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郝露露，男，1990年10月出生于安徽六安，漢族，研究員。

2008.09-2012.06中國(guó)地質(zhì)大學(xué)(武漢)資源學(xué)院資源勘查工程（工科基地班），學(xué)士;

2012.09-2017.07中國(guó)科學(xué)院廣州地球化學(xué)研究所礦物學(xué)、巖石學(xué)、礦床學(xué)專業(yè)，博士;

2017.07-2019.07中國(guó)科學(xué)技術(shù)大學(xué)，博士后;

2019.07-至今在中國(guó)科學(xué)院廣州地球化學(xué)研究工作，2020.01起為副研究員。

已發(fā)表（含已接受）論文48篇(5篇中文，43篇SCI)，其中以第一/通訊作者身份在Geology, EPSL(2篇), Geophysical Research Letters, ESR, GSA Bulletin (2篇), Chemical Geology, G-Cubed (2篇), Lithos (5篇), JAES, FES刊物上發(fā)表論文18篇，其中2篇論文曾入選高被引論文。擔(dān)任《地球科學(xué)》《Journal of Earth Science》和《地球化學(xué)》青年編委。

巖石地球化學(xué)專業(yè)，研究區(qū)域是青藏高原及其鄰區(qū)，重點(diǎn)關(guān)注匯聚板塊邊緣（大洋俯沖帶和大陸俯沖帶）的物質(zhì)循環(huán)及其地質(zhì)響應(yīng)，研究手段包括礦物學(xué)、巖石地球化學(xué)和B-Mo-Mg-Ba穩(wěn)定同位素地球化學(xué)等。

2024年獲國(guó)家自然科學(xué)基金委優(yōu)秀青年項(xiàng)目資助；

2022年入選中國(guó)科學(xué)院青年創(chuàng)新促進(jìn)會(huì)；

2019年入選中國(guó)科學(xué)院廣州地球化學(xué)研究所“涂光熾優(yōu)秀青年學(xué)者-A類”;

同位素地球化學(xué)國(guó)家重點(diǎn)實(shí)驗(yàn)室2019年度優(yōu)秀成果（第一完成人）。

2025

1. Hao, L.-L., Hu, W-L., Wang, Q.*, Kerr, A.C., Dan, W., Zhang, X-Z., Yang, Z-Y., Sun, P., 2025. Bangong-Nujiang Neo-Tethyan Ocean (Central Tibet): Geodynamics, Crustal Evolution, Metallogeny, and Linkages to the “Yanshan Movement”. Earth-Science Reviews, 265, 105119.

2. Zhang, M-Y., Hao, L.-L.*, Qi, Y.*, Wang, Q., Kerr, A.C., Ma, L., Huang, C-C., Wei, G-J., Li, J., Ma, J-L., Li, Q-W., Wang, Z-L., Huang, T-Y., Yang, Y-C., 2025. Mantle metasomatism by subducted Indian continental crust: evidence from post-collisional basaltic ultrapotassic rocks in southern Tibetan plateau. Lithos, 498-499, 107966. (共同通訊作者)

3. 楊其濟(jì), 郝露露*, 王強(qiáng), 劉懋銳, 孫鵬. 2025. 早白堊世晚期羌塘地塊西南緣mélange部分熔融導(dǎo)致的安山質(zhì)地殼生長(zhǎng): 來(lái)自羌多雄巴日侵入巖的證據(jù). 地球化學(xué). 已接受. (通訊作者)

2024

4. Hao, L.-L.*, Wang, Q., Kerr, A.C., Huang, F., Xiao, M., Ma, X-L., Zhang, W-F., Wang, W-Y., Liu, M-R., 2024. Andesitic arc magmas derived from two contrasting mélange origins: Evidence from central Tibetan dioritic porphyries. Chemical Geology, 650, 121920. (第一作者+通訊作者)

2023

5. Zhang, M-Y., Huang, C-C., Hao, L.-L.*, Qi, Y.*, Wang, Q., Kerr, A.C., Wei, G-J., Li, J., Ma, J-L., Ma, L., Fan. J-.J., 2023. Light Mo isotopes of post-collisional ultrapotassic rocks in southern Tibet derived from subducted Indian continental crust. Geochemistry Geophysics Geosystems, 24, 10, e2023GC011053. (共同通訊作者)

6. Hao, L.-L.*, Kerr, A.C.,Wang, Q.*, Ma, L., Qi, Y., Xiao, M., Ou, Q., 2023. Recycling of subducted Indian continental crust constrained by late Cretaceous mafic dykes in Central Lhasa block of the Tibetan plateau. Lithos, 454-455, 107276. (第一作者+共同通訊)

2022

7. Zhang, M-Y., Hao, L.-L.*, Wang, Q., Qi, Y.*, Ma, L., 2022. B-Sr-Nd isotopes of Miocene trachyandesites in Lhasa block of southern Tibet: insights into petrogenesis and crustal reworking. Frontiers in Earth Science, 10: 953364. (共同通訊作者) ?

8. Hao, L.-L.*, Wang, Q., Ma, L., Qi, Y.*, Yang, Y-N., 2022. Differentiation of continent crust by cumulate remelting during continental slab tearing: Evidence from Miocene high-silica potassic rocks in southern Tibet. Lithos, 426-427, 106780. (第一作者+共同通訊) ?

9. Hao, L.-L., Wang, Q.*, Kerr, A.C., Wei, G-J., Huang, F., Zhang, M-Y., Qi, Y., Ma, L., Chen, X-F., Yang, Y-N., 2022. Contribution of continental subduction to very light B isotope signatures in post-collisional magmas: evidence from southern Tibetan ultrapotassic rocks. Earth and Planetary Science Letters, 584, 117508. ?

10. Hao, L-L.*, Nan, X-Y.*, Kerr, A.C., Li, S-Q., Wu, Y-B., Wang, H., Huang, F., 2022. Mg-Ba-Sr-Nd isotopic evidence for a mélange origin of early Paleozoic arc magmatism. Earth and Planetary Science Letters, 577, 117263. (第一作者+共同通訊) ?

2021

11. Sun, P., Wang, Q.*, Hao, L-L.*, Dan, W., Ou, Q., Jiang, Z-Q., Tang, G-J., 2021. A mélange contribution to arc magmas recorded by Nd-Hf isotopic decoupling: An example from thesouthern Qiangtang Block, central Tibet. Journal of Asian Earth Science, 221, 104931. (共同通訊作者) ?

12. Hao, L.-L., Wang, Q.*, Kerr, A.C., Yang, J-H., Ma, L., Qi, Y., Wang, J., Ou, Q., 2021. Post-collisional crustal thickening and plateau uplift of southern Tibet: insights from Cenozoic magmatism in the Wuyu area of the eastern Lhasa block. Geological Society of America Bulletin, 133(7-8): 1634-1648. ?

2019

13. Hao, L.-L., Wang, Q.*, Wyman, D.A., Ma, L., Wang, J., Xia, X.-P., Ou, Q., 2019. First identification of postcollisional A-type magmatism in the Himalayan-Tibetan orogen. Geology, 47(2), 187-190. ?

14. Hao, L.-L., Wang, Q.*, Zhang, C.-F., Ou, Q., Yang, J.-H., Dan, W., Jiang, Z.-Q., 2019. Oceanic plateau subduction during closure of the Bangong-Nujiang Tethyan Ocean: Insights from central Tibetan volcanic rocks. Geological Society of America Bulletin, 131 (5-6): 864-880. ?

15. Hao, L.-L., Wang, Q.*, Wyman, D.A., Yang, J.-H., Huang, F., Ma, L., 2019. Crust-mantle mixing and crustal reworking of southern Tibet during Indian continental subduction: evidence from Miocene high-silica potassic rocks in central Lhasa block. Lithos, 342-343, 407-419.

2018

16. Hao, L.-L., Wang, Q.*, Wyman, D.A., Qi, Y., Ma, L., Huang, F., Zhang, L., Xia, X.-P., Ou, Q., 2018. First identification of mafic igneous enclaves in Miocene lavas of southern Tibet with implications for Indian continental subduction. Geophysical Research Letters, 45(16), 8205-8213. ?

2016

17. Hao, L.-L., Wang, Q.*, Wyman, D.A., Ou, Q., Dan, W., Jiang, Z.-Q., Wu, F.-Y., Yang, J.-H., Long, X.-P., Li, J., 2016a. Underplating of basaltic magmas and crustal growth in a continental arc: Evidence from late Mesozoic intermediate-felsic intrusive rocks in southern Qiangtang, central Tibet. Lithos, 245, 223-242.

其他文章（按時(shí)間倒序）

19. Chen, Z., He, H.Y., Zuo, K.Z., Liu, X.X., Wu, W.W., Gao, Z-H., Liu, Z.F., Zhang, M-L., Hao, L-L., 2025. Generation of the 2022 earthquake swarm in intersection of four geological units in the seismic experimental Site, southwest China. Journal of Asian Earth Sciences, 281, 106477.

20. Liu, M-R., Ou, Q., Wang, Q., Qi, Y., Kerr, A.C., Wyman, D., Dan, W., Hao, L-L., Jiang, Z-Q., 2024. Lithospheric evolution and uplift of the Tibetan Plateau during continental convergence: evidence from Early Oligocene pseudoleucite phonolites from southern Qiangtang, central Tibet. Journal of Petrology, 65, egae113.

21. Hu, W.L., Wang, Q., Yang, J-H., Hao, L-L., Wei, G-J., Qi, Y., Wang, J., Yang, Z-Y., Sun, P., 2024. Reworking and maturation of continental crust in collision zones: Insights from Early Cretaceous compositionally diverse magmatic rocks in central Tibet. Lithos, 472-473, 107562.

22. Qi, Y., Wang, Q., Wei, G-J., Zhang, X-Z., Dan, W., Yang, Z-Y., Hao, L.L., Hu, W-L., 2024, Oligocene high-MgO alkali basalts in central Tibet: implications for magma-mush mixing and mantle processes. Journal of Petrology, 65, 1-19.

23. Xiao, M., Jiang, Y.D., Zhao, G.C., Yuan, C., Cai, Y., Qiu, H.N., Hao, L.L., Zhang, W.F., Kong, L.Z., 2024. Syn-tectonic fluids decoding effects of tectono-metamorphic cycles on regional metallogenic evolution of the Chinese Altai, central Asia. Geological Society of America Bulletin, 136 (3-4): 1469-1487.

24. Xue, W.W., Hu, X.M., Ma, A.L., Garzanti, E., Liang, W.D., Hao, L.L., Wang, Q., 2023. Oligocene orogen-parallel extension in southern Tibet during Indian continental subduction. Geophysical Research Letters, 50, e2023GL105193.

25. Hu, W-L., Wang, Q., Yang, J-H., Hao, L-L., Wang, J., Qi, Y., Yang, Z-Y., Sun, P., 2023. Growth of the continental crust induced by slab rollback in subduction zones: Evidence from Middle Jurassic arc andesites in central Tibet. Gondwana Research, 117, 8-22.

26. Liu, J-H., Wang, Q., Wang, B-Z., Li, W-F., Xu, C-B., Li, S-P., Wang, Z-L., Hao, L-L., Song, T-Z., Wang, C-T., Zeng, Y., Wang, J-S., 2023. Petrogenesis of the Chakabeishan pegmatites, North Qaidam Terrane: Implications for Indosinian lithium mineralization in the northern Tibetan Plateau. Lithos, 440-441, 107025.

27. 李薇, 肖軍, 郝露露, 胡冬梅, 2022. 2022年度地球化學(xué)學(xué)科基金項(xiàng)目評(píng)審與資助成果分析. 地球科學(xué)進(jìn)展, 37, 12, 1-11.

28. Ou, Q., Wang, Q., Wyman, D.A., Zhang, X-Z., Hao, L-L., Zeng, J-P., Yang, J-H., Zhang, H-X., Hou, M-C., Qi, Y., Liu, Z., 2022. Formation of late Miocene silicic volcanic rocks in the central Tibetan Plateau by crustal anatexis of granulites. Lithos, 432-433, 106882.

29. Zhou, J-S., Haung, C-C., Wang, Q., Ren, Z-Y., Ma, L., Hao, L-L., Zhang, L., 2022. Olivines and their melt inclusions in potassic volcanic rocks record mantle heterogeneity beneath southern Tibet. Journal of Petrology, 63, 1-21.

30. Xu, C-B., Zeng, J-P., Wang, Q., Zhang, X-Z., Ou, Q., Wang, J., Hao, L-L., Chen, Y-W., 2022. Eocene adakitic quartz monzonites and granite porphyries from the northern Qiangtang Block, central Tibet: Partial melting of sediment-rich mélange? Front. Earth Sci., 10: 953448.

31. Liu, X., Liang, H., Wang, Q., Ma, L., Yang, J-H., Guo, H-F., Xiong, X-L., Ou, Q., Zeng, J-P., Gou, G-N., Hao, L-L., 2022. Early Cretaceous Sn-bearing granite porphyries, A-type granites, and rhyolites in the Mikengshan-Qingxixiang-Yanbei area, South China: Petrogenesis and implications for ore mineralization. Journal of Asian Earth Sciences, 235, 105274.

32. Hu, W-L., Wang, Q., Tang, G-J., Zhang, X-Z., Qi, Y., Wang, J., Ma, Y-M., Yang, Z-Y., Sun, P., Hao, L-L., 2022. Late Early Cretaceous magmatic constraints on the timing of closure of the Bangong–Nujiang Tethyan Ocean, Central Tibet, Lithos, 416-417, 106648.

33. Dan, W., Wang, Q., Brendan Murphy, J., Zhang, X-Z., Xu, Y-G., White, William., Jiang, Z-Q., Ou, Q., Hao, L-L., Qi, Y., 2021. Short duration of Early Permian Qiangtang-Panjal large igneous province: Implications for origin of the Neo-Tethys Ocean. Earth and Planetary Science Letters, 568, 117054.

34. Zhou, J-S., Wang, Q., Xing, C-M., Ma, L., Hao, L-L., Li, Q-W., Wang, Z-L., Huang, T-Y., 2021. Crystal growth of clinopyroxene in mafic alkaline magmas. Earth and Planetary Science Letters, 568, 117005.

35. Qi, Y., Wang, Q., Wei, G-J., Zhang, X-Z., Dan, W., Hao, L-L., Yang, Y-N., 2021. Late Eocene post-collisional magmatic rocks from the southern Qiangtangterrane record the melting of pre-collisional enriched lithospheric mantle. Geological Society of America Bulletin, 133(11-12): 2612-2624.

36. Yang, Z-Y., Wang, Q., Hao, L-L., Wyman, D., Ma, L., Wang, J., Qi, Y., Sun, P., Hu, W-L., 2021. Subduction erosion and crustal material recycling indicated by adakites in central Tibet. Geology, 49(6): 708-712.

37. Dan, W., Wang, Q., White, W., Li, X-H., Zhang, X-Z., Tang, G-J., Ou, Q., Hao, L-L., Qi, Y., 2021. Passive-margin magmatism caused by enhanced slab-pull forces in central Tibet. Geology. 49(2): 130-134.

38. Wang, Q., Hao, L-L., Zhang, X-Z., Zhou, J-S., Wang, J., Li, Q-W., Ma, L., Zhang, L., Qi, Y,. Tang, G-J., Dan, W., Fan, J-J. 2020. Adakitic rocks at convergent plate boundaries: Compositions and petrogenesis. Science China Earth Sciences, 63, 1992-2016. [王強(qiáng), 郝露露, 張修政, 周金勝, 王軍, 李奇維, 馬林, 張龍, 齊玥, 唐功建, 但衛(wèi), 范晶晶. 2020. 匯聚板塊邊緣的埃達(dá)克質(zhì)巖: 成分和成因. 中國(guó)科學(xué): 地球科學(xué), 50(12): 1845-1873]

39. Wang, Q., Tang, G-J., Hao, L-L., Wyman, D., Ma, L., Dan, W., Zhang, X-Z., Liu, J-H., Huang, T-Y., Xu, C-B., 2020. Ridge subduction, magmatism and metallogenesis. Science China Earth Sciences, 63, 10: 1499-1518. [王強(qiáng), 唐功建, 郝露露, DerekWyman, 馬林, 但衛(wèi), 張修政, 劉金恒, 黃彤宇, 許傳兵.2020.洋中脊或海嶺俯沖與巖漿作用及金屬成礦. 中國(guó)科學(xué):地球科學(xué), 50(10), 1401-1423.]

40. Sun, P., Dan, W., Wang, Q., Tang, G-J., Ou, Q., Hao, L-L., Jiang, Z-Q., 2020. Zircon U-Pb geochronology and Sr-Nd-Hf-O isotope geochemistry of Late Jurassic granodiorites in the southern Qiangtang block, Tibet: Remelting of ancient mafic lower crust in an arc setting? Journal of Asian Earth Sciences, 192: 104235.

41. Ou, Q., Wang, Q., Zhang, C-F., Zhang, H.X., Hao, L-L., Yang, J-H., Lai, J-Q., Dan, W., Jiang, Z-Q., Xia, X-P., 2020. Petrogenesis of late Early Oligocene trachytes in central Qiangtang Block, Tibetan Plateau: crustal melting during lithospheric delamination? International Geology Review, 202(2), 225-242.

42. Ou, Q., Wang, Q., Wyman, D.A., Zhang, C., Hao, L-L., Dan, W., Jiang, Z-Q., Wu, F-Y., Yang, J-H., Zhang, H-X., Xia, X-P., Ma, L., Long, X-P., Li, J. Postcollisional delamination and partial melting of enriched lithospheric mantle: Evidence from Oligocene (ca. 30 Ma) potassium-rich lavas in the Gemuchaka area of the central Qiangtang Block, Tibet. Geological Society of America Bulletin, 2019, 131(7-8): 1385-1408.

43. Dan, W., Wang, Q., White, W.M., Zhang, X., Tang, G., Jiang, Z., Hao, L-L., Ou, Q. (2018a). Rapid formation of eclogites during a nearly closed ocean: Revisiting the Pianshishan eclogite in Qiangtang, central Tibetan Plateau. Chemical Geology, 112-122.

44. Dan, W., Wang, Q., Zhang, X., Zhang, C., Tang, G., Wang, J., Ou, Q., Hao, L-L., Qi, Y. (2018b). Magmatic record of Late Devonian arc-continent collision in the northern Qiangtang, Tibet: Implications for the early evolution of East Paleo-Tethys Ocean. Lithos, 104-117.

45. 梁鶴, 郭海峰, 王強(qiáng), 熊小林, 歐權(quán), 曾紀(jì)鵬, 茍國(guó)寧, 郝露露. 2018. 贛南地區(qū)密坑山早白堊世A型花崗巖的鋯石U-Pb年代學(xué)、地球化學(xué)及巖石成因. 大地構(gòu)造與成礦學(xué), 42(4), 746-758.

46. 曾紀(jì)鵬, 王強(qiáng), 歐權(quán), 齊玥, 郝露露, 孫鵬, 王軍, 陳怡偉. 2018. 羌塘雀莫錯(cuò)始新世石英二長(zhǎng)巖的年代學(xué)、地球化學(xué)與巖石成因. 大地構(gòu)造與成礦學(xué), 42(1), 150-162.

47. Ou, Q., Wang, Q., Wyman, D.A., Zhang, H., Yang, J., Zeng, J., Hao, L-L., Chen, Y-W., Liang, H., Qi, Y. (2017). Eocene adakitic porphyries in the central-northern Qiangtang Block, central Tibet: Partial melting of thickened lower crust and implications for initial surface uplifting of the plateau. Journal of Geophysical Research, 122(2), 1025-1053.

48. 董瀚, 茍國(guó)寧, 齊玥, 段凱, 張志平, 吳勇, 焦世文, 郝露露, 陳福坤, 王強(qiáng). 2016. 拉薩地塊北緣早白堊世晚期地殼生長(zhǎng): 來(lái)自改則亞多~106 Ma侵入巖的證據(jù). 大地構(gòu)造與成礦學(xué), 40(6), 1226-1238.

近年來(lái)主持的項(xiàng)目有:

國(guó)家自然科學(xué)基金委優(yōu)秀青年項(xiàng)目(2025-2027年):巖石地球化學(xué)

深地國(guó)家科技重大專項(xiàng)（2024-2028）專題

廣州市科技菁英“領(lǐng)航”項(xiàng)目(2024-2026年)

中國(guó)科學(xué)院青年創(chuàng)新促進(jìn)會(huì)會(huì)員項(xiàng)目(2022-2025年)

國(guó)家自然科學(xué)基金面上項(xiàng)目(2021-2024年): 青藏高原南部拉薩地塊后碰撞超鉀質(zhì)巖B同位素組成及其對(duì)巖石成因、殼幔相互作用的制約

第二次青藏高原科學(xué)考察項(xiàng)目(STEP) (2019QZKK0702) 子專題

國(guó)家自然科學(xué)基金青年項(xiàng)目(2019-2021年): 青藏高原拉薩地塊中部晚白堊世鎂鐵質(zhì)巖脈的成因及其地質(zhì)意義

中國(guó)博士后科學(xué)基金項(xiàng)目面上資助 (一等)

中國(guó)博士后科學(xué)基金項(xiàng)目特別資助 (站中)

廣州市基礎(chǔ)研究計(jì)劃基礎(chǔ)與應(yīng)用基礎(chǔ)研究項(xiàng)目(2021-2023年)

中科院廣州地球化學(xué)研究所“涂光熾優(yōu)秀青年學(xué)者-A類”人才項(xiàng)目

作為主要成員參加國(guó)家自然科學(xué)基金創(chuàng)新研究群體項(xiàng)目等。