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أ.د. سعد بن مقرن بن عبدالعزيز المقرن

Professor

عضو هيئة التدريس

كلية العلوم
كلية العلوم مبنى 4 الدور الارضي معمل الجاذبية المطلقة
السيرة الذاتية

سعد مقرن عبد العزيز المقرن

مختصر السيرة الذاتية
دكتوراه في الجيوفيزياء من جامعه نيوكاسل ببريطانيا 2004م
بكالوريوس في الجيوفيزياء جامعة الملك سعود تاريخ 1991م
العمل: أستاذ مشارك في تخصص الجيوفيزياء بجامعة الملك سعود.
نص السيرة الذاتية

السيرة العلمية:
 

  • من تاريخ   2005 م إلى 2010 م أستاذ مساعد في تخصص الجيوفيزياء  (الجاذبية و المغناطيسية الارضية ) جامعة الملك سعود. اضافة الى:
  • الاشراف على  نضم المعلومات الجفرافية (GIS) بقسم الجيولوجياء  و الجيوفيزياء.
  • الاشراف  على وحدة التقويم و الاعتماد الأكاديمي بكلية العلوم. 
  • رئيس قسم الجيولوجيا  و الجيوفيزيا من تاريخ   2010 م إلى الوقت 2012 م
  • ترقية أستاذ مشارك 2016 م
  • وكيل امارة جازان 2015م الى 2017م
  • استاذ مشارك قسم الجيولوجيا  و الجيوفيزيا من تاريخ   2017 م إلى الوقت الحالي
  •  

 
أنشطة خدمة المجتمع :

  • تدريب مستمر لمجموعة من ضباط قوة الصورايخ الاسترتيجية على اجهزة قياس الجاذبية الارضية من 2007 م -  الى الوقت الحاضر.الأنشطة البحثية:
     
     تمثيل جامعة الملك سعود في انشاء خريطة لمغناطيسية العالم لعام 2009 م حيث تم معالجة وتحليل مغناطيسية الجزيرة العربية كجزء من خريط العالم المغناطيسية والمشاركة في البحث الناتج من هذا التعاون الدولي بورقة علمية نشرت في مجلة ذات تصنيف ISI:
     Geochemistry, Geophysics, Geosystems AGU Journal
    و معامل تأثير هذه المجله Impact Factor 3.201 واشير الى البحث في 281 ورقة علمية.
     
    باحث رئيسي في مشاريع الخطة الوطنية للعلوم والتقنية والابتكار التالية:
     
    ·      Principle Investigator (PI) of the research project entitled: "New approach for identification of potential groundwater zones on the southern Red Sea coast, Saudi Arabia using integrated techniques" Project number WAT922-02. Funded by NPST.
    ·      Principle Investigator (PI) of the research project entitled: " Quasi Geoid of Saudi Arabia: Gravity data and GPS leveling" Project number SPA873-02-09, Funded by NPST.
    ·      Principle Investigator (PI) of the research project entitled: Monitoring of the Al-Ays volcanic activity using microseismicity, TDEM, 4D-microgravity and InSAR Techniques for eruption risk mitigation “NPST project No. : 12-SPA2872-02 for two years.
    Principle Investigator (PI) of the research project entitled:  Exploration of Groundwater Potentialities of The Sinkholes In Rufa Graben, Ar-Riyadh Area, Using Geophysical Techniques” NPST project No.:  12-WAT2867-02 2 years Project Funded by NPST
  • المهارات العملية:
  • استخدام أجهزة  الرفع الجيوديسي الدقيق بواسطة اجهزة (Lieca Geodetic GPS).
  • استخدام أجهزة المسح الجيوفيزيائي لقياس الجاذبية و المغناطيسية.
  •  معالجه و تحليل القراء ت الجيوفيزيائية و الطبوغرافية باستخدام البرامج التالية:
  • Geosoft™ 9  
  • Intrepid™ 5  
  • GeoModeller 2
  •   (GMT 5.0) Generic Mapping Tools على نظام التشغيل  (Linux).
    • إنشاء قواعد للمعلومات الجيوفيزيائية والطبوغرافية لبعض مناطق المملكة متوافقة مع نظم المعلومات الجغرافية (GIS).
    • تصحيح قراءات الرفع الجيوديسي بواسطة برنامج:
  • (SKI™ 2.2)  Static Kinematic post-processing program
    •  بناء النماذج الجيولوجية التحت سطحية من تحليلات قراءات الجاذبية و المغناطيسية باستخدام برنامج النمذجة:
    • Modelvision™ Pro 12 
    • تحويل المعلومات المكانية القديمة ( مثل خرائط المدن و المخططات الورقية ) من صوريه إلى رقميه (Vectorisation) بواسطة البرامج التالية:
    • Easy Trace Pro 8
    • R2V™ 5.5 (Raster to Vector)
    • ArcScan™ 9
    • معالجة الصور الجوية باستخدام برنامج ERDAS Imagine™ 2016
    • رسم وتحليل الخرائط  و المخططات باستخدام نضام المعلومات الجغرافية ArcGis™ 10.2   
  •  ابحاث منشورة:
  1. Abdalla A, Mogren S (2015) Implementation of a rigorous least-squares modification of stokes’ formula to compute a gravimetric geoid model over saudi arabia (Sageo13). Can J Earth Sci 52:. https://doi.org/10.1139/cjes-2014-0192
  2. Abdelfattah AK, Mogren S, Mukhopadhyay M (2017) Mapping b-value for 2009 Harrat Lunayyir earthquake swarm, western Saudi Arabia and Coulomb stress for its mainshock. J Volcanol Geotherm Res 330:. https://doi.org/10.1016/j.jvolgeores.2016.12.001
  3. Abdel-Fattah AK, Mogren SM, Almadani S (2016) Seismicity constraints on stress regimes along Sinai subplate boundaries. Stud Geophys Geod 60:. https://doi.org/10.1007/s11200-014-0968-1
  4. Abdelfattah AK, Mogren S, Mukhopadhyay M (2019) Corrigendum to “Mapping b-value for 2009 Harrat Lunayyir earthquake swarm, western Saudi Arabia and Coulomb stress for its mainshock” [J. Volcanol. Geotherm. Res. 330 (15 January 2017) 1–23]. J Volcanol Geotherm Res 386:. https://doi.org/10.1016/j.jvolgeores.2019.106709
  5. Abdelfattah AK, Mogren S, Mukhopadhyay M (2019) Corrigendum to “Mapping b-value for 2009 Harrat Lunayyir earthquake swarm, western Saudi Arabia and Coulomb stress for its mainshock” (Mapping b-value for 2009 Harrat Lunayyir earthquake swarm, western Saudi Arabia and Coulomb stress for its mainshock (2017) 330 (14–23), (S0377027316304929), (10.1016/j.jvolgeores.2016.12.001)). J. Volcanol. Geotherm. Res. 386
  6. Aboud E, Shareef A, Alqahtani FA, Mogren S (2018) Using a 3D gravity inversion technique to image the subsurface density structure in the Lunayyir volcanic field, Saudi Arabia. J Asian Earth Sci 161:. https://doi.org/10.1016/j.jseaes.2018.05.002
  7. Aboud E, Saud R, Asch T, et al (2014) Water exploration using Magnetotelluric and gravity data analysis; Wadi Nisah, Riyadh, Saudi Arabia. NRIAG J Astron Geophys 3:. https://doi.org/10.1016/j.nrjag.2014.09.002
  8. Aldahri M, mogren S, Abdelrahman K, et al (2017) Surface soil assessment in the Ubhur area, north of Jeddah, western Saudi Arabia, using a multichannel analysis of surface waves method. J Geol Soc India 89:. https://doi.org/10.1007/s12594-017-0626-7
  9. Al-Johi A, Ibrahim E, Mogren S, Lashin A (2020) Petrophysical analysis of Upper Qishn Clastic Member Reservoir, Tawila Oilfield, Yemen. Arab J Geosci 13:. https://doi.org/10.1007/s12517-020-06077-0
  10. Asmari AA, Mogren S, Lashin A, et al (2016) An integrated geophysical study for inferring the subsurface setting of water-bearing aquifers: case study at Wadi al-Dawasir area, Saudi Arabia. Environ Earth Sci 75:. https://doi.org/10.1007/s12665-016-5778-z
  11. Batayneh A, Ghrefat H, Zaman H, et al (2012) Assessment of the physicochemical parameters and heavy metals toxicity: Application to groundwater quality in unconsolidated shallow aquifer system. Res J Environ Toxicol 6:. https://doi.org/10.3923/rjet.2012.169.183
  12. Batayneh A, Laboun A, Qaisy S, et al (2012) Assessing groundwater quality of the shallow alluvial aquifer system in the Midyan Basin, northwestern Saudi Arabia. Arab Gulf J Sci Res 30:
  13. Batayneh A, Zaman H, Zumlot T, et al (2014) Hydrochemical facies and ionic ratios of the coastal groundwater aquifer of saudi gulf of aqaba: Implication for seawater intrusion. J Coast Res 30:. https://doi.org/10.2112/JCOASTRES-D-13-00021.1
  14. Batayneh AT, Ghrefat H, Zumlot T, et al (2015) Assessing of metals and metalloids in surface sediments along the gulf of Aqaba Coast, Northwestern Saudi Arabia. J Coast Res 31:. https://doi.org/10.2112/JCOASTRES-D-13-00143.1
  15. Diehl TM, Holt JW, Blankenship DD, et al (2008) First airborne gravity results over the Thwaites Glacier catchment, West Antarctica. Geochemistry Geophys Geosystems 9:
  16. Elawadi* E, Sulaiman A, Mogren S (2015) Gravity data interpretation for structure studies at a coastal area, southwest Saudi Arabia
  17. Elawadi E, Mogren S, Ibrahim E, et al (2012) Utilizing potential field data to support delineation of groundwater aquifers in the southern Red Sea coast, Saudi Arabia. J Geophys Eng 9:. https://doi.org/10.1088/1742-2132/9/3/327
  18. Elawadi E, Zaman H, Batayneh A, et al (2013) Structural interpretation of the Ifal Basin in north-western Saudi Arabia from aeromagnetic data: Hydrogeological and environmental implications. Explor Geophys 44:. https://doi.org/10.1071/EG12069
  19. Ghrefat H, Nazzal Y, Batayneh A, et al (2014) Geochemical assessment of groundwater contamination with special emphasizes on fluoride, a case study from Midyan Basin, northwestern Saudi Arabia. Environ Earth Sci 71:. https://doi.org/10.1007/s12665-013-2554-1
  20. Ghrefat H, Waheidi ME, Batayneh A, et al (2016) Pollution assessment of arsenic and other selected elements in the groundwater and soil of the Gulf of Aqaba, Saudi Arabia. Environ Earth Sci 75:. https://doi.org/10.1007/s12665-015-5020-4
  21. Hakimi MH, Ahmed A, Mogren S, et al (2020) Thermogenic gas generation from organic-rich shales in the southeastern Say’un-Masila Basin, Yemen as demonstrated by geochemistry, organic petrology, and basin modeling. J Pet Sci Eng 192:. https://doi.org/10.1016/j.petrol.2020.107322
  22. Jallouli C, Mogren S, Mickus K, Turki MM (2013) Evidence for an east-west regional gravity trend in northern Tunisia: Insight into the structural evolution of northern Tunisian Atlas. Tectonophysics 608:. https://doi.org/10.1016/j.tecto.2013.10.003
  23. Lashin A, Mogren S (2012) Total Organic Carbon Enrichment and Source Rock Evaluation of the Lower Miocene Rocks Based on Well Logs: October Oil Field, Gulf of Suez-Egypt. Int J Geosci 03: https://doi.org/10.4236/ijg.2012.34069
  24. Maus S, Barckhausen U, Berkenbosch H, et al (2009) EMAG2: A 2-arc min resolution Earth Magnetic Anomaly Grid compiled from satellite, airborne, and marine magnetic measurements. Geochemistry, Geophys Geosystems 10:. https://doi.org/10.1029/2009GC002471
  25. Maus S, Fairhead JD, Mogren S, Bournas N (2008) EMAG3: A 3-arc-minute resolution global magnetic anomaly grid compiled from satellite, airborne and marine magnetic data
  26. Mogren S, Al-Amri AM, Al-Damegh K, et al (2015) Sub-surface geometry of ar rika and ruwah faults from gravity and magnetic surveys. Arab J Geosci 1:. https://doi.org/10.1007/s12517-008-0003-3
  27. Mogren S, Batayneh A, Elawadi E, et al (2011) Aquifer boundaries explored by geoelectrical measurements in the Red Sea coastal plain of Jazan area, Southwest Saudi Arabia. Int J Phys Sci 6:
  28. Mogren S, Saibi H, Mukhopadhyay M, et al (2017) Analyze the spatial distribution of lava flows in Al-Ays Volcanic Area, Saudi Arabia, using remote sensing. Arab J Geosci 10:. https://doi.org/10.1007/s12517-017-2889-0
  29. Mogren S (2015) Saltwater Intrusion in Jizan Coastal Zone, Southwest Saudi Arabia, Inferred from Geoelectric Resistivity Survey. Int J Geosci 06: https://doi.org/10.4236/ijg.2015.63022
  30. Mogren S (2020) Engineering bedrock depth estimation and ground response analysis of the northern Jeddah urban area, western Saudi Arabia. J King Saud Univ - Sci 32:. https://doi.org/10.1016/j.jksus.2020.03.037
  31. Mogren S (2019) High-Precision Gravity Measurements in Riyadh Using FGL Absolute Gravimeter
  32. Mogren S (2020) Integrated use of electrical resistivity tomography and ground penetration radar for identifying subsurface sinkholes in Rufa Graben, Central Riyadh. Arab J Geosci 13:. https://doi.org/10.1007/s12517-019-5017-5
  33. Mogren S, Derek Fairhead J, Z. Jassim S (2020) Microlevelling Of Aeromagnetic Data Using The Naudy-Fuller Space Domain Filter
  34. Mogren S, Mukhopadhyay M (2013) Gravity Modeling for the Rifted Crust at the Arabian Shield Margin – Further Insight into Red Sea Spreading. Open J Geol 03: https://doi.org/10.4236/ojg.2013.32b007
  35. Mukhopadhyay B, Mogren S, Mukhopadhyay M, Dasgupta S (2013) Incipient status of dyke intrusion in top crust - evidences from the Al-Ays 2009 earthquake swarm, Harrat Lunayyir, SW Saudi Arabia. Geomatics, Nat Hazards Risk 4:. https://doi.org/10.1080/19475705.2012.663794
  36. Mukhopadhyay M, Elawadi E, Mukhopadhyay B, Mogren S (2018) Induced and Ambient Crustal Seismicity under the Ghawar Oil-Gas Fields, Saudi Arabia. J Geol Soc India 91:. https://doi.org/10.1007/s12594-018-0878-x
  37. Mukhopadhyay M, Mogren S, Mukhopadhyay B, et al (2020) Correction to: Crustal control on basement uplift beneath the Ghawar Anticline, Saudi Arabia—gravity modeling with receiver function constraints (Arabian Journal of Geosciences, (2020), 13, 12, (463), 10.1007/s12517-020-05433-4). Arab. J. Geosci. 13
  38. Mukhopadhyay M, Mogren S, Mukhopadhyay B, et al (2020) Correction to: Crustal control on basement uplift beneath the Ghawar Anticline, Saudi Arabia—gravity modeling with receiver function constraints. Arab J Geosci 13:. https://doi.org/10.1007/s12517-020-05638-7
  39. Saibi H, Azizi M, Mogren S (2016) Structural Investigations of Afghanistan Deduced from Remote Sensing and Potential Field Data. Acta Geophys 64:. https://doi.org/10.1515/acgeo-2016-0046
  40. Saibi H, Mogren S, Mukhopadhyay M, Ibrahim E (2018) Subsurface imaging of the Harrat Lunayyir 2007–2009 earthquake swarm zone, western Saudi Arabia, using potential field methods. J Asian Earth Sci. https://doi.org/10.1016/j.jseaes.2018.07.024
  41. Salem A, Green C, Ravat D, et al (2014) Depth to Curie temperature across the central Red Sea from magnetic data using the de-fractal method. Tectonophysics 624–625:. https://doi.org/10.1016/j.tecto.2014.04.027
  42. Sulaiman A, Elawadi E, Mogren S (2018) Gravity interpretation to image the geologic structures of the coastal zone in al Qunfudhah area, southwest Saudi Arabia. Geophys J Int 214:. https://doi.org/10.1093/gji/ggy220
  43. Zaidi FK, Mogren S, Mukhopadhyay M, Ibrahim E (2016) Evaluation of groundwater chemistry and its impact on drinking and irrigation water quality in the eastern part of the Central Arabian graben and trough system, Saudi Arabia. J African Earth Sci 120:. https://doi.org/10.1016/j.jafrearsci.2016.05.012
  44. Zumlot T, Batayneh A, Nazal Y, et al (2013) Using multivariate statistical analyses to evaluate groundwater contamination in the northwestern part of Saudi Arabia. Environ Earth Sci 70:. https://doi.org/10.1007/s12665-013-2392-1
  45. Zumlot T, Batayneh A, Zaman H, et al (2016) Statistical analysis of different chemical elements in groundwater of northwestern Saudi Arabia. J Geol Soc India 87:. https://doi.org/10.1007/s12594-016-0415-8