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Heavy-mineral, mineral-chemical and zircon-age constraints on the provenance of Triassic sandstones from the Devon coast, southern Britain

the Pennine Basin, UK: constraints from heavy mineral and detrital zircon age data. Sedimentary Geology 137, 147-185. Henry, D.J. & Guidotti, C.V., 1985. Tourmaline as a petrogenetic indicator mineral: an example from the staurolite-grade metapelites of NW Maine. American Mineralogist 70, 1-15. Holloway, S., Milodowski, A.E., Strong, G.E. & Warrington, G., 1989. The Sherwood Sandstone Group of the Wessex Basin, southern England. Proceedings of the Geologists Association 100, 383-394. Hounslow, M.W. & Ruffell, A

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Hazardous radioactivity levels and heavy mineral concentrations in beach sediments of Lake Peipsi, northeastern Estonia

by-products. Health Physics 48, 87–95. Carvalho, C., Anjos, R.M., Veiga, R. & Macario, K., 2011. Application of radiometric analysis in the study of provenance and transport processes of Brazilian coastal sediments. Journal of Environmental Radioactivity 102, 185–192. De Meijer, R.J., 1998. Heavy minerals: from “Edelstein” to Einstein. Journal of Geochemical Exploration 62, 81–103. De Meijer, R.J., James, I.R., Jennings, P.J. & Koeyers, J.E., 2001. Cluster analysis of radionuclide concentrations in beach sand. Applied Radiation and Isotopes

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Heavy minerals as a tool to reconstruct river activity during the Weichselian glaciation (Toruń Basin, Poland)

.A., Reesink, A.J.H., Simpson, C.J. & Thomas, R.E., 2011. Evolution and sedimentology of a channel fill in the sandy braided South Saskatchewan River and its comparison to the deposits of an adjacent compound bar. Sedimentology 58, 1860-1883. Bateman, R.M. & Cat, J.A., 2007. Provenance and palaeoenvironmental interpretation of superficial deposits, with Particular reference to post-depositional modification of heavy mineral assemblages. [In:] M.A. Mange & D.T. Wright (Eds): Heavy minerals in use. Developments in Sedimentology 58, 151

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Heavy and light minerals as a tool for reconstructing depositional environments: an example from the Jałówka site (northern Podlasie region, NE Poland)

[Aeolisation of sediments as an indicator of Quaternary stratigraphy]. WGSR, Warszawa, 39-42. Bateman, R.M., 1989. Interpretation of heavy mineral assemblages: outmoded art or undervalued science? 28th International Geological Congress (Washington, DC) Abstracts 1, 97-98. Bateman, R.M. & Catt, J.A., 2007. Provenance and paleoenvironmental interpretation of superficial deposits, with particular references to post-depositional modification of heavy mineral assemblages. [In:] M.A. Mange & D.T. Wright (Eds): Heavy minerals in use. Developments

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Factors controlling sedimentation in the Toruń-Eberswalde ice-marginal valley during the Pomeranian phase of the Weichselian glaciation: an overview

1, 393-423. Komar, P.D., 2007. The entrainment, transport and sorting of heavy minerals by waves and currents. [In:] M.A. Mange & D.T. Wright (Eds): Heavy Minerals in Use. Developments in Sedimentology 58, 3-48. Elsevier, Amsterdam. Kondracki, J., 2000. Geografia regionalna Polski [Regional geography of Poland]. PWN Press, Warsaw, 441 pp. Kozarski, S., 1959. O genezie O genezie chodzieskiej moreny czołowej [On the origin of the Chodzież end moraine]. Badania Fizjograficzne nad Polską Zachodnią 5, 45-72. [In Polish

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New interpretation of the provenance of crystalline material from Oligocene flysch deposits of the Skole Nappe, Poland: evidence from heavy minerals and clasts in the Nowy Borek section

, E., Malata T., Ringenbach, J.C., Werner, P. & Krzywiec, P., 2012. Architecture and orogenic evolution of the north-eastern Outer Carpathians from cross-section balancing and forward modelling. Tectonophysics 532–535, 223–241. Gil, G., 2013. Petrographic and microprobe study of nephrites from Lower Silesia (SW Poland). Geological Quarterly 57, 395–404. Grzebyk, J. & Leszczyński, S., 2006. New data on heavy minerals from the Upper Cretaceous-Paleogene flysch of the Beskid Śląski Mts. (Polish Carpathians). Geological Quarterly 50, 265

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Heavy-mineral analysis in Polish investigations of Quaternary deposits: a review

, Warszawa, 205-228. Bujak, Ł., 2010. Osady preglacjalne południowej części Niziny Mazowieckiej w świetle wyników analizy minerałów ciężkich [Heavy minerals in preglacial sediments of the southern Mazovian Lowland]. Biuletyn Państwowego Instytutu Geologicznego 438, 19-31. Cailleux, A., 1942. Les actions éoliennes periglaciaires en Europe. Mémoires de la Société Géologique de France (Nouvelle Série) 46, 1-127. Chlebowski, R. & Lindner, L., 1991. Źródła materiału i warunki akumulacji lessów młodszych Wyżyny Małopolskiej

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Possibilities and restrictions of heavy-mineral analysis for the reconstruction of sedimentary environments and source areas

, Academy of Sciences, USSR, Series Geology 6, 59-124 (in Russian). Bateman, R.M., Catt, J.A., 2007. Provenance and palaeoenvironmental interpretation of superficial deposits, with particular reference to post-depositional modification of heavy mineral assemblages. [In:] M.A. Mange & D.T. Wright (Eds): Heavy minerals in use. Developments in Sedimentology 58, 151-188. Berger, M.G., 1986. Terrigenous mineralogy . Nedra, Moscow, 226 pp. (in Russian). Boggs, S.J., Seyedolali, A., 1992. Provenance of Miocene sandstones from

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Heavy–mineral assemblages from fluvial Pleniglacial deposits of the Piotrków Plateau and the Holy Cross Mountains – a comparative study

interpretation of superficial deposits, with particular reference to post-depositional modification of heavy mineral assemblages. [In:] M.A. Mange & D.T. Wright (Eds): Heavy minerals in use. Developments in Sedimentology 58, 151-188. Cordier, S., Harmand, D., Losson, B. & Beiner, M., 2004. Alluviation in the Meurthe and Moselle valleys (eastern Paris Basin, France): lithological contribution to the study of the Moselle capture and Pleistocene climatic fluctuations. Quaternaire 15, 65-76. Gilewska, S., 1991. Rzeźba [Relief]. [In:] L. Starkel

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Prospects and limitations of heavy mineral analyses to discriminate preglacial/glacial transitions in Pleistocene sedimentary successions

and Middle Pleistocene timescales: Published datasets and case studies from Atapuerca, Spain. Quaternary International 389, 167–190. Badura, J. & Przybylski, B., 2004. Evolution of the Late Neogene and Eopleistocene fluvial system in the fore land of the Sudetes Mountains, SW Poland. Annales Societatis Geologorum Poloniae 74, 43–61. Bateman, R.M. & Catt, J.A., 2007. Provenance and palaeoenvironmental interpretation of superficial deposits, with particular reference to post-depositional modification of heavy mineral assemblages. In: Developments in

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