A New Contribution to the (IPC) Bouguer Map of a Gap Area in Mosul and Duhok Region (Iraq)

The purpose of the current study was to complete an important gap within the Bouguer map of Iraq implemented by the Iraq Petroleum Company (IPC). In addition, the collected data were processed with recent gravity concepts and methods to establish a new regional geological image. A total of 868 gravity points were measured and corrected.

A New Contribution to the (IPC) Bouguer Map of a Gap Area in Mosul and Duhok Region (Iraq)

The purpose of the current study was to complete an important gap within the Bouguer map of Iraq implemented by the Iraq Petroleum Company (IPC). In addition, the collected data were processed with recent gravity concepts and methods to establish a new regional geological image. A total of 868 gravity points were measured and corrected.

___

  • Abbas, M.J., Masin, J., 1975. New geophysical aspects of the basement structure in western Iraq. J. Geol. Soc. Iraq, Special Issue: 1-13.
  • Al-Shaikh, Z.D., Saleh, S.A., Abdo, H.F.,1975. Contribution to the geology of Shaqlawa - Harir area, Iraqi J. Geo. Soc., Special issue, 55-67.
  • Al-Shaikh, Z.D., Ahmad, M.M., 2005. New Contribution to the Geology of Mosul Area from Geoelectric Investigations. Rafidain Journal of Science, 16 (6), 132-147.
  • Amos, M.J., 2007. Quasigeoid Modeling in New Zealand to Unify Multiple Local Vertical Datums. Curtin University of Technology, Department of Spatial Sciences, New Zealand, PhD thesis, 238 p.
  • Asgari, M., Mehramuz, M., 2015. Estimate the Crust Thickness using the Gravity Data for the KopehtDagh Region. Indian Journal of Science and Technology, 8 (9), 513–517.
  • Chen K.H., 2009. An Improved Approach for Terrain Correction: Application to Northeast Asia’s Highest Peak (Mt. Jade, Taiwan). Sensors (Basel), 9 (9), 6604–6612.
  • Dobrin, M.B., Savit, C.H., 1988. Introduction to Geophysical Prospecting: McGraw-Hill Book Company, 867 p.
  • Geosoft Oasis Montaj (GOM) reference manual, 2008. Software for Earth Sciences, Geosoft INC, Toronto, Canada.
  • Ghaib, F.A., Mohammad, R.J., Khan, Z.A., 1998. A reconnaissance gravity survey in the Sulaivany plain, N-Iraq. The Journal of Duhok University (Scientific and Academic), 1 (1): 6-20.
  • Hafidh A.A., Matthew S., Youlin Chen, Robert B., Ghassan I., Hrvoje T., Bakir S., Borhan I., Dawood S., Robert A., Patrick J., Omar K., Aras M., Shaho A., Fadhil I., Rashid Z., Basoz A., Layla O., Nokhsha I., Nian H., Talal N., Ali A., Abdul-Karem A., Samira R., 2007. Seismic velocity modeling of north and northeast Iraq using receiver functions, 29th Monitoring Research Review: Ground-Based Nuclear Explosion Monitoring Technologies.
  • Hernandez, O., 2006. Tectonic analysis of northwestern South America from integrated satellite, airborne and surface potential field anomalies. Graduate School of Ohio State University, U.S.A, PhD thesis, 176 p.
  • Hinze W.J., Aiken C., Brozena J., Coakley B., Dater D., Flanagan G., Forsberg R., Hildenbrand T., Keller G.R., Kellogg J., Kucks R., Li X., Mainville A., Morin R., Pilkington M., Plouff D., Ravat D., Roman D., Urrutia-Fucugauchi J., V´eronneau M., Webring M., Winester D., 2005. New standards for reducing gravity data, The North American gravity database. Geophysics, 70 (4), J25–J32.
  • Janák, J., Vanícek, P., 2005. Mean free-air gravity anomalies in the mountains. Studia Geophysia et Geodaetica, 49, 31-42.
  • Jassim, S.Z., Goff J.C., 2006. Phanerozoic development of the northern Arabian Plate, Geology of Iraq, 32-44.
  • Leaman, D.E., 1998. The gravity terrain correction–practical considerations. Exploration Geophysics, 29, 476-471.
  • Li, X., Götze, H.J., 2001. Ellipsoid, geoid, gravity, geodesy, and geophysics, Geophysics, 66, 1660-1668.
  • Lockwood, A., 2004. Isostatic and Decompensative Gravity Anomalies over Western Australia. Australian Society of Exploration Geophysicists, Preview, 108, 22-23.
  • Lowrie, W., 2007. Fundamentals of Geophysics. Cambridge University Press, Cambridge, UK, 354 p.
  • Lynch, A. and King, R.A., 1983. A review of parameters affecting the accuracy and resolution of gravity surveys. Exploration Geophysics, 14: 131-142.
  • Lyngsie, S.B., Thybo, H., Rasmussen, T.M., 2006. Regional geological and tectonic structures of the North Sea area from potential field modeling. Tectonophysics 413, 147–170.
  • Mogren, S., Al-Amri, A.S., Al-Damegh, K., Fairhead, D., Jassim, S., Algamdi, A., 2007. Sub-surface geometry of Ar Rika and Ruwah faults from Gravity and Magnetic Surveys, King Saud University, College of Sciences, Geology & Geophysics Department, Riyadh, Saudi Arabia.
  • Mutib M., 1980. Geophysical investigation around Demir Dagh area. Mosul University, Iraq, MSc. thesis, (unpublished).
  • Nabighian, M.E., Ander, V.J., Graunch, R.O., Hansen, T.R., Lafehr, Y. Pearson, W.C., Peirce, J.W., Phillips, J.D., Ruder, M.E., 2005. Historical Development of the Gravity Method in Exploration. Geophysics, 70 (6), 63-89.
  • Roy, K.K., 2008. Potential Theory in Applied Geophysics. Springer-Verlag Berlin Heidelberg, 651 p.
  • Sayyab, A., Valek, R., 1968. Pattern and general properties of the gravity field of Iraq. 23rd International Geological Congress, Czechoslovakia, 5, 129-142.
  • Zeng, H., Xu, D., Tan, H., 2007. A model study for estimating optimum upward continuation height for gravity separation with application to a Bouguer gravity anomaly over a mineral deposit, Jilin province, Northeast China. Geophysics, 72, 145–150.