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Douglas-fir provenance phenology observations

, C., Lipa, W. & Menzel A. (1992). Guidelines for plant phenological observations. Lavadinović, V., Koprivica, M. & Isajev V. (2004). Phenological characters of Douglas-fir provenances in Serbia. Silva Balcanica, 4(1), 89-94. Lavadinović, V. Isajev, V. & Miletić Z. (2010). Significance of genetic potential of Douglas-fir introduced provenances in Serbia for the ranking of their adaptation to climate changes. In IUFRO and EFI International scientific conference “Forest ecosystems and climate changes” (pp. 71-80). Belgrade, 9-10th March

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Dependence of douglas-fir mean height on geographic origin of canadian provenances in seedling nursery conditions

, 40-41, 137-145. Lavadinović, V., Isajev, V. & Koprivica M. (1996a). Efect of seed germination on survival and height of two-year old Douglas-fir of different provenances. Genetica, 28, 2, 103-114. Lavadinović, V. & Koprivica M. (1996b). Dependence of Young Douglas-fir stands of different provenances on beech sites in Serbia. Proceedings from the IUFRO Conference (pp. 390-400). Copenhagen. Lavadinović, V., Koprivica, M. & Marković N. (1996c). Comparison of diameter and height of twenty Douglas fir (Pseudotsuga

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Geochemistry, environmental and provenance study of the Middle Miocene Leitha limestones (Central Paratethys)

blocks in Colorado to platform sediment in Kansas, USA. Geochim. Cosmochim. Acta 58, 4955–4972. Cullers R.L. 2000: The geochemistry of shales, siltstones and sandstones of Penn- sylvanianePermian age, Colorado, U.S.A.: implications for provenance and metamorphic studies. Lithos 51, 305–327. Cullers R.L. 2002: Implications of elemental concentrations for provenance, redox conditions, and metamorphic studies of shales and limestones near Pueblo, CO, USA. Chem. Geol. 191, 305–327. Cullers R.L. & Podkovyrov V.N. 2000: Geochemistry of the

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

133, 67-86. Calvez, J.Y. & Vidal, P., 1978. Two billion year old relicts in the Hercynian Belt of western Europe. Contributions to Mineralogy and Petrology 65, 395-399. Campbell-Smith, W., 1963. Description of the igneous rocks represented among pebbles from the Bunter Pebble Beds of the Midlands of England. Bulletin of the British Museum of Natural History (Mineralogy) 2, 1-17. Catalán, J.R.M., Fernández-Suárez, J., Jenner, G.A., Belousova, E. & Montez, A.D., 2004. Provenance constraints from detrital zircon U

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Provenance of the Early Cambrian Abbottabad Formation in the Hazara region, Pakistan

. Barbeau, “Constructing Sandstone Provenance and Classification Ternary Diagrams Using and Electronic Spreadsheet”, J Sediment Res, vol. 81, no. 9, pp. 702–707, 2011. [13] K. Yagishita, O. Takano, “Recognition of floodplain within broad delta deposits of the Oligocene Mianato Formation, north-eastern Japan: fine deposit correlated with transgression”, Spec publs int Ass Sediment, vol. 35, pp. 557-568, 2005. [14] S. Sarkar, S. Chakraborty, S. Banerjee, P.K. Bose, “Facies sequence and cryptic imprint of sag tectonics in the late Proterozoic Sirbu Shale

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Characteristics of ESR signals and TLCLs of quartz included in various source rocks and sediments in Japan: A clue to sediment provenance

and Laurent M, 2000. Bleaching of ESR signals by the sunlight: a laboratory experiment for establishing the ESR dating of sediments. Applied Radiation and Isotopes 52(5): 1357–1362, DOI 10.1016/S0969-8043(00)00095-6. http://dx.doi.org/10.1016/S0969-8043(00)00095-6 [18] Shimada A and Takada M, 2008. Characteristics of Electron Spin Resonance (ESR) signals in quartz from igneous rock samples: a clue to sediment provenance. Annual Reports of Graduate School of Humanities and Sciences 23: 187–195. [19] Yawata T

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Peri-Amazonian provenance of the Central Dobrogea terrane (Romania) attested by U/Pb detrital zircon age patterns

absolute age of the metamorphic rocks in the foreland of the Carpathian orogen. Stud. Cerc. Geol. Geofiz. Geogr., Ser. Geol. (Bucuresti) 12, 287-297 (in Romanian). Golonka J. 2002: Plate-tectonics maps of the Phanerozoic. In: Kiessling W., Flugel E. & Golonka J. (Eds.): Phanerozoic reef patterns. SEPM Spec. Publ. 72, 21-75. Horton B.K., Hassanzadeh J., Stockli D.F., Axen G.J., Gillis R.J., Guest B., Amini A., Fakhari M., Zamanzadeh M.S. & Grove G. 2008: Detrital zircon provenance of Neoproterozoic to Cenozoic

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Geochemistry of the Permian sandstones from the Malužiná Formation in the Malé Karpaty Mts (Hronic Unit, Western Carpathians, Slovakia): implications for source-area weathering, provenance and tectonic setting

References Argast S. & Donnelly T.W. 1987: The chemical discrimination of clastic sedimentary components. J. Sed. Petrology 57, 813-823. Armstrong-Altrin J.S. & Verma S.P. 2005: Critical evaluation of six tectonic setting discrimination diagrams using geochemical data of Neogene sediments from known tectonic settings. Sed. Geol. 177, 115-129. Asiedu D.K., Suzuki S., Nogami K. & Shibata T. 2000: Geochemistry of Lower Cretaceous sediments, Inner Zone of Southwest Japan: Constraints on provenance and

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Assessing provenance of Upper Cretaceous siliciclastics using spectral γ-ray record

References Baldík V., Novotný R., Gilíková H., Bubík M., Kryštofová E., Buriánek D., Krejčí O., Kolejka V., Nývlt D., Pecina V., Janderková J., Kociánová L., Müller P., Krumlová H., Geršlová E., Kašpárek M., Kašperáková D., Konečný F., Krejčí Z., Kunceová E., Havlín Nováková D., Otava J., Paleček M., Sedláček J. & Švábenická L. 2012: Explanation to basic Geological Map of the Czech Republic 1: 25,000, 25–231 Rožnov pod Radhoštěm. MS Archiv ČGS , Praha, 1–169 (in Czech). Basu A. 1985: Reading provenance from detrital quartz. In: Zuffa G.G. (Ed

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Sandstone petrography and geochemistry of the Nayband Formation (Upper Triassic, Central Iran): Implications for sediment provenance and tectonic setting

References Adhikari, B.R. and Wagreich, M., 2011. Provenance evolution of collapse graben fill in the Himalaya - The Miocene to Quaternary Thakkhola-Mustang graben (Nepal). Sedimentary Geology, 233, 1–14. https://doi.org/10.1016/j.sedgeo.2010.09.021 Aghanabati, S.A., 2004. Geology of Iran. Geological Survey of Iran, Tehran. 587 pp. (in Persian) Armstrong-Altrin, J. S., Lee, Y., Verma, S. and Ramasamy, S., 2004. Geochemistry of sandstones from the Upper Miocene Kudanul Formation, southern India. Implications for provenance, weathering and

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