Ala, M. A., 1974. Salt diapirism in southern Iran. Am. Assoc. Geological Bulletin. 58, 758–70.
Alavi, M., 1994. Tectonics of the Zagros orogenic belt of Iran: new data and interpretations. Tectonophysics. 229, 211–238.
Alavi, M., 2004. Regional stratigraphy of the Zagros Fold-Thrust Belt of Iran and its proforeland evolution. American Journal of Science. 304, 1–20.
Alipour, M., Alizadeh, B., & Mirzaie, S., 2022. Petroleum system analysis of the Paleozoic series in the Fars Platform of Iran. Journal of Petroleum Sciences and Engineering. 208, 109557.
Allen, M. B., Jackson, J., & Walker, R., 2004. Late Cenozoic reorganization of the Arabia-Eurasia collision and comparison of the short-term and long-term deformation rates. Tectonics. 23, 639–654.
Al-Siyabi, H. A., 2005. Exploration history of the Araintrasalt carbonate stringers in the South Oman Salt Basin. Geologia Arabia. 10, 39–72.
Bahroudi, A., 2003. The effect of mechanical characteristics of basal decollement and basement structures on deformation of the Zagros Basin. Ph.D. Thesis, Uppsala University, pp. 223.
Berberian, M., & King, G. C. P., 1981. Towards a paleogeography and tectonic evolution of Iran. Canadian Journal of Earth Sciences. 18, 210–265.
Beydoun, Z. R., Hughes, M. W., & Stoneley, R., 1992. Petroleum in the Zagros basin: a late Tertiary foreland basin overprinted onto the outer edge of the vast hydrocarbon-rich Paleozoic-Mesozoic passive margin shelf. Am Assoc. Geological Bulletin. 55, 307–336.
Bosák, P., Jaros, J., Spudil, J., Sulovsky, P., & Vaclavek, V., 1998. Salt diapirs in the Eastern Zagros, Iran: results of regional geological reconnaissance. Inst. Geological Academic Sciences. Czech Repub. 7, 3–174.
Burton, Z. F. M., &Dafov, L. N., 2023. Salt diapir-driven recycling of gas hydrate. Geochem. Geophys. Geosyst. 24, e2022GC010704.
Callot, J. P., Trocme, V., Letouzey, J., Albouy, E., Jahani, S., & Sherkati, Sh., 2012. Preexisting salt structures and the folding of the Zagros Mountains. Geological Society of London. 363, 545–561.
Edgell, H. S., 1996. Salt tectonism in the Persian Gulf basin. In G. I. Alsop, D. Blundell, & I. Davison (Eds.), Salt Tectonics (Special Publications, 100, pp. 129–151). Geological Society, London.
Elliott, J., Watson, A., Lazecky, M., Maghsoudi, Y., McGrath, J., & Payne, J., 2024. An InSAR-GNSS velocity field for Iran. Copernicus Meetings.
Faghih, A., Dehghan, M., & Sobhani, S. S., 2023. Study of deformation pattern and kinematic characteristics in the Gelmandeh metamorphic complex, Saghand region, Central Iran. Advanced Applied Geology. 12(4), 617–634.
Fossen, H., 2016. Structural Geology. Cambridge University Press, 567 pp.
Geiger, S., Driesner, T., Heinrich, C. A., &Mattha, S. K., 2006. Multiphase thermohaline convection in the Earth’s crust: II. Benchmarking and application of a finite element-finite volume solution technique with a NaCl–H2O equation of state. Transp Porous Media. 63, 435–461.
Haynes, S. J., & McQuillan, H., 1974. Evolution of the Zagros Suture zone, southern Iran. Geological Society of America Bulletin. 85, 739–744.
Heinze, T., 2021. Constraining the heat transfer coefficient of rock fractures, Renewable Energy. 177, 433-447.
Hughes, J. D., & Sanford, W. E., 2004. SUTRA - MS: a version of SUTRA modified to simulate heat and multiple-solute transport. US GeolSurv Open-File Rep. 1207, 152.
Hudec, M. R., & Jackson, M. P. A., 2007. Terra Infirma: understanding salt tectonics. Earth Sci. Rev, 82, 1–28.
Husseini, M. I., & Husseini, S. I., 1990. Origin of the Infra-Cambrian salt basin of the Middle East.In J. Brooks (Ed.), Classic Petroleum Provinces (Vol. 50, pp. 279–292). Geological Society, London, Special Publication.
Jackson, M. P. A., & Hudec, M. R., 2017. Salt tectonics: principles and practice. Cambridge University Press, 518 pp.
Jackson, M. P. A., & Talbot, C. J., 1986. External shapes, strain rates and dynamics of salt structures. Geol. Soc. Am. Bull. 97, 305–328.
Jahani, S., Callot, J. P., Letouzey, J., & Frizon de Lamotte, D., 2009. The eastern termination of the Zagros fold and thrust belt (Iran): relationship between salt diapirs, folding and faulting. Tectonics. 28. http://dx.doi.org/10.1029/2008TC002418.
Jahani, S., Callot, J. P., Frizon de Lamotte, D., Letouzey, J., &Leturmy, P., 2007. The salt diapirs of the eastern Fars province (Zagros, Iran): a brief outline of their past and present. In O. Lacombe, J. Lavé, F. Roure, & J. Vergés (Eds.), Thrust Belt and Foreland Basin (pp. 289–308). Springer Berlin Heidelberg.
Juan, C., Jimenez-Munoz, J., Sobrino, A., Skokovic, D., Mattar, C., & Cristobal, J., 2014. Land surface temperature retrieval methods from Landsat-8 thermal infrared sensor data. IEEE Geoscience and Remote Sensing Letters, 11(10).
Kent, P. E., 1970. The salt diapirs of the Persian Gulf region. Trans. Leic. Lit. Philos. Soc., 64, 56–88.
Kent, P. E., 1979. The emergent Hormuz salt diapirs of southern Iran. J. Pet. Geol. 2, 117–144.
Keshavarz, S., & Faghih, F., 2020. Heterogeneous sub–simple deformation in the Gol–e–Gohar shear zone (Zagros, SW Iran): insights from microstructural and crystal fabric analyses. International Journal of Earth Sciences. 109, 421–438. DOI: 10.1007/s00531-019-01812-9.
Keshavarz, S., Faghih, A., Asadi, S., Soleimani, M., & Zarei, S., 2024. PT conditions of deformation of the Gol-e-Gohar shear zone, SW Iran: Insights from analysis of quartz c-axis fabrics, recrystallization mechanisms and syndeformational fluid inclusions. Journal of Asian Earth Sciences. 262, 106010.
Lacombe, O., Mouthereau, F., Kargar, S., & Meyer, B., 2006. Late Cenozoic and modern stress fields in the western Fars (Iran): implications for the tectonic and kinematic evolution of central Zagros. Tectonics, 25.
Mohajjel, M., Fergusson, C. L., & Sahandi, M. R., 2003. Cretaceous–Tertiary convergence and continental collision, Sanandaj–Sirjan Zone, western Iran. Journal of Asian Earth Sciences. 21, 397–412.
Motamedi, H., Sepehr, M., Sherkati, Sh., & Pourkermani, M., 2011. Multi-phase Hormuz salt diapirism in the Southern Zagros, SW Iran. J. Pet. Geol. 34, 29–44.
Nance, R. D., Gutierrez-Alonso, G., Keppie, J. D., Linnemann, U., Murphy, J. B., Quesada, C., Strachan, R. A., & Woodcock, N. H., 2010. Evolution of the Rheic Ocean. Gondwana Research. 17, 194–222.
Player, R. A., 1969. The Hormuz Salt Diapirs of Southern Iran. Ph.D. Thesis, Reading University, pp. 300.
Rajeshwari, A.1, Mani, N. D., 2014. Estimation of Land Surface Temperature, Of Dingdigul District Using Landsat 8 data, IJRET: International Journal of Research in Engineering and Technology. 2319-1163, doi: 10.15623/ijret.2014.0305025.
Ranganathan, V., 1992. Basin dewatering near salt domes and formation of brine plumes. J. Geophys. Res. 97, 4667–4683.
Rangzan, K., Kabolizadeh, M., Karimi, D., & Zareie, S., 2019. Supervised cross-fusion method: a new triplet approach to fuse thermal, radar, and optical satellite data for land use classification. Environ. Monit. Assess. 191, 48.
Rangzan, K., Kavosi, F., Samani, B., & Saberi, A., 2016. Evaluating heat flow anomalies in Jahani, Konar-e Siah and Khorab salt domes structure using OLI and TIRS sensors images of Landsat 8. Journal of Advance Applied Geology. 25, 35–48.
Reutter, H., Olesen, F-S., Fischer, H., 1994. Distribution of the brightness temperature of land surfaces determined from AVHRR data, Remote Sensing. 15 (1), 95-104, doi:10.1080/01431169408954053.
Sepehr, M., & Cosgrove, J. W., 2005 .Role of the Kazerun fault zone in the formation and deformation of the Zagros Fold-Thrust Belt, Iran. Tectonics, 24.
Shami, S., Shahriari, M. A., Nilofouroushan, F., Forghani, N., Salimi, M., & Reshadi, M. A. M., 2024. Surface displacement measurement and modeling of the Shah-Gheyb salt dome in southern Iran using InSAR and machine learning techniques. International Journal of Applied Earth Observation and Geoinformation. 132, 104016.
Shaouhua, Z., Qiming. Q., Yonghui, Y., Yujiu, X., Guoyu, Q., 2009. Comparison og two SplitWindow Mehtods for Retrieving Land Surface Temperature from MODIS Data , Journal of Earth Syst. Science, Vol.118, (4), 345-353, doi: 10.1007/s12040-009-0027-4.
Stöcklin, J., 1968. Structural history and tectonics of Iran: A review. American Association of Petroleum Geologists Bulletin. 52, 1229–1258.
Stöcklin, J., 1974. Possible ancient continental margins in Iran. In C. A. Burk & C. L. Drake (Eds.), The Geology of Continental Margins (pp. 873–887). Springer, New York.
Talbot, C. J., 1998. Extrusions of Hormuz salt in Iran. In D. J. Blunderll& A. C. Scott (Eds.), Lyell: The Past is the Key to the Present (Vol. 143, pp. 315–334). Geological Society, London, Special Publication.
Talbot, C. J., & Alavi, M., 1996. The past of a future syntaxis across the Zagros. In G. I. Alsop, D. J. Blunderll, & I. Davison (Eds.), Salt Tectonics (Vol. 100, pp. 89–109). Geological Society, London, Special Publication.
Talbot, C. J., Stanley, W., Soub, R., & Al-Sadoun, N., 1996. Epitaxial salt reefs and mushrooms in the southern Dead Sea. Sedimentology. 43, 1025–1047.
Talebian, M., & Jackson, J., 2002. Offset on the Main Recent Fault of NW Iran and implications for late Cenozoic tectonics of the Arabia–Eurasia collision zone. Geophysical Journal International. 150, 422–439.
Thorne, D., Langevin, C. D., & Sukopc, M. C., 2006. Addition of simultaneous heat and solute transport and variable fluid viscosity to SEAWAT. J. Comput. Geosci. 32, 1758–1768.
Vernant, P., Nilforoushan, F., Hatzfeld, D., Abbasi, M. R., Vigny, C., Masson, F., Nankali, H., Martinod, J., Ashtiani, A., Bayer, R., Tavakoli, F., & Chery, J., 2004. Present-day crustal deformation and plate kinematics in the Middle East constrained by GPS measurement in Iran and northern Oman. International Journal of Geophysics. 157, 381–398.
Younes, A., 2003. On modeling the multidimensional coupled fluid flow and heat or mass transport in porous media. Int. J. Heat Mass Tran. 46, 367–379.
Zareie, S., Kabolizadeh, M., 2020. The natural resources potential assessing aimed at territorial planning using time-varying space data of vegetation index and LST. Environ. Monit. Assess. 192, 503.
Zareie, S., Khosravi, H., Nasiri, A., & Dastorani, M., 2016. Using Landsat Thematic Mapper (TM) sensor to detect change in land surface temperature in relation to land use change in Yazd, Iran. Solid Earth. 7, 1551–1564.