1. Li,R.,Xiao,W.,Mao,Q.,Wang,H.,Sang,M.,Tan,Z.,Ao,S.,& Song,D. The Sailajiazitage volcanic and related rocks in the Tiekelik belt imply a Neoproterozoic seamount accreted to the southern Tarim Craton[J]. Lithos,2023,107438.

2. Li,R.,Xiao,W.,Mao,Q.,Zhang,J. e.,Ao,S.,Song,D.,Tan,Z.,Wang,H.,& Bhandari,S. High magnesian schist,granitic gneiss,amphibolite and monzogneiss in the eastern Ama Drime Massif in South Tibet (China):A rifted Paleoproterozoic arc fringed the western Columbia supercontinent?[J]. Precambrian Research,2023,388.

3. Li,R.,Ao,S.,Xiao,W.,Schulmann,K.,Mao,Q.,Song,D.,Tan,Z.,Wang,H.,& Bhandari,S. Tectonic Juxtaposition of Two Independent Paleoproterozoic Arcs by Cenozoic Duplexing in the Arun Tectonic Window of the Eastern Nepalese Himalaya[J]. Frontiers in Earth Science,2022,10.

4. Li,R.,Ao,S.,Xiao,W.,Windley,B. F.,Zhan,M.,Huang,P.,& Bhandari,S. Tectonic setting and provenance of Early Cretaceous strata in the footwall of Main Central Thrust,Eastern Nepal: Implications for the archipelago palaeogeography of the Neo-Tethys[J]. Geological Journal,2021,56(4),1958-1973.

5. Gan,J.,Xiao,W.,Mao,Q.,Wang,H.,Sang,M.,Tan,Z.,Li,R.,Ao,S.,Song,D.,& Zhang,Z. Tectonic Anatomy Reveals the Chinese Altai-Kuerti-Dulate Arc Amalgamation in the Southern Altaids[J]. Tectonics,2024,43(10),e2024TC008272.

6. Gan,J.,Xiao,W.,Mao,Q.,Wang,H.,Yang,H.,Sang,M.,Jia,X.,Liu,Y.,Zhang,Z.,Tan,Z.,& Li,R. A newly defined latest Carboniferous-Permian ridge subduction in the southern Altaids: Insights from adakitic,S-type,and I-type granitoids in the northern East Junggar (NW China) [J]. International Geology Review,2023,1-29.

7. Mao,Q.,Xiao,W.,Ao,S.,Windley,B. F.,Song,D.,Sang,M.,Tan,Z.,Wang,H.,& Li,R. Ordovician to Triassic episodic growth of the Dananhu arc,Eastern Tianshan (NW China)[J]. International Geology Review,2023,1-22.

8. Mao,Q.,Xiao,W.,Ao,S.,Song,D.,Sang,M.,Tan,Z.,Wang,H.,Li,R.,& Wang,M. Final Amalgamation Processes of the Southern Altaids: Insights from the Triassic Houhongquan Ophiolitic Mélange in the Beishan Orogen (NW China)[J]. Lithosphere,2023,1.

9. Mao,Q.,Xiao,W.,Ao,S.,Yang,H.,Song,D.,Zhang,Z.,Sang,M.,Wang,H.,Tan,Z.,& Li,R. Subduction Initiation of the Southern Branch of the Paleo‐Asian Ocean in the Middle Ordovician in the Southern Beishan Orogen[J]. Earth and Space Science,2023,10(3).

10. Mao,Q.,Xiao,W.,Sang,M.,Ao,S.,Song,D.,Tan,Z.,Wang,H.,& Li,R. Two different types of provenances and the amalgamation of subduction complexes in the Eastern Tianshan of the Southern Altaids[J]. Frontiers in Earth Science,2023,10.

11. Sang,M.,Tan,Z.,Xiao,W.,Mao,Q.,Wang,H.,Li,R.,& Qiao,Q. Formation of the eclogites of the Atbashi complex,Kyrgyzstan,in a subduction zone mélange diapir[J]. Communications Earth & Environment,2023,4(1),434.

12. Wang,H.,Xiao,W.,Li,R.,Chen,H.,Tan,Z.,& Mao,Q. Late Neoproterozoic–Cambrian eclogites and high-pressure granulites in the Central Qilian terrane (China) record the earliest subduction of Proto-Tethyan Ocean in the eastern Tethysides[J]. Journal of Metamorphic Geology,2023.

13. Wang,H.,Xiao,W.,Li,R.,Chen,H.,Tan,Z.,Mao,Q.,& Shi,M. High-grade complexes record the Late Permian-Middle Triassic arc metamorphism in the southernmost Altaids: Implications for the final closure of the Paleo-Asian Ocean[J]. Lithos,2023,442-443.

14. Wang,M.,Mao,Q.,Xiao,W.,Yang,H.,Wang,H.,& Li,R. Discovery of Neoproterozoic adakitic rocks in the Eastern Tianshan (NW China) of the southern Altaids[J]. International Journal of Earth Sciences,2023,112(3),981-997.

15. Mao,Q.,Ao,S.,Windley,B. F.,Song,D.,Sang,M.,Tan,Z.,Wang,H.,Li,R.,& Xiao,W. Late Paleozoic Southward Migration of the Dananhu Arc in the Eastern Tianshan (NW China) [J]. Earth and Space Science,2022,9(3),e2021EA002027.

16. Mao,Q.,Ao,S.,Windley,B. F.,Zhang,Z.,Sang,M.,Tan,Z.,Wang,H.,Li,R.,Xiao,W.,& Pan,Z. Middle−Late Triassic southward-younging granitoids: Tectonic transition from subduction to collision in the Eastern Tianshan−Beishan Orogen,NW China[J]. GSA Bulletin,2022.

17. Mao,Q.,Xiao,W.,Ao,S.,Li,R.,Wang,H.,Tan,Z.,& Tan,W. Late Devonian to early Carboniferous roll-back related extension setting for the Tuwu-Yandong porphyry copper metallogenic belt in the Dananhu arc of the eastern Tianshan (NW China) in the southern Altaids[J]. Ore Geology Reviews,2022,149,105060.

18. Mao,Q.,Xiao,W.,Buckman,S.,Huang,P.,Ao,S.,Song,D.,Zhang,J. e.,Sang,M.,Tan,Z.,Wang,H.,& Li,R. Deformational History of the Kanguer Subduction Complex in the Eastern Tianshan (NW China):Implications for Paleozoic‐Triassic Multiple Accretionary Tectonics of the Southern Altaids[J]. Tectonics,2022,41(11).

19. Mao,Q.,Xiao,W.,Wang,H.,Ao,S.,Windley,B. F.,Song,D.,Sang,M.,Tan,Z.,Li,R.,& Wang,M. Prolonged Late Mesoproterozoic to Late Triassic Tectonic Evolution of the Major Paleo-Asian Ocean in the Beishan Orogen (NW China) in the Southern Altaids[J]. Frontiers in Earth Science,2022,9.

20. Tan,Z.,Xiao,W.,Mao,Q.,Wang,H.,Sang,M.,Li,R.,Gao,L.,Guo,Y.,Gan,J.,Liu,Y.,& Wan,B. Final closure of the Paleo Asian Ocean basin in the early Triassic[J]. Communications Earth & Environment,2022,3(1),259.

21. Wang,M.,Xiao,W.,Mao,Q.,Yang,H.,Wang,H.,& Li,R. Episodic Paleozoic Adakitic Magmatism in the Eastern Tianshan,Southern Altaids: Implications for Petrogenesis and Geodynamics[J]. Acta Geologica Sinica - English Edition,2022,96(4),1136-1149.

22. Chen,Y.,Zhang,J. E.,Xiao,W.,Zhou,R.,Song,S.,Zhang,Z.,Ao,S.,Sang,M.,Zhang,Q. W. L.,Li,R.,Li,Z. M. G.,Liu,Y.,Zhang,H. C. G.,Liu,J.,& Wu,C. Late Silurian to early Devonian development of the Chingiz accretion arc,West Junggar: insights into accretion arc evolution in the Central Asia Orogenic Belt[J]. International Geology Review,2021,63(17),2083-2103.

23. Song,D.,Xiao,W.,Windley,B. F.,Mao,Q.,Ao,S.,Wang,H. Y. C.,& Li,R. Closure of the Paleo-Asian Ocean in the Middle-Late Triassic (Ladinian-Carnian):Evidence From Provenance Analysis of Retroarc Sediments[J]. Geophysical Research Letters,2021,48(14),e2021GL094276.

24. Mao,Q.,Ao,S.,Song,D.,Xiao,W.,Windley,B. F.,Sang,M.,Tan,Z.,Wang,H.,& Li,R. Silurian to early Permian slab melting and crustal growth in the southern Altaids: insights from adakites and associated mineral deposits in the Dananhu arc,Eastern Tianshan,NW China[J]. International Journal of Earth Sciences,2021,110(6),2115-2131.

25. Borbugulov,E.,Chen,Y.,Xiao,W.,Windley,B. F.,Schulmann,K.,Zhang,J. e.,Zhang,Z.,Song,S.,Li,R.,& Sang,M. Late Carboniferous southward migration of Tarbagatay subduction–accretion complex by slab retreat and break-off in West Junggar (NW China) [J]. Geological Journal,2020,55(1),11-30.

26. Song,S.,Xiao,W.,Windley,B. F.,Collins,A. S.,Chen,Y.,Zhang,J. e.,Schulmann,K.,Han,C.,Wan,B.,Ao,S.,Zhang,Z.,Song,D.,& Li,R. Late Paleozoic Chingiz and Saur Arc Amalgamation in West Junggar (NW China):Implications for Accretionary Tectonics in the Southern Altaids[J]. Tectonics,2020,39(7),e2019TC005781.

27. Aouizerat,A.,Xiao,W.,Schulmann,K.,Jeřábek,P.,Monié,P.,Zhou,J.-B.,Zhang,J.,Ao,S.,Li,R.,Li,Y.,& Esmaeili,R. Structures,strain analyses,and 40Ar/39Ar ages of blueschist-bearing Heilongjiang Complex (NE China):Implications for the Mesozoic tectonic evolution of NE China[J]. Geological Journal,2019,54(2),716-745.

28. Bhandari,S.,Xiao,W.,Ao,S.,Windley,B. F.,Li,R.,& Esmaeili,R. Detrital geochronology of the Gondwana sequence of the Lesser Himalaya of the Nepal Himalaya[J]. Geological Journal,2019,54(6),3909-3920.

29. Bhandari,S.,Xiao,W.,Ao,S.,Windley,B. F.,Zhu,R.,Li,R.,Wang,H. Y. C.,& Esmaeili,R. Rifting of the northern margin of the Indian craton in the Early Cretaceous: Insight from the Aulis Trachyte of the Lesser Himalaya (Nepal) [J]. Lithosphere,2019,11(5),643-651.

30. Yang,L.,Xiao,W.,Julleh Jalalur Rahman,M.,Windley,B. F.,Schulmann,K.,Ao,S.,Chen,Z.,& Li,R. Provenance of the Cenozoic Bengal Basin sediments: Insights from U–Pb ages and Hf isotopes of detrital zircons[J]. Geological Journal,2019,54(2),978-990.

31. Chen,Y.,Xiao,W.,Windley,B. F.,Zhang,J. e.,Sang,M.,Li,R.,Song,S.,& Zhou,K. Late Devonian-early Permian subduction-accretion of the Zharma-Saur oceanic arc,West Junggar (NW China):Insights from field geology,geochemistry and geochronology[J]. Journal of Asian Earth Sciences,2017,145,424-445.

32. Xiao,W.,Ao,S.,Yang,L.,Han,C.,Wan,B.,Zhang,J. E.,Zhang,Z.,Li,R.,Chen,Z.,& Song,S. Anatomy of composition and nature of plate convergence: Insights for alternative thoughts for terminal India-Eurasia collision[J]. Science China Earth Sciences,2017,60(6),1015-1039.