This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Alexanderson H and Bernhardson M, 2019. Late glacial and Holocene sand drift in northern Götaland and Värmland, Sweden: Sediments and ages. GFF 141: 84–105. DOI 10.1080/11035897.2019.1582559.AlexandersonHBernhardsonM2019Late glacial and Holocene sand drift in northern Götaland and Värmland, Sweden: Sediments and ages1418410510.1080/11035897.2019.1582559Open DOISearch in Google Scholar
Barrón V, Torrent J, 1986. Use of the Kubelka—Munk theory to study the influence of iron oxides on soil colour. Journal of Soil Science 37: 499–510.BarrónVTorrentJ1986Use of the Kubelka—Munk theory to study the influence of iron oxides on soil colour37499510Search in Google Scholar
Berger GW, 2010. An alternate form of probability-distribution plot for De values. Ancient TL 28: 11–22.BergerGW2010An alternate form of probability-distribution plot for De values281122Search in Google Scholar
Bos JAA, De Smedt P, Demiddele H, Hoek W, Langohr R, Marcelino V, Van Asch N, Van Damme D, Van Der Meeren T, Verniers J and Crombé P, 2018. Weichselian Lateglacial environmental and vegetation development in the Moervaart palaeolake area (NW Belgium); implications for former human occupation patterns. Review of Palaeobotany and Palynology 248: 1–14. DOI 10.1016/j.revpalbo.2017.09.006.BosJAADe SmedtPDemiddeleHHoekWLangohrRMarcelinoVVan AschNVan DammeDVan Der MeerenTVerniersJCrombéP2018Weichselian Lateglacial environmental and vegetation development in the Moervaart palaeolake area (NW Belgium); implications for former human occupation patterns24811410.1016/j.revpalbo.2017.09.006Open DOISearch in Google Scholar
Bronk Ramsey C, 2009. Bayesian analysis of radiocarbon dates. Radiocarbon 51(1): 337–360.Bronk RamseyC2009Bayesian analysis of radiocarbon dates511337360Search in Google Scholar
Dotterweich M, Kühn P, Tolksdorf JF, Müller S and Nelle O, 2013. Late Pleistocene to Early Holocene natural and human influenced sediment dynamics and soil formation in a 0-order catchment in SW-Germany (Palatinate Forest). Quaternary International 306: 42–59.DotterweichMKühnPTolksdorfJFMüllerSNelleO2013Late Pleistocene to Early Holocene natural and human influenced sediment dynamics and soil formation in a 0-order catchment in SW-Germany (Palatinate Forest)3064259Search in Google Scholar
Doyen É, Vannière B, Rius D, Bégeot C and Millet L, 2015. Climate and biomass control on fire activity during the late-glacial/early-Holocene transition in temperate ecosystems of the upper Rhone valley (France). Quaternary Research 83: 94–104.DoyenÉVannièreBRiusDBégeotCMilletL2015Climate and biomass control on fire activity during the late-glacial/early-Holocene transition in temperate ecosystems of the upper Rhone valley (France)8394104Search in Google Scholar
Dzieduszyńska DA, Kittel P, Petera-Zganiacz J, Brooks SJ, Korzeń K, Krąpiec M, Pawłowski D, Płaza DK, Płóciennik M, Stachowicz-Rybka R and Twardy J, 2014. Environmental influence on forest development and decline in the Warta River valley (Central Poland) during the Late Weichselian. Quaternary International 324: 99–114.DzieduszyńskaDAKittelPPetera-ZganiaczJBrooksSJKorzeńKKrąpiecMPawłowskiDPłazaDKPłóciennikMStachowicz-RybkaRTwardyJ2014Environmental influence on forest development and decline in the Warta River valley (Central Poland) during the Late Weichselian32499114Search in Google Scholar
Galbraith R, Roberts R, Laslett G, Yoshida H and Olley J, 1999. Optical dating of single and multiple grains of quartz from Jinmium Rock Shelter, Northern Australia: Part I. Experimental design and statistical models. Journal of Archaeometry 41: 339–364. DOI 10.1111/j.1475-4754.1999.tb00988.x.GalbraithRRobertsRLaslettGYoshidaHOlleyJ1999Optical dating of single and multiple grains of quartz from Jinmium Rock Shelter, Northern Australia: Part I. Experimental design and statistical models4133936410.1111/j.1475-4754.1999.tb00988.xOpen DOISearch in Google Scholar
Goździk J, 2000. Aeolian cover sands in the south-eastern part of the Łódź region. In: Dulias R and Pełka-Gościniak J eds., Aeolian Processes in Different Landscape Zones. Dissertations of Faculty of Earth Sciences 5: 80–88, University of Silesia.GoździkJ2000Aeolian cover sands in the south-eastern part of the Łódź regionIn:DuliasRPełka-GościniakJeds.,58088University of SilesiaSearch in Google Scholar
Hošek J, Pokorný P, Prach J, Lisá L, Grygar TM, Knésl I and Trubač J, 2017. Late Glacial erosion and pedogenesis dynamics: Evidence from high-resolution lacustrine archives and paleosols in south Bohemia (Czech Republic). Catena 150: 261–278.HošekJPokornýPPrachJLisáLGrygarTMKnéslITrubačJ2017Late Glacial erosion and pedogenesis dynamics: Evidence from high-resolution lacustrine archives and paleosols in south Bohemia (Czech Republic)150261278Search in Google Scholar
Hunter RE and Rubin DM, 1983. Interpreting cyclic crossbedding, with an example from the Navajo Sandstone. In: Brookfield ME and Ahlbrandt TS, eds., Eolian Sediments and Processes. Development in Sedimentology 38: 407–427.HunterRERubinDM1983Interpreting cyclic crossbedding, with an example from the Navajo SandstoneIn:BrookfieldMEAhlbrandtTSeds.,38407427Search in Google Scholar
Jahn R, Blume HP, Asio VB, Spaargaren O and Schad P, 2006. Guidelines for Soil Description. FAO, Rome: 1–97.JahnRBlumeHPAsioVBSpaargarenOSchadP2006FAORome197Search in Google Scholar
Jankowski M, 2012. Lateglacial soil paleocatena in inland-dune area of the Toruń Basin, Northern Poland. Quaternary International 265: 116–125. DOI 10.1016/j.quaint.2012.02.006.JankowskiM2012Lateglacial soil paleocatena in inland-dune area of the Toruń Basin, Northern Poland26511612510.1016/j.quaint.2012.02.006Open DOISearch in Google Scholar
Kaiser K, Hilgers A, Schlaak N, Jankowski M, Kühn P, Bussemer S and Przegiętka K, 2009. Palaeopedological marker horizons in northern central Europe: Characteristics of Lateglacial Usselo and Finow soils. Boreas 38: 591–609. DOI 10.1111/j.1502-3885.2008.00076.x.KaiserKHilgersASchlaakNJankowskiMKühnPBussemerSPrzegiętkaK2009Palaeopedological marker horizons in northern central Europe: Characteristics of Lateglacial Usselo and Finow soils3859160910.1111/j.1502-3885.2008.00076.xOpen DOISearch in Google Scholar
Kappler C, Kaiser K, Küster M, Nicolay A, Fülling A, Bens O and Raab T, 2019. Late Pleistocene and Holocene terrestrial geomorphodynamics and soil formation in northeastern Germany: A review of geochronological data. Physical Geography 40(5): 405–432. DOI 10.1080/02723646.2019.1573621.KapplerCKaiserKKüsterMNicolayAFüllingABensORaabT2019Late Pleistocene and Holocene terrestrial geomorphodynamics and soil formation in northeastern Germany: A review of geochronological data40540543210.1080/02723646.2019.1573621Open DOISearch in Google Scholar
Kasse C, 2002. Sandy aeolian deposits and their relation to climate during the Last Glacial Maximum and Lateglacial in northwest and central Europe. Progress in Physical Geography: Earth and Environment 26: 507–532.KasseC2002Sandy aeolian deposits and their relation to climate during the Last Glacial Maximum and Lateglacial in northwest and central Europe26507532Search in Google Scholar
Kasse C and Aalbersberg G, 2019. A complete Late Weichselian and Holocene record of aeolian coversands, drift sands and soils forced by climate change and human impact, Ossendrecht, the Netherlands. Netherlands Journal of Geosciences 98: e4. DOI 10.1017/njg.2019.3.KasseCAalbersbergG2019A complete Late Weichselian and Holocene record of aeolian coversands, drift sands and soils forced by climate change and human impact, Ossendrecht, the Netherlands98e410.1017/njg.2019.3Open DOISearch in Google Scholar
Kasse C, Tebbens LA, Tump M, Deeben J, Derese C, De Grave J and Vandenberghe D, 2018. Late Glacial and Holocene aeolian deposition and soil formation in relation to the Late Palaeolithic Ahrensburg occupation, site Geldrop-A2, the Netherlands. Netherlands Journal of Geosciences 97: 3–29. DOI 10.1017/njg.2018.1.KasseCTebbensLATumpMDeebenJDereseCDe GraveJVandenbergheD2018Late Glacial and Holocene aeolian deposition and soil formation in relation to the Late Palaeolithic Ahrensburg occupation, site Geldrop-A2, the Netherlands9732910.1017/njg.2018.1Open DOISearch in Google Scholar
Koster EA, 1988. Ancient and modern cold–climate aeolian sand deposition: A review. Journal of Quaternary Science 3: 69–83.KosterEA1988Ancient and modern cold–climate aeolian sand deposition: A review36983Search in Google Scholar
Koster EA, 2005. Recent advances in luminescence dating of late pleistocene (cold-climate) aeolian sand and loess deposits in Western Europe. Permafrost and Periglacial Processes 16: 131–143. DOI 10.1002/ppp.512.KosterEA2005Recent advances in luminescence dating of late pleistocene (cold-climate) aeolian sand and loess deposits in Western Europe1613114310.1002/ppp.512Open DOISearch in Google Scholar
Kozarski S, Gonera P and Antczak B, 1988. Valley floor development and paleohydrological changes: The Late Vistulian and Holocene history of the Warta river (Poland). In: Lang G and Schluchter C, eds., Lake, Mire and River Environments during the Last 15 000 Years. Rotterdam, Balkema: 185–203.KozarskiSGoneraPAntczakB1988Valley floor development and paleohydrological changes: The Late Vistulian and Holocene history of the Warta river (Poland)In:LangGSchluchterC, eds.,RotterdamBalkema185203Search in Google Scholar
Kreutzer S, Burow C, Dietze M, Fuchs M, Schmidt C, Fischer M, Friedrich J, Riedesel S, Autzen M and Mittelstrass D, 2020. Luminescence: Comprehensive Luminescence Dating Data Analysis. R package version 0.9.10. WEB Site: https://CRAN.R-project.org/package=Luminescence. Accessed 2021 July 28.KreutzerSBurowCDietzeMFuchsMSchmidtCFischerMFriedrichJRiedeselSAutzenMMittelstrassD2020R package version 0.9.10. WEB Site: https://CRAN.R-project.org/package=Luminescence. Accessed 2021 July 28.Search in Google Scholar
Lea PD, 1990. Pleistocene periglacial aeolian deposits in southwestern Alaska: Sedimentary facies and depositional processes. Journal of Sedimentary Petrology 60: 582–591.LeaPD1990Pleistocene periglacial aeolian deposits in southwestern Alaska: Sedimentary facies and depositional processes60582591Search in Google Scholar
Mirosław-Grabowska J, Obremska M, Zawisza E, Stańczak J, Słowiński M and Mulczyk A, 2020. Biological and geochemical indicators of climatic oscillations during the Last Glacial Termination, the Kaniewo palaeolake (Central Poland). Ecological Indicators 114: 106301. DOI 10.1016/j.ecolind.2020.106301.Mirosław-GrabowskaJObremskaMZawiszaEStańczakJSłowińskiMMulczykA2020Biological and geochemical indicators of climatic oscillations during the Last Glacial Termination, the Kaniewo palaeolake (Central Poland)11410630110.1016/j.ecolind.2020.106301Open DOISearch in Google Scholar
Moska P, 2019. Luminescence dating of quaternary sediments – some practical aspects. Studia Quaternaria 36: 2161–169.MoskaP2019Luminescence dating of quaternary sediments – some practical aspects362161169Search in Google Scholar
Moska P, Bluszcz A, Poręba G, Tudyka K, Adamiec G, Szymak A and Przybyła A, 2021. Luminescence dating procedures at Gliwice luminescence dating laboratory. Geochronometria 48: 1–15.MoskaPBluszczAPorębaGTudykaKAdamiecGSzymakAPrzybyłaA2021Luminescence dating procedures at Gliwice luminescence dating laboratory48115Search in Google Scholar
Moska P, Jary Z, Sokołowski RJ, Poręba G, Raczyk J, Krawczyk M, Skurzyński J, Zieliński P, Michczyński A, Tudyka K, Adamiec G, Piotrowska N, Pawełczyk F, Łopuch M, Szymak A and Ryzner K, 2020. Chronostratigraphy of Late Glacial aeolian activity in SW Poland – a case study from the Niemodlin Plateau. Geochronometria 47: 124–137. DOI 10.2478/geochr-2020-0020.MoskaPJaryZSokołowskiRJPorębaGRaczykJKrawczykMSkurzyńskiJZielińskiPMichczyńskiATudykaKAdamiecGPiotrowskaNPawełczykFŁopuchMSzymakARyznerK2020Chronostratigraphy of Late Glacial aeolian activity in SW Poland – a case study from the Niemodlin Plateau4712413710.2478/geochr-2020-0020Open DOISearch in Google Scholar
Moska P, Sokołowski RJ, Jary Z, Zieliński P, Raczyk J, Szymak A, Krawczyk M, Skurzyński J, Poręba G, Łopuch M and Tudyka K, 2022. Stratigraphy of the Late Glacial and Holocene aeolian series in different sedimentary zones related to the Last Glacial maximum in Poland. Quaternary International 630: 65–83. DOI 10.1016/j.quaint.2021.04.004.MoskaPSokołowskiRJJaryZZielińskiPRaczykJSzymakAKrawczykMSkurzyńskiJPorębaGŁopuchMTudykaK2022Stratigraphy of the Late Glacial and Holocene aeolian series in different sedimentary zones related to the Last Glacial maximum in Poland630658310.1016/j.quaint.2021.04.004Open DOISearch in Google Scholar
Moska P, Sokołowski RJ, Zieliński P, Jary Z, Raczyk J, Mroczek P, Szymak A, Krawczyk M, Skurzyński J, Poręba G, Łopuch M and Tudyka K, 2023. An impact of short-term climate oscillations in the Late Pleniglacial and Late Glacial on sedimentary processes and the pedogenic record in central Poland. Annals of the American Association of Geographers 113: 46–70. DOI 10.1080/24694452.2022.2094325.MoskaPSokołowskiRJZielińskiPJaryZRaczykJMroczekPSzymakAKrawczykMSkurzyńskiJPorębaGŁopuchMTudykaK2023An impact of short-term climate oscillations in the Late Pleniglacial and Late Glacial on sedimentary processes and the pedogenic record in central Poland113467010.1080/24694452.2022.2094325Open DOISearch in Google Scholar
Murray AS and Wintle AG, 2000. Luminescence dating of quartz using an improved single-aliquot regenerative-dose protocol. Radiation Measurements 32(1): 57–73. DOI 10.1016/S1350-4487(99)00253-X.MurrayASWintleAG2000Luminescence dating of quartz using an improved single-aliquot regenerative-dose protocol321577310.1016/S1350-4487(99)00253-XOpen DOISearch in Google Scholar
Pincé P, Vandenberghe D, Moayed NK, De Dapper M, Debeer AE, Van Maldegem E, Verhegge J, Piret L, De Grave J and Crombé P, 2022. High-resolution OSL chronology of a well-preserved inland dune in the Lys valley (Sint-Martens-Latem, NW Belgium). Quaternary Geochronology 72: 101322. DOI 10.1016/j.quageo.2022.101322.PincéPVandenbergheDMoayedNKDe DapperMDebeerAEVan MaldegemEVerheggeJPiretLDe GraveJCrombéP2022High-resolution OSL chronology of a well-preserved inland dune in the Lys valley (Sint-Martens-Latem, NW Belgium)7210132210.1016/j.quageo.2022.101322Open DOISearch in Google Scholar
Rasmussen SO, Bigler M, Blockley SP, Blunier T, Buchardt SL, Clausen HB, Cvijanovic I, Dahl-Jensen D, Johnsen SJ, Fischer H, Gkinis V, Guillevic M, Hoek WZ, Lowe JJ, Pedro JB, Popp T, Seierstad IK, Steffensen JP, Svensson AM, Vallelonga P, Vinther BM, Walker MJC, Wheatley JJ and Winstrup M, 2014. A stratigraphic framework for abrupt climatic changes during the Last Glacial period based on three synchronized Greenland ice-core records: Refining and extending the INTIMATE event stratigraphy. Quaternary Science Reviews 106: 14–28.RasmussenSOBiglerMBlockleySPBlunierTBuchardtSLClausenHBCvijanovicIDahl-JensenDJohnsenSJFischerHGkinisVGuillevicMHoekWZLoweJJPedroJBPoppTSeierstadIKSteffensenJPSvenssonAMVallelongaPVintherBMWalkerMJCWheatleyJJWinstrupM2014A stratigraphic framework for abrupt climatic changes during the Last Glacial period based on three synchronized Greenland ice-core records: Refining and extending the INTIMATE event stratigraphy1061428Search in Google Scholar
Reimer P, Austin W, Bard E, Bayliss A, Blackwell P, Bronk Ramsey C, Butzin M, Cheng H, Edwards R, Friedrich M, Grootes P, Guilderson T, Hajdas I, Heaton T, Hogg A, Hughen K, Kromer B, Manning S, Muscheler R, Palmer J, Pearson C, van der Plicht J, Reimer R, Richards D, Scott E, Southon J, Turney C, Wacker L, Adolphi F, Büntgen U, Capano M, Fahrni S, Fogtmann-Schulz A, Friedrich R, Köhler P, Kudsk S, Miyake F, Olsen J, Reinig F, Sakamoto M, Sookdeo A and Talamo S, 2020. The IntCal20 Northern Hemisphere radiocarbon age calibration curve (0–55 cal kBP). Radiocarbon 62(4): 725–757.ReimerPAustinWBardEBaylissABlackwellPBronk RamseyCButzinMChengHEdwardsRFriedrichMGrootesPGuildersonTHajdasIHeatonTHoggAHughenKKromerBManningSMuschelerRPalmerJPearsonCvan der PlichtJReimerRRichardsDScottESouthonJTurneyCWackerLAdolphiFBüntgenUCapanoMFahrniSFogtmann-SchulzAFriedrichRKöhlerPKudskSMiyakeFOlsenJReinigFSakamotoMSookdeoATalamoS2020The IntCal20 Northern Hemisphere radiocarbon age calibration curve (0–55 cal kBP)624725757Search in Google Scholar
Ruegg GHJ, 1983. Periglacial eolian evenly laminated sandy deposits in the Late Pleistocene of NW Europe, a facies unrecorded in modern sedimentological handbooks. In: Brookfield ME and Ahlbrandt TS, eds., Eolian sediments and processes. Developments in Sedimentology 38: 455–482.RueggGHJ1983Periglacial eolian evenly laminated sandy deposits in the Late Pleistocene of NW Europe, a facies unrecorded in modern sedimentological handbooksIn:BrookfieldMEAhlbrandtTSeds., Eolian sediments and processes.38455482Search in Google Scholar
Rychel J, Woronko B, Błaszkiewicz M and Karasiewicz T, 2018. Aeolian processes records within the last glacial limit areas based on the Płock basin case (Central Poland). Bulletin of the Geological Society of Finland 90: 55–69. DOI 10.17741/bgsf/90.2.007.RychelJWoronkoBBłaszkiewiczMKarasiewiczT2018Aeolian processes records within the last glacial limit areas based on the Płock basin case (Central Poland)90556910.17741/bgsf/90.2.007Open DOISearch in Google Scholar
Sankey JB, Germino MJ and Glenn NF, 2009. Relationships of post-fire aeolian transport to soil and atmospheric conditions. Aeolian Research 1: 75–85.SankeyJBGerminoMJGlennNF2009Relationships of post-fire aeolian transport to soil and atmospheric conditions17585Search in Google Scholar
Schwan J, 1986. The origin of horizontal alternating bedding in Weichselian Aeolian sands in northwestern Europe. Sedimentary Geology 49: 73–108.SchwanJ1986The origin of horizontal alternating bedding in Weichselian Aeolian sands in northwestern Europe4973108Search in Google Scholar
Schwan J, 1988. The structure and genesis of Weichselian to Early Holocene aeolian sand sheets in western Europe. Sedimentary Geology 55: 197–232.SchwanJ1988The structure and genesis of Weichselian to Early Holocene aeolian sand sheets in western Europe55197232Search in Google Scholar
Sokołowski RJ, Moska P, Zieliński P, Jary Z, Piotrowska N, Raczyk J, Mroczek P, Szymak A, Krawczyk M, Skurzyński J, Poręba G, Łopuch M and Tudyka K, 2022. Reinterpretation of fluvioaeolian succession from Late Glacial classic type localities using new high-resolution radiocarbon dating results from the Polish part of the European Sand Belt. Radiocarbon 64: 1387–1402. DOI 10.1017/RDC.2022.37.SokołowskiRJMoskaPZielińskiPJaryZPiotrowskaNRaczykJMroczekPSzymakAKrawczykMSkurzyńskiJPorębaGŁopuchMTudykaK2022Reinterpretation of fluvioaeolian succession from Late Glacial classic type localities using new high-resolution radiocarbon dating results from the Polish part of the European Sand Belt641387140210.1017/RDC.2022.37Open DOISearch in Google Scholar
Sprafke T, Schulte P, Meyer-Heintze S, Händel M, Einwögerer T, Simon U, Peticzka R, Schäfer C, Lehmkuhl F and Terhorst B, 2020. Paleoenvironments from robust loess stratigraphy using high-resolution color and grain-size data of the last glacial Krems-Wachtberg record (NE Austria). Quaternary Science Reviews 248: 106602. DOI 10.1016/j.quascirev.2020.106602.SprafkeTSchultePMeyer-HeintzeSHändelMEinwögererTSimonUPeticzkaRSchäferCLehmkuhlFTerhorstB2020Paleoenvironments from robust loess stratigraphy using high-resolution color and grain-size data of the last glacial Krems-Wachtberg record (NE Austria)24810660210.1016/j.quascirev.2020.106602Open DOISearch in Google Scholar
Tolksdorf JF, Turner F, Kaiser K, Eckmeier E, Bittmann F and Veil S, 2014. Potential of palaeosols, sediments and archaeological features to reconstruct Late Glacial fire regimes in northern Central Europe–case study Grabow site and overview. Zeitschrift für Geomorphologie, Supplementary Issues 58: 211–232.TolksdorfJFTurnerFKaiserKEckmeierEBittmannFVeilS2014Potential of palaeosols, sediments and archaeological features to reconstruct Late Glacial fire regimes in northern Central Europe–case study Grabow site and overview58211232Search in Google Scholar
Trzmiel B, 1995. Detailed Geological Map of Poland (with explanations) in Scale 1:50 000, Sheet Stawiszyn. Warsaw, PIG.TrzmielB1995WarsawPIGSearch in Google Scholar
Tsakiridou M, Hardiman M, Grant MJ, Lincoln PC and Cunningham L, 2020. Evidence of wildfire in the British Isles during the Last Glacial-Interglacial Transition: Revealing spatiotemporal patterns and controls. Proceedings of the Geologists' Association 131: 562–577. DOI 10.1016/j.pgeola.2020.05.001.TsakiridouMHardimanMGrantMJLincolnPCCunninghamL2020Evidence of wildfire in the British Isles during the Last Glacial-Interglacial Transition: Revealing spatiotemporal patterns and controls13156257710.1016/j.pgeola.2020.05.001Open DOISearch in Google Scholar
Tudyka K, Koruszowic M, Osadnik R, Adamiec G, Moska P, Szymak A, Bluszcz A, Zhang J, Kolb T and Poręba G, 2023. μRate: An online dose rate calculator for trapped charge dating. Archaeometry 65: 423–443. DOI 10.1111/arcm.12828.TudykaKKoruszowicMOsadnikRAdamiecGMoskaPSzymakABluszczAZhangJKolbTPorębaG2023μRate: An online dose rate calculator for trapped charge dating6542344310.1111/arcm.12828Open DOISearch in Google Scholar
Van Hoesel A, Hoek WZ, Braadbaart F, Van der Plicht J, Pennock GM and Drury MR, 2012. Nanodiamonds and wildfire evidence in the Usselo horizon postdate the Allerød-Younger Dryas boundary. Proceedings of the National Academy of Sciences 109: 7648–7653.Van HoeselAHoekWZBraadbaartFVan der PlichtJPennockGMDruryMR2012Nanodiamonds and wildfire evidence in the Usselo horizon postdate the Allerød-Younger Dryas boundary10976487653Search in Google Scholar
Vandenberghe DAG, Derese C, Kasse C and Van den Haute P, 2013. Late Weichselian (fluvio-aeolian) sediments and Holocene drift-sands of the classic type locality in Twente (E Netherlands): A high-resolution dating study using optically stimulated luminescence. Quaternary Science Reviews 68: 96–113. DOI 10.1016/j.quascirev.2013.02.009.VandenbergheDAGDereseCKasseCVan den HauteP2013Late Weichselian (fluvio-aeolian) sediments and Holocene drift-sands of the classic type locality in Twente (E Netherlands): A high-resolution dating study using optically stimulated luminescence689611310.1016/j.quascirev.2013.02.009Open DOISearch in Google Scholar
Vandenberghe J, Kasse C, Bohncke SJP and Kozarski S, 1994. Climate-related river activity at the Weichselian–Holocene transition: A comparative study of the Warta and Maas rivers. Terra Nova 6: 476–485.VandenbergheJKasseCBohnckeSJPKozarskiS1994Climate-related river activity at the Weichselian–Holocene transition: A comparative study of the Warta and Maas rivers6476485Search in Google Scholar
Woronko B, Zieliński P, Sokołowski RJ, 2015. Climate evolution during the Pleniglacial and Late Glacial as recorded in quartz grain morphoscopy of fluvial to aeolian successions of the European Sand Belt. Geologos 21: 89–103.WoronkoBZielińskiPSokołowskiRJ2015Climate evolution during the Pleniglacial and Late Glacial as recorded in quartz grain morphoscopy of fluvial to aeolian successions of the European Sand Belt2189103Search in Google Scholar
Yang SL and Ding ZL, 2003. Color reflectance of Chinese loess and its implications for climate gradient changes during the last two glacial−interglacial cycles. Geophys. Res. Lett. 30: GL018346. DOI: 10.1029/2003GL018346YangSLDingZL2003Color reflectance of Chinese loess and its implications for climate gradient changes during the last two glacial−interglacial cycles. Geophys30GL01834610.1029/2003GL018346Open DOISearch in Google Scholar
Zieliński P, 2016. Regionalne i lokalne uwarunkowania późnovistuliańskiej depozycji eolicznej w środkowej części europejskiego pasa piaszczystego [Regional and local conditions of the Late Vistulian aeolian deposition in the central part of the European Sand Belt]. Wydawnictwo UMCS, Lublin: 1–235 [in Polish with English summary].ZielińskiP2016Regionalne i lokalne uwarunkowania późnovistuliańskiej depozycji eolicznej w środkowej części europejskiego pasa piaszczystego [Regional and local conditions of the Late Vistulian aeolian deposition in the central part of the European Sand Belt]Lublin1235[in Polish with English summary].Search in Google Scholar