Abstract
Satellite remote sensing is a popular method utilized in mineral and natural resource exploration, particularly to reduce reconnaissance and exploration costs. Its use is widely popular for geological mapping of arid regions. The primary objective of this paper is to illustrate how remote sensing satellite data could be used for mapping and assessing potential limestone raw material for the cement industry in Saudi Arabia. Limestone rocks are identified and mapped using Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) indices, band combinations, band ratio combination, and relative absorption-band depth (RBD). Band combination of ASTER-thermal infrared (TIR) data 14:12:10, 8:6:1, and QI:CI:MI in R:G:B is also used for mapping limestone rocks with high efficiency as well as differentiating between sandstone and limestone rocks in the study area. Two band ratios 6/8 and 9/8 and RBD of (band 7+band 9)/band 8 are used for detecting limestone rocks as bright pixels. The carbonate index of ASTER-TIR data are subsequently used for mapping limestone areas and categorize them into classes for the purpose of using them as a raw material in the cement industry. Study findings show that high and very high classes of CI are concentrated in the southern and central parts of the study area such as Khashm Mazalij, Jabal Hit, and Jabal Hafafah and correlate with cement limestone and high-Ca limestone sites in the study area. Other very high limestone classes are found distributed in the northwestern part of Banban. Sulaiy Formation, in Khashm Mazalij area, also constitutes the best promising potential for high-purity limestone. It is hoped that the findings of the study provide ample evidence for the usefulness of the reconnaissance tool in assessing the limestone as raw materials, which is a vital process for the cement industry decision-makers in planning and managing natural resources in Saudi Arabia.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abdullah M, Saleh M, Saeed A, Wallace, CA, Saleh A, Abdulrahman J (2010) Geologic map of Hawtat Bani Tamim quadrangle, with explanatory notes, Kingdom of Saudi Arabia: Saudi Geological Survey Geoscience Map GM-143C, 64, 41 figs, 1pl
Aboelkhair H, Ninomiya Y, Watanabe Y, Sato I (2010) Processing and interpretation of ASTER TIR data for mapping of rare-metal-enriched albite granitoids in the Central Eastern Desert of Egypt. J Afr Earth Sci 58(1):141–115
Aboelkhair H, Abdelhalim A, Hamimi Z, Al-Gabali M (2020) Reliability of using ASTER data in lithologic mapping and alteration mineral detection of the basement complex of West Berenice, Southeastern Desert, Egypt. Arab J Geosci 13(7):1–20
Al- Farraj AS (2011) Mineralogical composition of limestone rock and soil from Jubaila Formation. Asian J Earth Sci 4(4):203–213. https://doi.org/10.3923/ajes2011
Al-Husseini MI (1997) Jurassic sequence stratigraphy of the western and southern Arabian Gulf. GeoArabia 2:361–382
Al-Husseini MI (2000) Origin of the Arabian plate structures: Amar collision and Najd Rift. GeoArabia 5:527–542
AL-Saad H (2008) Stratigraphic distribution of the Middle Jurassic Foraminifera in the Middle East. Rev Paléobiol 27(1):1–13
Alsharhan AS, Kendall CG (1986) Precambrian to Jurassic rocks of the Arabian Gulf and adjacent areas: their facies, depositional setting and hydrocarbon habitat. Am Assoc Pet Geol Bull 70:977–1002
Alsharhan AS, Magara K (1995) Nature and distribution of porosity and permeability in Jurassic carbonate reservoirs of the Arabian Gulf Basin. Facies Germany 32(32):37–254
Bramkamp RA, Ramirez LF (1958) Geologic map of the northern Tuwaiq Quadrangle, Kingdom of Saudi Arabia US. Goel. Surv. Map 1-207A. Washington, DC
Carrigan WJ, Cole GA, Colling EL, Jones PJ (1995) Geochemistry of the Upper Jurassic Tuwaiq Mountain and Hanifa Formation petroleum source-rocks of eastern Saudi Arabia. In: Katz, B. (Ed.), Petroleum Source Rocks. Springer Verlag, pp. 67–87
Crowley J, Brickey D, Rowan A (1989) Airborne imaging spectrometer data of the Ruby Mountains, Montana: mineral discrimination using relative absorption band-depth images. Remote Sens Environ 29:121–134
Davies JA, Lord JA (1981) The effects of cavities in limestone on the construction of a high rise building in Al Khobar, Saudi Arabia Proc Symp on Geotechnical Problems in Saudi Arabia, Ia, 16 p
Dhowian AW, Youssef A (1981) Properties and classification of Arab rock formation Proc Symposium on Geotechnical Problems in Saudi Arabia, Ia 15 p
Droste H (1990) Depositional cycles and source-rock development in an epeiric intra-platform basin: the Hanifa Formation of the Arabian peninsula. Sediment Geol 69:281–296
El Asa’ad GMA (1983) Lithostratigraphy of the Aruma Formation in Central Saudi Arabia. Proc 1st Jordanian Geol Conf Spec Publ 1: 72–86 Amman
El-Asmar H, Assal E, El-Sorogy A, Youssef M (2015) Facies analysis and depositional environments of the Upper Jurassic Jubaila Formation, Central Saudi Arabia. J Afr Earth Sci 110:34–51
El-Hedeny MM, El-Sabbagh AM, Al-Farraj S (2017) Bioerosion and encrustation: evidences from the Middle-Upper Jurassic of central Saudi Arabia. J Afr Earth Sci 134:466–475
El-Ruwaih IA, Khandker A (1981) On the geotechnical conditions of Riyadh area, Saudi Arabia Proc. Symp. on Geotechnical Problems in Saudi Arabia, Ia, 25 p
El-Sabbagh AM, El-Hedeny MM, Mansour AS (2017) Paleoecology and paleoenvironment of the Middle–Upper Jurassic Alcheringa Jurassic Gastropod 17 sedimentary succession, central Saudi Arabia. Proc Geol Assoc 128:340–359
El-Sorogy AS, Al-Kahtany K (2015) Contribution to the scleractinian corals of Hanifa Formation, Upper Jurassic, Jabal Al-Abakkayn, central Saudi Arabia. Hist Biol 27(1):90–102
El-Sorogy AS, Al-Kahtany K, El-Asmar H (2014) Marine benthic invertebrates of the Upper Jurassic Tuwaiq Mountain Limestone, Khashm Al-Qaddiyah, central Saudi Arabia. J Afr Earth Sci 97:161–172
Enay R, Le Nindre Y, Mangold C, Manivit J, Vaslet D (1987) Le Jurassique d’Arabie Saoudite Centrale: Nouvelles donnes sur la lithostratigraphie, les paleoenvironnements, les faunes d’ammonites, les ages et les correlations In: Enay, R (Ed), Le Jurassique d’Arabie Saoudite Centrale Geobios Memoire Special 9:13–65
Ferrari M, El-Hedeny M, Zakhera M, El-Sabbagh A, Al Farraj S (2018) Middle–Upper Jurassic marine gastropods from central Saudi Arabia. Alcheringa. https://doi.org/10.1080/0311551820181465996
Galal G, Kamel S (2004) Benthic foraminifera from the Callovian middle Jurassic Tuwaiq formation, Central Saudi Arabia. J Fac Sci 13:57–72
Gudissa W, Dinku A (2010) The use of limestone powder as an alternative cement replacement material: an experimental study. J EEA 27
Hughes GW (2004) Middle to Upper Jurassic Saudi Arabian carbonate petroleum reservoirs: biostratigraphy, micro-palaeontology and palaeo-environments. GeoArabia 9:79–114
Hughes GW (2006) Biofacies and palaeoenvironments of the Jurassic Shaqra Group of Saudi Arabia. Volumina Jurassica 4:89–90
Hughes GW, Naji N (2008) Sedimentological and micropalaeontological evidence to elucidate post-evaporitic carbonate palaeoenvironments of the Saudi Arabian latest Jurassic. Volumina Jurassica 6:61–73
Le Nindre Y, Manivit J, Manivit H, Vaslet D (1990) Sequential stratigraphy of the Central Saudi Arabian platform in the Jurassic and Cretaceous Ministry of Petroleum and Mineral Resources, Directorate General of Mineral Resources, Jeddah, Saudi Arabia, Technical Report BRGM-TR-11-4, 11 p.
Leinfelder RR, Schlagintweit F, Werner W, Ebli O, Nose M, Schmid DU, Hughes GW (2005) Significance of stromatoporoids in Jurassic reefs and carbonate platforms—concepts and implications. Facies 51:287–325
Manivit J, Pellaton C, Vaslet D, Le Nindre Y, Brosse J, Fourniguet J (1985a) Geologic map of the Wadi al Mulayh Quadrangle, Sheet 22H, Kingdom of Saudi Arabia Saudi Arabian Deputy Ministry for Mineral Resources Geosciences Map, GM-92, Scale 1:250,000, 1–32.
Manivit J, Pellaton C, Vaslet D, Le Nindre Y, Brosse J, Breton J, Fourniguet J (1985b) Geologic map of the Darma Quadrangle, Sheet 24H, Kingdom of Saudi Arabia Saudi Arabian Deputy Ministry for Mineral Resources Geosciences Map, GM-101, Scale 1:250,000, 133.
Manivit J, Vaslet D, Berthiaux A, Le Strat P, Fourniguet J (1986) Geologic map of the Buraydah Quadrangle, Sheet 26G, Kingdom of Saudi Arabia Saudi Arabian Deputy Ministry for Mineral Resources Geosciences Map, GM-114, Scale 1:250,000, 1–32.
Ministry of energy (2016) industry and mineral resources deputy ministry for mineral resources.
Mowafa T (2014a) The mineral industry of Saudi Arabia. Minerals Yearbook-V. 3, Area Reports: International Review: 2014, Africa and the Middle East 3 (2014): 44.
Mowafa T (2014b) The mineral industry of Saudi Arabia Minerals Yearbook-V 3, Area Reports: International Review: 2014, Africa and the Middle East 3,44.
Ninomiya Y (2004) February Lithologic mapping with multispectral ASTER TIR and SWIR data In Sensors, Systems, and Next-Generation Satellites VII 5234: 180–190 International Society for Optics and Photonics.
Ninomiya Y (2019) Toward lithological mapping of Arabian Peninsula using ASTER multispectral thermal infrared data. In: Advances in Remote Sensing and Geo Informatics Applications. Springer, Cham, pp 181–184
Ninomiya Y, Fu B, Cudahy TJ (2005) Detecting lithology with Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) multispectral thermal infrared “radiance-at-sensor” data. Remote Sens Environ 99(1–2):127–139
Özyavaş A (2016) Assessment of image processing techniques and ASTER SWIR data for the delineation of evaporates and carbonate outcrops along the Salt Lake Fault, Turkey. Int J Remote Sens 37(4):770–781
Philip JM, Roger J, Vaslet D, Cecca F, Gardin S, Memesh AMS (2002) Sequence stratigraphy, biostratigraphy and paleontology of the Maastrichtian-Paleocene Aruma Formation in outcrop in Saudi Arabia. GeoArabia 7(4):699–718
Powers RW (1968) Lexique Stratigraphique International, vIII, Asie, 10bl, Saudi Arabia Centre National de la Recherche. Scientifique, Paris 177p
Powers RW, Ramirez LF, Redmond CD, Elberg EL (1966) Geology of the Arabian Peninsula, Geological Survey Professional Paper, 560-D, 147p.
Rajendran S, Nasir S (2014) ASTER mapping of limestone formations and study of caves, springs and depressions in parts of Sultanate of Oman. Environ Earth Sci 71(1):33–146
Rajendran S, Nasir S, El-Ghali MA, Alzebdah K, Salim Al-Rajhi A, Al-Battashi M (2018) Spectral signature characterization and remote mapping of Oman exotic limestones for industrial rock resource assessment. Geosciences 8(4) p145
Rowan LC, Mars JC (2003) Lithologic mapping in the Mountain Pass, California area using advanced spaceborne thermal emission and reflection radiometer (ASTER) data. Remote Sens Environ 84(3):350–366
Sharland P, Archer R, Casey D, Davies R, Hall S, Heward A, Horbury A, Simmons M (2001) Arabian plate sequence stratigraphy. GeoArabia Special Publication 2, Gulf PetroLink, Bahrain, 371 p.
Steineke M, Bramkamp RA (1952) Stratigraphical introduction In: Arkell, WJ, Bramkamp, RA, Steineke, M (Eds), Jurassic ammonites from Jebel Tuwaiq, Central Arabia Philosophical Transactions Series B. 236. Royal Society, London, 236: 241–313.
Steineke M, Bramkamp RA, Sander NJ (1958) Stratigraphic relations of Arabian Jurassic oil In: American Association of Petroleum Geologists Symposium, Tulsa,1294–1329.
Touma FT, Bellerjeau WR (1981) Experience with foundations of structures on rock in Saudi Arabia Symp on Geotechnical Problems in Saudi Arabia, Ia, 49 pp.
Vaslet D, Delfour J, Manivit J, Le Nindre YM, Brosse JM, Fourniquet J (1983) Geologic map of the Wadi ar Rayn quadrangle, Sheet 23H, Kingdom of Saudi Arabia Saudi Arabian Deputy Ministry for Mineral Resources, Jeddah, Geosciences Map, GM-63A.
Vaslet D, Pellaton C, Manivit J, Le Nindre Y, Brosse, J, Fourniquet J (1984) Explanatory notes to the geologic map of the Sulayyimah Quadrangle, Sheet 24 H, Kingdom of Saudi Arabia Saudi Arabian Deputy Ministry for Mineral Resources, Jeddah, Geosciences Map, GM-100A.
Vaslet D, Al Muallem MS, Madah SS, Shorbaji H (1988) Preliminary technical investigation of a crevasse opened at Al Kharj end of February 1988: Ministry of Petroleum and Minerals Report, BRGM-JED-IR-88-110p.
Vaslet D, Al-Muallem MS, Maddeh SS, Brosse J, Fourniquet J, Breton, J, Le Nindre Y (1991a) Explanatory notes to the geologic map of the Ar Riyad Quadrangle, Sheet 24 I, Kingdom of Saudi Arabia Saudi Arabian Deputy Ministry for Mineral Resources, Jeddah, Geosciences Map, GM-121.
Vaslet D, Brosse JM, Breton JP, Manivit J, Le Strat P, Fourniguet J, Shorbaji H (1991b) Explanatory notes to the geologic map of the Shaqra Quadrangle: Sheet 25H, Kingdom of Saudi Arabia Ministry of Petroleum and Mineral Resources.
Gudissa W, Dinku A (2010) The use of limestone powder as an alternative cement replacement material: an experimental study. J EEA 27
Xiong Y, Khan SD, Mahmood K, Sisson VB (2011) Lithological mapping of Bela ophiolite with remote-sensing data. Int J Remote Sens 32(16):4641–4658
Youssef M, El-Sorogy A (2015) Palaeoecology of benthic foraminifera in coral reefs recorded in the Jurassic Tuwaiq Mountain Formation of the Khashm Al- Qaddiyah Area, Central Saudi Arabia. J Earth Sci 26(2):224–235
Youssef AM, Al-Harbi HM, Gutiérrez F, Yasser A, Zabramwi Y, Bulkhi A, Zahrani S, Bahamil A, Zahrani A, Otaibi Z, El-Haddad B (2015) Natural and human-induced sinkhole hazards in Saudi Arabia: distribution, investigation, causes and impacts. Hydrogeol J. https://doi.org/10.1007/s10040-015-1336-0
Ziegler MA (2001) Late Permian to Holocene paleofacies evolution of the Arabian Plate and its hydrocarbon occurrences. GeoArabia 6, 445–504
Acknowledgments
The authors are greatly indebted to the two anonymous reviewers for the given time and expertise to comment on the paper and for their constructive comments, which contributed to the improvement of the manuscript.
Funding
This project was supported by the Deanship of Scientific Research at Prince Sattam Bin Abdulaziz University under the research project (No. 2019/01/10409).
Author information
Authors and Affiliations
Corresponding author
Additional information
This article is part of the Topical Collection on Current Advances in Geological Research of Egypt
Rights and permissions
About this article
Cite this article
Selim, E.S., Aboelkhair, H. & Aboezz, E.R. Mapping and assessing limestone as a raw material for the cement industry using satellite data: a case study of areas between Riyadh and Al Kharj, Saudi Arabia. Arab J Geosci 13, 892 (2020). https://doi.org/10.1007/s12517-020-05865-y
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s12517-020-05865-y