This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Alexanderson H and Murray AS, 2012. Luminescence signals from modern sediments in a glaciated bay, NW Svalbard. Quaternary Geochronology 10: 250–256.AlexandersonHMurrayAS2012Luminescence signals from modern sediments in a glaciated bay, NW SvalbardQuaternary Geochronology10250256Search in Google Scholar
Ankjaergaard C, Jain M, Thomsen KJ and Murray A, 2010. Optimising the separation of quartz and feldspar optically stimulated luminescence using pulsed excitation. Radiation Measurements 45: 778–785.AnkjaergaardCJainMThomsenKJMurrayA2010Optimising the separation of quartz and feldspar optically stimulated luminescence using pulsed excitationRadiation Measurements45778785Search in Google Scholar
Arnold LJ and Roberts RG, 2009. Stochastic modelling of multi-grain equivalent dose (De) distributions: Implications for OSL dating of sediment mixtures. Quaternary Geochronology 4: 204–230.ArnoldLJRobertsRG2009Stochastic modelling of multi-grain equivalent dose (De) distributions: Implications for OSL dating of sediment mixturesQuaternary Geochronology4204230Search in Google Scholar
Arnold LJ, Demuro M, Parés JM, Pérez-González A, Arsuaga JL, De Castro JMB and Carbonell E, 2015. Evaluating the suitability of extended-range luminescence dating techniques over early and Middle Pleistocene timescales: Published datasets and case studies from Atapuerca, Spain. Quaternary International 389: 167–190.ArnoldLJDemuroMParésJMPérez-GonzálezAArsuagaJLDe CastroJMBCarbonellE2015Evaluating the suitability of extended-range luminescence dating techniques over early and Middle Pleistocene timescales: Published datasets and case studies from Atapuerca, SpainQuaternary International389167190Search in Google Scholar
Arnold LJ, Demuro M, Spooner NA, Prideaux GJ, Mcdowell MC, Camens AB, Reed EH, Parés JM, Arsuaga JL and De Castro JMB, 2019. Single-grain TT-OSL bleaching characteristics: Insights from modern analogues and OSL dating comparisons. Quaternary Geochronology 49: 45–51.ArnoldLJDemuroMSpoonerNAPrideauxGJMcdowellMCCamensABReedEHParésJMArsuagaJLDe CastroJMB2019Single-grain TT-OSL bleaching characteristics: Insights from modern analogues and OSL dating comparisonsQuaternary Geochronology494551Search in Google Scholar
Avram A, Constantin D, Veres D, Kelemen S, Obreht I, Hambach U, Marković SB and Timar-Gabor A, 2020. Testing polymineral post-IR IRSL and quartz SAR-OSL protocols on Middle to Late Pleistocene loess at Batajnica, Serbia. Boreas 49: 615–633.AvramAConstantinDVeresDKelemenSObrehtIHambachUMarkovićSBTimar-GaborA2020Testing polymineral post-IR IRSL and quartz SAR-OSL protocols on Middle to Late Pleistocene loess at Batajnica, SerbiaBoreas49615633Search in Google Scholar
Bailey RM and Arnold L, 2006. Statistical modelling of single grain quartz De distributions and an assessment of procedures for estimating burial dose. Quaternary Science Reviews 25: 2475–2502.BaileyRMArnoldL2006Statistical modelling of single grain quartz De distributions and an assessment of procedures for estimating burial doseQuaternary Science Reviews2524752502Search in Google Scholar
Ballesteros-Cánovas JA, Stoffel M, St George S and Hirschboeck K, 2015. A review of flood records from tree rings. Progress in Physical Geography 39: 794–816.Ballesteros-CánovasJAStoffelMSt GeorgeSHirschboeckK2015A review of flood records from tree ringsProgress in Physical Geography39794816Search in Google Scholar
Banerjee D, Murray AS, Bøtter-Jensen L and Lang A, 2001. Equivalent dose estimation using a single aliquot of polymineral fine grains. Radiation Measurements 33: 73–94.BanerjeeDMurrayASBøtter-JensenLLangA2001Equivalent dose estimation using a single aliquot of polymineral fine grainsRadiation Measurements337394Search in Google Scholar
Bejarano Arias I, 2020. Determination of depositional environment and luminescence dating of Pleistocene deposits in the Biely Vah Valley, southern foothills of the Tatra Mountains, Slovakia. Ancient TL 38: 25.Bejarano AriasI2020Determination of depositional environment and luminescence dating of Pleistocene deposits in the Biely Vah Valley, southern foothills of the Tatra Mountains, SlovakiaAncient TL3825Search in Google Scholar
Benn D and Evans D, 2010. Glaciers and Glaciation. Hodder Education, London, UK: 802pp.BennDEvansD2010Glaciers and GlaciationHodder EducationLondon, UK802pp.Search in Google Scholar
Benvenuti, M. and Martini, I.P. (2002). Analysis of terrestrial hyperconcentrated flows and their deposit. In Flood and Megaflood Processes and Deposits (eds I.P. Martini, V.R. Baker and G. Garzón), 167–193. https://doi.org/10.1002/9781444304299.ch10.BenvenutiM.MartiniI.P.2002Analysis of terrestrial hyperconcentrated flows and their depositInFlood and Megaflood Processes and DepositsedsMartiniI.P.BakerV.R.GarzónG.167193https://doi.org/10.1002/9781444304299.ch10Search in Google Scholar
Bińka K and Nitychoruk J, 2003. The Late Saalian, Eemian and Early Vistulian pollen sequence at Dziewule, eastern Poland. Geological Quarterly 47: 155–168.BińkaKNitychorukJ2003The Late Saalian, Eemian and Early Vistulian pollen sequence at Dziewule, eastern PolandGeological Quarterly47155168Search in Google Scholar
Bøtter-Jensen L, Andersen C, Duller GA and Murray AS, 2003. Developments in radiation, stimulation and observation facilities in luminescence measurements. Radiation Measurements 37: 535–541.Bøtter-JensenLAndersenCDullerGAMurrayAS2003Developments in radiation, stimulation and observation facilities in luminescence measurementsRadiation Measurements37535541Search in Google Scholar
Bøtter-Jensen L, Bulur E, Duller G and Murray A, 2000. Advances in luminescence instrument systems. Radiation Measurements 32: 523–528.Bøtter-JensenLBulurEDullerGMurrayA2000Advances in luminescence instrument systemsRadiation Measurements32523528Search in Google Scholar
Bulur E, 1996. An alternative technique for optically stimulated luminescence (OSL) experiment. Radiation Measurements 26: 701–709.BulurE1996An alternative technique for optically stimulated luminescence (OSL) experimentRadiation Measurements26701709Search in Google Scholar
Bulur E, Duller G, Solongo S, Bøtter-Jensen L and Murray A, 2002. LM-OSL from single grains of quartz: a preliminary study. Radiation Measurements 35: 79–85.BulurEDullerGSolongoSBøtter-JensenLMurrayA2002LM-OSL from single grains of quartz: a preliminary studyRadiation Measurements357985Search in Google Scholar
Buylaert JP, Jain M, Murray AS, Thomsen KJ, Thiel C and Sohbati R, 2012. A robust feldspar luminescence dating method for Middle and Late P leistocene sediments. Boreas 41: 435–451.BuylaertJPJainMMurrayASThomsenKJThielCSohbatiR2012A robust feldspar luminescence dating method for Middle and Late P leistocene sedimentsBoreas41435451Search in Google Scholar
Buylaert J-P, Murray A, Gebhardt A, Sohbati R, Ohlendorf C, Thiel C, Wastegård S, Zolitschka B and Team TPS, 2013. Luminescence dating of the PASADO core 5022-1D from Laguna Potrok Aike (Argentina) using IRSL signals from feldspar. Quaternary Science Reviews 71: 70–80.BuylaertJ-PMurrayAGebhardtASohbatiROhlendorfCThielCWastegårdSZolitschkaBTeamTPS2013Luminescence dating of the PASADO core 5022-1D from Laguna Potrok Aike (Argentina) using IRSL signals from feldsparQuaternary Science Reviews717080Search in Google Scholar
Buylaert J-P, Murray AS, Thomsen KJ and Jain M, 2009. Testing the potential of an elevated temperature IRSL signal from K-feldspar. Radiation Measurements 44: 560–565.BuylaertJ-PMurrayASThomsenKJJainM2009Testing the potential of an elevated temperature IRSL signal from K-feldsparRadiation Measurements44560565Search in Google Scholar
Choi J, Duller G, Wintle A and Cheong C-S, 2006. Luminescence characteristics of quartz from the Southern Kenyan Rift Valley: Dose estimation using LM-OSL SAR. Radiation Measurements 41: 847–854.ChoiJDullerGWintleACheongC-S2006Luminescence characteristics of quartz from the Southern Kenyan Rift Valley: Dose estimation using LM-OSL SARRadiation Measurements41847854Search in Google Scholar
Colarossi D, Duller G, Roberts H, Tooth S and Lyons R, 2015. Comparison of paired quartz OSL and feldspar post-IR IRSL dose distributions in poorly bleached fluvial sediments from South Africa. Quaternary Geochronology 30: 233–238.ColarossiDDullerGRobertsHToothSLyonsR2015Comparison of paired quartz OSL and feldspar post-IR IRSL dose distributions in poorly bleached fluvial sediments from South AfricaQuaternary Geochronology30233238Search in Google Scholar
Cunningham AC and Wallinga J, 2010. Selection of integration time intervals for quartz OSL decay curves. Quaternary Geochronology 5: 657–666.CunninghamACWallingaJ2010Selection of integration time intervals for quartz OSL decay curvesQuaternary Geochronology5657666Search in Google Scholar
Duller G, 2018. Enhancing Analyst by integrating the R package ‘Luminescence’. Ancient TL 36: 1–6.DullerG2018Enhancing Analyst by integrating the R package ‘Luminescence’Ancient TL3616Search in Google Scholar
Durcan JA and Duller GA, 2011. The fast ratio: A rapid measure for testing the dominance of the fast component in the initial OSL signal from quartz. Radiation Measurements 46: 1065–1072.DurcanJADullerGA2011The fast ratio: A rapid measure for testing the dominance of the fast component in the initial OSL signal from quartzRadiation Measurements4610651072Search in Google Scholar
Durcan JA, King GE and Duller GA, 2015. DRAC: Dose rate and age calculator for trapped charge dating. Quaternary Geochronology 28: 54–61.DurcanJAKingGEDullerGA2015DRAC: Dose rate and age calculator for trapped charge datingQuaternary Geochronology285461Search in Google Scholar
Engel Z, Mentlík P, Braucher R, Křížek M, Pluháčková M, Arnold M, Aumaître G, Bourles D and Keddadouche K, 2017. 10Be exposure age chronology of the last glaciation of the Roháčská Valley in the Western Tatra Mountains, central Europe. Geomorphology 293: 130–142.EngelZMentlíkPBraucherRKřížekMPluháčkováMArnoldMAumaîtreGBourlesDKeddadoucheK201710Be exposure age chronology of the last glaciation of the Roháčská Valley in the Western Tatra Mountains, central EuropeGeomorphology293130142Search in Google Scholar
Engel Z, Mentlík P, Braucher R, Minár J, Léanni L and Team A, 2015. Geomorphological evidence and 10Be exposure ages for the Last Glacial Maximum and deglaciation of the Velká and Malá Studená dolina valleys in the High Tatra Mountains, central Europe. Quaternary Science Reviews 124: 106–123.EngelZMentlíkPBraucherRMinárJLéanniLTeamA2015Geomorphological evidence and 10Be exposure ages for the Last Glacial Maximum and deglaciation of the Velká and Malá Studená dolina valleys in the High Tatra Mountains, central EuropeQuaternary Science Reviews124106123Search in Google Scholar
Germain D and Ouellet M-A, 2013. Subaerial sediment-water flows on hillslopes: Essential research questions and classification challenges. Progress in Physical Geography 37: 813–833.GermainDOuelletM-A2013Subaerial sediment-water flows on hillslopes: Essential research questions and classification challengesProgress in Physical Geography37813833Search in Google Scholar
Gliganic LA, Cohen TJ, Meyer M and Molenaar A, 2017. Variations in luminescence properties of quartz and feldspar from modern fluvial sediments in three rivers. Quaternary Geochronology 41: 70–82.GliganicLACohenTJMeyerMMolenaarA2017Variations in luminescence properties of quartz and feldspar from modern fluvial sediments in three riversQuaternary Geochronology417082Search in Google Scholar
Halouzka R, 1989. Nové poznatky o kvartérnej stratigrafii a zaľadneniach v Západných Tatrách a ich predpolí (vo vzťahu k oblasti Vysokých Tatier). (New knowledge about Quaternary stratigraphy and glaciations in the Western Tatras and their forelands (in relation to the High Tatras area)). Regionálna Geológia Západných Karpát 25: 35–40.HalouzkaR1989Nové poznatky o kvartérnej stratigrafii a zaľadneniach v Západných Tatrách a ich predpolí (vo vzťahu k oblasti Vysokých Tatier). (New knowledge about Quaternary stratigraphy and glaciations in the Western Tatras and their forelands (in relation to the High Tatras area))Regionálna Geológia Západných Karpát253540Search in Google Scholar
Halouzka R, 1992. Survey of Pleistocene mountain glaciations in the Tatra Mts. (with glacial stratigraphy of the Tatra Mts. In European correlation) and their parallelization with Continental glaciations in the Northmoravian Silesian region. Scripta Faculty of Science University of Masaryka, Geologia, Brno, 22, 101–107.HalouzkaR1992Survey of Pleistocene mountain glaciations in the Tatra Mts. (with glacial stratigraphy of the Tatra Mts. In European correlation) and their parallelization with Continental glaciations in the Northmoravian Silesian regionScripta Faculty of Science University of Masaryka, Geologia, Brno22101107Search in Google Scholar
Huntley DJ and Baril M, 1997. The K content of the K-feldspars being measured in optical dating or in thermoluminescence dating. Ancient Tl 15: 11–13.HuntleyDJBarilM1997The K content of the K-feldspars being measured in optical dating or in thermoluminescence datingAncient Tl151113Search in Google Scholar
Huntley DJ and Lamothe M, 2001. Ubiquity of anomalous fading in K-feldspars and the measurement and correction for it in optical dating. Canadian Journal of Earth Sciences 38: 1093–1106.HuntleyDJLamotheM2001Ubiquity of anomalous fading in K-feldspars and the measurement and correction for it in optical datingCanadian Journal of Earth Sciences3810931106Search in Google Scholar
Jain M, Murray A and Bøtter-Jensen L, 2003. Characterisation of blue-light stimulated luminescence components in different quartz samples: implications for dose measurement. Radiation Measurements 37: 441–449.JainMMurrayABøtter-JensenL2003Characterisation of blue-light stimulated luminescence components in different quartz samples: implications for dose measurementRadiation Measurements37441449Search in Google Scholar
Jain M, Murray A, Bøtter-Jensen L and Wintle A, 2005. A single-aliquot regenerative-dose method based on IR (1.49 eV) bleaching of the fast OSL component in quartz. Radiation Measurements 39: 309–318.JainMMurrayABøtter-JensenLWintleA2005A single-aliquot regenerative-dose method based on IR (1.49 eV) bleaching of the fast OSL component in quartzRadiation Measurements39309318Search in Google Scholar
Jankowski NR and Jacobs Z, 2018. Beta dose variability and its spatial contextualisation in samples used for optical dating: An empirical approach to examining beta microdosimetry. Quaternary Geochronology 44: 23–37.JankowskiNRJacobsZ2018Beta dose variability and its spatial contextualisation in samples used for optical dating: An empirical approach to examining beta microdosimetryQuaternary Geochronology442337Search in Google Scholar
Kars RH, Reimann T, Ankjærgaard C and Wallinga J, 2014. Bleaching of the post-IR IRSL signal: new insights for feldspar luminescence dating. Boreas 43: 780–791.KarsRHReimannTAnkjærgaardCWallingaJ2014Bleaching of the post-IR IRSL signal: new insights for feldspar luminescence datingBoreas43780791Search in Google Scholar
Kłapyta P, Zasadni J, Pociask-Karteczka J, Gajda A and Franczak P, 2016. Late Glacial and Holocene paleoenvironmental records in the Tatra Mountains, East-Central Europe, based on lake, peat bog and colluvial sedimentary data: A summary review. Quaternary International 415: 126–144.KłapytaPZasadniJPociask-KarteczkaJGajdaAFranczakP2016Late Glacial and Holocene paleoenvironmental records in the Tatra Mountains, East-Central Europe, based on lake, peat bog and colluvial sedimentary data: A summary reviewQuaternary International415126144Search in Google Scholar
Klimaszewski M, 1988. Rzeźba Tatr Polskich, (The relief of the polish Tatra Mountains). Państwowe Wydaw, Naukowe.KlimaszewskiM1988Rzeźba Tatr Polskich, (The relief of the polish Tatra Mountains)Państwowe Wydaw, NaukoweSearch in Google Scholar
Kotarba A, 2007. Geomorphic activity of debris flows in the Tatra Mts. and in other European mountains. Geographia Polonica 80: 137–150.KotarbaA2007Geomorphic activity of debris flows in the Tatra Mts. and in other European mountainsGeographia Polonica80137150Search in Google Scholar
Kreutzer S, 2020. Calc_FadingCorr (): apply a fading correction according to Huntley & Lamothe (2001) for a given g-value and a given tc. Function version 0.4. 2. In: Kreutzer S, Burow C, Dietze M, Fuchs MC Schmidt C, Fischer M and Friedrich J, eds., Luminescence: Comprehensive Luminescence Dating Data Analysis. R package version 0.9, 8.9000-69.KreutzerS2020Calc_FadingCorr (): apply a fading correction according to Huntley & Lamothe (2001) for a given g-value and a given tc. Function version 0.4. 2In:KreutzerSBurowCDietzeMFuchsMCSchmidtCFischerMFriedrichJeds.Luminescence: Comprehensive Luminescence Dating Data Analysis. R package version 0.98.9000-69.Search in Google Scholar
Kreutzer S, 2022. fit_LMCurve (): Nonlinear Least Squares Fit for LM-OSL curves. Function version 0.3.3. In: Kreutzer S, Burow C, Dietze M, Dietze, M C Fuchs, C Schmidt, M Fischer, J Friedrich, N Mercier, A Philippe, S Riedesel, M Autzen, D Mittelstrass, H J Gray (Eds.), Luminescence: Comprehensive Luminescence Dating Data Analysis (2021).KreutzerS2022fit_LMCurve (): Nonlinear Least Squares Fit for LM-OSL curves. Function version 0.3.3In:KreutzerSBurowCDietzeMDietzeMFuchsCSchmidtCFischerMFriedrichJMercierNPhilippeARiedeselSAutzenMMittelstrassDGrayH J(Eds.),Luminescence: Comprehensive Luminescence Dating Data Analysis (2021)Search in Google Scholar
Kreutzer S, Burow C, Dietze M, Fuchs MC, Schmidt C, Fischer M, Friedrich J, Mercier N, Smedley RK and Christophe C, 2022. Luminescence: Comprehensive Luminescence Dating Data Analysis (0.9. 19), Zenodo [code].KreutzerSBurowCDietzeMFuchsMCSchmidtCFischerMFriedrichJMercierNSmedleyRKChristopheC2022Luminescence: Comprehensive Luminescence Dating Data Analysis (0.9. 19), Zenodo [code]Search in Google Scholar
Krüger J and Kjaer KH, 1999. A data chart for field description and genetic interpretation of glacial diamicts and associated sediments… with examples from Greenland, Iceland, and Denmark. Boreas 28: 386–402.KrügerJKjaerKH1999A data chart for field description and genetic interpretation of glacial diamicts and associated sediments… with examples from Greenland, Iceland, and DenmarkBoreas28386402Search in Google Scholar
Krzyszkowski D, 2002. Sedimentary successions in ice-marginal fans of the Late Saalian glaciation, southwestern Poland. Sedimentary Geology 149: 93–109.KrzyszkowskiD2002Sedimentary successions in ice-marginal fans of the Late Saalian glaciation, southwestern PolandSedimentary Geology14993109Search in Google Scholar
Li B, Roberts RG and Jacobs Z, 2013. On the dose dependency of the bleachable and non-bleachable components of IRSL from K-feldspar: Improved procedures for luminescence dating of Quaternary sediments. Quaternary Geochronology 17: 1–13.LiBRobertsRGJacobsZ2013On the dose dependency of the bleachable and non-bleachable components of IRSL from K-feldspar: Improved procedures for luminescence dating of Quaternary sedimentsQuaternary Geochronology17113Search in Google Scholar
Lindner L, Dzierżek J, Marciniak B and Nitychoruk J, 2003. Outline of Quaternary glaciations in the Tatra Mts.: their development, age and limits. Geological Quarterly 47: 269–280.LindnerLDzierżekJMarciniakBNitychorukJ2003Outline of Quaternary glaciations in the Tatra Mts.: their development, age and limitsGeological Quarterly47269280Search in Google Scholar
Lindner L, Nitychoruk J, and Butrym J, 1993. The problem of number and age of glaciations in the Tatra Mts. against thermoluminescence dating of glaciofluvial sediments of the Biały Dunajec drainage basin. Przegl. Geol 41: 10–21.LindnerLNitychorukJButrymJ1993The problem of number and age of glaciations in the Tatra Mts. against thermoluminescence dating of glaciofluvial sediments of the Biały Dunajec drainage basinPrzegl. Geol411021Search in Google Scholar
Lowick SE, Trauerstein M and Preusser F, 2012. Testing the application of post IR-IRSL dating to fine grain waterlain sediments. Quaternary Geochronology 8: 33–40.LowickSETrauersteinMPreusserF2012Testing the application of post IR-IRSL dating to fine grain waterlain sedimentsQuaternary Geochronology83340Search in Google Scholar
Lukniš M, 1964. The course of the last glaciation of the Western Carpathians in the relation to the Alps, to the glaciation of northern Europe, and to the division of the central European Würm into periods. Geografický časopis 16: 127–142.LuknišM1964The course of the last glaciation of the Western Carpathians in the relation to the Alps, to the glaciation of northern Europe, and to the division of the central European Würm into periodsGeografický časopis16127142Search in Google Scholar
Lukniš M. 1968: Geomorphological Map of the Vysoké Tatry Mts. (High Tatra Mts.) and their Foreland 1:50,000. Geologický ústav Dionýza Štúra, Bratislava, Slovakia.LuknišM.1968Geomorphological Map of the Vysoké Tatry Mts. (High Tatra Mts.) and their Foreland 1:50,000Geologický ústav Dionýza ŠtúraBratislava, SlovakiaSearch in Google Scholar
Lukniš M, 1973. Reliéf Vysokých Tatier a ich predpolia. (The relief of the High Tatras and their forelands). Slovak Academy of Sciences, Bratislava, 175pp.LuknišM1973Reliéf Vysokých Tatier a ich predpolia. (The relief of the High Tatras and their forelands)Slovak Academy of SciencesBratislava175pp.Search in Google Scholar
Lukniš M, 1974. Muránska planina z hľadiska vývoja reliéfu a ochrany prírody. (Muránska plain in terms of relief development and nature protection). Československá ochrana prírody 14: 107–116.LuknišM1974Muránska planina z hľadiska vývoja reliéfu a ochrany prírody. (Muránska plain in terms of relief development and nature protection)Československá ochrana prírody14107116Search in Google Scholar
Maizels J, 1989. Sedimentology, paleoflow dynamics and flood history of jokulhlaup deposits; paleohydrology of Holocene sediment sequences in southern Iceland sandur deposits. Journal of Sedimentary Research 59: 204–223.MaizelsJ1989Sedimentology, paleoflow dynamics and flood history of jokulhlaup deposits; paleohydrology of Holocene sediment sequences in southern Iceland sandur depositsJournal of Sedimentary Research59204223Search in Google Scholar
Maizels J, 1993. Lithofacies variations within sandur deposits: the role of runoff regime, flow dynamics and sediment supply characteristics. Sedimentary Geology 85: 299–325.MaizelsJ1993Lithofacies variations within sandur deposits: the role of runoff regime, flow dynamics and sediment supply characteristicsSedimentary Geology85299325Search in Google Scholar
Makos M, Dzierżek J, Nitychoruk J and Zreda M, 2014. Timing of glacier advances and climate in the High Tatra Mountains (Western Carpathians) during the Last Glacial Maximum. Quaternary Research 82: 1–13.MakosMDzierżekJNitychorukJZredaM2014Timing of glacier advances and climate in the High Tatra Mountains (Western Carpathians) during the Last Glacial MaximumQuaternary Research82113Search in Google Scholar
Makos M, Rinterknecht V, Braucher R, Żarnowski M and Team A, 2016. Glacial chronology and palaeoclimate in the Bystra catchment, Western Tatra Mountains (Poland) during the Late Pleistocene. Quaternary Science Reviews 134: 74–91.MakosMRinterknechtVBraucherRŻarnowskiMTeamA2016Glacial chronology and palaeoclimate in the Bystra catchment, Western Tatra Mountains (Poland) during the Late PleistoceneQuaternary Science Reviews1347491Search in Google Scholar
Mazúr E and Luknis M, 1978. Regionalne geomorfologické clenenie SSR. (Geomorphological regionalization of Slovakia). Geograficky casopis Bratislava 30: 101–125.MazúrELuknisM1978Regionalne geomorfologické clenenie SSR. (Geomorphological regionalization of Slovakia)Geograficky casopis Bratislava30101125Search in Google Scholar
Mulder T and Alexander J, 2001. The physical character of sub-aqueous sedimentary density flows and their deposits. Sedimentology 48: 269–299.MulderTAlexanderJ2001The physical character of sub-aqueous sedimentary density flows and their depositsSedimentology48269299Search in Google Scholar
Murray A and Roberts R, 1998. Measurement of the equivalent dose in quartz using a regenerative-dose single-aliquot protocol. Radiation Measurements 29: 503–515.MurrayARobertsR1998Measurement of the equivalent dose in quartz using a regenerative-dose single-aliquot protocolRadiation Measurements29503515Search in Google Scholar
Murray A, Helsted L, Autzen M, Jain M and Buylaert J, 2018. Measurement of natural radioactivity: Calibration and performance of a high-resolution gamma spectrometry facility. Radiation Measurements 120: 215–220.MurrayAHelstedLAutzenMJainMBuylaertJ2018Measurement of natural radioactivity: Calibration and performance of a high-resolution gamma spectrometry facilityRadiation Measurements120215220Search in Google Scholar
Murray A, Marten R, Johnston A and Martin P, 1987. Analysis for naturally occuring radionuclides at environmental concentrations by gamma spectrometry. Journal of Radioanalytical and Nuclear Chemistry 115: 263–288.MurrayAMartenRJohnstonAMartinP1987Analysis for naturally occuring radionuclides at environmental concentrations by gamma spectrometryJournal of Radioanalytical and Nuclear Chemistry115263288Search in Google Scholar
Murray A, Thomsen KJ, Masuda N, Buylaert J-P and Jain M, 2012. Identifying well-bleached quartz using the different bleaching rates of quartz and feldspar luminescence signals. Radiation Measurements 47: 688–695.MurrayAThomsenKJMasudaNBuylaertJ-PJainM2012Identifying well-bleached quartz using the different bleaching rates of quartz and feldspar luminescence signalsRadiation Measurements47688695Search in Google Scholar
Murray AS and Wintle AG, 2000. Luminescence dating of quartz using an improved single-aliquot regenerative-dose protocol. Radiation Measurements 32: 57–73.MurrayASWintleAG2000Luminescence dating of quartz using an improved single-aliquot regenerative-dose protocolRadiation Measurements325773Search in Google Scholar
Murray AS and Wintle AG, 2003. The single aliquot regenerative dose protocol: potential for improvements in reliability. Radiation Measurements 37: 377–381.MurrayASWintleAG2003The single aliquot regenerative dose protocol: potential for improvements in reliabilityRadiation Measurements37377381Search in Google Scholar
Murray AS, Schmidt E, Stevens T, Buylaert J-P, Marković S, Tsukamoto S and Frechen M, 2014. Dating Middle Pleistocene loess from Stari Slankamen (Vojvodina, Serbia)—Limitations imposed by the saturation behaviour of an elevated temperature IRSL signal. Catena 117: 34–42.MurrayASSchmidtEStevensTBuylaertJ-PMarkovićSTsukamotoSFrechenM2014Dating Middle Pleistocene loess from Stari Slankamen (Vojvodina, Serbia)—Limitations imposed by the saturation behaviour of an elevated temperature IRSL signalCatena1173442Search in Google Scholar
Nelson MS and Rittenour TM, 2015. Using grain-size characteristics to model soil water content: application to dose-rate calculation for luminescence dating. Radiation Measurements 81: 142–149.NelsonMSRittenourTM2015Using grain-size characteristics to model soil water content: application to dose-rate calculation for luminescence datingRadiation Measurements81142149Search in Google Scholar
Nemčok J, Bezák V, Biely A, Gorek A, Gross P, Halouzka R, Janák M, Kahan Š, Kotański Z and Lefeld J, 1994. Geological map of the Tatra Mountains. MŽP SR, GÚDŠ.NemčokJBezákVBielyAGorekAGrossPHalouzkaRJanákMKahanŠKotańskiZLefeldJ1994Geological map of the Tatra MountainsMŽP SRGÚDŠSearch in Google Scholar
Nemčok J, Bezák V, Janák M, Kahan Š, Ryka W, Kohút M, Lehotský I, Wieczorek J, Zelman J, Mello J, Halouzka R, Raczkowski W and Reichwalder P, 1993. Vysvetlivky ku geologickej mape Tatier. (Explanations of the geological map of the Tatras). GÚDŠ, Bratislava, 135pp.NemčokJBezákVJanákMKahanŠRykaWKohútMLehotskýIWieczorekJZelmanJMelloJHalouzkaRRaczkowskiWReichwalderP1993Vysvetlivky ku geologickej mape Tatier. (Explanations of the geological map of the Tatras)GÚDŠBratislava135pp.Search in Google Scholar
Nemcok M and Nemcok J, 1994. Late Cretaceous deformation of the Pieniny Klippen Belt, West Carpathians. Tectonophysics 239: 81–109.NemcokMNemcokJ1994Late Cretaceous deformation of the Pieniny Klippen Belt, West CarpathiansTectonophysics23981109Search in Google Scholar
Olszak J, Kukulak J and Alexanderson H, 2019. Climate control on alluvial sediment storage in the northern foreland of the Tatra Mountains since the late Pleistocene. Quaternary Research 91: 520–532.OlszakJKukulakJAlexandersonH2019Climate control on alluvial sediment storage in the northern foreland of the Tatra Mountains since the late PleistoceneQuaternary Research91520532Search in Google Scholar
Pánek T, Engel Z, Mentlík P, Braucher R, Břežný M, Škarpich V and Zondervan A, 2016. Cosmogenic age constraints on post-LGM catastrophic rock slope failures in the Tatra Mountains (Western Carpathians). Catena 138: 52–67.PánekTEngelZMentlíkPBraucherRBřežnýMŠkarpichVZondervanA2016Cosmogenic age constraints on post-LGM catastrophic rock slope failures in the Tatra Mountains (Western Carpathians)Catena1385267Search in Google Scholar
Pánek T, Minár J, Vitovič L and Břežný M, 2020. Post-LGM faulting in Central Europe: LiDAR detection of the >50 km-long Sub-Tatra fault, Western Carpathians. Geomorphology 364: 107248.PánekTMinárJVitovičLBřežnýM2020Post-LGM faulting in Central Europe: LiDAR detection of the >50 km-long Sub-Tatra fault, Western CarpathiansGeomorphology364107248Search in Google Scholar
Perić ZM, Marković SB, Filyó D, Thiel C, Murray AS, Gavrilov MB, Nett JJ and SIPOS, G, 2021. Quartz OSL and polymineral post IR–IRSL dating of the Požarevac loess–palaeosol sequence in north–eastern Serbia. Quaternary Geochronology 66: 101216.PerićZMMarkovićSBFilyóDThielCMurrayASGavrilovMBNettJJSIPOSG2021Quartz OSL and polymineral post IR–IRSL dating of the Požarevac loess–palaeosol sequence in north–eastern SerbiaQuaternary Geochronology66101216Search in Google Scholar
Roberts HM and Wintle AG, 2001. Equivalent dose determinations for polymineralic fine-grains using the SAR protocol: application to a Holocene sequence of the Chinese Loess Plateau. Quaternary Science Reviews 20: 859–863.RobertsHMWintleAG2001Equivalent dose determinations for polymineralic fine-grains using the SAR protocol: application to a Holocene sequence of the Chinese Loess PlateauQuaternary Science Reviews20859863Search in Google Scholar
Roberts HM, 2012. Testing Post-IR IRSL protocols for minimising fading in feldspars, using Alaskan loess with independent chronological control. Radiation Measurements 47: 716–724.RobertsHM2012Testing Post-IR IRSL protocols for minimising fading in feldspars, using Alaskan loess with independent chronological controlRadiation Measurements47716724Search in Google Scholar
Rosenzweig R and Porat N, 2015. Evaluation of soil-moisture content for OSL dating using an infiltration model. Ancient TL 33: 10–14.RosenzweigRPoratN2015Evaluation of soil-moisture content for OSL dating using an infiltration modelAncient TL331014Search in Google Scholar
Russell AJ, 2007. Controls on the sedimentology of an ice-contact jökulhlaup-dominated delta, Kangerlussuaq, west Greenland. Sedimentary Geology 193: 131–148.RussellAJ2007Controls on the sedimentology of an ice-contact jökulhlaup-dominated delta, Kangerlussuaq, west GreenlandSedimentary Geology193131148Search in Google Scholar
Smedley R, Duller G, Rufer D and Utley J, 2020. Empirical assessment of beta dose heterogeneity in sediments: implications for luminescence dating. Quaternary Geochronology 56: 101052.SmedleyRDullerGRuferDUtleyJ2020Empirical assessment of beta dose heterogeneity in sediments: implications for luminescence datingQuaternary Geochronology56101052Search in Google Scholar
Steffen D, Preusser, F and Schlunegger F, 2009. OSL quartz age underestimation due to unstable signal components. Quaternary Geochronology 4: 353–362.SteffenDPreusserFSchluneggerF2009OSL quartz age underestimation due to unstable signal componentsQuaternary Geochronology4353362Search in Google Scholar
Thiel C, Buylaert J-P, Murray A, Terhorst B, Hofer I, Tsukamoto S and Frechen M, 2011a. Luminescence dating of the Stratzing loess profile (Austria)–Testing the potential of an elevated temperature post-IR IRSL protocol. Quaternary International 234: 23–31.ThielCBuylaertJ-PMurrayATerhorstBHoferITsukamotoSFrechenM2011aLuminescence dating of the Stratzing loess profile (Austria)–Testing the potential of an elevated temperature post-IR IRSL protocolQuaternary International2342331Search in Google Scholar
Thiel C, Buylaert J-P, Murray AS and Tsukamoto S, 2011b. On the applicability of post-IR IRSL dating to Japanese loess. Geochronometria 38: 369–378.ThielCBuylaertJ-PMurrayASTsukamotoS2011bOn the applicability of post-IR IRSL dating to Japanese loessGeochronometria38369378Search in Google Scholar
Thomsen KJ, Murray AS, Jain M and Bøtter-Jensen L, 2008. Laboratory fading rates of various luminescence signals from feldspar-rich sediment extracts. Radiation Measurements 43: 1474–1486.ThomsenKJMurrayASJainMBøtter-JensenL2008Laboratory fading rates of various luminescence signals from feldspar-rich sediment extractsRadiation Measurements4314741486Search in Google Scholar
Trauerstein M, Lowick SE, Preusser F and Veit H, 2017. Testing the suitability of dim sedimentary quartz from northern Switzerland for OSL burial dose estimation. Geochronometria 44: 66–76.TrauersteinMLowickSEPreusserFVeitH2017Testing the suitability of dim sedimentary quartz from northern Switzerland for OSL burial dose estimationGeochronometria446676Search in Google Scholar
Van Wees RMJ, 2020. Combining luminescence dating and sedimentary analysis to derive the landscape dynamics of the Velicka Valley in the High Tatra Mountains, Slovakia. Ancient TL 38: 29–30.Van WeesRMJ2020Combining luminescence dating and sedimentary analysis to derive the landscape dynamics of the Velicka Valley in the High Tatra Mountains, SlovakiaAncient TL382930Search in Google Scholar
Wintle AG and Murray AS, 2006. A review of quartz optically stimulated luminescence characteristics and their relevance in single-aliquot regeneration dating protocols. Radiation Measurements 41: 369–391.WintleAGMurrayAS2006A review of quartz optically stimulated luminescence characteristics and their relevance in single-aliquot regeneration dating protocolsRadiation Measurements41369391Search in Google Scholar
Zasadni J and Kłapyta P, 2014. The Tatra Mountains during the last glacial maximum. Journal of Maps 10: 440–456.ZasadniJKłapytaP2014The Tatra Mountains during the last glacial maximumJournal of Maps10440456Search in Google Scholar
Zejszner L, 1856. Über eine Längenmoräne im Thale des Biały Dunajec bei dem Hochofen von Zakopane in der Tatra. (About a longitudinal moraine in the Biały Dunajec valley near the blast furnaces of Zakopane in the Tatra Mountains) Sitz. Kais. Akad. Wiss. Wien Math.-Naturwiss 1: 259–262.ZejsznerL1856Über eine Längenmoräne im Thale des Biały Dunajec bei dem Hochofen von Zakopane in der Tatra. (About a longitudinal moraine in the Biały Dunajec valley near the blast furnaces of Zakopane in the Tatra Mountains)Sitz. Kais. Akad. Wiss. Wien Math.-Naturwiss1259262Search in Google Scholar
Zeng L-H, Ou X-J, Lai Z-P and Zhou SZ, 2016. Optically stimulated luminescence dating of young glacial sediments from the eastern Qinghai-Tibetan Plateau. Journal of Mountain Science 13: 1174–1185.ZengL-HOuX-JLaiZ-PZhouSZ2016Optically stimulated luminescence dating of young glacial sediments from the eastern Qinghai-Tibetan PlateauJournal of Mountain Science1311741185Search in Google Scholar