ispg-202605282120260528214322CMV Verlagkhoffmann@cmv-verlag.comCMV VerlagIranian Journal of Petroleum Geologyispg2251-873811620251428Seyed Ehsan EbrahimiBahmanSoleimani116202511810.66224/ispg.44365.14.28.1http://journal.ispg.ir/en/Article/44365http://journal.ispg.ir/en/Article/Download/44365http://journal.ispg.ir/en/Article/Download/44365http://journal.ispg.ir/en/Article/Download/44365http://journal.ispg.ir/en/Article/Download/44365http://journal.ispg.ir/en/Article/Download/44365http://journal.ispg.ir/en/Article/Download/44365http://journal.ispg.ir/en/Article/Download/44365 [1]رضایی،م.ر.، 1384، زمین شناسی نفت، چاپ دوم، سازمان آموزشی و انتشاراتی فرهیختگان علوی،410. [2]عزیزی، ا.، خطیب، م.م.، و قربانی، قشقایی، ا.، 1390، تحلیل چین خوردگی مرتبط با گسلش پنهان در میدان نفتی کرنج. زمین شناسی ایران، 5(18)، 31-40. https://sid.ir/paper/129514/fa. [3]قلاوند، ه.، شایسته، م.، سراج، م.، صنوبر لیماکشی، ع.، 1384، مطالعه هیدرودینامیک و هیدروشیمی سازند آسماری در ناحیه فروافتادگی دزفول، 128 صفحه. [4]گروه مطالعات، 1356، مطالعه جامع زمین شناسی مخز ن آسماری میدان کرنج، گزارش شماره پ- گزارش شماره پ – 3365)، شرکت ملی نفت ایران، مناطق نفت خیز جنوب، اداره کل زمین شناسی گسترشی اهواز. [5]گروه مطالعات، 1375، مطالعه جامع زمین شناسی مخز ن آسماری میدان کرنج، گزارش شماره پ-4621، شرکت ملی نفت ایران، مناطق نفت خیز جنوب، اداره کل زمین شناسی گسترشی اهواز. [6]گروه مطالعاتی، 1382، مطالعه جامع میدان، اداره مطالعات مهندسی مخزن، مناطق نفتخیز جنوب. [7]مطیعی،ه.، 1374، زمین شناسی نفت زاگرس 1و2، سازمان زمین شناسی کشور، 1009. [8]وطن دوست، م.، فقیه، ع.، عظیم زاده، ه.م.، 1397، مدلسازی دو بعدی سیستم های نفتی در میادین کرنج، پرنج، پارسی (فروافتادگی دزفول جنوبی)، چهارمین همایش انجمن رسوب شناسی ایران با تاکید بر مخازن هیدروکربنی، 2-3 آبانماه 97، 9صفحه. [9]ABDALLA, A., 2018, The Application of GIS in Petroleum Geology. Conference: Petroleum Refinery 2018At: Abu Dhabi, UAE. [10]ADAMSON, G., CRICK, M., B., GURPINAR, O., HARDIMAN, J., PONTING, D., 1996, Simulation throughout the life reservoir. Oilfield Review, 8 (2), 16-27. [11]AKBARI AGHDAM, K. AND GHORASHI, S.S., 2017, Critical parameters affecting water alternating gas (WAG) injection in an Iranian fractured reservoir. Journal of Petroleum Science and Technology, 7(3), 03-14. [12]ASAVIN, A.M., 2001, GIS methodic and new database for magmatic rocks. Application for Atlantic Oceanic Magmatism. American Geophysical Union, Fall Meeting 2001, abstract id. OS11B-0370. [13]Baardsen, H., Nilsen, V., and Hove, A.O., 1990, quality control of water floods on heterogeneses core samples …computer tomography, Advances in core evaluation: Accuracy and precision in reserves estimation cist soc.core.aanal.Europe core anal. Symp./p.347-363. [14]BADEA, M., NEDELCU, E., POP, M., 2009, GIS aids petroleum exploration and Reservoir analysis in Romania. ESRI Arck watch 2009, 3p. [15]BAKER, R.O., YARRANTON, H.W., JENSEN, J.L., 2015, 8-Special core analysis—rock–fluid interactions. 239-295. https://doi.org/10.1016/B978-0-12-801811-8.00008-0 in: Practical Reservoir Engineering and Characterization, Gulf Professional Publishing, 521p. [16]BARRELL, K. A., 2000, GIS: The exploration and exploitation tool, in T. C. Coburn and J. M. Yarus, eds., Geographic information systems in petroleum exploration and development. AAPG Computer Applications in Geology, No. 4, p. 237–248. [17]BOUILLÉ, F., 1997, The Use of G.I.S. in petroleum industry for oil exploration and production. In: Bardinet, C., Royer, JJ. (eds) Geosciences and Water Resources: Environmental data modeling. Data and knowledge in a changing world. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-60627-4_25. [18]BUELT, J., WELLACCE, C., ANDERSON, T., and CEPEDA, M., 2008, Novel approach to mapping helps DOE research oil field, petroleum GIS prospects. ESRI-,8p.(www.esri.com/myesrinews). [19]CRAFT, B.C., and HAWKINS, M.F., 1991, Applied petroleum reservoir engineering,2nd ed, Prentice Hall, 425P. [20]CULLICK, A.S., and HAZLETT, R.D., 1991, Oil recovery process for use in fractured reservoir. Mobil oil corp., E 21 B-043, 22, E21B-P49100, 11P. [21]DEHBANZADEH, S.S., ASADI, A.M., YAZDJERDI, K., AHMADI, V., & AZADMANESH, M., 2023, Analysis of Fractures in the Reservoir Rocks of the Karanj Oil Field in Southwest Iran. Solid Fuel Chem. 57, 519–537. https://doi.org/10.3103/S0361521923080025. [22]FAROUG ALI, S.M., and THOMAS, S., 1994, Field experience with chemical oil recovery methods.45th Annncim Petrol Soc. Et. Al. Tech, MTG. V.1.1 Cim No.99-0.3, 8pp. [23]FAYYAZ, Z., IQBAL, J., MEHBOOB, A., SABIR, M. AND JABBAR, A., 2016, Structural Investigation for Locating Petroleum Reservoirs Using Geoinformatics in Meyal, Potwar Region, Pakistan. International Journal of Geosciences, 7, 1345-1355. doi: 10.4236/ijg.2016.711098. [24]GHOSH, S., JOSHI, D., KIRAN, R., AGRAWAL, M., CHAKRABORTY, S.S., YADAV, R., KUMAR, A., 2023, A review of reservoir oil-water transition zone characterization and potential recovery methods. Geopersia, 13 (2),323-336. DOI: 10.22059/GEOPE.2023.350783.648689. [25]KHALILI, A., VAZIRI-MOGHADDAM, H., ARIAN, M., and SEYRAFIAN, A., 2021, Carbonate platform evolution of the Asmari Formation in the east of Dezful Embayment, Zagros Basin, SW Iran. Journal of African Earth Sciences, 181, 104229. doi:10.1016/j.jafrearsci.2021.104. [26]LLOYD, C.J., 1995, Managing Hydrocarbon injection at Judy Creek. J. Can. Petrol. Technol. 34 (2), 36-43. [27]LOVELY, N., FRIED, C., AND BOZEMAN, W., 2010, Early development cost scoping analysis using GIS, pug2010. [28]MCLAY, K., MUGGLI, R., MAZRUI, S., 2003, ArcGis in the oil and gas exploration workflow petroleum development Oman. 23rd annual ESRI International user conference, SanDiego. [29]MOORE, W.R., ZEE MA, Y., PIRIE, I., ZHANG, Y., 2016, Chapter 15 - Tight Gas Sandstone Reservoirs, Part 2: Petrophysical Analysis and Reservoir Modeling. 429-448. https://doi.org/10.1016/B978-0-12-802238-2.00015-8. In: Zeema, Y., and Holditch, S.A. (edt): Unconventional Oil and Gas Resources Handbook: Evaluation and development, Elsevier Inc. 536p. [30]MURPHY, P.K., AND WHEELER, A.J., 2016, A GIS-Based application of drainage basin analysis and geomorphometry in the submarine environment: The Gollum Canyon System, Northeast Atlantic, Chapter3, 30p. In: Bartlett, D., Celliers, L., (edt.), Geoinformatics for Marine and Coastal Management, 444p. [31]NAYLOR, M.A., AND SPRING, L.Y., 2001, Exploration strategy development and performance management: a portfolio-based approach. GeoArabia, 6 (4), 553-570. DOI: 10.2113/geoarabia0604553. [32]PATEL, R.S., BATYCKY, J. P., AND LAI, F., 1996 Oil re-injection: A maturing technology. Paper presented at the Annual Technical Meeting, Calgary, Alberta, June 1996. PETSOC-96-99. https://doi.org/10.2118/96-99. [33]QING, C.H.G., AND HERIPRACOYO, S., 2019, Oil & Gas industry mapping analysis with GIS approach: A Literature Review. Conference: 2019 7th International Conference on Cyber and IT Service Management (CITSM). DOI: 10.1109/CITSM47753.2019.8965340. [34]RAFIQUL ISLAM, M., 2014, Overview of Reservoir Simulation of Unconventional Reservoirs, Chapter 7. in Unconventional Gas Reservoirs: Evaluation, Appraisal, and Development. Gulf Professional Publishing, 620p. [35]RAN, Q., REN, D., WANG, Q., 2018, Chapter 1-Overview, In: Development dynamic description and forecast model of volcanic gas reservoirs. Gulf Professional Publishing, 1078p. [36]ROGERS, J.D. GRIGG, R.B., 2000, A literature analysis of the WAG injectivity abnormalities in the CO2 process. SPE/DOE Improved Oil Recovery symposium, Tulsa, USA. [37]SHAHEEN, M., SHAHBAZ, M., UR REHMAN, Z., SARSHAR AURANGZEB, M., 2010, Issues in interacting with GIS In hydrocarbon exploration industry. Journal of American Science, 6(7), 262-271. [38]SHERKATI, S., and LETOUZEY, J., 2004, Variation of structural style and basin evolutionin in the central Zagros Izeh zone and Dezful Embayment, Iran. Marine and Petroleum Geology, 21, 535–554. [39]VATANDOUST, M., FAGHIH, A., BURBERRY, C. M., & SHAFIEI, G., 2020, Structural style, and kinematic analysis of folding in the southern Dezful Embayment oilfields, SW Iran. Journal of Structural Geology, 103989. doi:10.1016/j.jsg.2020.103989. [40]WEI, L., and YAN, Q., 2010, The application of GIS technology in the petroleum exploration. The 2nd Conference on Environmental Science and Information Application Technology. DOI: 10.1109/ESIAT.2010.5567344. [41]WYLAND, J., and WRITER, E., 2009, Enhanced oil recovery revives petroleum field and reduces greenhouse gas emission. ArcWatch, Saltcreek. [42]XU, X., SHAO, Y., FU, J., SUN, Z., XU, X., 2013, The Application of GIS in the digital oilfield construction. Proceedings of the 2nd International Conference on Computer Science and Electronics Engineering (ICCSEE 2013), 4p.firozehbalaghatiAliBahramiHosyenVaziri moghadamHamedAmeriYazdiYazdiGustavo Gabriel Voldman1162025436310.66224/ispg.48721.14.28.43http://journal.ispg.ir/en/Article/48721http://journal.ispg.ir/en/Article/Download/48721http://journal.ispg.ir/en/Article/Download/48721http://journal.ispg.ir/en/Article/Download/48721http://journal.ispg.ir/en/Article/Download/48721http://journal.ispg.ir/en/Article/Download/48721http://journal.ispg.ir/en/Article/Download/48721http://journal.ispg.ir/en/Article/Download/48721[1] AGHANABATI, A., 1977, Etude geologique de la regon de Kalmard (W. Tabas). Geological Survey of Iran, Report No. 35: 1-230[2] ALBANESI, G.L., RUEDA, E.K., ORTEGA, G., MONALDI, C.R., 2020, Age correlations for the Acoite Formation (Lower Ordovician) at Aguas Blancas Creek in the Cordillera Oriental of Jujuy Province, Argentina. Alcheringa 44(4), 484–495. DOI. 10.1080/03115518.2020.1853235. [3] ALDRIDGE, R.J., 1972, Llandovery conodonts from the Welsh Borderland. Bulletin of the British Museum Natural History (Geology) 22(2), 125–231. [4] ASSERETO,R.,1966, Geological map of upper Djadjerud and Lar valleys (central Elburz,Iran) .Inst. Geol. Univ. Milano (Ser.G) 232: 1-86, 2 geological.map 1:50000. [5] BASSETT, M.G., DASTANPOUR, M., POPOV, L.E., 2004, Late Ordovician faunas of Kerman Province, east-central Iran. In: Hints, O., Ainsaar, L. (Eds.), WOGOGOB-2004 Conference Materials. Tartu University Press, Tartu, 16–17.[6] BAYET-GOLL, A., MOUSSAVI HARAMI, R., MAHBOUBI, A., 2013, The trace fossil Cruziana and Rusophycus: A study from the Ordovician succession of Kalmard block, central Iran. Scientific Qvaterly Journal, Geosciences, 87:101-112. [7] BRUTON, D. L.,WRIGHT, A. J. and HAMEDI,M.A., 2004, Ordovician trilobites of Iran. Palaeontographica A 271,111-149. [8] COCKS, R.L. and TORSVIK, T.H., 2020, Ordovician palaeogeography and climate change. Gondwana Research 100 (2021) 53–72. [9] DRONOV, A., 2005, Introduction to the geology of the St. Petersburg region. In: Dronov, A., Tolmacheva, T.J., Raevskaya, E., Nestell, M. (Eds.), Cambrian and Ordovician of St. Petersburg Region—Guidebook of Pre-Conference Field Trip. St. Petersburg State University, 2–15.[10] EBBESTAD, J.O.R., MICHAEL, G., BASSETT, M.G., DASTANPOUR, M., POPOV, L.E., 2008, Ordovician (Caradoc) Gastropoda of the Katkoyeh Formation, Kerman Province, Iran. Geobios 41: 605-624. [11] EPSTEIN, A.G., EPSTEIN, J.B. and HARRIS, L.D., 1977, Conodont color alteration — an index to organic metamorphism. United States Geological Survey Professional Paper, 995: 1–27. [12] ETHINGTON, R.L., CLARK, D.L., 1971, Lower Ordovician conodonts in North America. In on Symposium Conodont Biostratigraphy. Edited by W.C. Sweet and S.M. Bergström. Geological Society of America Memoir 127: 63–82.[13] GHADERI, A., AGHANABATI, A., HAMIDI, B., SAEEDI, A., 2008, Biostratigraphy of the Shirgesht Formation in Kalmard mountains in southwest of Tabas with special emphasis on conodonts. Scientific quarterly journal Geosciences,70:28-37. [14] GANSSER, A. and HUBER, H., 1962, Geological observation in the central Elburz, Iran.Schweizeris chemineralogische und petrographische mitteilungen,42: 593-630. [15] GHOBADIPOUR, M., WILLIAMS, M., VANNIER, J., MEIDLA ,T. and POPOV, L.E., 2006, Ordovician ostracods from east Central Iran.Acta Palaeontologica Polonica, 51: 551-560. [16] HAMEDI, M.A., WRIGHT, A.J., 1992, New data on the Ordovician – Silurian of central Iran. 29th international Geological congress, Kyoto, Japan,122. [17] HAMEDI, M.A., WRIGHT, A.J., ALDRIDGE, R.J., BOUCOT, A.J., BRUTON, D.L., CHATTERTON, B.D.E., JONES, P., NICOLL, R.S., RICKARDS, R.B., ROSS, J.R.P., 1997, Cambrian to Silurian of East-Central Iran: newbiostratigraphic and biogeographic data.Neues Jahrbuch fur Geologie und Palaontologie, Monatshefte 1977 (7), 412-424. [18] HAMEDI, M.A., 1995, Lower palaeozoic sedimentology and stratigraphy of the Kerman region.East- central Iran.-Unpub.Ph.D. thesis, Univ, Wollongong, Australia. [19] HAQ, B.U., SCHUTTER, S.R., 2008, A chronology of Paleozoic sea-level changes: Science, 322, 64–68, https://doi.org/10.1126/ science.1161648. [20] HUCKRIEDE .R., KURSTEN .M. and VENZLAFF , H., 1962, Zur geologie des Gebieteszwischen Kerman und Saghand (Iran). Beiheftezum geologischen Jahrbuch.51, 197. [21] JAHANGIRI, H., GHOBADIPOUR, M., ASHOURI, A.R., AMINI, A., 2016, Terminal Cambrian and early Ordovician (Tremadocian) Conodonts from Eastern Alborz, north-central Iran. Alcheringa, 40(2): 219-243.[22] JI, Z., BARNES, C.R., 1994, Lower Ordovician conodonts of the St. George Group, Port au Port Peninsula, western Newfoundland, Canada. Palaeontographica Canadiana, 11: 1–149.[23] KHANEHBAD, M., MOUSSAVI-HARAMI, S.R., SABAGH BAJESTANI, M., 2010, Diagenesis and geochemistry of siliciclastic facies from Ordovician of Rahdar mountain, western Tabas. Sedimentary Facies, 3(1):11-22.[24] LANDING, E., BARNES, C.R., STEVENS, R.K., 1986, Tempo of earliest Ordovician graptolite faunal succession: conodont-based correlations from the Tremadocian of Quebec. Canadian Journal of Earth Sciences, 23: 1928–1949. [25] LESLIE, S.A., 2000, Mohawkian (Upper Ordovician) conodonts of Eastern North America and Baltoscandia. Journal of Paleontology 74, 1122–1147. DOI 10.1666/0022-3360(2000)0742.0.CO;2. [26] MABILLARD, J.E. and ALDRIDGE, R.J., 1983, Conodonts from the Coralliferous Group (Silurian) of Marloes Bay, South-West Dyfed, Wales. Geologica et Palaeontologica 17, 29–43. [27] MANGO, M., ALBANESI, G.L., 2020, Conodont biostratigraphy and correlation of the San Juan Formation at the Cerro La Silla section, middle Tremadocian-lower Dapingian, Central Precordillera, Argentina. Andean Geology 47(3), 577–598. DOI 10.5027/andgeoV47n3-3271.[28] MESTRE, A., HEREDIA, S., MORENO, F., BENEGAS, L., MORFIL, A., SORIA, T., 2020, New insights on Lower Ordovician (Floian) reefs from the Argentine Precordillera: Biostratigraphic, sedimentologic and paleogeographic implications. Journal of South American Earth Sciences 103, art. 102801. DOI 10.1016/j.jsames.2020.102801.[29] MILLER, K.G., KOMINZ, M.A., BROWNING, J.V., WRIGHT, J.D., MOUNTAIN, G.S., KATZ, M.E., SUGARMAN, P.J., CRAMER, B.S., CHRISTIE-BLICK, N., PEKAR, S.F., 2005, The Phanerozoic record of global sea-level change. Science 310, 1293–1298.[30] MUNNECKE, A., CALNER, M., HARPER, D.A.T. SERVAIS, T., 2010, Ordovician and Silurian sea-water chemistry, sea level, and climate: A synopsis Palaeogeography, Palaeoclimatology. Palaeoecology, 296(3-4): 389-413. [31] MORENO, F., MESTRE, A., HEREDIA, S., 2020, New early Ordovician conodont data from the San Juan Formation, Central Precordillera (Argentina): Biostratigraphic and paleogeographic significance. Journal of South American Earth Sciences 103, art. 102798. DOI 10.1016/j.jsames.2020.102798.[32] NEZHADABBAS , M., GHADERI ,A., JAHANGIR ,H ., ASHOURI, A.R., 2020, Ordovician conodonts of the Katkoyeh formation in the Kuh-e-Bonorg section, Kalmard Horst (west of Tabas). Journal of Stratigraphy and Sedimentology Researches University of Isfahan 36, Issue 1, 78, Spring 2020 61-88.[33] NIELSEN, A.T., 2004, Ordovician sea level changes: A Baltoscandian perspective, in Webby, B.D., et al., eds., The Great Ordovician Biodiversification Event: New York, Columbia U niversity Press, p. 84–93, https://doi.org/10.7312/webb12678-011. [34] ORTEGA,G., ALBANESI, G., BANCHING, A., PERALTA, G., 2008, High resolution conodont-graptolite biostratigraphy in the MiddleUpper Ordovician of the Sierra de La Invernada Formation (Central Precordillera, Argentina). Geologica Acta 6(2), 161–180.[35] PERCIVAL, I.G., WRIGHT, A.J., NICOLL, R.S., HAMEDI, M.A., 2009, Martellia and Middle associated Ordovician brachiopods from the Katkoyeh Formation, east-central Iran. Memoirs of the Association of Australasian Palaeontologists 37,315-325.ISSN0810-8889. [36] PYLE, L.J., BARNES, C.R., 2002, Taxonomy, evolution and biostratigraphy of conodonts from the Kechika Formation, Skoki Formation and Road River Group (Upper Cambrian to Lower Silurian), northeastern British Columbia. National Research Council of Canada, Monograph Series, 44461, 1–227.[37] REPETSKI, J.E., ETHINGTON, R.L., 1983, Rossodus manitouensis (Conodonta), a new early Ordovician index fossil. Journal of Paleontology, 57: 289–301.[38] RICKARDS, R.B, HAMEDI, M.A., WRIGHT, A.J., 1994, A new Arenig(Ordovician) graptolite fauna from the Kerman district, east- central Iran. Geological magazine 131: 35-42.[39] RICKARDS, R.B, HAMEDI, M. A., WRIGHT, A.J., 2001, An unusual late Arenig assemblage of graptolites, hemichordates and hydroids from the Banestan area, east-central Iran. In: Abstracts, 15th International Senckenberg conference: Joint meeting IGCP 421/SDS, Frankfurt am main 2001. 80-81.[40] ROSS, R.J.J., HINTZE, L.F., ETHINGTON, R.L., MILLER, J.F., TAYLOR, M.E., REPETSKI, J.E., 1997, THE IBEXIAN, TAYLOR, M.E., and REPETSKI, J.E. 1997, THE IBEXIAN, lowermost Series in the North American Ordovician. In Early Paleozoic Biochronology of the Great Basin. Edited by M.E. TAYLOR. U.S. Geological Survey Professional Paper 1579, 1–50. [41] ROSS, J.R.P., HAMEDI, M.A., WRIGHT, A.J., 2000, Late Ordovician (Caradoc) bryozoans from the Kerman district, East-Central Iran. In: Proceedings of the 11th International Bryozoology Association Conference. 329–335.[42] RUTTNER, A., NABAVI, M. and HAJIAN, J., 1968, Geology of the Shirgesht area (Tabas area, east Iran). Reports of the geological survey of Iran,4: 1-133. [43] SALAD HERSI, O., NOWLAN, G., LAVOIE, D., 2007, A revision of the stratigraphic nomenclature of the Cambrian-Ordovician strata of the Philipsburg tectonic slice, southern Quebec. Canadian Journal of Earth Sciences 44, 1775–1790. DOI 10.1139/e07-041.[44] SAVAGE, N.M., BASSETT, M.G., 1985, Caradoc-Ashgill conodont faunas from Wales and the Welsh Borderland. Palaeontology 28(4), 679–713.[45] SCHALLREUTER, R., HINTZ-SCHALLREUTER, I., BALINI, M., FERRETTI, A., 2006, Late Ordovician Ostracoda from Iran and their significance for palaeogeographical reconstructions.Z.geol.wiss., Berline 34 (2006) 5; 293-345, 6 Abb., 5 Tab., 11Tafeln.[46] SEO, K-S, ETHINGTON, R.L., 1993, Conodonts from the Manitou Formation, Colorado, U.S.A. Journal of the Paleontological Society of Korea 9(1), 77–92.[47] SHEIKHOLESLAMI, M.R., ZAMANI, M., 1999, Geological map of Halvan, scale 1:100,000, Geological survey of Iran. 7257.[48] STEWART, J.H., POOLE, F.G., HARRIS, A., REPETSKI, J.E., WARDLAW, B.R., MAMET, B.L. MORALES-RAMIREZ, J.M., 1999, Neoproterozoic(?) to Pennsylvanian inner-shelf, miogeoclinal strata in Sierra Agua Verde, Sonora, Mexico. Revista Mexicana de Ciencias Geológicas 16(1), 35–62.[49] STONE, J., 1987, Review of investigative techniques used in the study of conodonts. In Conodonts: Investigative Techniques and Applications. Edited by R.L. Austin. Ellis Horwood Ltd., Chichester, 17–34.[50] ZHANG, S., 2020, Upper Cambrian and Lower Ordovician conodont biostratigraphy and revised lithostratigraphy, Boothia Peninsula, Nunavut. Canadian Journal of Earth Sciences 57(9), 1030–1047. DOI 10.1139/cjes-2020-0006.[51] ZHEN, Y.Y., NICOLL, R.S., PERCIVAL, I.G., HAMEDI, M.A. and STEWART, I., 2001, Ordovician Rhipidognathid conodonts from Australia and iran. Journal of paleontology, 75 (1): 186–202. [52] ZHEN, Y.Y., PERCIVAL, I.G., LIU, J. B., 2006, Rhipidognathid conodonts from the Early Ordovician Honghuayuan Formation of Guizhou, South China. Palaeoworld 15(2), 194–210. DOI 10.1016/j.palwor.2006.07.004.[53] ZHEN, Y.Y., COOPER, R.A., SIMES, J. E., WRIGHT, A. J., 2009, Darriwilian (Middle Ordovician) conodonts from Thompson Creek, Nelson Province, New Zealand. Memoirs of the Association of Australasian Palaeontologists, 37, 25–53.SeiedAghilHoseiniDavoodJahaniNaderKohansal Ghadimvand1162025194210.66224/ispg.48807.14.28.19http://journal.ispg.ir/en/Article/48807http://journal.ispg.ir/en/Article/Download/48807http://journal.ispg.ir/en/Article/Download/48807http://journal.ispg.ir/en/Article/Download/48807http://journal.ispg.ir/en/Article/Download/48807http://journal.ispg.ir/en/Article/Download/48807http://journal.ispg.ir/en/Article/Download/48807http://journal.ispg.ir/en/Article/Download/48807Abdollahi-Fard, I., Alavi, A., Mokhtari, M., 2006. Structural framework of the Abadan plain (SW Iran) and the North Persian Gulf based on geophysical data. Journal of Science (University of Tehran),| Volume: 32, Issue: 107-120. Adabi, M. H., Salehi, M. A. and Ghabeishavi, A., 2010- Depositional environment, sequence stratigraphy and geochemistry of Lower Cretaceous carbonates (Fahliyan Formation), south-west Iran. Atari, M.,sian Earth Science 39: 148-160.Aghanabati, A., 2005. Geology of Iran, Geological Survey and Mineral Exploration of Iran (GSI) Iran 1-357 [In Persian].Ahr, W. M., 2008. Geology of Carbonate Reservoirs: The Identify Cation, Description, and Characterization of Hydrocarbon Reservoirs in Carbonate Rocks, John Wiley & Sons, Inc.Alavi, M., 2004. Regional stratigraphy of the Zagros fold-thrust belt of Iran and its proforland evolution., American Journal of Science, Vol. 304, January,2004, p.1-20.,207-205P.Al-Husseini, M. I., 2007. Iran’s crude oil reserves and production. GeoArabia 12 (2): 69–94. DOI: 10.2113/geoarabia120269.Assadi, A., Honarmand, J., Moallemi, S. A., Abdollahie-Fard, I., 2016. Depositional Environments and Sequence Stratigraphy of the Sarvak Formation in an Oil Field in the Abadan Plain, SW Iran: Facies, 62(4), 1-22.Asaadi, A., Rahimpour-Bonab, H., Aleali, M., 2022. Geologically based integrated approach for zonation of a Late Jurassic–Early Cretaceous carbonate reservoir; a case from Persian Gulf. J Petrol Explor Prod Technol 12, 1265–1283 DOI: 10.1007/s13202-021-01372-2.Booler, J. and Tucker M. E., 2002- Distribution and geometry of facies and early diagenesis: the key to accommodation space variation and sequence stratigraphy: Upper Cretaceous Congost carbonate platform, Spanish Pyrenees. Sediment Geo 146: 225-247.Chehrazi, A., Rezaee, R., Rahimpour Bonab, H., 2011. Pore-facies as a tool for incorporation of small-scale dynamic information in integrated reservoir studies. Journal of Geophysics and Engineering, Volume 8, Issue 2: 202–224, DOI:10.1088/1742-2132/8/2/008.Chehrazi, A., Rahimpour Bonab, H., Rezaee, R., 2011. Seismic data conditioning and neural network-based attribute selection for enhanced fault detection. Petroleum Geoscience, V. 19: 169-183, Doi: 10.1144/petgeo2011-001Choquette P W, Pray L C (1970) Geologic Nomenclature and Classification of Porosity in Sedimentary Carbonates, American Association of Petroleum Geologists Bulletin, Vol. 54, pp. 207-250.Christian, L., 1997- Cretaceous subsurface geology of the Middle East region. Geo Arabia 2: 239-256.Davies, R. B., Bishop C. D., Hollis C. E., Gaur R. S. and Haider A. A., 1997 - Architecture of the Minagish oolite reservoir in the Umm Gudair Field, Kuwait, Jurassic/Cretaceous carbonate platform-basinsystems: Middle East models conference abstract. Geo Arabia 2: 476-496.Davies, R. B., David, M. C., Horbury A. D., Sharland P. R., and Simmon, M. D., 2002- Early to mid-Cretaceous mixed carbonate-clastic shelfal systems: examples, issues and models from the Arabian Plate. Gulf Petro Link, Bahrain, Geo Arabia, 7 (3): 541 pp.Dunham, R. J., 1962. Classification of carbonate rocks according to depositional texture: A.A.P.G Memoir 1, pp. 108-121.Elrick, M., and Read, J. F., 1991 - Cyclic ramp-to basin carbonate deposits, Lower Mississippian, Wyoming and Montana: a combined field and computer modelling study. Sediment Petrol, 61: 1194–1224.Esrafili- Dizaji, B., Hajikazemi, E., Dalvand, M., Hassanzadeh Nemati, M., Swennen, R., 2020. Diagenesis and reservoir characteristics of the Lithocodium-Bacinella facies in a Lower Cretaceous reservoir, eastern Persian Gulf Basin. Facies, Volume 66: 24 (2020). DOI: 10.1007/s 10347-020-00608-7. Flugel, E., 2010- Microfacies of Carbonate Rocks: Analysis, Interpretation and Application. Second Edition, Springer- Verlag, Berlin Heidelberg 976 pp.Hosseini, S. A., Conrad, M. A., Clavel, B., Carras, N., 2016. Berriasian- Aptian shallow water carbonates in the Zagros fold-thrust belt, SW Iran: Integrated Sr-isotope dating and biostratigraphy. Cretaceous Research, Volume 57: 257-288. DOI:10.1016/j.cretres.2015.09.007.Hosseini, S. A., Conrad, M. A., Kindler, P., 2021. Sequence stratigraphy, depositional setting and evolution of the Fahliyan carbonate platform (Zagros fold-thrust belt, SW Iran) in the Early Cretaceous. Marine and Petroleum Geology: Volume 128, June 2021, 105062. DOI: /10.1016/j. marpetgeo.2021.105062Jamalian, M., Adabi, M. H., Moussavi, M., Sadeghi, A., Baghbani, D. and Ariyafar, B., 2011- Facies characteristic and paleoenvironmental reconstruction of the Fahliyan Formation, Lower Cretaceous, in the Kuh-e Siah area, Zagros Basin, southern Iran. Springer, Facies 57: 101-122.Jamalian, M., Adabi, M. H., 2015. Geochemistry, microfacies and diagenetic evidences for original aragonite mineralogy and open diagenetic system of Lower Cretaceous carbonates Fahliyan Formation (Kuh-e Siah area, Zagros Basin, South Iran). Carbonates and Evaporites, Volume 30: 77–98.James, G. A and Wynd, J.G., 1965. Stratigraphic nomenclature of Iranian Oil Consortium agreement Area A.A.P.G. Bull., v.49, No 12, p. 2182-2245.Larsen, G., Chilingar, G.V., 1983. Diagenesis of sediments and sedimentary rocks, 2, Elsevier, Amsterdam (1983), p. 579. Mazzullo, S. J., 2000. Organogenic dolomitization in peritidal to deep‐sea sediments. Journal of Sedimentary Research, 70, 10–23.Motiei, H., 1993. Stratigraphy of Zagros. Geological Survey of Iran Publication, Tehran, 536 p. [In Persian].Motiei, H., 1995. Petroleum Geology of Zagros. Geological Survey of Iran Publication, 589 p. [In Persian].Motiei, H., 2003. Stratigraphy of Zagros. Geological Survey and Mineral Exploration of Iran, Book, No. 84, 636 p. [In Persian].Murris, R. J., 1980. Middle East: Stratigraphic evolution and oil habitat. AAPG Bull.64, No. 5, p. 597-618.Noori, H., Mehrabi, H., Rahimpour-Bonab, H., Faghih, A., 2016. Tectono-sedimentary controls on Lower Cretaceous carbonate platforms of the central Zagros, Iran: An example of rift-basin carbonate systems. Marine and Petroleum Geology, Volume 110: 91-111.Raiswell, R., Berner, R. A., 1985. Pyrite formation in euxinic and semi-euxinic sediments. Am. J. Sci., 285:710–724. Ramezani Akbari, A., Rahimpour-Bonab, H., Kamali, M. R., Mousavi- Harami, R., Kadkhodaie, A., 2016. Study of Microfacies, Sedimentary Environment and Sequence Stratiography of Fahliyan Formation in Abadan Plane Oilfield. Journal of Petroleum Research, Vol. 26, 95-3: 68-81 [In Persian].Rezaei, M. R., 2005. The Book of Petroleum Geology. Tehran University Press, Tehran, 472 p. Sadooni, F., 1993. Stratigraphic Sequence, Microfacies, and Petroleum Prospects of the Yamama Formation, Lower Cretaceous, Southern Iraq. AAPG Bulletin 77(11):1971-1988. DOI:10.1306/ BDFF8F92-1718-11D7-8645000102C1865DSharland, P. R., Archer, R., Casey, D. M., Davies, R. B., Hall, S. H., Heyward, A. P., Horbury, A. D. and Simmons, M. D., 2001- Arabian plate sequence stratigraphy. Geo Arabia, Special Publication 2: 371 pp.Tucker, M. E. and Wright, V. P., 1990- Carbonate Sedimentology. Blackwell Science, Oxford 425 pp.Van Buchem, F. S. P., Al-Husseini, M. I., Maurer, F., Droste, H. J., Lyndon, A. Y., 2010. Sequence-stratigraphic synthesis of the Barremian – Aptian of the eastern Arabian Plate and implications for the petroleum habitat. Geoarabia Special Publication, Gulf PetroLink, Volume 4, vol. 1. Wilson, J., 1975. Carbonate Fascies in Geologic History. Springer-Verlag, 471p.Ziegler, M. A., 2001- Late Permian to Holocene paleofacies evolution of the Arabian Plate and its hydrocarbon occurrences. Geo Arabia, 6:445–504.MohammadGoodarziHassanAmiribakhtiarkheyrolahNuraeinejadMostafaSedaqgatneia1162025809510.66224/ispg.50091.14.28.80http://journal.ispg.ir/en/Article/50091http://journal.ispg.ir/en/Article/Download/50091http://journal.ispg.ir/en/Article/Download/50091http://journal.ispg.ir/en/Article/Download/50091http://journal.ispg.ir/en/Article/Download/50091http://journal.ispg.ir/en/Article/Download/50091http://journal.ispg.ir/en/Article/Download/50091http://journal.ispg.ir/en/Article/Download/50091 [1] ر سوبی ]آقانباتی، ع (1385) زمین شناسی ایران: سازمان زمین شناسی و اکتشافات معدنی کشور، 586.[2] آورجانی، ش.، محبوبی، ا.، موسوی حرمی، ر (1390)، ريز رخساره، محيط هاي رسوبي و چينه نگاري سكانسي رسوبات اُليگو ميوسن (سازند آسماري) در ميدان نفتي كوپال، فروافتادگي دزفول مركزي: فصلنامه زمين شناسي ايران، سال پنجم، شماره نوزدهم، صفحات 45-60.[3] آورجانی، ش.، موسوی حرمی، ر.، محبوبی، ا.، رحیم پور بناب، ح.، امیری بختیار، ح (1390)، چینه نگاری سکانسی و بررسی کیفیت مخزنی سازند آسماری در فروافتادگی دزفول شمالی (میدان¬های نفتی هفتکل، کوپال و مارون)، حوضه زاگرس، جنوب غرب ایران: رساله دکتری، دانشگاه فردوسی مشهد، خرداد 1394، 354 صفحه.[4] آورجانی، ش.، همت، م.، سبکرو، م.، صادقی، ر.، طاهری، م.ر (1391)، توصیف مغزه¬ها، چینه نگاری زیستی، رخساره¬ها و محیط رسوبی، چینه نگاری سکانسی و دیاژنز سازند آسماری در میدان نفتی مارون: گزارش شماره پ- 7489. شرکت ملی نفت مناطق نفت خیز جنوب، 85 صفحه، گزارش منتشر نشده. [5]آورجانی، ش.، موسوی حرمی، ر.، محبوبی، ا.، ح.، امیری بختیار، ح (1390)، چینه¬نگاری چرخه¬ای و تطابق مخزنی رسوبات اُلیگو-میوسن (سازند آسماری) در میدان نفتی مارون، حوضة زاگرس: مجله زمین شناسی نفت ایران، سال سوم ، شماره 4، صفحات 23- 37.[6]اکبری، ن.، همت، م.، طاهری، م.، سبکرو، م.، صادقی، ر ( 1390)، مطالعه بایواستراتیگرافی، ریز رخساره¬ها، محیط رسوبی، و سکانس استراتیگرافی مخزن آسماری میدان نفتی بی بی حکیمه گزارش شماره پ- : شرکت ملی نفت مناطق نفت خیز جنوب، 85 صفحه، گزارش منتشر نشده. [7]خلیلی، ا.، وزیری مقدم، ح.، آرین، م.، صیرفیان، ع(1400)، بررسی سیکلواستراتیگرافی مخزن آسماری در میادین نفتی کرنج، پرنج و پارسی: مجله زمین شناسی نفت ایران، سال 10، شماره 20، پاییز و زمستان 1399، ص 1- 16.[8]رحمانی، ع.، غبیشاوی، ع ( 1389)، سکانس استراتیگرافی سازند آسماری در میدان نفتی لب سفید(جنوب غرب ایران): چهاردهمین انجمن همایش زمین شناسی ایران و بیست و هشتمین گردهمایی علوم زمین، دانشگاه ارومیه.[9]رحمانی، ع (1391) آشنايي با نرم افزار سيکلولاگ و کاربردهاي آن در صنعت نفت(مطالعات چينه نگاري سکانسي)، مطالعـه مـوردي مخـزن آسماري ميدان نفتي پارسي (چاه شماره 19): شرکت ملي مناطق نفت خيز جنوب.[10]غبیشاوی، ع.، رحمانی، ع (1385) سکانس استراتیگرافی سازندهای سروک و ایلام در میدان نفتی آب تیمور(چاه شماره 14)گزارش شماره پ- 5918، شرکت ملی نفت مناطق نفت خیز جنوب، 67 صفحه، گزارش منتشر نشده. [11]غبیشاوی، ع.، رحمانی، ع ( 1389) مطالعه محیط رسوبی و سکانس استراتیگرافی مخزن بنگستان در میدان نفتی رگ سفید(چاه شماره 14)گزارش شماره پ- 6966، شرکت ملی نفت مناطق نفت خیز جنوب، 42 صفحه، گزارش منتشر نشده.[12]غبیشاوی، ع.، شب افروز، ر.ا ( 1389) تطابق چینه شناسی در چاه مورد مورد مطالعه مخزن بنگستان میدان نفتی گچساران بر اساس نرم افزار Cyclolog ، گزارش داخلی شرکت ملی نفت مناطق نفت خیز جنوب، 13 صفحه، منتشر نشده. [13]گودرزی، م.، وحیدی نیا، م.، امیری بختیار، ح.، نورایی نژاد، م.ر ( 1398)، مطالعات چینه شناسی و فسیل شناسی بخش فوقانی سازند پابده و بخش زیرین سازند آسماری با تاکید بر مرز بین دو سازند در میدان نفتی مارون با استفاده از مطالعات چینه نگاری و نرم افزار سیکلولاگ: پایان نامه کارشناسی ارشد، 328 ص.[14]گودرزی، م.، امیری بختیار، ح.، نورایی نژاد، م.ر (1398)، مقایسه مرز آشکوب¬های بخش بالایی سازند پابده و بخش زیرین سازند آسماری در چاه A میدان نفتی مارون با سطوح مرزی NB و PB با استفاده از نرم افزار سیکلولاگ: پنجمین همایش انجمن رسوب شناسی ایران، اسفند 1398.[15]گودرزی، م.، وحیدی نیا، م.، امیری بختیار، ح.، نورایی نژاد، م.ر (1398)، زیست چینه¬نگاری، ریز رخساره¬ها و محیط رسوبگذاری سازند آسماری در یکی از چاه¬های میدان نفتی مارون و مقایسه آن با سایر نواحی زاگرس. نشریه علمی پژوهشی رخساره¬های رسوبی، جلد 12، شماره 2، 1398. [16]گودرزی، م.، امیری بختیار، ح.، نورایی نژاد، م.ر (1398)، دیرینه¬شناسی و محیط¬های رسوبی بخش بالایی سازند پابده و بخش زیرین سازند آسماری در چاه¬های A و B میدان نفتی مارون، شمال¬ شرق اهواز: نشریه علمی پژوهشی رسوب شناسی کاربردی، دوره 7، شماره 13، بهار و تابستان 1398.[17]گودرزی، م.، امیری بختیار، ح.، نورایی نژاد، م.ر.، عظام پناه، ی.ا (1399)، ریزرخساره¬ها، دیرینه بوم شناسی، اجتماعات کربناته و بررسی سطوح مرزی NB ، PB با مرز آشکوب¬های سازند آسماری با استفاده از نرم افزار سیکلولاگ در یکی از چاه-های میدان نفتی مارون: نشریه علمی پژوهشی رسوب شناسی کاربردی دوره 8، شماره 15 ، بهار و تابستان 1399.[18]مطیعی، ه (1372) چینه¬شناسی زاگرس: از انتشارات طرح تدوین کتاب زمین¬شناسی ایران، 536.[19]مهدور، م.ر.، فارسی مدان، م.، کمالی، ز. 1394 ، بررسی عملکرد شگستگی¬ها و تعیین تنش برجا در سازند مخزنی آسماری میدان نفتی مارون بر اساس تفسیر نتایج نمودارهای تصویرگر: فصلنامه زمین ساخت. دوره 1، شماره 2، صفحات 14- 35. [20]نیسی، ع.، قادری، ع.، غبیشاوی، ع.، الله کرم پور دیل، م (1396)، زيست چینه¬نگاري، بررسي ريزرخساره¬ها و چينه¬نگاري سکانسي سازند آسماري به کمک نرم افزار سيکلولاگ در ميدان نفتي قلعه نار، حوضه زاگرس: نشریه علمی پژوهشی زمین شناسی نفت ایران، سال ششم، شماره 12، ص 22- 44.[21]هداوند خانی، ن.، صادقی، ع.، آدابی، م . ح.، طهماسبی، ع. ر (1397) سنگ چینه نگاری و زیست چینه نگاری سازند پابده در برش روستای چهارده (پهنه ایذه، خوزستان): فصلنامه علوم زمین، سال بیست و هفتم، شماره 107، ص 137 – 150.[22] Alavi, M (2004) Regional stratigraphy of the Zagros fold-thrust belt of Iran and its proforeland evolution. American Journal of Science, 304: 1–20.[23] De Jong, M., Smith, D., Djin Nio, S., Hardy, N (2006) Subsurface correlation of the Triassic of the UK southern central graben: new look at an old problem. 24: 103-109.[24] Dunham R. 1962. Classification of carbonate rocks according to depositional texture, in Ham, W.E., (ed.), Classification of carbonate rocks. AAPG Memoir 1, Tulsa, 108–121.[25] Embry A.F. and Klovan. J.E. 1971. A late Devonian reef tract on northeastern Banks Islands, Nortwest Territories. Bulletin of Canadian Petroleum Geology, 19: 730–781.[26] Embray A., 2009, Practical Sequence Stratigraphy, Canadian Society of Petroleum Geologists’ monthly magazine, The Reservoir, between May 2008 and September 2009.[27] Gradstein F., Ogg J,. Smith A. 2004. A Geological Time Scale 2004: Cambridge, U.K, Cambridge University Press, p. 589.[28] James G. A. Wynd J. G .1965. Stratigraphic nomenclature of Iranian Oil Consortium Agreement Area. AAPG Bulletin, 49: 2182 - 2245. [29] Jong, M.G.G. DE, Nio, S.D., Smith, D.G. and Bohm,A.R. ,2007, Subsurface correlation in the Upper Carboniferous of the Anglo-Dutch Basin using the climate stratigraphic approach. First Break, 25, December 2007, 49-59.[30] Hilgen F., Schwarzacher W., Strasser A., 2004. Concept and Definitions in Cyclostratigraphy (Second Report of Cyclostratigraphy Working Group). In: Cyclostratigraphy: Approaches and Case Histories. SEPM (Society for Sedimentary Geology): 303-305.[31] Laursen, G.V, Monibi, S., Allan, T.L., Pickard, N.A.H., Hosseiney, A., Vincent, B., Hamon, Y., Van Buchem, F.S.H., Moallemi, A., and Driullion, G (2009) The Asmari Formation revisited: Changed stratigraphic allocation and new biozonation, First international petroleum conference & exhibition, Shiraz, Iran.[32] Nio, S. D., Brouwer, J. H., Smith, D., de Jong, M., & Böhm, A. R. (2005). Spectral trend attribute analysis: applications in the stratigraphic analysis of wireline logs. First break, 23(4).‏ : 71-75.[33] Nio, S. D., A. R. Bohm, H. H. brouwer, M.G.G. De jong and D. G. smith, 2006, Climate stratigraphy, principles and applications in subsurface correlation. EAGE short course series, 1: 130 P.[34] Nio, S. D., Böhm, A. R., Brouwer, J. H., De Jong, M. G. G., Smith, D. G. (2014). Climate stratigraphy: Principles and applications in subsurface correlation. Earthdoc. [35] Perlmutter M.A . Mattews M.D, 1990, Global cyclostratigraphy – a model. In Cross, T. (Ed) Quantitative, Dynamic Stratigraphy, Prentice Hall, 233-260.[36] Perlmutter M.A., Radovich B.J., Matteews M.D., Kendal C.G.St.C. 1998, The impact of high frequency sedimentation cycles on stratigraphic interpretation. In Gradstein, F., Sandvik, K.O. and Milton, N.J. (Eds) Sequence Stratigraphy, Concepts and Applications, Elsevier, 141-170[37] Strasser A., Hilgen F.J., Helgen P.H. 2006. Cyclostratigraphy, concepts, definitiond and applications, Newletters on Stratigraphy Journal, 42 (2): 75-114.[38] Richardson, R.K (1924) The geology and oil measures of southwest Persia, Journal Institute Petroleum Technology, 10, 256–283.[39] Thomas, A. N (1948) The Asmari limestone of southwest Iran; Anglo-Iranian Oil Company Report, 706 p, unpublished‏ [40] van Buchem F.S.P. Allan T.L. Laursen G.V. Lotfpour M. Moallemi A. Monibi S. Motiei H. Pickard N.A.H. Tahmasbi A.R. Vedrenne V. and Vincent B. 2010. Regional stratigraphic architecture and reservoir types of the Oligo-Miocene deposits in the Dezful Embayment (Asmari and Pabdeh formations) SW Iran. Geological Society, London, Special Publications, 329: 219–263.[41] Wynd, J.G (1965) Biofacies of the Iranian oil Consortium Agreement Area (I.O.O.C), Unpublished Report no. p. 1082, 88.BabakSamaniYaghoubJaliliNegarMollaei1162025647910.66224/ispg.50117.14.28.64http://journal.ispg.ir/en/Article/50117http://journal.ispg.ir/en/Article/Download/50117http://journal.ispg.ir/en/Article/Download/50117http://journal.ispg.ir/en/Article/Download/50117http://journal.ispg.ir/en/Article/Download/50117http://journal.ispg.ir/en/Article/Download/50117http://journal.ispg.ir/en/Article/Download/50117http://journal.ispg.ir/en/Article/Download/50117[1] ALAVI, M., 2004, Regional stratigraphy of the Zagros fold-thrust belt of Iran, and its proforeland evolution. American Journal of Science 304, 1–20.[2] ALAVI, M., 2007, Structures of the zagros fold-thrust belt in Iran.American journal of science 307, 1064-1095.[3] AL-AZZAWI N. K. 2008, Local Shortening of Folds and Detachment Surface Depth with Examples from the Foreland Belt of Iraq. Iraqi Journal of Earth Sciences- Vol. 8. No. 1- May[4] 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.[5] BERBERIAN, M. 1995, Master ‘blind’ thrust faults hidden under the Zagros folds: active basement tectonics and surface morphotectonics. Tectonophysics, 241, 193–224.[6] BERBERIAN, M., KING, G.C.P. 1981, Towards a paleogeography and tectonic evolution of Iran. Canadian Journal of Earth Sciences, 18, 210–265.[7] BLANCE, E.J.P., ALLEN, M.B., INGER, S., HASSANI, H. 2003, Structural styles in the Zagros Simple Folded Zone, Iran. J. Geol. Soc., 160, 401–412. doi:10.1144/0016-764902-110.[8] BORDENAVE, M.L., HEGRE, J.A. 2005, The influence of tectonics on the entrapment of oil in the Dezful Embayment, Zagros Foldbelt, Iran. Journal of Petroleum Geology, 28(4), 339–368.[9] BREDDIN, H. 1956, Die tektonische Deformation der Fossilien im Rheinischen Schiefergebirge. Zeitschrift Deutsche Geologische Gesellschaft, 106, 227–305.[10] BURTON, Z.F.M., DAFOV, L.N. 2023, Salt Diapir-driven recycling of gas hydrate. Geochem. Geophys. Geosyst., 24, e2022GC010704.[11] DIXON, J.M., LIU, S. 1992, Centrifuge modelling of the propagation of thrust faults. In: McClay, K.R. (Ed.), Thrust Tectonics, Chapman & Hall, London, 53–69.[12] ESPURT, N., HIPPOLYTE, J.C., SILLARD, M., BELLIER, O., 2012, Geometry and kinematic evolution of a long-living foreland structure inferred from field data and cross section balancing, the Sainte-Victoire System, Provence, France. Tectonics, VOL. 31, TC4021, doi:10.1029/2011TC002988.[13] 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.[14] FALCON, N.L., 1974, Problems of the relationship between surface structures and deep displacements illustrated by the Zagros range. Geological Society of London. Spec. Pub. 3, 9–22.[15] FERGUSSON, C., NUTMAN, A., MOHAJJEL, M., BENNETT, V.C., 2016, The Sanandaj–Sirjan Zone in the Neo-Tethyan suture, western Iran: Zircon U–Pb evidence of late Palaeozoic rifting of northern Gondwana and mid-Jurassic orogenesis. Gondwana Research, 58, 216–238.[16] FREHNER, M.D., GRASSEMANN, B., 2012, Mechanical versus kinematical shortening reconstructions of the Zagros High Folded Zone (Kurdistan region of Iraq). Tectonics, VOL. 31, TC3002, doi:10.1029/2011TC003010.[17] FRY, N., 1979, Random point distribution and strain measurements in rocks. Tectonophysics, 60: 89-105.[18] FOSSEN, H., 2016, Structural Geology. Cambridge University Press.[19] GHASSEMI, M. R., SCHMALHOLZ, S. M., GHASSEMI, A. R., 2010, Kinematics of constant arc length folding for different fold shapes. Journal of Structural Geology, 32 (2010), 755–765.[20] GROSHOONG, RH., 206, 3-D Structural Geology. A Practical Guide to Quantitative Surface and Subsurface Map Interpretation. Cambridge University Press, 400 pp.[21] IMBER, J., PERRY, T., JONES, R., WIGHTMAN, R. H., 2012, Do cataclastic deformation bands form parallel to lines of no finite elongation (LNFE) or zero extension direction? Journal of Structural Geology, 45, 158–172.[22] 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.[23] KESHAVARZ, S., FAGHIH, A., SHAHPASANDZADEH, M., ZAREI, S., 2018, Steady state deformation in the shear zones of the Sanandaj–Sirjan metamorphic belt, Neyriz region. Journal of Tectonics, 2 (5), 97–109.[24] 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.[25] LOPEZ-MIR, B., 2019, Cross section construction and balancing: example from the Spanish Pyrenees. Development in Structural Geology and Tectonics, 5, 3–23.[26] MARSHAK, S., MITRA, G., 1988, Basic methods of structural geology. 464 pp.[27] MCQUARRIE, N., 2004, Crustal scale geometry of the Zagros fold–thrust belt, Iran. Journal of Structural Geology, 26, 519–535.[28] MEHDIPOOR, Z., MAHMODIAN, M., KOCHEKZADEH, M., 2012, Interpretation of 3D seismic data of Asmari reservoir of Maroun and Kupal oil field. Iranian Oil Company Reports, 1–180.[29] MOHAJ-JEL, M., FERGUSSON, C. L., 2000, Dextral transpression in Late Cretaceous continental collision, Sanandaj–Sirjan Zone, western Iran. Journal of Structural Geology, 22, 1125–1139.[30] MOLINARO, M., Zeyen, H., LAURENCIN, X., 2005, Lithospheric structure beneath the southeastern Zagros Mountains, Iran: Recent slab break-off? Terra Nova, 17, 1–6. doi:10.1111/j.1365-3121.2004.00575.x.[31] PARTABIAN, A., FAGHIH, A., 2021, Doming along the Zagros transpression zone, SW Iran: Insights from microstructural analysis of heterogeneous deformation. Arabian Journal of Geosciences, 14, 1–19.[32] RAMSAY, J.G., HUBBER, M.I., 1983, The techniques of modern structural geology, 1: Strain analysis. Academic Press, London.[33] SADEGHI, S., YASSAGHI, A., 2016, Spatial evolution of Zagros collision zone in Kurdistan, NW Iran: Constraints on Arabia–Eurasia oblique convergence. Solid Earth, 7, 659–672, doi:10.5194/se-7-659-2016.[34] SAEDI, G., SOLEIMANI, B., SAMANI, B., ARZANI, A., 2022, The interaction between faults and in-situ stress on the kinematic and subsurface natural fractures of Aghajari oilfield in southwest Iran. Journal of Petroleum Science and Engineering, 208, 109567.[35] SAMANI, B., 2017, Deformation flow analysis and symmetry of Goushti shear zone, Sanandaj–Sirjan metamorphic belt, Iran. Geopersia, 7, 117–130.[36] SAMANI, B., 2013, Quartz c-axis evidence for deformation characteristics in the Sanandaj–Sirjan metamorphic belt, Iran. Journal of African Earth Sciences, 81, 28–34.[37] SARKARINEJAD, K., AZIZI, A., 2008, Slip partitioning and inclined dextral transpression along the Zagros Thrust System, Iran. Journal of Structural Geology, 30, 116–136.[38] SARKARINEJAD, K., KESHAVARZ, S., FAGHIH, A., SAMANI, B., 2017, Kinematic analysis of rock flow and deformation temperature of the Sirjan thrust sheet, Zagros Orogen, Iran. Geological Magazine, 154, 147–165.[39] SCHMALHOLZ, S.M., 2006, Scaled amplification equation: a key to the folding history of buckled viscous single-layers. Tectonophysics, 419, 41–53.[40] SEPEHR, M., COSGROVE, J., MOINEI, M., 2006, The impact of cover rock rheology on the style of folding in the Zagros fold-thrust belt. Tectonophysics, 427(1–4), 265–281.[41] SHERKATI, S., MOLINARO, M., FRIZON DELAMOTTE, D., LETOUZEY, J., 2005, Detachment folding in the Central and Eastern Zagros fold-belt (Iran): salt mobility, multiple detachments and late basement control. Journal of Structural Geology, 27, 1680–1696.[42] SOLEIMANI, M., FAGHIH, A., BAGHERPOUR, B., ADIBINEJAD, M., SOBHANI, S.S., 2023, Deformation microthermometry in the Toutak gneiss dome based on petrofabric characteristics of quartz crystal, Sanandaj–Sirjan metamorphic belt, Iran. Advanced Applied Geology.[43] SOLEIMANI, M., FAGHIH, A., KUSKY, T., 2021, Mesozoic compressional to extensional tectonics in the Central East Iranian Microcontinent: Evidence from the Boneh Shurow metamorphic core complex. Journal of the Geological Society, 178(6), jgs2020-123.[44] STOCKLIN, J., 1968, Structural history and tectonics of Iran, a review. A. A. P. G. Bulletin, 52(7), 1229–1258.[45] SUPPE, J., 1983, Geometry and kinematics of fault-bend folding. American Journal of Science, 283(7), 684–721.[46] TAKIN, M., 1972, Iranian geology and continental drift in the Middle East. Nature, 235, 147–150.[47] TALEBIAN, M., JACKSON, J., 2004, A reappraisal of earthquake focal mechanisms and active shortening in the Zagros mountains of Iran. Geophysics, 156, 506–526.[48] TEYSSIER, C., 1985, A crustal thrust system in an intracratonic tectonic environment. Journal of Structural Geology, 7(6), 689–700.[49] TWISS, R.G., MOORES, E.M., 2007, Structural geology, Freeman and Company, New York.[50] WOODWARD, N., 1989, Balanced Geological Cross-Sections: An Essential Technique in Geological Research and Exploration. HamedAmraei11620259610610.66224/ispg.50617.14.28.96http://journal.ispg.ir/en/Article/50617http://journal.ispg.ir/en/Article/Download/50617http://journal.ispg.ir/en/Article/Download/50617http://journal.ispg.ir/en/Article/Download/50617http://journal.ispg.ir/en/Article/Download/50617http://journal.ispg.ir/en/Article/Download/50617http://journal.ispg.ir/en/Article/Download/50617http://journal.ispg.ir/en/Article/Download/50617• Anselmetti, F.S. and Eberli, G.P., 1999. The velocity-deviation log: A tool to predict pore type and permeability trends in carbonate drill holes from sonic and porosity or density logs. AAPG bulletin, 83(3), pp.450-466. • Amirsardari M., 2020. Reservoir Rock Typing Based on Petrophysical and Special Core Data in one of the Carbonate Reservoir in Perisan Gulf. KJES; 6 (2) :235-254 • Aghanbati,A. 2004. "Geology of Iran", Tehran, Geological Survey, First Edition. • Ammarloo, H., Zoughy, P., Mehraban, L. F., & Amiri, M. (2025). Evaluation of empirical relationships in carbonates by developing a 1D mechanical earth model in an oil field in Southwestern Iran. Results in Engineering, 26, 104799.‏ • Al-Qahtani, M.Y. and Zillur, R., 2001, March. A mathematical algorithm for modeling geomechanical rock properties of the Khuff and Pre-Khuff reservoirs in Ghawar field. In SPE Middle East Oil and Gas Show and Conference (pp. SPE-68194). SPE. • Ezati, M., Azizzadeh, M., Riahi, M.A., Fattahpour, V. and Honarmand, J., 2020. Wellbore stability analysis using integrated geomechanical modeling: a case study from the Sarvak reservoir in one of the SW Iranian oil fields. Arabian Journal of Geosciences, 13, pp.1-19. • Gholami, R., Rasouli, V., Aadnoy, B. and Mohammadi, R., 2015. Application of in situ stress estimation methods in wellbore stability analysis under isotropic and anisotropic conditions. Journal of Geophysics and Engineering, 12(4), pp.657-673. • Motiei, E. 1993. "Geology of Iran, Zagros stratigraphy", Tehran, Geological Survey, First Edition. • Ohen, H.A., Ajufo, A.O. and Enwere, P.M., 1996, January. Laboratory NMR relaxation measurements for the acquisition of calibration data for NMR logging tools. In SPE Western Regional Meeting. Society of Petroleum Engineers.#3 • Perez, H.H., Datta-Gupta, A. and Mishra, S., 2005. The role of electrofacies, lithofacies, and hydraulic flow units in permeability predictions from well logs: a comparative analysis using classification trees. SPE Reservoir Evaluation & Engineering, 8(02), pp.143-155. • Sfidari, E., Kadkhodaie-Ilkhchi, A. and Najjari, S., 2012. Comparison of intelligent and statistical clustering approaches to predicting total organic carbon using intelligent systems. Journal of Petroleum Science and Engineering, 86, pp.190-205. • Soleimani, B., Moradi, M. and Ghabeishavi, A., 2018. Stoneley wave predicted permeability and electrofacies correlation in the Bangestan Reservoir, Mansouri Oilfield, SW Iran. Geofísica internacional, 57(2), pp.107-120. • Ye, S.J. and Rabiller, P., 2000, January. A new tool for electro-facies analysis: multi-resolution graph-based clustering. In SPWLA 41st annual logging symposium. Society of Petrophysicists and Well-Log Analysts.