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2024-2020 (* Corresponding author)

1. Wei Y.,Huang X.L.*, Ma Q., Yang F., He P.L., 2024. Magnesium isotope fractionation during magmatic differentiation in the lower continental crust.Chemical Geology, 663, 122260. https://doi.org/10.1016/j.chemgeo.2024.122260.

2. Yang F., Huang X.L.*, Xu Y.G.*, Zhang L., He P.L., Yu Y., Liu L., 2024. Excessive subsidence of oceanic basins caused by recycled oceanic crust in the mantle source: A new perspective on the oceanic topography within Southeast Asia. Geology, https://doi.org/10.1130/G52079.1.

3. Cai Y.X., Huang X.L.*, Xu Y.G., Yu Y., Li J., Yang F., Ge Z.M., 2024. Contribution of recycled oceanic crust to the extremely light molybdenum isotopic compositions of mid-ocean ridge basalts from the South China Sea. Chemical Geology, 646, 121916. https://doi.org/10.1016/j.chemgeo.2023.121916.

4. Ge Z.M., Huang X.L.*, Xie W.*, H?fig T.W., Yang F., Yu Y., Singh S.K., 2024. Metasomatized mantle source of nascent oceanic crust in the Guaymas Basin, Gulf of California. Chemical Geology, 643, 121836. https://doi.org/10.1016/j.chemgeo.2023.121836.

5. Yu Y., Huang X.L.*, Weinberg R.F., Sun M., He P.L., Zhang L., 2024. Melting and melt segregation processes controlling granitic melt composition. American Mineralogist, 109, 35–50. https://doi.org/10.2138/am-2022-8594.

6. Guo J., Huang X.L.*, He P.L., Chen L.L., Zhong J.W., 2024. Genesis of Mesozoic high-Mg dioritic rocks from the eastern North China Craton: Implications for the evolution of continental lithosphere. American Mineralogist, 109, 198–214. https://doi.org/10.2138/am-2022-8755.

7. Guo J., Huang X.L.*, Zhang L., Zhong J.W., 2024. Carbonate metasomatism in sub-continental lithospheric mantle: Insights from decoupled Nd–Hf isotopes of Mesozoic gabbros in Jinan, eastern North China Craton. Lithos, 472–473, 107096. https://doi.org/10.1016/j.lithos.2024.107561.

8. Yan B., Li W.X., Huang X.L., Tao J.H., 2024. Recycled lower oceanic crust signal in early Jurassic A1-type granites, South China: Implications for flat-slab subduction and mantle heterogeneity in the continental back-arc region. Chemical Geology, 660, 122155. https://doi.org/10.1016/j.chemgeo.2024.122155.

9. Yan B., Li W.X., Huang X.L., Yu Y., Tao J.H., 2024. An anomalous rollback process of Mesozoic flat-slab subduction in South China. Tectonophysics, 874， 230252. https://doi.org/10.1016/j.tecto.2024.230252.

10. Liu H.T., Ding X., Yan H.B., Liu K.X., Liu J.F., Huang X.L., 2024. The solubility and complexation of Niobium in hydrothermal fluids. Solid Earth Sciences, 9, 100162. https://doi.org/10.1016/j.sesci.2023.12.001.

11. 楊帆, 黃小龍*, 徐義剛, 賀鵬麗, 于洋，2024. 利用洋中脊玄武巖中橄欖石斑晶制約南海打開的地幔動(dòng)力學(xué)機(jī)制。巖石學(xué)報(bào)，40(07), 2186-2202. https://doi.org/10.18654/1000-0569/2024.07.12. [Yang F., Huang X.L., Xu Y.G., He P.L., 2024. Using olivine to constrain the mechanism for the opening of the South China Sea. Acta Petrologica Sinica, 40(7), 2186-2202]

12. 鄭長聲, 黃小龍*, 楊帆, 于洋, 丁興, 朱圣柱, 2024. 南海北緣IODP U1502B 鉆孔蝕變洋殼的熱液作用特征及對海盆初始張裂過程的啟示. 大地構(gòu)造與成礦學(xué), https://doi.org/10.16539/j.ddgzyckx.2024.01.202. [Zheng CS., Huang X.L.*, Yang F., Yu Y., Ding X., Zhu S.Z., 2004. Hydrothermal processes archived in the altered MORBs from IODP Hole U1502B in the Northern margin of the South China Sea: Implications for the initial rifting process of the sea basin. Geotectonica et Metallogenia]

13. 郭軍, 黃小龍*, 賀鵬麗, 鐘軍偉, 2024. 魯西地區(qū)中生代高鎂閃長巖輝石和角閃石的成分與結(jié)構(gòu)特征：華北克拉通陸內(nèi)巖石圈改造作用記錄. 大地構(gòu)造與成礦學(xué), https://doi.org/10.16539/j.ddgzyckx.2024.01.109. [Guo J., Huang X.L.*, He P.L., Zhong J.W., 2024. Compositional and textural characteristics of pyroxenes and amphiboles in Mesozoic high-Mg diorites from Western Shandong: Insights into lithospheric modifications in continental interior of the North China Craton. Geotectonica et Metallogenia]

14. 郭軍, 黃小龍*, 賀鵬麗, 陳林麗, 鐘軍偉, 2024. 魯西地區(qū)中生代高鎂閃長巖角閃石成分變化特征及其對矽卡巖型鐵礦成礦作用的啟示. 大地構(gòu)造與成礦學(xué), https://doi.org/10.16539/j.ddgzyckx.2023.01.102 [Guo J., Huang X.L.*, He P.L., Chen L.L., Zhong J.W., 2024. Compositional variation of amphiboles from Mesozoic high-Mg diorites in Western Shandong: Implications for mineralization of the Skarn-type iron deposits. Geotectonica et Metallogenia]

15. 徐義剛, 黃小龍, 王強(qiáng), 等, 2024. 地球宜居性的深部驅(qū)動(dòng)機(jī)制. 科學(xué)通報(bào), 69(2), 169–183. https://doi.org/10.1360/TB-2023-0816 [Xu Y.G., Huang X.L., Wang Q. et al., 2024. Earth’s habitability driven by deep processes (in Chinese). Chin Sci Bull, 69(2), 169–183]

16. Yu Y., Huang X.L.*, Lai Y.M., Li J., Xu Y.G., Chung S.L., Setiawan I., Yang F., 2023. Different B-Mo isotopic fractionation processes controlled by redox conditions in the subduction zone. Chemical Geology, 636, 121646. https://doi.org/10.1016/j.chemgeo.2023.121646.

17. Yang F., Huang X.L.*, Xu Y.G., He P.L., 2023. Bifurcation of Mantle Plumes by Interaction with Stagnant Slabs in the Mantle Transition Zone: Evidence from late Cenozoic Basalts within Southeast Asia. GSA Bulletin, 135(9–10): 2710–2720. https://doi.org/10.1130/B36558.1.

18. Guo J., Huang X.L.*, Zhang L., Li J., Zhong J.W., 2023. Decoupling between Sr-Pb and Nd-Hf isotopes of Mesozoic mafic rocks in the eastern North China Craton: Implication for multi-stage modification of sub-continental lithospheric mantle. Lithos, 442–443, 107096. https://doi.org/10.1016/j.lithos.2023.107096.

19. Zhu S.Z., Huang X.L.*, Yu Y., Yang F., Wang C.Y., He P.L., Cao J., 2023. Enrichment of incompatible elements in alkaline syenites in large igneous provinces due to magma replenishment and reactive porous flow in a mush reservoir. Journal of Petrology, 64(2): egad002. https://doi.org/10.1093/petrology/egad002.

20. Yin R., Huang X.L.*, Wang R.C., Wei G.J., Xu Y.G., Wang Y., Sun X.M.*, Zhang L., Xia X.P., 2023. Magmatic–hydrothermal evolution of the Koktokay No. 3 pegmatite, Altai, northwestern China: Constraints from in situ boron isotope and chemical compositions of tourmaline. Lithos, 462–463, 107398. https://doi.org/10.1016/j.lithos.2023.107398.

21. Yin R., Sun X.M.*, Wang S.W., Wang R.C., Ran M.L., Wu B., Huang X.L.*, 2023. Zircons in NYF-type pegmatites in the Emeishan large igneous province, SW China: A record of Nb and REE mineralization processes. Ore Geology Reviews, 162, 105700. https://doi.org/10.1016/j.oregeorev.2023.105700.

22. Zhao Q.Q., Pang C.J., Wen S.N., Wang X.C., Huang X.L., Krape?, Luo X.S., Bai L.A., Dai Y., 2023. Petrology and geochemistry of Late Triassic rapakivi-type granites in the Dupangling area, South China: Role of fluid-rock interaction in the origin of rapakivi texture. Lithos, 460–461, 107365. https://doi.org/10.1016/j.lithos.2023.107365.

23. 朱圣柱, 黃小龍*, 于洋, 賀鵬麗,楊帆, 李夢靜. 2023. 塔里木大火成巖省堿性巖漿活動(dòng)與稀有金屬成礦作用. 大地構(gòu)造與成礦學(xué), 47(3), 631–660. https://doi.org/10.16539/j.ddgzyckx.2022.05.014 [Zhu S.Z., Huang X.L.*, Yu Y., He P.L., Yang F., Li M.J., 2023. Alkaline magmatism and associated rare-metal mineralization in the Tarim Large Igneous Province. Geotectonica et Metallogenia, 47(3), 631–660.]

24. Liu H.Q., Li J., Xu Y.G., Yumul Jr. G.P., Knittel U., Dimalanta C.B., Payot B.D., Quea?o K., Huang X.L., Zhang L., 2023. Heavy Mo isotope composition of northern Bataan adakites: evidence for fore-arc subduction erosion? Geology, 51(1): 49–53. https://doi.org/10.1130/G50465.1.

25. Yin R., Huang X.L.*, Wang R.C., Sun X.M., Tang Y., Wang Y., Xu Y.G., 2022. Rare-metal enrichment and Nb–Ta fractionation during magmatic–hydrothermal processes in rare-metal granites: Evidence from zoned micas from the Yashan pluton, South China. Journal of Petrology, 63(10): egac093. https://doi.org/10.1093/petrology/egac093.

26. 陳宣諭，黃小龍，徐義剛, 2022. 東亞全新世火山灰地層框架的初步構(gòu)建及其對古氣候研究的意義. 礦物巖石地球化學(xué)通報(bào), 41(4): 695-710 [Chen X.Y., Huang X.L., Xu Y.G., 2022. Preliminary establishment of a Holocene tephrosphtratigraphic framework in East Asia and its significance for the palaeoclimate research. Bulletin of Mineralogy, Petrology and Geochemistry, 41(4): 695-710]

27. Yu Y., Huang X.L.*, Chung S.L., Li J., Lai Y.M., Setiawan I., Sun M., 2022. Molybdenum isotopic constraint from Java on slab inputs to subduction zone magmatism. Geochimica et Cosmochimica Acta, 332, 1–18. https://doi.org/10.1016/j.gca.2022.06.009.

28. 黃小龍*, 于洋, 2022. 華南早古生代穿時(shí)巖漿活動(dòng)成因與驅(qū)動(dòng)機(jī)制. 大地構(gòu)造與成礦學(xué), 46(3), 435-454. https://doi.org/10.16539/j.ddgzyckx.2022.03.003 [Huang X.L.*, Yu Y., 2022. Geodynamics and Origin of the Early Paleozoic Diachronous Magmatism in South China. Geotectonica et Metallogenia, 46(3), 435–454]

29. 楊錦, 楊帆, 黃小龍*, 朱圣柱, 苗秀全, 賀鵬麗, 2022. 南海擴(kuò)張前序巖漿活動(dòng): 解譯華南三水盆地古近紀(jì)玄武質(zhì)巖漿作用過程. 大地構(gòu)造與成礦學(xué), 46(3), 530–551. https://doi.org/10.16539/j.ddgzyckx.2022.03.009 [Yang J., Yang F., Huang X.L.*, Zhu S.Z., Miao X.Q., He P.L., 2022. Magmatism Prior to the Spreading of the South China Sea: Constraints on Magmatic Processes of the Early Paleogene Basalts in the Sanshui Basin, South China. Geotectonica et Metallogenia, 46(3), 530–551]

30. Yu Y., Huang X.L.*, Miao X.Q., He P.L., 2022. Early Paleozoic granodiorites and gabbros related to asthenosphere upwelling in the eastern Wuyi-Yunkai Orogen, South China. Journal of Asian Earth Sciences, 226, 105055. https://doi.org/10.1016/j.jseaes.2021.105055.

31. Cui Z.X., Xia X.P., Huang X.L., Xu J., Yang Q., Zhang W.F., Zhang L., Lai C.K., Wang X., 2022. Meso- to Neoarchean geodynamic transition of the North China Craton indicated by H₂O-in-zircon for TTG suite. Precambrian Research, 371, 106574. https://doi.org/10.1016/j.precamres.2022.106574.

32. Ma L., Xu Y.G., Li J., Chen L.H., Liu J.Q., Li H.Y., Huang X.L., Ma Q., Hong L.B., Wang Y., 2022. Molybdenum isotopic constraints on the origin of EM1-type continental intraplate basalts. Geochimica et Cosmochimica Acta, 317, 255–268. https://doi.org/10.1016/j.gca.2021.11.013.

33. He M.H., Zhang S.D., Zhang L., Yang F., Zhang Y.Q., Huang X.L., Wei G.J., 2022. Element mobility and oxygen isotope systematics during submarine alteration of basaltic glass. American Mineralogist, 107(3), 432–442. https://doi.org/10.2138/am-2021-7831.

34. Miao X.Q., Huang X.L.*, Yan W., Yang F., Zhang W.F., Yu Y., Cai Y.X., Zhu S.Z., 2021. Two episodes of Mesozoic mafic magmatism in the Nansha Block: Tectonic transition from continental arc to back-arc basin. Lithos, 404–405, 106502. https://doi.org/10.1016/j.lithos.2021.106502.

35. Zhu S.Z., Huang X.L.*, Yang F., He P.L., 2021. Petrology and geochemistry of early Permian mafic–ultramafic rocks in the Wajilitag area of the southwestern Tarim Large Igneous Province: Insights into Fe-rich magma of mantle plume activity. Lithos, 398–399, 106355. https://doi.org/10.1016/j.lithos.2021.106355.

36. Miao X.Q., Huang X.L.*, Yan W., Yang F., Zhang W.F., Cai Y.X., Yu Y., He P.L., 2021. Late Triassic dacites from Well NK-1 in the Nansha Block: Constraints on the Mesozoic tectonic evolution of the southern South China Sea margin. Lithos, 398–399, 106337. https://doi.org/10.1016/j.lithos.2021.106337.

37. Wang X., Huang X.L.*, Yang F., 2021. Geochronology and geochemistry of the Xiaoqinling Taihua Complex in the southern Trans-North China Orogen: Implications for magmatism during the early Paleoproterozoic global tectono-magmatic shutdown. Lithos, 402–403, 106248. https://doi.org/10.1016/j.lithos.2021.106248.

38. Yu Y., Huang X.L.*, Sun M., Ma J.L., 2021. B isotopic constraints on the role of H₂O in mantle wedge melting. Geochimica et Cosmochimica Acta, 303, 92–109. https://doi.org/10.1016/j.gca.2021.03.032.

39. Yang F., Huang X.L.*, Xu Y.G., He P.L., 2021. Cryptic zoning in primitive olivine as an archive of mush fluidization at mid-ocean ridges. Lithos, 390–391, 106121. https://doi.org/10.1016/j.lithos.2021.106121.

40. Yu Y., Huang X.L.*, Sun M, He P.L., Yuan C., 2021. High-Mg andesitic rocks formed through crustal magmatic differentiation. Lithos, 388–389, 106069. https://doi.org/10.1016/j.lithos.2021.106069.

41. Li J., Huang X.L.*, Fu Q., Li W.X., 2021. Tungsten mineralization during evolution of a magmatic-hydrothermal system: mineralogical evidence from the Xihuashan rare-metal granite in South China. American Mineralogist, 106(3), 443–460. https://doi.org/10.2138/am-2020-7514.

42. He P.L., Huang X.L.*, Yang F., Wang X., 2021. Mineralogy constraints on magmatic processes controlling adakitic features of Early Permian high-magnesium diorites in the Western Tianshan orogenic belt. Journal of Petrology, 61(11–12), egaa114. https://doi.org/10.1093/petrology/egaa114.

43. Zhong Y.T., Luo Z.Y., Mundil R., Wei X., Liu H.Q., He B., Huang X.L., Tian W., Xu Y.G., 2021. Constraining the duration of the Tarim flood basalts (northwestern China): CA-TIMS zircon U-Pb dating of tuffs. GSA Bulletin, 134(1–2), 325–334. https://doi.org/10.1130/B36053.1

44. Li J.B., Ding W.W., Lin J., Xu Y.G., Kong F.S., Li S.Z., Huang X.L., Zhou Z.Y., 2021. Dynamic processes of the curved subduction system in Southeast Asia: A review and future perspective. Earth-Science Reviews, 217, 103647. https://doi.org/10.1016/j.earscirev.2021.103647

45. Li J., Huang X.L., Li X.H., Chu F.Y., Zhu J.H., Zhu Z.M., Wang H., 2021. Anomalously hot mantle source beneath the Dragon Flag Supersegment of the Southwest Indian Ridge: New evidence from crystallisation temperatures of mid-ocean ridge basalts. Lithos, 396–397, 106221. https://doi.org/10.1016/j.lithos.2021.106221.

46. 黃小龍*, 徐義剛, 楊帆, 2020. 南海玄武巖: 擴(kuò)張洋脊與海山. 科技導(dǎo)報(bào), 38(18), 46?51. https://doi.org/10.3981/j.issn.1000-7857.2020.18.007. [Huang X.L.*, Xu Y.G., Yang F., 2020. Basalts in the South China Sea: Mid-ocean ridges and seamounts. Science & Technology Review, 38(18): 46–51]

47. 馬萬偉, 黃小龍*, 于洋, 尹蓉, 賀鵬麗. 2020. 栗木花崗巖的云母特征: 對錫成礦熱液作用過程的指示. 大地構(gòu)造與成礦學(xué), 44(6), 1143?1159. https://doi.org/10.16539/j.ddgzyckx.2020.06.008. [Ma W.W., Huang X.L.*, Yu Y., Yin R., He P.L., 2020. Characteristics of micas in the Limu granite, South China: illuminating the hydrothermal processes related to tin mineralization. Geotectonica et Metallogenia, 44(6), 1143?1159]

48. 賀鵬麗, 黃小龍*, 楊帆, 王雪, 李武顯, 2020. 西天山小哈拉軍山富鈦磁鐵礦輝長巖的巖石成因及其構(gòu)造環(huán)境. 巖石學(xué)報(bào), 36(7), 2001?2016. https://doi.org/10.18654/1000-0569/2020.07.05. [He P.L., Huang X.L.*, Yang F., Wang X., Li W.X., 2020. Petrogenesis and tectonic setting of the Xiaohalajunshan titanomagnetite-rich gabbro, Western Tianshan Orogen. Acta Petrologia Sinica, 36(7), 2001?2016]

49. Wei Y., Huang X.L.*, Yu Y., Wang X., He P.L., Ma W.W., 2020. Phanerozoic magma underplating associated with remelting of the lower crust beneath the Cathaysia Block: Evidence from zircon U-Pb ages and Hf-O isotopes of granulite xenoliths from Daoxian, South China. Lithos, 368–369, 105596. https://doi.org/10.1016/j.lithos.2020.105596.

50. Yu Y., Huang X.L.*, Sun M., Yuan C., 2020. Missing Sr-Nd isotopic decoupling in subduction zone: Decoding the multi-stage dehydration and melting of subducted slab in the Chinese Altai. Lithos, 362–363, 105465. https://doi.org/10.1016/j.lithos.2020.105465.

51. Liu Z., Tong L.X., Bartoli O., Xu Y.G., Huang X.L., Li C, 2020. Low-pressure metamorphism of mafic granulites in the Chinese Altay orogen, NW China: P-T path, U-Pb ages and tectonic implications. Solid Earth Sciences, 5(1), 8–28. https://doi.org/10.1016/j.sesci.2019.11.004.

52. Ma Q., Xu Y.G., Huang X.L., Zheng J.P., Ping X.Q., Xia X.P., 2020. Eoarchean to Paleoproterozoic crustal evolution in the North China Craton: Evidence from U-Pb and Hf-O isotopes of zircons from deep-crustal xenoliths. Geochimica et Cosmochimica Acta, 278, 94–109. https://doi.org/10.1016/j.gca.2019.09.009.

53. Sun L.H., Sun Z., Huang X.L., Jiang Y.D., Joann S., 2020. Microstructures documenting Cenozoic extension processes in the northern continental margin of the South China Sea. International Geology Review, 62, 1094–1107. https://doi.org/10.1080/00206814.2019.1669079.

54. 李超, 仝來喜, 劉兆, 黃小龍, 2020. 華南云開高州紫蘇花崗巖及其兩類石榴石的成因:巖石學(xué)和鋯石U-Pb年代學(xué)證據(jù). 巖石學(xué)報(bào), 36(3), 871?892. [Li C., Tong L.X., Liu Z., Huang X.L., 2020. Genesis of the Gaozhou charnockite and its two types of garnets of Yunkai massif, South China: Evidence from petrology and zircon U-Pb geochronology. Acta Petrologica Sinica, 36(3): 871–892]

55. Yin R., Huang X.L., Xu Y.G., Wang R.C., Wang H., Yuan C., Ma Q., Sun X.M., Chen L.L., 2020. Mineralogical constraints on the magmatic–hydrothermal evolution of rare-elements deposits in the Bailongshan granitic pegmatites, Xinjiang, NW China. Lithos, 352–353, 105208. https://doi.org/10.1016/j.lithos.2019.105208.

56. He M., Xia X., Huang X.L., Ma J., Zou J., Yang Q., Yang F., Zhang Y., Yang Y., Wei G.J., 2020. Rapid determination of the original boron isotopic composition from altered basaltic glass by in situ secondary ion mass spectrometry. Journal of Analytical Atomic Spectrometry, 35, 238–245. https://doi.org/10.1039/C9JA00374F.

57. Liu Z., Bartoli O., Tong L.X., Xu Y.G., Huang X.L., 2020. Permian ultrahigh–temperature reworking in the southern Chinese Altai: Evidence from petrology, P–T estimates, zircon and monazite U–Th–Pb geochronology. Gondwana Research, 78, 20–40. https://doi.org/10.1016/j.gr.2019.08.007.

?

Before 2020?(Selected papers; * Corresponding author)

1.?Yang F., Huang X.L.*, Xu Y.G., He P.L., 2019. Magmatic processes?associated with oceanic crustal accretion at slow-spreading ridges: Evidence from plagioclase in the?mid-ocean ridge basalt in the South China Sea. Journal of Petrology, 60(6), 1135–1162. DOI: 10.1093/petrology/egz027.

2.?Yin R., Han L., Huang X.L.*, Li J., Li W.X., Chen L.L., 2019. Textural and chemical variations of micas as indicators for tungsten mineralization: Evidence from highly evolved granites in the Dahutang tungsten deposit, South China. American Mineralogist, 104, 949–965. DOI: 10.2138/am-2019-6796.

3.?Wang X., Huang X.L.*, Yang F., 2019. Revisiting the Lushan-Taihua Complex: New perspectives on the Late Mesoarchean-Early Neoarchean crustal evolution of the southern North China?Craton. Precambrian Research, 325, 132–149. DOI: 10.1016/j.precamres.2019.02.020.

4.?Yang F., Huang X.L.*, Xu Y.G., He P.L., 2019. Plume-ridge interaction in the South China Sea: Thermometric evidence from Hole U1431E of IODP Expedition 349. Lithos, 324–325, 466–478. DOI: 10.1016/j.lithos.2018.11.031.

5.?Li J., Huang X.L.*, Wei G.J., Liu Y., Ma J.L., Han L., He P.L., 2018. Lithium isotope fractionation during magmatic differentiation and hydrothermal processes in rare-metal granites. Geochimica et Cosmochimica Acta, 240, 64–79. DOI: 10.1016/j.gca.2018.08.021.

6.?Larsen H.C., Mohn G., Nirrengarten M., Sun Z., Stock J., Jian Z., Klaus A., Alvarez-Zarikian C.A., Boaga J., Bowden S.A., Briais A., Chen Y., Cukur D., Dadd K., Ding W., Dorais M., Ferr??E.C., Ferreira F., Furusawa A., Gewecke A., Hinojosa J., H？fig T.W., Hsiung K.H., Huang B., Huang E., Huang X.L.,?Jiang S., Jin H., Johnson B.G., Kurzawski R.M., Lei C., Li B., Li L., Li Y., Lin J., Liu C., Liu C., Liu Z., Luna A.J., Lupi C., McCarthy A., Ningthoujam L., Osono N., Peate D.W., Persaud P., Qiu N., Robinson C., Satolli S., Sauermilch I., Schindlbeck J.C., Skinner S., Straub S., Su X., Su C., Tian L., van der Zwan F.M., Wan S., Wu H., Xiang R., Yadav R., Yi L., Yu P.S., Zhang C., Zhang J., Zhang Y., Zhao N., Zhong G., Zhong L., 2018. Rapid transition from continental breakup to igneous oceanic crust in the South China Sea. Nature Geoscience, 11, 782？789. DOI: 10.1038/s41561-018-0198-1.

7.?Yu Y., Huang X.L.*, Sun M., He P.L., 2018. Petrogenesis of granitoids and associated xenoliths in the early Paleozoic Baoxu and Enping plutons, South China: Implication for the evolution of the Wuyi-Yunkai intracontinental orogen. Journal of Asian Earth Sciences,?156, 59？74. DOI: 10.1016/j.jseaes.2018.01.012

8.?楊帆, 黃小龍*, 李潔, 2018. 華南長城嶺晚白堊世斜斑玄武巖的巖漿作用過程與巖石成因制約. 巖石學(xué)報(bào), 34(1), 157？171?[Yang F, Huang XL*, Li J, 2018. Magma processes and petrogenesis of the Late Cretaceous plagioclase-phyric basalt in the Changchengling area, South China. Acta Petrologica Sinica, 34(1), 157？171]

9.?羅錚嫻,黃小龍*, 王雪, 楊 帆, 韓 麗, 2018. 華北克拉通崤山太華群TTG質(zhì)片麻巖年代學(xué)與地球化學(xué)特征: 巖石成因機(jī)制. 大地構(gòu)造與成礦學(xué), 42(2), 332–347 [Luo Z.X., Huang X.L.*,?Wang X., Yang F., Han L., 2018. Geochronology and geochemistry of the TTG gneisses from the Taihua Group in the Xiaoshan area, North China Craton: Constraints on petrogenesis. Geotectonica et Metallogenia, 42(2), 332–347].

10.?Wang X., Huang X.L.*, Yang F., Luo Z.X., 2017. Late Neoarchean magmatism and tectonic evolution recorded in the Dengfeng Complex in the southern segment of the Trans-North China Orogen. Precambrian Research, 302, 180？197. DOI: 10.1016/j.precamres.2017.10.005.

11.?He P.L., Huang X.L.*, Xu Y.G., Li H.Y., Wang X., Li W.X., 2016. Plume-orogenic lithosphere interaction recorded in the Haladala layered intrusion in the Southwest Tianshan Orogen, NW China. Journal of Geophysical Research - Solid Earth,?121(3), 1525–1545. doi: 10.1002/2015JB012652.

12.?Huang X.L., He P.L., Wang?X., Zhong J.W., Xu Y.G., 2016. Lateral variation in oxygen fugacity and halogen contents in early Cretaceous magmas in Jiaodong area, East China: Implication for triggers of the destruction of the North China Craton. Lithos, 248-251, 478–492.

13.?Yu Y., Huang X.L.*,?He P.L., Li J., 2016. I-type granitoids associated with the early Paleozoic intracontinental orogenic collapse along pre-existing block boundary in South China. Lithos, 248？251, 353？365.

14.?韓麗, 黃小龍*, 李潔, 賀鵬麗, 姚軍明, 2016. 江西大湖塘鎢礦花崗巖的磷灰石特征及其氧逸度變化指示. 巖石學(xué)報(bào),?32(3), 746？458.?[Han L, Huang XL*,?Li J, He PL, Yao JM, 2016. Oxygen fugacity variation recorded in apatite of the granite in the Dahutang tungsten deposit, Jiangxi Province, South China. Acta Petrologica Sinica, 32(3), 746？458]

15.?Li J., Huang X.L.*,?He P.L., Li W.X., Yu Y., Chen L.L., 2015. In situ analyses of micas in the Yashan granite, South China: Constraints on magmatic and hydrothermal evolution of W and Ta-Nb bearing granites.?Ore Geology Reviews, 65, 793？810.

16.?王雪, 黃小龍*,?馬金龍, 鐘軍偉, 楊啟軍, 2015. 華北克拉通中部造山帶南段早前寒武紀(jì)變質(zhì)雜巖的Hf-Nd同位素特征及其地殼演化意義. 大地構(gòu)造與成礦學(xué), 39(6), 1108？1118 [Wang X., Huang X.L.*, Ma J.L., Zhong J.W., Yang Q.J., 2015. Hf-Nd isotopes of the Early Precambrian metamorphic complexes in the southern segment of the Trans-North China Orogen: Implications for crustal evolution. Geotectonica et Metallogenia?39, 1108–1118].

17.?Li H.Y., Huang X.L.*, Guo H., 2014. Geochemistry?of Cenozoic basalts from the Bohai Bay Basin: Implications for a heterogeneous mantle source and lithospheric evolution beneath the eastern North China Craton. Lithos, 196-197, 54-66.

18.?Huang X.L., Yu Y., Li J., Tong L.X., Chen L.L., 2013. Geochronology and petrogenesis of the early Paleozoic I-type granite in the Taishan area, South China: middle-lower crustal melting during orogenic collapse. Lithos, 177, 268？284.

19.?Huang X.L., Wilde S.A., Zhong J.W., 2013. Episodic crustal growth in the southern segment of the Trans-North China Orogen across?the Archean-Proterozoic boundary. Precambrian Research, 233, 337–357.

20.?Huang X.L., Niu Y.L., Xu Y.G., Qiu H.N., Ma J.L., Zhong J.W., 2013. Geochronology and geochemistry of?Cenozoic basalts from eastern Guangdong, SE China: constraints on the lithosphere evolution beneath the northern margin of the South China Sea. Contributions to Mineralogy and Petrology,?165(3): 437–455. doi: 10.1007/s00410-012-0816-7.

21.?李潔, 黃小龍*,?2013. 江西雅山花崗巖巖漿演化及其Ta-Nb富集機(jī)制. 巖石學(xué)報(bào), 29(12), 4311？4322. [Li J., Huang X.L.*,?2013. Mechanism of Ta-Nb enrichment and magmatic evolution in the Yashan granites, Jiangxi Province, South China. Acta Petrologica Sinica,?29, 4311？4322]

22.?李潔, 鐘軍偉, 于洋, 黃小龍*,?2013. 贛南西華山花崗巖的云母成分特征及對巖漿演化與成礦過程的指示. 地球化學(xué), 42(5), 393-404 [Li J., Zhong J.W., Yu Y., Huang X.L.*,?2013. Insights on magmatism and mineralization from micas in the Xihuashan granite, Jiangxi Province, South China. Geochimica?42(5), 393？404].

23.?賀鵬麗, 黃小龍*,?李洪顏, 李潔, 于洋, 李武顯, 2013. 西天山哈拉達(dá)拉輝長巖的Fe-Ti富集機(jī)制及其構(gòu)造意義. 巖石學(xué)報(bào),?29(10), 3457？3472 [He P.L., Huang X.L.*, Li H.Y., Li J., Yu Y., Li W.X., 2013. Mechanism of Fe-Ti enrichment in the Haladala gabbros: Implication for the tectonic evolution of the western Tianshan orogenic belt. Acta Petrologica Sinica,?29(10), 3457–3472].

24.?李洪顏, 黃小龍*,?曹俊, 李武顯, 賀鵬麗, 2013. 塔西南其木干早二疊世玄武巖的噴發(fā)時(shí)代及地球化學(xué)特征. 巖石學(xué)報(bào), 29(10), 3353？3368 [Li H.Y., Huang X.L.*,?Li W.X., Cao J., He P.L., Xu Y.G., 2013. Age and geochemistry of the Early Permian basalts from Qimugan in the southwestern Tarim basin. Acta Petrologica Sinica, 29, 3353–3368].

25.?黃小龍, 鐘軍偉, 于洋, 李潔, 2013. 福建明溪麻粒巖包體的年代學(xué)和礦物學(xué)特征：地溫曲線及其華南中生代殼－幔相互作用意義. 礦物巖石地球化學(xué)通報(bào), 32(2), 212？221 [Huang X.L., Zhong J.W., Yu Y., Li J., 2013. Geochronology and Mineralogy of the Mingxi granulite xenoliths from Fujian, South China: Geotherm and implications for the Mesozoic crustal-mantle interaction. Bulletin of Mineralogy, Petrology and Geochemistry, 32(2), 212？221].

26.?Huang X.L., Zhong J.W., Xu Y.G., 2012. Two tales of the continental lithospheric mantle prior to the destruction of the?North China Craton: insights from Early Cretaceous mafic intrusions in western Shandong, East China. Geochimica et Cosmochimica Acta,?96, 193？214.

27.?Huang X.L., Wilde S.A., Yang Q.J., Zhong J.W., 2012. Geochronology and Petrogenesis of grey gneisses from?the Taihua Complex at Xiong’er in the southern segment of the Trans-North China Orogen: implications for tectonic transformation in the Early Paleoproterozoic. Lithos, 134, 236？252.

28.?鐘軍偉, 黃小龍*, 2012. 魯西早白堊世基性侵入巖的鋯石Hf同位素組成變化及其成因. 大地構(gòu)造與成礦學(xué), 36(4), 572？580 [Zhong J.W., Huang X.L.*, 2012. Spatial variation of zircon Hf isotopes for the EarlyCretaceous mafic intrusions in Western Shandong and its genesis.?Geotectonica et Metallogenia, 36(4), 572？580].

29.?Huang X.L., Niu Y.L., Xu?Y.G., Yang Q.J., Zhong J.W., 2010. Geochemistry of TTG and TTG-like gneisses from Lushan-Taihua complex in the southern North China Craton: implications for late Archean crustal accretion. Precambrian Research,?182, 43？56.

30.?Huang X.L., Niu Y.L., Xu Y.G., Chen L.L., Yang Q.J., 2010. Mineralogical and geochemical constraints on the petrogenesis of post-collisional potassic and ultrapotassic rocks from western Yunnan, SW China. Journal of Petrology, 51, 1617？1654.

31.?Huang X.L., Xu Y.G., 2010. Thermal state and structure of the lithosphere beneath eastern China: A synthesis on basalt-borne xenoliths. Journal of Earth Science, 21(5), 711？730.

32.?Huang X.L.,?Xu Y.G., Lan J.B., Yang Q.J., Luo Z.Y., 2009. Neoproterozoic adakitic rocks from Mopanshan in the western Yangtze Craton: Partial melts of a thickened lower crust. Lithos, 112, 367？381.

33.?Huang X.L.,?Xu Y.G., Li X.H., Li W.X., Lan J.B., Zhang H.H., Liu Y.S., Wang Y.B., Li H.Y., Luo Z.Y., Yang Q.J., 2008. Petrogenesis and tectonic implications of Neoproterozoic, highly fractionated A-type granites from Mianning, South China. Precambrian Research,?165, 190？204.

34.?Huang X.L., Xu Y.G., Lo C.H., Wang R.C., Lin C.Y., 2007. Exsolution Lamellae in a Clinopyroxene Megacryst Aggregate from Cenozoic Basalt, Leizhou Peninsula, South China: Petrography and Chemical Evolution. Contribution to Mineralogy and Petrology, 154, 691？705.

35.?He, B., Xu, Y.G., Huang, X.L., Luo, Z.Y., Shi, Y.R., Yang, Q.J., Yu, S.Y., 2007. Age and duration of the Emeishan flood volcanism, SW China: Geochemistry and SHRIMP zircon U-Pb dating of silicic ignimbrites, post-volcanic Xuanwei Formation and clay tuff at the Chaotian section. Earth & Planetary Science Letters?255(3？4), 306？323.

36.?黃小龍, 徐義剛, 楊啟軍, 陳林麗, 2007. 滇西萵中晚始新世高鎂富鉀火山巖中單斜輝石斑晶環(huán)帶結(jié)構(gòu)的成因：巖漿補(bǔ)給-混合過程. 高校地質(zhì)學(xué)報(bào), 13(2), 250？260 [Huang X.L., Xu Y.G., Yang Q.J., Chen L.L., 2007. Genesis of compositional zoning of clinopyroxene phenocrysts in the Wozhong Late Eocene high-Mg ultrapotassic lavas, western Yunnan, China: Magma repenishment-mixing process. Geological Journal of China Universities, 13(2), 250-260].

37.?黃小龍, 徐義剛, 楊啟軍, 邱華寧, 2007. 滇西晚始新世高鎂富鉀火山巖的地球化學(xué)特征及其巖石成因機(jī)制探討. 地球化學(xué), 36(2), 120？138 [Huang X.L., Xu Y.G., Yang Q.J., Qiu H.N., 2007. Geochemistry of late Eocene high-Mg ultrapotassic lavas from western Yunnan, Chin: Constraints on petrogenesis. Geochimica, 36(2),?120-138].

38.?黃小龍, 徐義剛, 楊啟軍, 陳林麗, 2006. 滇西萵中新生代高鎂富鉀火山巖中橄欖石斑晶及其尖晶石包裹體的巖漿成因動(dòng)力學(xué)意義. 巖石學(xué)報(bào), 22(6), 1553？1564 [Huang X.L., Xu Y.G., Yang Q.J., Chen L.L., 2006. Olivine phenocrysts and spinel inclusions in the Wozhong high-Mg and K-rich lavas from the western Yunnan, China: petrogenesis and geodynamic implications. Acta Petrologica Sinica, 22(6), 1553-1564].

39.?Huang X.L.,?Xu Y.G., Liu D.Y., 2004. Geochronology, petrology and geochemistry of the granulite xenoliths from Nushan, east China: implication for a heterogeneous lower crust beneath the Sino-Korean craton. Geochimica et Cosmochimica Acta, 68, 127-149.

40.?Xu Y.G., Huang X.L., Ma J.L., Wang YB, Iizuka Y, Xu JF, Wang Q and Wu XY. 2004. Crustal-mantle interaction during the thermo-tectonic reactivation of the North China Craton: SHRIMP zircon U-Pb age, petrology and geochemistry of Mesozoic plutons in western Shandong.?Contribution to Mineralogy and Petrology?147, 750？767.

41.?Huang X.L.,?Xu Y.G., Liu D.Y., Jian P., 2003. Early Proterozoic lower crust beneath Nushan, Anhui Province: evidence from zircon SHRIMP U-Pb dating of granulite xenoliths in Cenozoic alkali basalt. Chinese Sci Bulletin?48, 1381-1385.

42.?黃小龍, 徐義剛, 王汝成, 陳小明, 2002. 安徽女山麻粒巖包體: 礦物學(xué)特征、下地殼地溫曲線及其成因意義. 巖石學(xué)報(bào), 18(3), 383-392 [Huang X.L.,?Xu Y.G., Wang R.C., Chen X.M., 2002. The Nushan granulite xenoliths from Anhui province, China: mineralogical characteristics, the lower crustal geotherm and their implications for genesis. Acta Petrologica Sinica, 18(3), 383-392].

43.?黃小龍, 徐義剛, 2002. 安徽女山麻粒巖包體的地球化學(xué)特征: 下地殼組成及其構(gòu)造屬性初探. 地球化學(xué), 31(5), 443？454 [Huang X.L., Xu Y.G., 2002. Geochemical characteristics of the Nushan granulite xenoliths, Anhui province: implications for composite of lower crust and tectonic affinity. Geochimica, 31(5), 443–454].

44.?Huang X.L.,?Wang R.C., Chen X.M., Hu H., Liu C.S., 2002. Vertical variations in?the mineralogy of the Yichun topaz-lepidolite granite, Jiangxi province, southern China. The Canadian Mineralogist, 40(4), 1047-1068.

45.?黃小龍, 徐義剛, 儲(chǔ)雪蕾, 張鴻祥, 劉叢強(qiáng), 2001. 華北地臺部分麻粒巖地體及包體的地球化學(xué)特征對比. 巖石礦物學(xué)雜志,?20(3), 318？328 [Huang X.L., Xu Y.G., Chu X.L., Zhang H.X., Liu C.Q., 2001. Geochemical comparative studies of some granulite terranes and granulite xenoliths from North China craton. Acta Petrologica et Mineralogica,?20(3), 318–328].

46.?黃小龍, 王汝成, 陳小明, 劉昌實(shí), 2001. 江西雅山富氟高磷花崗巖中的磷酸鹽礦物及其成因意義. 地質(zhì)論評, 47(5), 542？550 [Huang X.L., Wang R.C., Chen X.M., Liu C.S., 2001. Phosphate minerals from the Yashan F- and P-rich granite in Yichun, Jiangxi Province: Genetic implications. Geological Review, 47(5), 452–550].

47.?黃小龍, 王汝成, 劉昌實(shí), 陳小明, 張文蘭, 賴鳴遠(yuǎn), 2000. 江西雅山黃玉鋰云母花崗巖中富磷鋯石研究. 礦物學(xué)報(bào), 20(1), 22？27 [Huang, X.L., Wang, R.C., Liu, C.S., Chen, X.M., Zhang, W.L., Lai, M.Y., 2000. Study on phosphorus-rich zircon from the Yashan topaz-lepidolite granite, Jiangxi Province, South China. Acta Mineralogica Sinica, 20(1), 22–27].

48.?Huang X.L., Wang R.C., Liu C.S., Yin L., Chen X.M., Chen P.R., 1999. The P₂O₅?content of feldspars from the Yashan Granites, Jiangxi Province, South China. Chinese Science Bulletin, 44(13), 1245-1248.

49.?黃小龍, 王汝成, 陳小明, 陳培榮, 劉昌實(shí), 1998. 華南富氟花崗巖高磷和低磷亞類型對比. 地質(zhì)論評, 44(6), 607？617 [Huang X.L., Wang R.C., Chen X.M., Chen P.R., Liu C.S., 1998. Contrast between the high-P subtype and low-P subtype of F-rich granites in South China. Geological Review, 44(6), 607–617].

50.?黃小龍, 徐夕生, 蔡元峰, 周新民, 1998. 安徽女山堿性玄武巖中的深源包體. 南京大學(xué)學(xué)報(bào)（自然科學(xué)版）, 34(3), 292？302 [Huang X.L., Xu X.S., Cai Y.F., Zhou X.M., 1998. Deep-seated xenoliths in Nushan alkali basalts, Anhui province. Journal of Nanjing University (Natural Sciences), 34(3), 292–302].