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Tytuł artykułu

Optical dating of sediments in Khari River basin and slip rate along Katrol Hill Fault (KHF), Kachchh, India

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the central region of Mainland Kachchh, Western India, the Katrol Hill Fault (KHF) is one of the major E-W trending faults. An understanding of the episodes of reactivation during the past has a bearing on the future seismicity in the region. These reactivations are manifested by offset of elevation of fluvial sediments and scarp-derived colluvium in the Khari River basin, SE of Bharasar (23°11'36.5"N, 69°35'22.6"E). Stratigraphic offsets of the sediments at this site suggest three episodes of reactivation of the KHF during the late Quaternary. Optical dating of samples from sediment strata and top layer of scarp-derived colluvium using Natural Sensitivity Corrected – Single Aliquot Regenerative (NCF-SAR) protocol suggested that these events occurred during the past ~30 ka, with the most recent historic episode around 3.0 ka. Given that a part of the slip recorded in the form of sediments offset, was lost due to erosion after faulting, a lower bound to the time averaged slip rate of the segment of KHF, is inferred to be > 0.23 mm/a during the past 30 ka.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
21--28
Opis fizyczny
Bibliogr. 34 poz., rys., tab.
Twórcy
autor
autor
  • Geochronology and Isotope Geology Division, GSI, 15, Kyd Street, Kolkata-700016, India, kunduhk@yahoo.com
Bibliografia
  • Baskaran M, Despande SV, Rajaguru SN and Somayajulu BLK, 1989. Geochronology of miliolite rocks of Kutch, western India. Journal of the Geological Society of India 33: 588-593.
  • Biswas SK and Deshpande SV, 1970. Geologic and tectonic maps of Kachchh. Bulletin of Oil and Natural Gas Commission 7: 115–116.
  • Biswas SK, 1974. Landscape of Kutch – A Morphotectonic Analysis. Indian Journal of Earth Science 1: 77–190.
  • Biswas SK, 1977. Mesozoic rock stratigraphy of Kutch. Quaterly Journal of the Geological, Mining and Metallurgical Society of India 49: 1-52.
  • Biswas SK and Khattri KN, 2002. A geological study of earthquakes in Kachchh, Gujarat, India. Journal of the Geological Society of India 60: 131-142.
  • Chauhan N, Anand S, Shinde DP, Mayya S and Singhvi AK, 2011. Single grain beta dose distribution in sediments: Effect of beta straggling and density of soil. Geochronometria, in print.
  • Fattahi M, Walker R, Hollingsworth J, Bahroudi A, Nazari H, Talebian M, Armitage S and Stokes S, 2006. Holocene slip-rate on the Sabzevarthrust fault, NE Iran, determined using optically stimulated luminescence (OSL). Earth and Planetary Science Letters 245: 673-684.
  • Fattahi M, Walker RT, Khatib MM, Dolati A and Bahroudi A, 2007. Slip-rate estimate and past earthquakes on the Doruneh fault, eastern Iran. Geophysical Journal International 168: 691-709.
  • Fattahi M 2009. Dating past earthquakes and related sediments by thermoluminescence methods: a review. Quaternary International 199(1-2): 104-146.
  • Fattahi M, Nazari H, Bateman MD, Meyer B, Sebrier M, Talebian M, Le Dortz K, Foroutan M, Ahmadi Givi F and Ghorashi M, 2010. Refining the OSL age of the last earthquake on the Dheshir fault, Central Iran. Quaternary Geochronology 5: 286-292.
  • Galbraith RF, Roberts RG, Laslett GM, Yoshida H and Olley JM, 1999. Optical dating of single and multiple grains of quartz from Jinmium rock shelter, northern Australia: Part I, experimental design and statistical models. Archaeometry 41: 339-364.
  • Jacobs Z, Wintle AG, Roberts RG and Duller GAT, 2008. Equivalent dose distributions from single grains of quartz at Sibudu, South Africa: context, causes and consequences for optical dating of archaeological deposits. Journal of Archaeological Science 35: 1808-1820.
  • Jade S, Mukul M, Parvez IA, Ananda MB, Kumar PD and Gaur VK, 2002. Estimates of coseismic displacement and post deformation using Global Positioning System geodesy for the Bhuj earthquake of 26 January, 2001. Current Science 82: 748-752.
  • Le Dortz K, Meyer B, Sebrier M, Nazari H, Braucher R, Fattahi M, Benedetti L, Foroutan M, Siame L, BourlesD, Talebian M, Bateman MD and Ghoraishi M, 2009. Holocene right-slip rate determined by cosmogenic and OSL dating on the Anar fault, Central Iran. Geophysical Journal International 179: 700-710.
  • Little Timothy A, Dissen Russ Van, Rieser Uwe, Smith Euan GC and Langridge Rob M, 2010. Coseismic strike slip at a point during the last four earthquakes on the Wellington fault near Wellington, New Zealand. Journal of Geophysical Research 115, DOI: 10.1029/2009JB006589.
  • Mathew George, Gundu Rao TK, Sohoni PS and Karanth RV, 2004. ESR dating of interfault gypsum from Katrol hill range, Kachchh, Gujarat: Implications for neotectonism. Current Science, 87(9): 1269-1274.
  • Mathew George, Singhvi Ashok K and Karanth Rama V, 2006. Luminiscence chronometry and geomorphic evidence of active fold growth along the Kachchh Mainland Fault (KMF) Kachchh, India: seismotectonic implications. Tectonophysics 422: 71-86, DOI 10.1016/j.tect.2006.05.009.
  • Mayya YS, Morthekai P, Murari MK and Singhvi AK, 2006. Towards quantifying beta microdosimetric effects in single grain quartz dose distribution. Radiation Measurements 41: 1032-1039, DOI 10.1016/j.radmeas.2006.08.004.
  • Morthekai P 2007. Investigation on the radiation dose distribution in natural environment and their implication in luminescence chronology, unpublished Ph.D. thesis, Gujarat University: 148 pp.
  • Murray AS and Wintle AG, 2000. Luminescence dating of quartz using an improved single aliquot regenerative–dose protocol. Radiation Measurements 32: 57-73, DOI 10.1016/S1350-4487(99)00253-X.
  • Murray AS and Wintle AG, 2003. The single aliquot regenerative dose protocol: potential for improvements in reliability. Radiation Measurements 37: 377-381, DOI 10.1016/S1350-4487(03)00053-2.
  • Nagar YC, Sastry MD, Bhushan B, Kumar A, Mishra KP, Shastri A, Deo MN, Kocurek G, Magee JW, Wadhawan SK, Juyal N, Pandian MS, Shukla AD and Singhvi AK, 2010. Chronometry and formation pathways of gypsum using Electron Spin Resonnace and Fourier Transform- Infrared Spectroscopy. Quaternary Geochronology, DOI:10.1016/j.quageo.2010.05.001
  • Nissen Edwin, Walker Richard, Molor Erdenebat, Fattahi Morteza and Bayasgalan Amgalan, 2009. Late Quaternary rates of uplift and shortening at Baatar Hyarhan (Mongolian Altai) with optical stimulated luminescence. Geophysical Journal International 177: 259-278.
  • Nissen Edwin, Walker Richard T, Bayasgalan Amgalan, Carter Andrew, Fattahi Morteza, Molor Erdenebat, Schnabel Christoph, West A. Joshua and Xu Sheng, 2009. The late Quaternary slip-rate of the Har-Us-Nuur fault (Mongolian Altai) from cosmogenic 10Be and luminescence dating. Earth and Planetary Science Letters 286: 467-478.
  • Patidar AK, Maurya DM, Thakkar MG and Chamyal LS, 2007. Fluvial geomorphology and neotectonic activity based on field and GPR data, Katrol Hill Range, Kachchh, Western India. Quaternary International 159: 74-92.
  • Patidar AK, Maurya DM, Thakkar MG and Chamyal LS, 2008. Evidence of neotectonic reactivation of the Katrol Hill Fault during late Quaternary and its GPR characterization. Current Science 94: 338-346.
  • Porat N, Levi T and Weinberger R, 2007. Possible resetting of quartz OSL signals during earthquakes – evidence from late Pleistocene injection dykes, Dead Sea basin, Israel. Quaternary Geochronology 2(1-4): 272-277.
  • Prescott JR and Hutton JT, 1994. Cosmic ray contributions to dose rates for luminescence and ESR dating: large depths and long term variations. Radiation Measurements 23: 497-500, DOI 10.1016/1350-4487(94)90086-8.
  • Pucci S, De Martini PM and Pantosti D, 2008. Preliminary slip rate estimates for the Duzce segment of the North Anatolian fault Zone from offset geomorphic markers. Geomorphology 97 (3-4): 538-554.
  • Schumn SA, 1986. Alluvial rivers response to active tectonics. National Academy Press, Washington, D.C., 80-94.
  • Singhvi AK, Banerjee D, Pande K, Gogte V, Valdiya KS, 1994. Luminescence studies on neotectonic events in south-central Kumaun Himalaya - a feasibility study. Quaternary Science Reviews 13: 595-600.
  • Singhvi AK, Chauhan N and Biswas RH, 2010. A survey of some new approaches in extending the maximum age limit and accuracy of luminescence application to archeological chronometry. Journal of Mediterranean Archaeology (in press).
  • Thakkar MG, Maurya DM, Raj Rachna and Chamyal LS, 1999. Quaternary tectonic history and terrain evolution of the area around Bhuj, Mainland Kachchh, western India. Journal of the Geological Society of India 53: 601- 610.
  • Thakkar MG, Goyal B, Patidar AK, Maurya DM and Chamyal LS, 2006. Bedrock gorges in the central mainland Kachchh: Implications for landscape evolution. Journal of Earth System Science 115(2): 249-256.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BATA-0012-0028
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