Symbiosis between geochronologists and quaternary geoscientists

Geyh, M. A.

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Symbiosis between geochronologists and quaternary geoscientists

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Geyh M. A.

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Abstrakty

There is an apparent conflict between the high output of absolute dates of automated devises installed in geochronological laboratories and the growing need of an individual and thorough interpretation of absolute physical dates determined for geoscientists and archaeologists. This conflict can only be solved by a symbiotic co-operation with universal geochronologists. The benefit will be an increase of the reliability and precision of the geochronological time marks, an improvement of the dating methods and an extension of the fields of application for the many absolute dating methods based on cosmogenic isotopes, radiation damage or uranium-series disequilibrium.

Słowa kluczowe

isotopic dating luminescence dating ESR dating geochronology Quaternary

Wydawca

De Gruyter

Czasopismo

Geochronometria

Rocznik

2001

Tom

Vol. 20

Strony

1--8

Opis fizyczny

Bibliogr. 41 poz., rys.

Twórcy

autor

Geyh M. A.

mebus.geyh@t-online.de

29 308 Winsen/Aller, Germany

Bibliografia

1. Barabas M., Walther R., Wieser A., Radtke U. and Grün R., 1993: Second interlaboratory-comparison project on ESR dating. Applied Radiation and Isotopes 44: 119–129.
2. Berger G.W., Pillans B.J. and Palmer A.S., 1992: Dating loess up to 800 ka by thermoluminescence. Geology 20: 403–406.
3. Bierman P.R. and Gillespie A.R., 1994: Evidence suggesting that methods of rock-varnish cation-ratio dating are neither comparable nor consistently reliable. Quaternary Research 41: 82–90.
4. Davis R., Jr. and Schaeffer D.A., 1955: Chlorine-36 in nature. Ann. N.Y. Acad. Sci. 62: 105.
5. Dorn R.I. and Phillips F.M., 1991: Surface exposure dating: review and critical evaluation. Physical Geography 12 (4): 303–333.
6. Eitel B. and Zöller L., 1997: Soils and sediments in the basin of Dieprivier – Uitskot (Khorixas District, Namibia): Age, geomorphic and sedimentological investigation, paleoclimatic interpretation. Palaeoecology of Africa 24: 159–172.
7. Engelmann A., Neber A., Frechen M. Boenigk, W. and Ronen A., 2001: Luminescence chronology of Upper Pleistocene and Holocene aeolianites from Netanya South – Sharon Coastal Plain, Israel. Quaternary Science Review 20 (5-9): 799–804.
8. Frechen M., 1994: Thermolumineszent-Datierungen an Lössen des Tönchesberges aus der Osteifel. Eiszeitalter und Gegenwart 44: 79-93.
9. Geyh M.A., 1991: Determination of absolutes dates for terrestrial materials (Last Interglacial to Holocene). An appeal for careful interpretation. In: Frenzel B., ed., Klimageschichtliche Probleme der letzten 130 000 Jahre 1. Fischer, Stuttgart: 251–265.
10. Geyh M. A., 1994: Precise “isochron“-derived detritus-corrected U/ Th dates. Poster presentation on the 16th Radiocarbon Conference, Groningen, June 1994.
11. Geyh M.A., 2001: Bomb 14C dating of animal tissues and hair. Radiocarbon, in press.
12. Geyh M.A., 2002: Reflections on the 230Th/U dating of dirty material. Geochronometria, in press.
13. Geyh M.A. and Eitel B., 1998: Radiocarbon dating of young and old calcrete. Radiocarbon 40 (2): 795–802.
14. Geyh M.A. and Schleicher H., 1990: Absolute Age Determination. Physical and Chemical Dating Methods and Their Application. Springer, Heidelberg: 503 pp.
15. Gögen K. and Wagner G.A., 2000: Alpha-recoil track dating of Quaternary volcanics. Chemical Geology (Isotope Geoscience) 166: 127–137.
16. Grün R., 1989: Electron spin resonance (ESR) dating. Quaternary International 1: 65–109.
17. Hennig G.J., Geyh, M.A. and Grün R., 1985: The first interlaboratory ESR comparison project phase II: evaluation of equivalent doses (ED) of calcites. Nuclear Tracks 10: 945–952.
18. Huang W.H. and Walker R.M., 1967: Fossil alpha-particle recoil tracks; a new method of age determination. Science 155: 1103– 1106.
19. Ikeya M., 1993: New Applications of Electron Spin Resonance. Dating, Dosimetry and Microscopy. World Scientific, Singapore New Jersey London Hong Kong Bangalore: 520 pp.
20. Ivanovich M., and Harmon R.S. (eds.), 1992: Uranium-Series Disequilibrium: Applications to Earth, Marine and Environmental Sciences (2nd ed.). Clarendon Press, Oxford: 920 pp.
21. Ivy-Ochs S., 1996: The dating of rock surfaces using in situ produced 10Be, 26Al and 36Cl, with examples from Antarctica and the Swiss Alp. Diss. ETH No. 11763 (Ph.D. Thesis at the Swiss Federal Institute of Technology, University Zurich): 196 pp.
22. Katzenberger O., 1989: Experimentelle Untersuchungen zu Grundlagen der ESR-Datierung von Molluskenschalen. Sonderveröffentlichungen des Geologischen Instituts der Universität zu Köln 72: 71 S.
23. Kitagawa H., and van der Plicht J., 1998: A 40,000-year varve chronology from lake Suigetsu, Japan: Extension of the 14C calibration curve. Radiocarbon 40: 505–516.
24. Ku T.L. and Liang Z.Ch., 1984: The dating of impure carbonates with decay-series isotopes. Nuclear Instruments and Methods in Physical Research 223: 563–571.
25. Lal D., 1988: In situ-produced cosmogenic isotopes in terrestrial rocks. Ann. Rev. Earth. Planet. Sci. 16: 355–388.
26. Lal D., Nijampurkar V.N. and Rama S., 1970: Silicon-32 hydrology. In: Isotope Hydrology 1970. IAEA, Vienna: 847–863.
27. Ludwig K.R. and Titterington D.M., 1994: Calculation of 230Th/U isochrons, ages, and errors. Geochimica et Cosmochimica Acta 22: 5031–5042.
28. Mallick R., 2000: Entwicklung einer Mikrobeprobung zur Th/UDatierung und Anwendung an quartären Travertinen aus dem Thüringer Becken. Ph.D. Thesis at the University Heidelberg: 168 pp.
29. Morgenstern U., Geyh M.A., Kudrass H.R. and Ditchburn R.G., 2001: 32Si dating of shelf sediments from Bangladesh. Radiocarbon, in press.
30. Mudelsee M., Barabas M. and Mangini, A., 1992: ESR dating of the Quaternary deep-sea sediment core RC17-177. Quaternary Science Review 11: 181–189.
31. Nijampurkar V.N., Bhandari N., Vohra C.P. and Krishnan V., 1982: Radiometric chronology of Neh-Nar glacier, Kashmir. Journal of Glaciology 28: 91–105.
32. Olsson I.U., 1973: A critical analysis of 14C datings of deposits containing little carbon. In: Proceedings of 8th International Conference of Radiocarbon Dating, Royal Society of New Zealand, Wellington: 547–564.
33. Prescott J.R. and Robertson G.B., 1997: Sediment dating by luminescence: a review. Radiation Measurements 26: 893–922.
34. Preusser F., 1999: Luminescence dating of fluviatil sediments and overbank deposits from Gossau, Swizerland: fine grain dating. Quaternary Geochronology 18: 217–222.
35. Sato T., 1982: ESR dating of planktonic foraminifera. Nature 300: 518–521.
36. Schellmann G. and Radtke U., 1999: Problems encountered in the determination of dose and dose rate in ESR dating of mollusk shells. Quaternary Science Review 18 (13): 1515–1527.
37. Shore J.S., Bartley D.D. and Harkness D.D., 1995: Problems encountered with the 14C dating of peat. Quaternary Science Reviews (Quaternary Geochronology) 14: 373–383.
38. Smith M.A., Prescott J.R. and Head M.J., 1997: Comparison of 14C and luminescence chronologies at Puritjarra rock Shelter, Central Australia. Quaternary Science Review 16 (3–5): 299–320.
39. Vanhaelewyn G., Amira S., Debuyst R., Callens F., Glorieux, Th., Leloup G., and Thierens H., 2001: A critical discussion of the 2 nd intercomparison on electron paramagnetic resonance dosimetry with tooth enamel: Radiation Measurements 33: 417-426.
40. Wagner G.A., 1995. Altersbestimmung von jungen Gesteinen und Artifakten. Enke, Stuttgart: 277 S.
41. Wintle A.G., Questiaux D.G., Roberts R.G. and Spooner N.A., 1993: Dating loess up to 800 ka by thermoluminescence. Geology 21 (6): 568–569.

Typ dokumentu

Bibliografia

Identyfikator YADDA

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