., Tong, X.X., 2021. Constraints on the age and geodynamic setting of the iron formations and anhydrite Fe-(Ba) deposits in the Bulunkuole Group of the Taxkorgan area, NW China. Ore Geology Reviews, 104121.
12. Soh, A.P.D., Ganno, S., Zhang, L.C., Tamehe, L.S., Wang, C.L., Peng, Z.D., Tong, X.X., Nzenti, J.P., 2021. Origin, tectonic environment and age of the Bibole banded iron formations, northwestern Congo Craton, Cameroon: geochemical and geochronological constraints. Geological Magazine, 1-19.
13. Zhang, Y.Y., Planavsky, N.J., Zhao, M.Y., Isson, T., Asael, D., Wang, C.L., Wang, F., 2021. The isotopic composition of sedimentary organic zinc and implications for the global Zn isotope mass balance. Geochimica et Cosmochimica Acta, 314: 16-26.
    
    2020
14. Zhang, B.L., Wang, C.L., Robbins, L.J., Zhang, L.C., Konhauser, K.O., Dong, Z.G., Li, W.J., Peng, Z.D., Zheng, M.T., 2020. Petrography and Geochemistry of the Carboniferous Ortokarnash Manganese Deposit in the Western Kunlun Mountains, Xinjiang Province, China: Implications for the Depositional Environment and the Origin of Mineralization. Economic Geology, 115(7), 1559-1588.
    
    2019
15. Lan, C.Y., Yang, A.Y., Wang, C.L., Zhao, T.P., 2019. Geochemistry, U-Pb zircon geochronology and Sm-Nd isotopes of the Xincai banded iron formation in the southern margin of the North China Craton: Implications on Neoarchean seawater compositions and solute sources. Precambrian Research, 326: 240-257.
16. Peng, Z.D., Wang, C.L.*, Zhang, L.C., Zhu, M.T., Tong, X.X., 2019. Geochemistry of metamorphosed volcanic rocks in the Neoarchean Qingyuan greenstone belt, North China Craton: Implications for geodynamic evolution and VMS mineralization. Precambrian Research, 326: 196-221.
17. Tong, X.X., Wang, C.L.*, Peng, Z.D., Huang, H., Zhang, L.C., Zhai, M.G., 2019. Geochemistry of meta-sedimentary rocks associated with the Neoarchean Dagushan BIF in the Anshan-Benxi area, North China Craton: Implications for their provenance and tectonic setting. Precambrian Research, 325: 172-191.
    
    2018
18. Zheng, M.T., Wang, C.L.*, Zhang, L.C., Shi, Z.B., Zhu, M.T., Li, Z.Q., He, L.D., 2018. Geological and geochemical constraints on the origin of the Early Cambrian Kalaizi Fe-Ba deposit in Western Kunlun, NW China. Ore Geology Reviews, 100: 347-359.
19. Zhu, M.T., Peng, Z.D., Zhang, L.C., Wang, C.L., 2018. Reply to a comment on “In situ zircon U-Pb dating and O isotopes of the Neoarchean Hongtoushan VMS Cu-Zn deposit in the North China Craton: Implication for the ore genesis” by Ming-Tian Zhu et al. [Ore Geol. Rev. 67 (2015) 354–367]. Ore Geology Reviews, 95: 1181-1184.
20. Peng, Z.D., Tong, X.X., Wang, C.L.*, 2018. Meso- and Neoarchean Banded Iron Formations and Genesis of High-Grade Magnetite Ores in the Anshan-Benxi Area, North China Craton—A Discussion. Economic Geology, 113(4): 989-993.
21. Peng, Z.D., Wang, C.L.*, Tong, X.X., Zhang, L.C., Zhang, B.L., 2018. Element geochemistry and neodymium isotope systematics of the Neoarchean banded iron formations in the Qingyuan greenstone belt, North China Craton. Ore Geology Reviews, 102: 562-584.
       
    2017
    
22. Wang, C.L., Peng, Z.D., Tong, X.X., Huang, H., Zheng, M.T., Zhang, L.C., Zhai, M.G., 2017. Late Neoarchean supracrustal rocks from the Anshan-Benxi terrane, North China Craton: New geodynamic implications from the geochemical record. American Journal of Science, 317: 1095-1148.
23. Wang, C.L., Wu, H.Y., Li, W.J., Peng, Z.D., Zhang, L.C., Zhai, M.G., 2017. Changes of Ge/Si, REE+Y and Sm-Nd isotopes in alternating Fe- and Si-rich mesobands reveal source heterogeneity of the ~2.54 Ga Sijiaying banded iron formation in Eastern Hebei, China. Ore Geology Reviews, 80: 363-376.
24. Huang, H., Zhang, L.C., Fabre, S., Wang, C.L., Zhai, M.G., 2017. Depositional environment and origin of the Lilaozhuang Neoarchean BIF-hosted iron–magnesite deposit on the southern margin of the North China Craton. International Journal of Earth Sciences, 106: 1753-1772.
25. Lan, C.Y., Zhou, Y.Y., Wang, C.L., Zhao, T.P., 2017. Depositional age and protoliths of the Paleoproterozoic upper Taihua Group in the Wuyang area in the southern margin of the North China Craton: New insights into stratigraphic subdivision and tectonic setting. Precambrian Research, 297: 77-100.
26. Zhu, M.T., Zhang, L.C., Dai, Y.P., Wang, C.L., Peng, Z.D., 2017. Hydrothermal modification of zircon geochemistry and Lu–Hf isotopes from the Hongtoushan Cu–Zn deposit, China. Ore Geology Reviews, 86: 707-718.
27. Zheng, M.T., Wang, C.L.*, Zhang, L.C., Shi, Z.B., Zhu, M.T., Li, Z.Q., He, L.D., 2017. Geological and geochemical constraints on the origin of the Early Cambrian Kalaizi Fe-Ba deposit in Western Kunlun, NW China. Ore Geology Reviews, accepted.
    
    2016
    
28. Wang, C.L., Huang, H., Tong, X.X., Zheng, M.T., Peng, Z.D., Nan, J.B., Zhang, L.C., Zhai, M.G., 2016. Changing provenance of late Neoarchean metasedimentary rocks in the Anshan-Benxi area, North China Craton: Implications for the tectonic setting of the world-class Dataigou banded iron formation. Gondwana Research, 40: 107-123.
29. Wang, C.L., Konhauser K.O., Zhang L.C., Zhai M.G., Li W.J., 2016. Decoupled sources of the 2.3-2.2 Ga Yuanjiacun banded iron formation: Implications for the Nd cycle in Earth’s early oceans. Precambrian Research, 280: 1-13.
30. Wang, C.L., Zhang, L.C., 2016. A Genetic Link between Paleoproterozoic Yuanjiacun BIF and the Great Oxidation Event in North China Craton. In MG Zhai, Y Zhao and TP Zhao (ed.) Main Tectonic Events and Metallogeny of the North China Craton. Springer Singapore, 329-356.
31. Zhang, L.C., Wang, C.L., Zhu, M.T., Huang, H., Peng, Z.D., 2016. Neoarchean Banded Iron Formations in the North China Craton: Geology, Geochemistry, and Its Implications. In MG Zhai, Y Zhao and TP Zhao (ed.) Main Tectonic Events and Metallogeny of the North China Craton. Springer Singapore, 85-103.
32. Li, W.J., Wang, C.L., Gao, B.Y., Wang, Y.T., Jin, X.D., Zhang, L.C., Sakyi, P.A., 2016. Determination of multi-element concentrations at ultra-low levels in alternating magnetite and pyrite by HR-ICP-MS using matrix removal and preconcentration. Microchemical Journal, 127: 237-246.
    
    2015
    
33. Wang, C.L., Zhang, L.C., Dai, Y.P., Lan, C.Y., 2015. Geochronological and geochemical constraints on the origin of clastic meta-sedimentary rocks associated with the Yuanjiacun BIF from the Lüliang Complex, North China. Lithos, 212-215: 231-246.
34. Wang, C.L., Konhauser, K.O., Zhang, L.C., 2015. Depositional Environment of the Paleoproterozoic Yuanjiacun Banded Iron Formation in Shanxi Province, China. Economic Geology, 110: 1515-1539.
35. Zhu, M.T., Dai, Y.P., Zhang, L.C., Wang, C.L., Liu, L., 2015. Geochronology and geochemistry of the Nanfen iron deposit in the Anshan-Benxi area, North China Craton: Implications for ~2.55 Ga crustal growth and the genesis of high-grade iron ores. Precambrian Research, 260: 23-38.
36. Zhu, M.T., Zhang, L.C., Dai, Y.P., Wang, C.L., 2015. In situ zircon U–Pb dating and O isotopes of the Neoarchean Hongtoushan VMS Cu–Zn deposit in the North China Craton: Implication for the ore genesis. Ore Geology Review, 67: 354-367.
37. Wu, H.Y., Niu, X.L., Zhang, L.C., Pirajno, F., Luo, H.B., Qin, F, Cui, M.L., Wang, C.L., Qi, M., 2015. Geology and geochemistry of the Macheng Algoma-type banded iron-formation, North China Craton: Constraints on mineralization events and genesis of high-grade iron ores. Journal of Asian Earth Sciences，113: 1179-1196.
    
    2014
    
38. Wang, C.L., Zhang, L.C., Lan, C.Y., Dai, Y.P., 2014. Rare Earth Element and yttrium compositions of the Paleoproterozoic Yuanjiacun BIF in the Lüliang area and their implications for the Great Oxidation Event (GOE). SCIENCE CHINA Earth sciences, 57: 2469-2485.
39. Wang, C.L., Zhang, L.C., Dai, Y.P., Li, W.J., 2014. Source characteristics of the ～2.5 Ga Wangjiazhuang Banded Iron Formation from the Wutai greenstone belt in the North China Craton: Evidence from neodymium isotopes. Journal of Asian Earth Sciences, 93: 288-300.
40. Wang, C.L., Zhang, L.C., Lan, C.Y., Dai, Y.P., 2014. Petrology and geochemistry of the Wangjiazhuang banded iron formation and associated supracrustal rocks from the Wutai greenstone belt in the North China Craton: Implications for their origin and tectonic setting. Precambrian Research, 255: 603-626.
41. Dai, Y.P., Zhang, L.C., Zhu, M.T., Wang, C.L., Liu, L., Xiang, P., 2014. The composition and genesis of Mesoarchean Dagushan banded iron formation (BIF) in the Anshan area of the North China Craton. Ore Geology Review, 63: 353-373.
42. Li, H.Z., Zhai, M.G., Zhang, L.C., Yang, Z.J., Kapsiotis, A., Zhou, Y.Z., He, J.G., Wang, C.L., Liang, J., 2014. Mineralogical and microfabric characteristics of magnetite in the Wuyang Precambrian BIFs, southern North China Craton: Implications for genesis and depositional processes of the associated BIFs. Journal of Asian Earth Sciences, 94: 267-281.
43. Li, W.J., Jin, X.D., Gao, B.Y., Wang, C.L., Zhang, L.C., 2014. Analysis of ultra-low level Rare Earth Elements in magnetite samples from banded iron formations using HR-ICP-MS after chemical separation. Analytical Methods, 6: 6125-6132.