[Baltrūnas V, 1995. Pleistoceno stratigrafija ir koreliacija (Stratigraphy and Correlation of Pleistocene). Vilnius, Academia: 180 pp (in Lithuanian with English summary). ]Search in Google Scholar
[Baltrūnas V, 2002. Stratigrphical subdivision and correlation of Pleis-tocene deposits in Lithuania (methodical problems). Vilnius, Insti-tute of Geology: 74 pp. ]Search in Google Scholar
[Baltrūnas V and Bitinas A, 1994. The polyvariance in stratigraphic correlation as a significant problem of the Lithuanian Pleistocene studies. Geologija 17: 144-151. ]Search in Google Scholar
[Baltrūnas V, Šeiriėnė V, Molodkov A, Zinkutė R, Katinas V, Karmaza B, Kisielienė D, Petrošius R, Taraškevičius R, Piličiauskas G, Schmolcke U and Heinrich D, 2013. Depositional environment and climate changes during the late Pleistocene as recorded by the Netiesos section in southern Lithuania. Quaternary International 292: 136-149, DOI 10.1016/j.quaint.2012.11.038. 10.1016/j.quaint.2012.11.038]Search in Google Scholar
[Ber A, 2000. Plejstocen Polski północno-wschodniej w nawiązaniu do głębszego podłoża obszarów sąsiednich (in Polish with English summary). Prace Państwowego Instytutu Geologicznego 170: 1-89. ]Search in Google Scholar
[Cohen KM and Gibbard PL, 2011. Global chronostratigraphical corre-lation table for the last 2.7 million years. University of Cambridge, Utrecht University, INQUA. ]Search in Google Scholar
[Dreimanis A and Raukas A, 1975. Did Middle Wisconsin, Middle Weichselian, and their equivalents represent an interglacial or an interstadial complex in the northern hemisphere? Quaternary Stud-ies. The Royal Society of New Zealand Bulletin 13: 109-120. ]Search in Google Scholar
[Ferré EC, Martín-Hernández F, Teyssier C and Jackson M, 2004. Para-magnetic and ferromagnetic anisotropy of magnetic susceptibility in migmatites: measurements in high and low fields and kinematic implications. Geophysical Journal International 157: 1119-1129, DOI 10.1111/j.1365-246X.2004.02294.x. 10.1111/j.1365-246X.2004.02294.x]Search in Google Scholar
[Gaigalas AI, 1987. (The position of the Snaigupėlė and Židinė intergla-cial deposits in the strata of the Pleistocene moraines of different age). Geologija 8: 103-104 (in Russian with English summary). ]Search in Google Scholar
[Geyh MA, 2001. Reflections on the 230Th/U dating of dirty material. Geochronometria 20: 9-14. ]Search in Google Scholar
[Graham JW, 1966. Significance of magnetic anisotropy in Appalachian sedimentary rocks. In Steinhard JS et al., eds., The Earth Beneath the Continents. Geophysical Monograph 10: 627-648. 10.1029/GM010p0627]Search in Google Scholar
[Guobytė R and Satkūnas J, 2011. Pleistocene Glaciations in Lithuania. In: Developments in Quaternary Science 15 (eds. J.Ehlers, P.L. Gibbard, P.D. Hughes). Amsterdam, The Netherlands: 231-246. 10.1016/B978-0-444-53447-7.00019-2]Search in Google Scholar
[Head ML, Pillans B and Farquhar SA, 2008. The Early-Middle Pleisto-cene Transition: characterization and proposed guide for the defin-ing boundary. Episodes 31(2): 255-259. 10.18814/epiiugs/2008/v31i2/014]Search in Google Scholar
[Henry B, 1973. Studies of microtectonics, anisotropy of magnetic susceptibility and paleomagnetism of the Permian Dome de Barrot (France): Paleotectonics and paleosedimentological implications. Tectonophysics 17: 61-72, DOI 10.1016/0040-1951(73)90065-6. 10.1016/0040-1951(73)90065-6]Search in Google Scholar
[Hrouda F, 1979. The strain interpretation of magnetic anisotropy in rocks of the Nizky Jesenik Mountains (Czechoslovakia). Sborník geologických věd UG 16: 27-62. ]Search in Google Scholar
[Hrouda F, 2002. The use of the anisotropy of magnetic remanence in the resolution of the anisotropy of magnetic susceptibility into its fer-romagnetic and paramagnetic components. Tectonophysics 347: 269-281, DOI 10.1016/S0040-1951(02)00075-6. 10.1016/S0040-1951(02)00075-6]Search in Google Scholar
[Hrouda F and Janak F, 1976. The changes in shape of the magnetic susceptibility ellipsoid during progressive metamorphism and de-formation. Tectonophysics 34: 135-148, DOI 10.1016/0040-1951(76)90181-5. 10.1016/0040-1951(76)90181-5]Search in Google Scholar
[Hrouda F, Janak F and Rejl L, 1978. Magnetic anisotropy and ductile deformation of rocks in zones of progressive regional metamor-phism. Gerlands Beitrage zur Geophysik 87: 126-134. ]Search in Google Scholar
[Jelinek V, 1977. The statistical theory of measuring anisotropy of magnetic susceptibility of rocks and its application. Brno, s.p. Geofyzika, 88 pp. ]Search in Google Scholar
[Kirschvink J, 1980. The least squares line and plane and the analysis of paleomagnetic data. Geophysical Journal of the Royal Astronomical Society 62: 699-718, DOI 10.1111/j.1365-246X.1980.tb02601.x. 10.1111/j.1365-246X.1980.tb02601.x]Search in Google Scholar
[Kligfield R, Owens WH and Lowrie W, 1982. Magnetic susceptibility anisotropy, strain, and progressive deformation in Permian sedi-ments from the Maritime Alps (France). Earth and Planetary Sci-ence Letters 55: 181-189, DOI 10.1016/0012-821X(81)90097-2. 10.1016/0012-821X(81)90097-2]Search in Google Scholar
[Kondratienė O, 1958. Apie tarpledynmetinius darinius Druskininkų apylinkėje (The interglacial deposits in the vicinity of Druskininkai). Scientific Reports. The Academy of sciences of the Lithuanian SSR. Geologija Geografija 6: 77-89 (in Lithuanian with English summary). ]Search in Google Scholar
[Kondratienė OP, 1973. O tipakh pyltsevykh diagram merkinskogo (mikulinskogo, riss-viurmskogo) mezhlednikovya Litvy i vopros ikh odnovozrastnosti (On the types of pollen diagrams of deposits of Merkinė (Mikulino, Riss-Würm) interglacial of Lithuania and the problem of their synchronity). In: Grichuk VP, ed., Palynology of Pleistocene and Pliocene, Moskow, Nauka: 44-48 (in Russian with English summary). ]Search in Google Scholar
[Kondratienė O, 1996. Stratigraphiya i paleogeographiya kvarterą Litvy po paleobotanicheskim dannym (The Quaternary stratigraphy and paleogeography of Lithuania based on paleobotanic studies). Ac-ademia, Vilnius, Academia: 214 pp (in Russian with English summary). ]Search in Google Scholar
[Kondratienė OP and Gaigalas AI, 1982. The structure of the Middle Pleistocene in the area of spreading of the Moscow ice sheet. The South Baltic Region. In: Московский ледниковый покров Восточной Европы. Moscow, Nauka: 73-82 (in Russian). ]Search in Google Scholar
[Kuznetsov VYu and Maksimov FE, 2003. New Approach to Geochronology of Interglacial Sediments of the Russian Plain Based on the U-Th Dating of Buried Peat. Doklady Earth Science 393(8): 1132-1135. ]Search in Google Scholar
[Kuznetsov V and Maksimov F, 2012. Methods of Quaternary geochro-nometry in Palaeogeography and Marine Geology. St. Petersburg: Nauka: 191 pp (in Russian). ]Search in Google Scholar
[Lee T and Angelier J, 2000. Tectonic significance of magnetic suscepti-bility fabrics in Plio-Quaternary mudstones of southwestern foot-hills, Taiwan. Earth Planets Space 52: 527-538, DOI 10.1186/BF03351660. 10.1186/BF03351660]Search in Google Scholar
[Lindner L, Marks L and Nita M, 2013. Climatostratigraphy of intergla-cials in Poland: Middle and Upper Pleistocene lower boundaries from Polish perspective. Quaternary International 292: 113-123, DOI 10.1016/j.quaint.2012.11.018.10.1016/j.quaint.2012.11.018]Search in Google Scholar
[Liu B, Saito Y, Yamazaki T, Abdeldayem A, Oda H, Hori K and Zhao Q, 2005. Anisotropy of Magnetic Susceptibility (AMS) Character-istics of Tide-Influenced Sediments in the Late Pleistocene-Holocene Changjiang Incised-Valley Fill, China. Journal of Coastal Research 21(5): 1031-1041, DOI 10.2112/03-0078.1.10.2112/03-0078.1]Search in Google Scholar
[Maksimov FE and Kuznetsov VYu, 2010. New version of the 230Th/U dating of the Upper and Middle Pleistocene buried organic-rich sediments. Bulletin of St. Petersburg State University 7(3): 103-114.]Search in Google Scholar
[Maksimov F, Arslanov Kh, Kuznetsov V and Chernov S, 2006. 230Th/U and 14C dating of Upper and Middle Pleistocene Interglacial and Interstadial organic deposits from the East- European Plain and Si-beria. In: M Frechen (ed.). Pleistocene Environments in Eurasia Chronology, Paleoclimate and Teleconnection. INTAS Final Workshop. Hannover, Geozentrum, 2-3 November: 45-49.]Search in Google Scholar
[Maksimov FE, Laukhin SA, Arslanov KhA, Kuznetsov VYu and Shi-lova GN, 2012. First 230Th/U date of Middle Pleistocene peat bog in Siberia (key section Krivosheino, Western Siberia). Geochronometria 39(4): 241-251, DOI 10.2478/s13386-012-0014-4.10.2478/s13386-012-0014-4]Search in Google Scholar
[Panaiotu C, Necula C, Merezeanu T, Panaiotu A and Corban C, 2011. Anisotropy of magnetic susceptibility of quaternary lava flows from the East Carpathians. Romanian Reports in Physics 63(2): 526-534.]Search in Google Scholar
[Schwarcz HP and Latham AG, 1989. Dirty calcites: 1. Uranium-series dating of contaminated calcite using leachates alone. Chemical Geology: Isotope Geoscience section 80(1): 35-43, DOI 10.1016/0168-9622(89)90046-8.10.1016/0168-9622(89)90046-8]Search in Google Scholar
[Shick SM, 2014. The palaeobotanical characteristics of the Middle Pleistocene post-Likhvin Interglacials in the East European Plain. Bulletin of comission for study of the Quaternary 73: 77-86 (in Russian with English summary).]Search in Google Scholar
[Sier MJ and Dekkers MJ, 2013. Magnetic property analysis as palaeoenvironmental proxy: a case study of the Last Interglacial Middle Palaeolithic site at Neumark-Nord 2 (Germany) In: S. Gaudzinski-Windheuser and W. Roebroeks (eds.), Geochronology and Palaeoenvironmental reconstruction of Neumark-Nord, Saxony-Anhalt, Germany. Eröffntlichungen des Landesamtes für Denkmalpflege und Archäeologie 69: 117-130.]Search in Google Scholar
[Sier MJ, Parés JM, Antoine P, Locht J-L, Dekkers MJ, Limondin-Lozouet N and Roebroeks W, 2015. Evidence for the Blake Event recorded at the Eemian archaeological site of Caours, France. Quaternary International 357: 149-157, DOI 10.1016/0168-9622(89)90046-8.10.1016/j.quaint.2014.05.022]Search in Google Scholar
[Stephan H-J, 2014. Climato-stratigraphic subdivision of the Pleistocene in Schleswig-Holstein, Germany and adjoining areas - status and problems. E&G Quaternary Science Journal 63(1): 3-18, DOI 10.3285/eg.63.1.01.10.3285/eg.63.1.01]Search in Google Scholar
[Šliaupa A, 2004. Prekvartero uolienų paviršius. In: V. Baltrūnas (ed), Lietuvos Žemės gelmių raida ir ištekliai. Vilnius, Petro ofsetas: 254-258 (in Lithuanian with English summary).]Search in Google Scholar
[Vonsavičius V, 1975. Privyazka nekotorykh mezhlednikovykh otlozheniy k razrezu chetvertichnoy tolshchi v raiyone srednego techeniya r. Nemunas (Snap some interglacial deposits to the section of Quaternary strata in the middle Nemunas River). In: Mahnach NA, ed., Stratigrafiya i paleogeografiya antropogena. Minsk, Nauka i tekhnika: 204-209 (in Russian).]Search in Google Scholar