Reconnaissance Stream Sediments Survey in the Sidakan Vicinity, Iraqi Kurdistan Region

  • Hawkar A. Abdulhaq Department of Civil and Architectural Engineering, School of Science and Engineering, University of Kurdistan Hewler, Erbil, Kurdistan Region- F.R. Iraq http://orcid.org/0000-0002-8639-3225
  • Baroz Aziz Department of Natural Resources Engineering and Management, University of Kurdistan Hewler, Erbil, Kurdistan Region, F. R. Iraq
  • Varoujan K. Sissakian Department of Civil and Architectural Engineering, School of Science and Engineering, University of Kurdistan Hewler, Erbil, Kurdistan Region- F.R. Iraq http://orcid.org/0000-0002-9840-5422
  • Hassan O. Omer Natural Resources Engineering & Management, School of Science and Engineering, University of Kurdistan Hewler, Erbil, Kurdistan Region- F. R. Iraq. http://orcid.org/0000-0003-0232-5653
  • Anyrag Malik Scientist, Punjab Agricultural University, Regional Research Station, India http://orcid.org/0000-0002-0298-5777
Keywords: Stream-sediment; Silver; Uranium; Cocentration map; Kurdistan, Iraq

Abstract

A stream survey was conducted in the Sidakan vicinity in the northeastern part of the Iraqi Kurdistan Region, which covered the catchment area of the main stream. The covered area is about 450 km2. The exposed rocks in the study area are mainly igneous with subordinate sedimentary and metamorphic rocks. The catchment area was divided into 14 sub-basins using Global Mapper software. The junction point of the valleys at the end of each sub-basin was sampled. From each junction point, 2 stream sediments were collected. The samples were sieved using the wet method into 2 mm fractions, before the fractions were subjected to x-ray fluorescence (XRF) and x-ray diffraction (XRD) analysis. The results obtained from both tests were used to calculate the concentrations of 9 elements (Cr, Ni, Co, Cu, U, Ag, V, Zn, and Cd). The element concentrations are presented in 9 concentration maps after normalizing the concentration values. Some anomalous results were found. The average concentrations of Ag and Cd were nearly 120 and 266 times higher than the background concentrations (6 mg/kg and 16 mg/ kg, respectively). The acquired data also showed interesting average concentrations for the elements Co, Cr, Ni, and U (280 mg/kg, 999 mg/kg, 375 mg/kg, and 12 mg/kg, respectively). All of these anomalous concentrations are discussed and possible reasons for their existence are given.

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Author Biographies

Hawkar A. Abdulhaq, Department of Civil and Architectural Engineering, School of Science and Engineering, University of Kurdistan Hewler, Erbil, Kurdistan Region- F.R. Iraq

Hawkar Ali Abdulhaq graduated from University of Salahadeen in 2011 with BSc degree in Geology. In 2011, he joined MOL Kalegran company as an Exploration geologist until 2016. In 2015, he studied MSc degree at the University of Miskolc in Hungary. On December 2017, he joined UKH as a teaching and lab assistant at the department of natural resource engineering and management.

Varoujan K. Sissakian, Department of Civil and Architectural Engineering, School of Science and Engineering, University of Kurdistan Hewler, Erbil, Kurdistan Region- F.R. Iraq

Varoujan K. Sissakian graduated from University of Baghdad in 1969 with B.Sc. degree in Geology, and M.Sc. in Engineering Geological Mapping from I.T.C., the Netherlands in 1982. He joined Iraq Geological Survey (GEOSURV) in 1971 and was nominated as Expert in 2005; retired on 10th of October, 2012. He has 125 documented reports in GEOSURV's library and 145 published articles in different geological aspects in different geological journals and 36 articles in different stages of publications.

He was the Deputy Vice President of the Middle East Subcommission of the Committee of Compilation the Geological Map of the World (CGMW), Paris, from February 2010 until August 2012. He was Visiting Lecturer in University of Kurdistan, Hewler, since October, 2014 and Lecturer since February, 2017. Currently, he is a Lecturer in the University of Kurdistan Hewler, Erbil, KRG, Iraq.

 

Hassan O. Omer, Natural Resources Engineering & Management, School of Science and Engineering, University of Kurdistan Hewler, Erbil, Kurdistan Region- F. R. Iraq.

Lab assistant in Geology holds a BS.c from the university of Damascus (Syria) in Geophysics, master student in his second year. His area of expertise covers, drilling oil and water wells, wellsite geologist, Core processing engineer, and mud logging. He had worked with several international oil companies in Kurdistan; Gazprom, ALS Group and Taqa Energy.

Anyrag Malik, Scientist, Punjab Agricultural University, Regional Research Station, India

Anurag Malik is a PhD holder. He currently works as a sceintist at the Regional Research Station, Punjab Agricultural University, , Bathinda, Punjab, India

References

Abdolmaleki, M., Mokhtari, A. R., Akbar, S., Alipour-Asll, M., & Carranza, E. J. M. (2014). Catchment basin analysis of stream sediment geochemical data: Incorporation of slope effect. Journal of Geochemical Exploration, 140, 96-103.

Alavi, M. (2004). Regional stratigraphy of the Zagros fold-thrust belt of Iran and its proforeland evolution. American Journal of Science, 304(1), 1-20.

Al-Bassam, K. S. (2013). Mineral resources of Kurdistan region, Iraq. Iraqi Bulletin of Geology and Mining, 9(3), 103-127.

Ali, K., Cheng, Q., Li, W., and Chen, Y. (2006). Multi-element association analysis of stream sediment geochemistry data for predicting gold deposits in south-central Yunnan Province, China. Geochemistry Exploration, Environment, Analysis, 6(4), 341-348.

Ali, S. A., Buckman, S., Aswad, K. J., Jones, B. G., Ismail, S. A., & Nutman, A. P. (2012). Recognition of Late Cretaceous Hasanbag ophiolite-arc rocks in the Kurdistan Region of the Iraqi Zagros suture zone: A missing link in the paleogeography of the closing Neotethys Ocean. Lithosphere, 4(5), 395-410.

Al-Mehaidi, H.M. (1974). Geological investigation of Mawat- Chwarta area, NE Iraq. Iraq Geological Survey Library Internal Report No. 609.

Armour-Brown, A., and Nichol, I. (1970). Regional geochemical reconnaissance and the location of metallogenic provinces. Economic Geology, 65(3), 312-330.

ASTER Global Digital Elevation Map Announcement (2009). NASSA, Jet Propulsion Laboratory. https://asterweb.jpl.nasa.gov/gdem.asp.

Aswad, K.J., Al-Samman, A.H., Aziz, N.R. and Koyi, A.M. (2014). The geochronology and petrogenesis of Walash volcanic rocks, Mawat nappes: constraints on the evolution of the northwestern Zagros suture zone, Kurdistan Region, Iraq. Arabian Journal of Geosciences, 7(4), 1403-1432.

Aubert, H. and Pinta, M. (1980). Trace Elements. In: Soils. 1st ed. Burlington: Elsevier.

Baumer, A., & Fraser, R. B. (1975). Panguna porphyry copper deposit, Papua New Guinea. Economic geology of Australia and Papua New Guinea I–Metals. Australasian Institute of Mining and Metallurgy, Melbourne, 855-866.

Bolton, C.M.G. (1954). Geological Map of Kurdistan Series, scale 1:100 000, sheet K6, Halabcha. Iraq Geological Survey Library Internal Report No.278.

Boyle, R.W. (1968). Geochemistry of silver and its deposit notes on geochemical prospecting for the element. Geological Survey of Canada. Ottawa, Ont: Canada, Department of Energy, Mines and Resources, 160, l-96.

Dostal, J., Elson, C., & Dupuy, C. (1979). Distribution of lead, silver and cadmium in some igneous rocks and their constituent minerals. The Canadian Mineralogist, 17(3), 561-567.

Eppinger, R. G., Briggs, P. H., Rieffenberger, B., Dorn, C. V., Brown, Z. A., Crock, J. G., ... & Wilson, S. A. (2003). Geochemical data for stream sediment and surface water samples from Panther Creek, the Middle Fork of the Salmon River, and the Main Salmon River, collected before and after the Clear Creek, Little Pistol, and Shellrock wildfires of 2000 in central Idaho (pp. 1-32). US Department of the Interior, US Geological Survey.

ESSRI (2013). ArcGIS REST Services Directory. World Imagery. https://services.arcgisonline.com/ArcGIS/rest/services/World_Imagery/MapServer/0.

Fletcher, W.K. (1997) Stream sediment geochemistry in today’s exploration world. In: Proceedings of exploration, Vol 97, pp. 249-260.

Fouad, S.F. (2012). Tectonic Map of Iraq, scale 1: 1000000, 3rd edition. Iraq Geological Survey Publications, Baghdad. Iraq.

Garrett, R. G. (1966). Regional geochemical reconnaissance of eastern Sierra Leone. Ph.D. Thesis, Vol 1. http://hdl.handle.net/10044/1/17705

Hu, Z. and Gao, S. (2008). Upper crustal abundances of trace elements: a revision and update. Chemical Geology, 253(3-4), 205-221.

Lahermo, P., Väänänen, P., Tarvainen, T., & Salminen, R. (1996). Geochemical atlas of Finland, part 3: Environmental geochemistry–stream waters and sediments. Geological Survey of Finland, Espoo.

Landry, S. T., Sylvestre, G., Djibril, K. N. G., Timoleon, N., Boniface, K., & Paul, N. J. (2014). Stream sediment geochemical survey of Gouap-Nkollo prospect, southern Cameroon: implications for gold and LREE exploration. American Journal of Mining and Metallurgy, 2(1), 8-16.

Lima, A., De Vivo, B., Cicchella, D., Cortini, M., & Albanese, S. (2003). Multifractal IDW interpolation and fractal filtering method in environmental studies: an application on regional stream sediments of (Italy), Campania region. Applied Geochemistry, 18(12), 1853-1865.

Marjoribanks, R. (2010). Geological methods in mineral exploration and mining. Springer Science & Business Media.

McCormick, G. R. (1978). Vanadium-titanium-bearing mixed-layered clay from Potash Sulphur Springs, Arkansas. Clays and Clay Minerals, 26(2), 93-100.

Akintola, A. I., Bankole, S. I., Ikhane, P. R., & Salami, O. O. (2014). Geology and geochemical analysis of stream sediments and soil samples of Ijero Ekiti and its environs southwestern Nigeria. Advances in Environmental Biology, 1:68-87.

Marshall, D., & WATKINSON, D. H. (2000). The Cobalt mining district: Silver sources, transport and deposition. Exploration and Mining Geology, 9(2), 81-90.

Meyer, W. T., Theobald, PK, Jr., Bloom, H. (1963). Stream Sediment Geochemistry. In: Geophysics and Geochemistry in the Search for Metallic Ores; Peter J. Hood, editor; Geological Survey of Canada, Economic Geology Report 31, p. 411-434, 1979. Economic Geology Report, (31), 411.

Moon, C. J., Whateley, M. K., & Evans, A. M. (2006). Introduction to mineral exploration, 2nd edition. Blackwell Publishing.

Morrison, J.M., Goldhaber, M.B., Mills, C.T., Breit, G.N., Hooper, R.L., Holloway, J.M., Diehl, S.F. and Ranville, J.F. (2015). Weathering and transport of chromium and nickel from serpentinite in the Coast Range ophiolite to the Sacramento Valley, California, USA. Applied Geochemistry, 61:72-86.

Ohta, A., Imai, N., Terashima, S., & Tachibana, Y. (2005). Influence of surface geology and mineral deposits on the spatial distributions of elemental concentrations in the stream sediments of Hokkaido, Japan. Journal of Geochemical Exploration, 86(2), 86-103.

Pędziwiatr, A., Kierczak, J., Waroszewski, J., Ratié, G., Quantin, C. and Ponzevera, E. (2018). Rock-type control of Ni, Cr, and Co phytoavailability in ultramafic soils. Plant and Soil, 423(1-2), 339-362.

Pękala, A. (2017,). Thorium and Uranium in the Rock Raw Materials Used For the Production of Building Materials. In IOP Conference Series: Materials Science and Engineering, 245(2):022033.

Pearre, N. C., & Van Heyl, A. (1960). Chromite and other mineral deposits in serpentine rocks of the Piedmont Upland, Maryland, Pennsylvania and Delaware (No. 1082). US Government Printing Office.

Plumlee, G. S. (1999). The environmental geology of mineral deposits. Society of Economic Geologists. Reviews in Economic Geology, 6 A:71-116.

Robb, L. (2013). Introduction to ore-forming processes. John Wiley & Sons.

Saglam, C. (2017). Heavy metal concentrations in serpentine soils and plants from Kizildag national park (Isparta) in Turkey. Fresenius Environmental Bulletin, 26(6), 3995-4003

Schulz, K. J., DeYoung, J. H., Seal, R. R., & Bradley, D. C. (Eds.). (2018). Critical Mineral Resources of the United States: Economic and Environmental Geology and Prospects for Future Supply. USGS. Professional Paper 1802. DOI:10.3133/pp1802

Shallari, S., Schwartz, C., Hasko, A. and Morel, J.L. (1998). Heavy metals in soils and plants of serpentine and industrial sites of Albania. Science of the Total Environment, 209(2-3), 133-142.

Sissakian, V. K. (2013). Geological evolution of the Iraqi Mesopotamia Foredeep, inner platform and near surroundings of the Arabian Plate. Journal of Asian Earth Sciences, 72, 152-163.

Sissakian, V.K. (2018). Minerals Wealth in Kurdistan. A Critical Review. UKHJSE, Vol. 2, No. 2, p. 23 – 36.
Sissakian, V. K., and Fouad, S. F. (2012). Geological Map of Iraq, scale 1: 1000000, 4th edition. Iraq Geological Survey Publications, Baghdad, Iraq.

Sissakian and Fouad. (2014). Geological Map of Erbil and Mahabad Quadrangles, scale 1:250000, 2nd edition. Iraq Geological Survey Publications, Baghdad, Iraq.

Stevenson, P.C. and Cobbett, G.P.R. (1954). Geological Map of Kurdistan Series, scale 1:100 000, sheet K3, Merga Sur. Iraq Geological Survey Library Internal Report No.275.

Taylor, S.R. and McLennan, S.M. (1995). The geochemical evolution of the continental crust. Reviews of Geophysics, 33(2), 241-265.

Wells, R. C. (1943). Relative abundance of nickel in the earth's crust. Professional Paper, 205-A. DOI: 10.3133/pp205A.
Published
2020-12-31
How to Cite
Abdulhaq, H., Aziz, B., Sissakian, V., Omer, H., & Malik, A. (2020, December 31). Reconnaissance Stream Sediments Survey in the Sidakan Vicinity, Iraqi Kurdistan Region. UKH Journal of Science and Engineering, 4(2), 101-118. https://doi.org/https://doi.org/10.25079/ukhjse.v4n2y2020.pp101-118
Section
Research Articles
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