BekaertD V, TurnerS J, BroadleyM W, et al.. Subduction-Driven Volatile Recycling: A Global Mass Balance. Annual Review of Earth and Planetary Sciences, 2021, 49: 37-70

FeiC H, LiuJ B. Vaterite in a Decrepitated Diamond-Bearing Inclusion in Zircon from a Stromatic Migmatite in the Chinese Sulu Ultrahigh-Pressure Metamorphic Belt. American Mineralogist, 2022, 107(7): 1410-1424

FeiC H, LiuJ B. Whewellite-Bearing Fluid Inclusions in Zircons from a Stromatic Migmatite in the Chinese Sulu Ultrahigh-Pressure Metamorphic Belt. Journal of Petrology, 2022, 63(8): egac071

FerrandoS, FrezzottiM L, DallaiL, et al.. Multiphase Solid Inclusions in UHP Rocks (Su-Lu, China): Remnants of Supercritical Silicate-Rich Aqueous Fluids Released during Continental Subduction. Chemical Geology, 2005, 223(1/2/3): 68-81

FrezzottiM L. Diamond Growth from Organic Compounds in Hydrous Fluids Deep within the Earth. Nature Communications, 2019, 10: 4952

FrezzottiM L, FerrandoS. The Chemical Behavior of Fluids Released during Deep Subduction Based on Fluid Inclusionsá. American Mineralogist, 2015, 100(2/3): 352-377

FrezzottiM L, SelverstoneJ, SharpZ D, et al.. Carbonate Dissolution during Subduction Revealed by Diamond-Bearing Rocks from the Alps. Nature Geoscience, 2011, 4(10): 703-706

GuoS, HermannJ, TangP, et al.. Formation of Carbon-Bearing Silicate Melts by Melt-Metacarbonate Interaction at Convergent Plate Margins. Earth and Planetary Science Letters, 2022, 597: 117816

GuoS, HermannJ, ChuX, et al.. Substantial Carbon Dioxide Release from Subducted Dolomitic Carbonate Driven by Episodic Infiltration of Eclogite-Facies Fluids. Geology, 2025, 53(4): 328-332

HermannJ, SpandlerC, HackA, et al.. Aqueous Fluids and Hydrous Melts in High-Pressure and Ultra-High Pressure Rocks: Implications for Element Transfer in Subduction Zones. Lithos, 2006, 92(3/4): 399-417

JinD S, XiaoY L, TanD B, et al.. Supercritical Fluid in Deep Subduction Zones as Revealed by Multiphase Fluid Inclusions in an Ultrahigh-Pressure Metamorphic Vein. Proceedings of the National Academy of Sciences of the United States of America, 2023, 120(20): e2219083120

LiuF L, LiouJ G. Zircon as the Best Mineral for P-T-Time History of UHP metamorphism: A Review on Mineral Inclusions and U-Pb SHRIMP Ages of Zircons from the Dabie-Sulu UHP Rocks. Journal of Asian Earth Sciences, 2011, 40(1): 1-39

LiJ L, SchwarzenbachE M, JohnT, et al.. Uncovering and Quantifying the Subduction Zone Sulfur Cycle from the Slab Perspective. Nature Communications, 2020, 11(1): 514

LiW C, ChenR X, ZhengY F, et al.. Two Episodes of Partial Melting in Ultrahigh-Pressure Migmatites from Deeply Subducted Continental Crust in the Sulu Orogen, China. GSA Bulletin, 2016, 128(9/10): 1521-1542

LiY B, ChenY, SuB, et al.. Redox Species and Oxygen Fugacity of Slab-Derived Fluids: Implications for Mantle Oxidation and Deep Carbon-Sulfur Cycling. Frontiers in Earth Science, 2022, 10: 974548

MaffeisA, FrezzottiM L, ConnollyJ A D, et al.. Sulfur Disproportionate in Deep COHS Slab Fluids Drives Mantle Wedge Oxidation. Science Advances, 2024, 10(12): eadj2770

TanD B, XiaoY L, WangY Y, et al.. Carbon-Rich Polyphasic Inclusions in Postcollisional Mafic Magmatic Rocks from the Dabie Shan, China: Implications for the Carbon Cycle in Continental Subduction Zones. GSA Bulletin, 2024, 136(11/12): 4727-4736

XuH J, YeK, SongY R, et al.. Prograde Metamorphism, Decompressional Partial Melting and Subsequent Melt Fractional Crystallization in the Weihai Migmatitic Gneisses, Sulu UHP Terrane, Eastern China. Chemical Geology, 2013, 341: 16-37