Chronology of red dune aggradations of South India and its Palaeo-environmental significance

• Autorzy: Alappat, L. , Seralathan, P. , Shukla, A. D. , Thrivikramji, K. P. , Singhvi, A. K.
• Języki publikacji: EN

Abstrakty

EN

Red sand dunes occur in the coastal plains of south east and west of Tamil Nadu, India be-tween the co-ordinates of 8°00’ to 9°30’ N; 77°18’ to 79° 00’ E. OSL dating of these sands indicated aggradations between ~16-9 ka and ~9-3 ka in the west and east coasts respectively. Dating results from inland red dunes at the foothills of Western Ghats show a break in deposition at ~6 ka and ag-gradation since ~2 ka. The sand aggradations in the west coast occurred during the transition period when SW monsoon in the area was re-establishing. The dunes attained their stability by 9 ka. In the coastal region, the aggradations were controlled by sea level changes and a local recycling of earlier dunes (in the east coast). In the inland areas, the dune building was controlled by sand supply from fluvial sources.

Słowa kluczowe

EN

red sand dunes; OSL dating; Pleistocene; Holocene; chronology; sand aggradations

• Czasopismo: Geochronometria
• Rocznik: 2013
• Tom: Vol. 40, no. 4
• Strony: 274--282
• Opis fizyczny: Bibliogr. 45 poz., tab., wykr.

Twórcy

autor

Alappat, L.

• Geosciences Division, Physical Research Laboratory, Ahmedabad, India,

autor

Seralathan, P.

• Department of Marine Geology and Geophysics, Cochin University of Science and Technology, Kerala, India

autor

Shukla, A. D.

• Geosciences Division, Physical Research Laboratory, Ahmedabad, India

autor

Thrivikramji, K. P.

• UGC Emeritus Fellow, Dept. of Geology, University of Kerala, Kariavattom Campus, Trivandrum, India

autor

Singhvi, A. K.

• Geosciences Division, Physical Research Laboratory, Ahmedabad, India

Bibliografia

• 1. Adamiec G and Aitken MJ, 1998. Dose-rate conversion factors: update. Ancient TL 16(2): 37-50.
• 2. Bailiff IK, 2007. Methodological developments in the luminescence dating of brick from English late medieval and post medieval buildings. Archaeometry 49(4): 827-851, DOI 10.1111/j.1475-4754.2007.00338.x.
• 3. Barnett SM, 1999. Data list 6: luminescence dates for Late Bronze Age and Iron Age pottery assemblages in eastern and northern Britain. Ancient TL 17(1): 23-40.
• 4. Barnett SM, 2000. Luminescence dating of pottery from later prehistoric Britain. Archaeometry 42(2): 431-457, DOI 10.1111/j.1475-4754.2000.tb00892.x.
• 5. Benea V, Vandenberghe D, Timar A, Van den Haute P, Cosma C, Gligor M and Florescu C, 2007. Luminescence dating of Neolithic ceramics from Lumea Noua, Romania. Geochronometria 28: 9-16, DOI 10.2478/v10003-007-0027-9.
• 6. Blain S, Guibert P, Prigent D, Lanos P, Oberlin C, Sapin C, Bouvier A and Dufresne P, 2011. Combined dating methods applied to building archaeology: The contribution of thermoluminescence to the case of the Bell Tower of St Martin’s Church, Angers (France). Geochronometria 38(1): 55-63, DOI 10.2478/s13386-011-0010-0.
• 7. Bluszcz A, 1989. Datowanie ceramiki metodą termoluminescencyjną (Thermoluminescence dating of pottery). Geochronometria 6: 193-201 (in Polish).
• 8. Bluszcz A and Adamiec G, 1994. Termoluminescencyjne datowanie neolitycznej ceramiki z terenu Małopolski (okolice Kazimierzy Wielkiej) (Thermoluminescence dating of the Neolithic pottery from the Małopolska region (the environs of Kazimierza Wielka)). Światowit 39: 157-181 (in Polish).
• 9. Bluszcz A and Pazdur MF, 1994a. Datowanie metodą termolumines-cencyjną zabytkowej ceramiki z grodziska w Haćkach na Podlasiu (Thermoluminescence dating of pottery from settlement in Haćki village on Podlasie). Geochronometria 9: 47-67 (in Polish).
• 10. Bluszcz A and Pazdur MF, 1994b. Porównanie typologiczne datowania ceramiki z wynikami fizycznych metod datowania (Comparison of the typological dating of ceramics with the results of physical da-ting methods). Światowit 39: 182-192 (in Polish).
• 11. Buko A, Dzieńkowski T and Kusiak J, 2008. Próba datowania ceramiki wczesnośredniowiecznej metodą termoluminescencyjną: przykład badań zespołu grodowego w Busównie (Dating Early Medieval ce-ramics by the thermoluminescence method: Busówno site case stady). Archeologia Polski 53, 1: 25-49 (in Polish).
• 12. Chruścińska A, Jesionowski B, Oczkowski HL and Przegiętka KR, 2008. Using the TL single-aliquot regenerative-dose protocol for the verification of the chronology of the Teutonic Order Castle in Malbork. Geochronometria 30: 61-67, DOI 10.2478/v10003-008-0006-9.
• 13. Czopek S, 1992. Zabytki żelazne w materiałach grupy tarnobrzeskiej (The Tarnobrzeg group iron artefacts). W: Czopek S, red, Ziemie polskie we wczesnej epoce żelaza i ich powiązania z innymi tere-nami (In: Czopek S, ed, Polish territories in the early Iron Age and their connections with other lands). Rzeszów: 109-126 (in Polish).
• 14. Czopek S, 1996. Kolczyki typu Kłyżów (Kłyżów type earrings). W: Chochorowski J, red, Problemy epoki brązu i wczesnej epoki żelaza w Europie Środkowe. Księga jubileuszowa poświęcona Markowi Gedlowij (In: Chochorowski J., ed, Problems of the Bronze Age and early Iron Age in Central Europe. Jubilee book dedicated to Marek Gedl). Kraków: 163-173 (in Polish).
• 15. Czopek S, 2001. Pysznica pow. Stalowa Wola, stanowisko 1 – cmen-tarzysko ciałopalne z przełomu epok brązu i żelaza (Pysznica, district Stalowa Wola; site 1 – the late Bronze and early Iron Age cremation cemetery). Rzeszów (in Polish).
• 16. Czopek S, 2007. Grodzisko Dolne, stanowisko 22 – wielokulturowe stanowisko nad dolnym Wisłokiem, cześć I - od epoki kamienia do wczesnej epoki żelaza (Grodzisko Dolne, site 22 – a multicultural site on the lower Wisłok river. Part I – from the Stone Age to the early Iron Age). Rzeszów (in Polish).
• 17. Czopek S and Poradyło W, 2008. Warzyce, pow. Jasło, stan. 17 – osada z epoki brązu i wczesnej epoki żelaza (Warzyce, District Jaslo, site 17 - a settlement from the Bronze Age and Early Iron Age). Rzeszów (in Polish).
• 18. Daniels F, Boyd CA and Saunders DF, 1953. Thermoluminescence as a research tool. Science 117(3040): 343-349, DOI 10.1126/science.117.3040.343.
• 19. Dąbrowski J, 2009. Polska przed trzema tysiącami lat. Czasy kultury łużyckiej (Poland three thousand years ago. The Lusatian culture and its times). Warszawa (in Polish).
• 20. Feathers JK, 2003. Use of luminescence dating in archaeology. Meas-urement Science and Technology 14(9): 1493-1509, DOI 10.1088/0957-0233/14/9/302.
• 21. Fleming S, 1979. Thermoluminescence techniques in archaeology. 233 pp.
• 22. Gedl M, 1989. Wstęp (Intoduction). W: Kmieciński J, red, Pradzieje ziem polskich, t. I, cz. II Epoka brązu początki epoki żelaza (In: Kmieciński J., ed, Prehistory of Polish territories, volume I, part II. Bronze Age and early Iron Age). Warszawa-Łodź: 393-400 (in Polish).
• 23. Grögler N, Houtermans FG and Stauffer H, 1958. Radiation damage as a research tool for geology and prehistory. 5a Rass Internazion Elettr Nucl Sezione Nucleare Rome: 5-15.
• 24. Huntley DJ and Lamothe M, 2001. Ubiquity of anomalous fading in K-feldspars and the measurement and correction for it in optical da-ting. Canadian Journal of Earth Science 38(7): 1093-1106, DOI 10.1139/e01-013.
• 25. Kostrzewski J, 1949. Pradzieje Polski (Prehistory of Poland). Poznań (in Polish).
• 26. Kusiak J, 2011. Perspektywy wykorzystania metody termoluminescencyjnej w datowaniu obiektów wczesnośredniowiecznych w oparciu o wyniki analiz dla stanowiska w Nowińcu (gm. Lubsko, woj. lubuskie) (Prospects of thermoluminescence method used for dating of Early Middle Ages objects based on the results obtained for the Nowiniec site (Lubsko district, Lubuskie province). W: Grusz-ka B. red. Nowiniec stanowisko 2 –wczesnośredniowieczne grodzisko na pograniczu śląsko-łużyckim w świetle badań interdyscy-plinarnych. (In: Gruszka B. ed. Nowiniec, site 2 Early Middle Ages hillfort in the borderland between Silesia and Lusatia in the light of interdisciplinary research). Zielona Góra (in Polish): 203-210.
• 27. Kusiak J, Łanczont M, Dzieńkowski T and Rychter M, 2009. Nowe możliwości zastosowania metody datowania termoluminescencyjnego w badaniach archeologicznych (New opportunities for ap-plication of the thermoluminescence dating method in archaeolog-ical studies). W: Paner H, red, Aktualne problemy epoki kamienia na Pomorzu (In: Paner H, ed, Current problems of the Stone Age in Pomerania). Muzeum Archeologiczne w Gdańsku: 165-170 (in Polish).
• 28. Kusiak J, Rychter M and Stasiak-Cyran M, 2011. Attempts at thermo-luminescence dating of fired materials from the Przeworsk Culture settlements. Geochronometria 38(4): 359-368, DOI 10.2478/s13386-011-0026-5.
• 29. Mejdahl V and Wintle AG, 1984. Thermoluminescence applied to age determination in archaeology and geology. In: Horowitz YS, ed, Thermoluminescence and thermoluminescent dosimetry, Boca Ra-ton, CRC Press, v. III: 133-190.
• 30. Olley JM, Murray A and Roberts GR, 1996. The effects of disequilibria in the uranium and thorium decay chains on burial dose rates in fluvial sediments. Quaternary Science Reviews 15(7): 751-760, DOI 10.1016/0277-3791(96)00026-1.
• 31. Polymeris GS, Sakalis A, Papadopoulou D, Dallas G, Kitis G and Tsirliganis NC, 2007. Firing temperature of pottery using TL and OSL techniques. Nuclear Instruments and Methods in Physics Re-search 580(1): 747-750, DOI 10.1016/j.nima.2007.05.139.
• 32. Poręba GJ and Fedorowicz S, 2005. Gamma spectrometry for OSL and TL dating of loess deposits at Dybawka and Tarnawce (SE Po-land). Geochronometria 24: 27-32.
• 33. Prescott JR and Hutton JT, 1994. Cosmic ray contributions to dose rates for luminescence and ESR dating: large depths and long-term time variations. Radiation Measurements 23(2-3): 497-500, DOI 10.1016/1350-4487(94)90086-8.
• 34. Preusser F, Degering D, Fuchs M, Hilgers A, Kadereit A, Klasen N, Krbetschek M, Richter D and Spencer JQG, 2008. Luminescence dating: basics, methods and applications. Eiszeitalter und Gegen-wart Quaternary Science Journal 57(1-2): 95-149.
• 35. Przybyła MS, 2003. Uwagi o chronologii ceramiki grupy tarnobrzeskiej (Comments on chronology of the Tarnobrzeg group pottery), Materiały i Sprawozdania Rzeszowskiego Ośrodka Archeologicznego (Materials and Reports of Rzeszów Archaeological Centre), 24: 27-54 (In Polish).
• 36. Roque C, Guibert P, Vartanian E, Vieillevigne and Bechtel F, 2004. Changes in luminescence properties induced by thermal tratments; a case study at Sipan and Trujillo Moche sites (Peru). Radiation Measurements 38(1): 119-126, DOI 10.1016/S1350-4487(03)00249-X.
• 37. Sánchez JS, Mosquera DF and Fenollós JLM, 2008. TL AND OSL dating of sediment and pottery from two Syrian archaeological sites. Geochronometria 31: 21-29, DOI 10.2478/v10003-008-0017-6.
• 38. Szarek-Waszkowska E, 1975a. Cmentarzysko łużyckie w Kłyżowie, woj. tarnobrzeskie. Komentarz wystawy (The Lusatian cemetery in Kłyżów, Tarnobrzeg voivodeship. An exhibition commentary). Rzeszów (in Polish).
• 39. Szarek-Waszkowska E, 1975b. Kłyżów, pow. Stalowa Wola, stanowisko 2, Informator Archeologiczny (Kłyżów, district Stalowa Wola, site) . Warszawa: 88 (in Polish).
• 40. Trachsel M, 2004. Untersuchungen zur relativen und absoluten Chrono-logie der Hallstattzeit, Universitätsforschungen zur Prähistorischen Archäologie, Bd. 104, Bonn (in German).
• 41. Trybała-Zawiślak K, 2005. Komunikat o ciałopalnym cmentarzysku tarnobrzeskiej kultury łużyckiej na stanowisku 2 w Kłyżowie (An-nouncement about the Lusatian culture cremation cemetery at site 2 in Kłyżów). W: Kuraś M, red, Archeologia Kotliny Sandomier-skiej. Rocznik Muzeum Regionalnego w Stalowej Woli, nr 4, mo-nograficzny (In: Kuraś M, ed, Annals of Regional Museum in Sta-lowa Wola, No. 4 monographic book). Stalowa Wola: 411-422 (in Polish).
• 42. Venclová N, 1990. Prehistoric glass in Bohemia. Praha.
• 43. Walanus A and Goslar T, 2009. Datowanie radiowęglowe (Radiocarbon dating). Kraków: 147 pp. (in Polish).
• 44. Wintle AG, 2008. Fifty years of luminescence dating. Archaeometry 50(2): 276-312, DOI 10.1111/j.1475-4754.2008.00392.x.
• 45. Zink A and Porto E, 2005. Luminescence dating of the Tanagra terra-cottas of the Louvre collections. Geochronometria 24: 21-26.