杨天南

杨天南  男，研究员

研究方向：造山过程涉及的构造样式时空变化、变形分解、应变分布规律以及与板块运动间的联系；造山带盆地同沉积变形、成矿。

Add：北京市西城区阜外百万庄大街26号地质研究所，100037

Tel： 010-68999722      E-mail：

1. T. N. Yang, J. L. Chen et al., 2023. Multiple Volcanisms in the Kermanshah Forearc Basin, SW Iran: Deactivation and Reinitiation of the Neotethyan Subduction. Journal of the Geological Society. 180(1), DOI: 10.1144/jgs2022-028

2. M. J. Liang, T. N. Yang et al., 2022. Complete deformation history of the transition zone between oblique and orthogonal collision belts of the SE Tibetan Plateau: Crustal shortening and rotation caused by the indentation of India into Eurasia. Journal of Structural Geology 156 (2022) 104545.

3. T. N. Yang, Z. Yan, et al., 2021. India Indenting Eurasia: A Brief Review and New Data from the Yongping Basin on the SE Tibetan Plateau. Geosciences, 11, 518. https://doi.org/10.3390/geosciences11120518.

4. C. Liao, T. N. Yang et al., 2020. Eocene Basins on the SE Tibetan Plateau: Markers of Minor Offset along the Xuelongshan–Diancangshan–Ailaoshan Structural System. Acta Geologica Sinica (English Edition), 94(4): 1020–1041.

5. 杨天南, 薛传东, 信迪, 梁明娟, 廖程, 2019西南三江造山带古特提斯弧岩浆岩的时空分布及构造演化新模型. 岩石学报，35( 5) : 1324-1340，doi:10. 18654 /1000-0569 /2019. 05. 02。

6. T. N. Yang, J.L. Chen et al., 2018. Two plutonic complexes of the Sanandaj-Sirjan magmatic-metamorphic belt record Jurassic to Early Cretaceous subduction of an old Neotethys beneath the Iran microplate. Gondwana Research 62 (2018) 246–268.

7. D. Xin, T. N. Yang et al., 2018. Syn-subduction crustal shortening produced a magmatic flare-up in middle Sanjiang orogenic belt, southeastern Tibet Plateau: Evidence from geochronology, geochemistry, and structural geology. Gondwana Research 62 (2018) 93–111.

8. T. N. Yang, J.Y. Li et al., 2015. Early Permian mantle–crust interaction in the south-central Altaids: High-temperature metamorphism, crustal partial melting, and mantle-derived magmatism. Gondwana Research 28: 371–390.

9. T. N. Yang, M.-J. Liang, J.-W. Fan, P.-L. Shi, H.R. Zhang, 2014. Two-phase subduction and subsequent collision defi nes the Paleotethyan tectonics of the southeastern Tibetan Plateau: Evidence from zircon U-Pb dating, geochemistry, and structural geology of the Sanjiang orogenic belt, southwest China. GSA Bulletin, doi:10.1130/B30921.1.

10. T. N. Yang, J.Y. Li, M.J. Liang, Y. Wang. 2014. Early Permian mantle–crust interaction in the south-central Altaids: High-temperature metamorphism, crustal partial melting, and mantle-derived magmatism. Gondwana Research, http://dx.doi.org/10.1016/ j.gr.2014. 05.003.

11. T. N. Yang, M.-J. Liang, J.-W. Fan, P.-L. Shi, H.R. Zhang, Z.-H. Hou. 2013. Paleogene sedimentation, volcanism, and deformation in eastern Tibet: Evidence from structures, geochemistry, and zircon U–Pb dating in the Jianchuan Basin, SW China. Gondwana Research，doi: 10.1016/j.gr.2013.07.014.

12. T. N. Yang, Z.Q. Hou, Y. Wang et al., 2012. Late Paleozoic to Early Mesozoic tectonic evolution of northeast Tibet: Evidence from the Triassic composite western Jinsha-Garzê-Litang suture. Tectonics, Vol. 31, TC4004, doi: 10.1029/2011TC003044.

13. T. N. Yang, H. R. Zhang, Y.X. Liu et al., 2011. Permo-Triassic arc magmatism in central Tibet: evidence from zircon U–Pb geochronology, Hf isotopes, rare earth elements, and bulk geochemistry. Chemical Geology. 284: 270–282.

14. T. N. Yang, J.Y. Li and J. Zhang, 2011. The Altai-Mongolia terrane in the Central Asian Orogenic Belt (CAOB): a peri-Gondwana one? Evidence from zircon U-Pb, Hf isotopes and REE abundance. Precambrian Research, 187: 79–98.

15. T. N. Yang, Y. Peng., Leech, M., and  H.Y. Lin, 2011. Fold patterns indicating Triassic constrictional deformation on the Liaodong peninsula, eastern China, and tectonic implications. Journal of Asian Earth Sciences 40: 72–83.

16. T.  N. Yang; J. Y. Li; Y. Wang Y.; X. Dang, 2010. Late Early Permian (266 Ma) N–S compressional deformation of the Turfan basin, NW China: the cause of the change in basin pattern. International Journal of Earth Science, DOI 10.1007/s00531-008-0396-y

17. T. N. Yang, Zeng L.S., Zhao Z.R. and Liou, J.G., 2008, Retrograde reactions of an ultrahigh-pressure metamorphic spinel pyroxenite lens, northeastern Sulu UHP terrane, eastern China, International Geological Review, 50 (1), 32-47.

18. T. N. Yang, Wang, Y., Li J.Y., Sun G.H., 2007. Vertical and Horizontal strain partitioning of Central Tianshan, NW China: Evidence from Structure and Ar/Ar geochronology. Journal of Structural Geology, 29: 1605-1621.

19. T. N. Yang, Zeng L., and Liou J. G., 2005, Mineral evolution of a garnet-pyroxenite nodule within eclogite, eastern Sulu ultrahigh-pressure metamorphic terrane, east China. Journal of Metamorphic Geology, 23: 667-680.

20. T. N. Yang, Xu, Z.Q., and Leech, M., 2004. Mass balance during retrogression of eclogite-facies minerals in the Rongcheng eclogite, eastern Sulu ultrahigh-pressure terrane, China. American Mineralogist，89, 1525-1532.

21. T. N. Yang, 2004, Retrograded textures and associated mass transfer: evidence for aqueous fluid action during exhumation of Qinglongshan eclogite, Southern Sulu ultrahigh pressure metamorphic terrane, eastern China. Journal of Metamorphic Geology, 22: 653-669.