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1.Martinelli G, Pierotti L, Facca G, and Gherardi F. (2023). Geofluids as a possible unconventional tool for seismic hazard assessment. Front. Earth Sci. 2023, 11:1286817.

2.Martín-González F, Crespo-Martín C, Cesca S, González-Mu?os S. (2023). Understanding seismicity and seismotectonics in a stable continental region (NW Iberian Peninsula): Implications for the nature of intraplate seismicity. Glob Planet Change. 227: 104177.

3.YAS?N, D?DEM and YüCE, GAL?P (2023) "Isotope and hydrochemical characteristics of thermal waters along the active fault zone (Erzin-Hatay/Turkey) and their geothermal potential," Turkish Journal of Earth Sciences, 2023, 32 (6): 2.

4.Caracausi A, Camarda M, Chiaraluce L, De Gregorio S, Favara R, Pisciotta F A. (2023). A novel infrastructure for the continuous monitoring of soil CO2 emissions: A case study at the Alto Tiberina Near Fault Observatory in Italy. Front. Earth Sci. 2023,

5.Buttitta D. Capasso G., Paternoster M. Barberio M.D., Gori F., Petitta., Picozzi M., Caracausi A (2023) Regulation of deep carbon degassing by gas-rock-water interactions in a seismic region of Southern Italy. Science of The Total Environment, 897, 165367,

6.Li Y, Chen Z, Sun AH, Liu ZF, Caracausi A, Martinelli Giovanni, Lu C. (2023). Geochemical features and seismic imaging of the tectonic zone between the Tibetan Plateau and Ordos Block, central northern China. Chemical Geology, 622, 121386.

7.Ding Z, Zhou X*, Wang C*, Li J, He M, Tian J, Saimaiernaji K, Zhu C, Yan W, Ma R, Li X, Li N, Liang H, Zhang T, Dong J. (2023). Hydrogeochemical characterization and precursor anomalies of hot springs in the North Tianshan orogen. Applied Geochemistry, 158:105813.

8.Tian J, Stefánsson A, Li Y, Li L, Xing L, Li Z, Li Y, Zhou X. (2023). Geochemistry of thermal fluids and the genesis of granite-hosted Huangshadong geothermal system, Southeast China. Geothermics, 2023, 109: 102647.

9.Liu J, Zhou X*, Li Y*, He M, Li J, Dong J, Tian J, Yan Y, Ouyang S and Liu F. (2023). Relationship between hydrogeochemical characteristics of hot springs and seismic activity in the Jinshajiang fault zone, Southeast Tibetan Plateau. Front. Earth Sci. 2023, 10:1015134.

10.He P, Zhang H, Li S, Zhou X, Zhou X*, He M, Tian J, Zhang Y, Wu Z, Chen T, Liu Y, Aldahan A, Huang Y*. Geological and hydrochemical controls on water chemistry and stable isotopes of hot springs in the Three Parallel Rivers Region, southeast Tibetan Plateau: The genesis of geothermal waters. Science of The Total Environment, 2024, 906: 167648.

11.Bai Y, Shi Z*, Zhou X*, Wu C, Wang G, He M, Li J, Dong J, Tian J, Yan Y, Liu F, Ouyang S, Yao B, Wang Y, Zeng Z, Kong X. (2023). Gas geochemical evidence for the India-Asia lithospheric transition boundary near the Karakorum fault in western Tibet. Chemical Geology, 639:121728.

12.Zhang F, Li Y*, Zhou X*, Huang T, Tian J, Cheng Y, Zhao Y. (2023). Geochemical behaviors of rare earth elements in granite-hosted geothermal systems in SE China. Geothermics, 115:102826.

13.Luo Z B, Zhou X C, He M, Liang J L, Li J C, Dong J Y, Tian J, Yan Y C, Li Y, Liu F L, Ouyang S P, Liu K Y, Yao B Y, Wang Y W, Zeng Z J. (2023). Earthquakes evoked by lower crustal flow: Evidence from hot spring geochemistry in Lijiang-Xiaojinhe fault. Journal of Hydrology, 619, 129334.

14.Tian J, Zhou X C, Yan Y C, He M, Li J C, Dong J Y, Liu F L, Ouyang S P, Li Y, Tian L, Wang Y C, Huang T M, Pang Z H. (2023). Earthquake-induced imulsive release of water in the fractured aquifer system: Insights from the long-term hydrochemical monitoring of hot springs in the Southeast Tibetan Plateau. Applied Geochemistry, 148, 105553.

15.Tang J, Zhou X C, Zhang Y X, Tian J, H M, Li J C, Dong J Y, Yan Y C, Liu F L, Ouyang SP, Liu K Y. (2023). Hydrogeochemistry of Fault-Related Hot Springs in the Qaidam Basin, China. Applied Sciences, 13(3), 1415.

16.Liu F L, Zhou X C, Dong J Y, Yan Y C, Tian J, Li J C, Ouyang S P, H M, Liu K Y, Yao B Y, Wang Y W, Zeng Z J, Li Y. (2023). Soil gas CO2 emissions from active faults: A case study from the Anninghe- Zemuhe Fault, Southeastern Tibetan Plateau, China. Frontiers in Earth Science, 1117862.

17.Sun Y T, Zhou X C, H M, Yan Y C, Tian J, Li J C, Dong J Y, Zhang Y. (2023). Geochemical characteristics and water quality assessment of trace elements in geothermal srings in the Gulu-Yadong rift, Tibetan Plateau. Geothermics, 111, 102720.

18.Wang Y C, Zhou X C, Tian J, Zhou J L, H M, Li J C, Dong J Y, Yan Y C, Liu F L, Yao B Y, Wang Y W, Zeng Z J, Liu K Y, Li L W, Li Z P, Xing L T. (2023). Volatile characteristics and fluxes of He-CO2 systematics in the southeastern Tibetan Plateau: Constraints on regional seismic activities. Journal of Hydrology, 617, 129042.

19.Zhao D Y, Zhou X C, Zhang Y X, H M, Tian J, Shen J F, Li Y, Qiu G L, Du F, Zhang X M, Yang Y, Zeng J, Rui X L, Liao F, Guan Z J. (2023). Hydrogeochemical Study of Hot Srings along the Tingri-Nyima Rift: Relationshi between Fluids and Earthquakes. Water, 15(8), 1634.

20.Liu Z, Chen Z, Li Y, Du P, Zhao Y, Lei L, Lu C, Huangfu R. (2023). Degassing of soil gas radon and its implication to fault activity in the western margin of the Ordos Block, China. Terra Nova, 1–10.

21.Wang S, Zhou X, Tian J, He M, Li J, Dong J, Li L, Li Z, Xing L, Zheng G. (2023) Constraints on geological structures and dynamics along the Tian Shan-Pamir orogenic belt with helium isotopes in hot springs. Applied Geochemistry, 105859.

22.Du G, Su S, Chang X, Ren H, Huo Z Zhang X (2023), Hydrogeochemical characteristics and genesis of Hongshuilantang Hot Spring and its water temperature anomalies during the Rushan earthquake swarm in Eastern China. Front. Earth Sci. 10:1088240.