Early Holocene alluvia in the lower Wisłok River valley and their chronostratigraphy in the light of radiocarbon datings and palynological analysis

Berglund BE and Ralska-Jasiewiczowa M, 1986. Pollen analysis and pollen diagrams. In: Berglund BE and Ralska-Jasiewiczowa M, eds., Handbook of Holocene Palaeoecology and Palaeohydrology. J. Wiley & Sons Ltd., Chichester-Toronto: 455–484BerglundBERalska-JasiewiczowaM1986Pollen analysis and pollen diagramsBerglundBERalska-JasiewiczowaMHandbook of Holocene Palaeoecology and PalaeohydrologyJ. Wiley & Sons Ltd.Chichester-Toronto455484Search in Google Scholar

Bronk Ramsey C, Dee M, Lee S, Nakagawa T and Staff R, 2010. Developments in the calibration and modelling of radiocarbon dates. Radiocarbon 52(3): 953–961.Bronk RamseyCDeeMLeeSNakagawaTStaffR2010Developments in the calibration and modelling of radiocarbon datesRadiocarbon52395396110.1017/S0033822200046063Search in Google Scholar

Chabal L, Fabre L, Terral J-F, Thery-Parisot I, 1999. L’Anthracolgie (Anthracolgy), In: A. Ferdière, Ch. Bourquin-Mignot, J.-E. Brochier, L. Chabal, S. Crozat, L. Fabre, J.-F. Terral, I. Théry-Parisot (eds.), La Botanique. Collection “Archéologiques”, Ed. Errance, Paris, 43–104.ChabalLFabreLTerralJ-FThery-ParisotI1999L’Anthracolgie (Anthracolgy)FerdièreA.Bourquin-MignotCh.BrochierJ.-E.ChabalL.CrozatS.FabreL.TerralJ.-F.Théry-ParisotI.La Botanique. Collection “Archéologiques”ErranceParis43104Search in Google Scholar

Friedberg W, 1903. Atlas Geologiczny Galicyi. Tekst do zeszytu 16. Arkusze: Rudnik I Raniżów, Ropczyce i Dębica, Rzeszów i Łańcut. (Geological Atlas of Galicja) Wydawnictwo Komisyi Fizjograficznej Akademii Umiejętności, Kraków, 1–147.FriedbergW1903Atlas Geologiczny Galicyi. Tekst do zeszytu 16. Arkusze: Rudnik I Raniżów, Ropczyce i Dębica, Rzeszów i Łańcut(Geological Atlas of Galicja) Wydawnictwo Komisyi Fizjograficznej Akademii Umiejętności, Kraków1147Search in Google Scholar

Gębica P, 2004. Przebieg akumulacji rzecznej w górnym vistulianie w Kotlinie Sandomierskiej. (The course of fluvial accumulation durind the Upper Vistulian in Sandomierz Basin) Prace Geograficzne 193, Instytut Geografii i PZ PAN, Warszawa, 1–229.GębicaP2004Przebieg akumulacji rzecznej w górnym vistulianie w Kotlinie Sandomierskiej(The course of fluvial accumulation durind the Upper Vistulian in Sandomierz Basin) Prace Geograficzne193Instytut Geografii i PZ PANWarszawa1229Search in Google Scholar

Gębica P, 2011. Stratigraphy of alluvia and Holocene flood phases in the Lower Wisłok valley. Geographia Polonica 84 Special Issue p. I: 39–60.GębicaP2011Stratigraphy of alluvia and Holocene flood phases in the Lower Wisłok valleyGeographia Polonica84I396010.7163/GPol.2011.S1.4Search in Google Scholar

Gębica P, Bluszcz A, Pazdur A and Szczepanek K, 2002. Chronostratigraphy of Late Pleistocene fluvial deposits in the Wisłok river valley between Rzeszów and Łańcut, South Poland. Geochronometria 21: 119–128.GębicaPBluszczAPazdurASzczepanekK2002Chronostratigraphy of Late Pleistocene fluvial deposits in the Wisłok river valley between Rzeszów and Łańcut, South PolandGeochronometria21119128Search in Google Scholar

Gębica P, Płoskonka D and Kalinovyč N, 2009. Lithology and age of the Holocene terrace in the Wislok river valley. Studia Geomorphologica Carpatho-Balcanica 43: 77–95.GębicaPPłoskonkaDKalinovyčN2009Lithology and age of the Holocene terrace in the Wislok river valleyStudia Geomorphologica Carpatho-Balcanica437795Search in Google Scholar

Gębica P, Superson S, Hozer M and Bajda-Wesołowska A, 2014. Geoarcheologiczny zapis ewolucji doliny Wisłoka na przykładzie stanowiska nr 19 w Białobrzegach (Geoarchaeological record of the evolution of the Wisłok valley based on the site No. 19 in Białołobrzegi). Materiały i Sprawozdania Rzeszowskiego Ośrodka Archeologicznego 35: 217–227.GębicaPSupersonSHozerMBajda-WesołowskaA2014Geoarcheologiczny zapis ewolucji doliny Wisłoka na przykładzie stanowiska nr 19 w Białobrzegach (Geoarchaeological record of the evolution of the Wisłok valley based on the site No. 19 in Białołobrzegi)Materiały i Sprawozdania Rzeszowskiego Ośrodka Archeologicznego35217227Search in Google Scholar

Klimek K, Łanczot M and Nogaj-Chachaj J, 2006. Historical deforestation as a cause of alluviation in small valleys, subcarpathian loess plateau, Poland. Regional Environmental Change 6 (1–2): 52–61, 10.1007/s10113-005-0008-3.KlimekKŁanczotMNogaj-ChachajJ2006Historical deforestation as a cause of alluviation in small valleys, subcarpathian loess plateau, PolandRegional Environmental Change61–2526110.1007/s10113-005-0008-3Open DOISearch in Google Scholar

Kolaczek P, 2007. Late Glacial and Holocene vegetation changes in the western part of Rzeszów Foothills (Sandomierz basin) based on the pollen diagram from Krasne near Rzeszów. Acta Palaeobotanica 47: 455–467.KolaczekP2007Late Glacial and Holocene vegetation changes in the western part of Rzeszów Foothills (Sandomierz basin) based on the pollen diagram from Krasne near RzeszówActa Palaeobotanica47455467Search in Google Scholar

Kołaczek P, 2010. The development of Late Glacial and Holocene vagatation and human impact near Grodzisko Nowe in the Lower San Valley (Sandomierz Basin, south-eastern Poland). Acta Palaeobotanica 50: 101–117.KołaczekP2010The development of Late Glacial and Holocene vagatation and human impact near Grodzisko Nowe in the Lower San Valley (Sandomierz Basin, south-eastern Poland)Acta Palaeobotanica50101117Search in Google Scholar

Kołaczek P, 2011. 12 Millennia of climatic and human induced vegetation changes in the Lower San Valley near Jarosław (SE Poland) in the light of pollen analysis. Studia Quaternaria 28: 25–39.KołaczekP201112 Millennia of climatic and human induced vegetation changes in the Lower San Valley near Jarosław (SE Poland) in the light of pollen analysisStudia Quaternaria282539Search in Google Scholar

Kołaczek P, Zubek Sz, Błaszkowski J, Mleczko P and Margielewski W, 2013. Erosion or plant succession — How to interpret the presence of arbuscular mycorrhizal fungi (Glomeromycota) spores in pollen profiles collected from mires. Review of Palaeobotany and Palynology 189: 29–37, 10.1016/j.revpalbo.2012.11.006.KołaczekPZubekSzBłaszkowskiJMleczkoPMargielewskiW2013Erosion or plant succession — How to interpret the presence of arbuscular mycorrhizal fungi (Glomeromycota) spores in pollen profiles collected from miresReview of Palaeobotany and Palynology189293710.1016/j.revpalbo.2012.11.006Open DOISearch in Google Scholar

Laskowska-Wysoczańska W, 1971. Stratygrafia czwartorzędu i paleogeomorfologia Niziny Sandomierskiej i Przedgórza Karpat rejonu Rzeszowskiego. Studia Geologica Polonica 34: 1–109.Laskowska-WysoczańskaW1971Stratygrafia czwartorzędu i paleogeomorfologia Niziny Sandomierskiej i Przedgórza Karpat rejonu RzeszowskiegoStudia Geologica Polonica341109Search in Google Scholar

Pazdur A, Fogtman M, Michczyński A and Pawlyta J, 2003. Precision of ¹⁴C dating in Gliwice radiocarbon laboratory. FIRI Programme. Geochronometria 22: 27–40.PazdurAFogtmanMMichczyńskiAPawlytaJ2003Precision of ¹⁴C dating in Gliwice radiocarbon laboratory. FIRI ProgrammeGeochronometria222740Search in Google Scholar

Pawlyta J, Pazdur A, Rakowski AZ, Miller BF and Harkness DD, 1998. Commissioning of a Quantulus 1220 liquid scintillation beta spectrometer for measuring 14C and 3H at natural abundance levels. Radiocarbon 40 (1): 201–209.PawlytaJPazdurARakowskiAZMillerBFHarknessDD1998Commissioning of a Quantulus 1220 liquid scintillation beta spectrometer for measuring 14C and 3H at natural abundance levelsRadiocarbon40120120910.1017/S0033822200018051Search in Google Scholar

Reimer PJ, Bard E, Bayliss A, Beck JW, Blackwell PG, Bronk Ramsey C, Grootes PM, Guilderson TP, Haflidason H, Hajdas I, HattŽ C, Heaton TJ, Hoffmann DL, Hogg AG, Hughen KA, Kaiser KF, Kromer B, Manning SW, Niu M, Reimer RW, Richards DA, Scott EM, Southon JR, Staff RA, Turney CSM and van der Plicht J, 2013. IntCal13 and Marine13 Radiocarbon Age Calibration Curves 0–50,000 Years cal BP. Radiocarbon 55(4): 1869–1888.ReimerPJBardEBaylissABeckJWBlackwellPGBronk RamseyCGrootesPMGuildersonTPHaflidasonHHajdasIHattŽCHeatonTJHoffmannDLHoggAGHughenKAKaiserKFKromerBManningSWNiuMReimerRWRichardsDAScottEMSouthonJRStaffRATurneyCSMvan der PlichtJ2013IntCal13 and Marine13 Radiocarbon Age Calibration Curves 0–50,000 Years cal BPRadiocarbon5541869188810.2458/azu_js_rc.55.16947Search in Google Scholar

Schweingruber FH, 1982. Mikroskopische Holzanatomie, Komisionverslag/F. Flück-Wirth (Microscopic wood anatomy, comissioning / F. Flück-Wirth), Internationale Buchhandlung für Botanik und Naturwissenschaften, CH-9053 Teufen AR.SchweingruberFH1982Mikroskopische Holzanatomie, Komisionverslag/F. Flück-Wirth (Microscopic wood anatomy, comissioning / FFlück-Wirth)Internationale Buchhandlung für Botanik und NaturwissenschaftenCH-9053 Teufen ARSearch in Google Scholar

Schweingruber FH, 1990. Anatomie Europäischer Hölzer (Anatomy of European Woods). Paul Haupt Berne und Stuttgart Publishers, Bern-Stuttgart.SchweingruberFH1990Anatomie Europäischer Hölzer (Anatomy of European Woods)Paul Haupt Berne und Stuttgart PublishersBern-StuttgartSearch in Google Scholar

Special map of the Austro-Hungarian Monarchy 1: 75,000, ark. Rzeszow and Lancut, 1878. Kaiserlich und Königlich Militaergeo-grafisches Institut. Military-Geographic Institute, Wien.Special map of the Austro-Hungarian Monarchy 1: 75,000, ark. Rzeszow and Lancut1878Kaiserlich und Königlich Militaergeo-grafisches InstitutMilitary-Geographic InstituteWienSearch in Google Scholar

Special map of the Austro-Hungarian Monarchy 1: 75,000, ark. Rzeszow and Lancut, 1900. Kaiserlich und Königlich Militaergeo-grafisches Institut. Military-Geographic Institute, Wien.Special map of the Austro-Hungarian Monarchy 1: 75,000, ark. Rzeszow and Lancut1900Kaiserlich und Königlich Militaergeo-grafisches InstitutMilitary-Geographic InstituteWienSearch in Google Scholar

Starkel L, 1960. Rozwój rzeźby Polskich Karpat fliszowych w holocenie. (The development of the flysch Carpathians relief during the Holocene) Prace Geograficzne 22, Instytut Geografii i PZ PAN, Warszawa, 1–239.StarkelL1960Rozwój rzeźby Polskich Karpat fliszowych w holocenie(The development of the flysch Carpathians relief during the Holocene) Prace Geograficzne22Instytut Geografii i PZ PANWarszawa1239Search in Google Scholar

Starkel L, 1972. Kotlina Sandomierska (Sandomierz Basin), in Klimaszewski, M. (ed.), Geomorfologia Polski (Geomorphology of Poland), vol. 1, Wydawnictwo Naukowe PWN, Warszawa, 138–166.StarkelL1972Kotlina Sandomierska (Sandomierz Basin)KlimaszewskiM.Geomorfologia Polski (Geomorphology of Poland)1Wydawnictwo Naukowe PWNWarszawa138166Search in Google Scholar

Starkel L, 1995. The place of the Vistula river valley in late Vistulian-early Holocene evolution of the European valleys. In: Frenzel B. (Ed.) European river activity an climatic change during the Lateglacial and early Holocene. Special Issue: ESF Project, European Palaeoclimate and Man 9: 75–88.StarkelL1995The place of the Vistula river valley in late Vistulian-early Holocene evolution of the European valleysFrenzelB.European river activity an climatic change during the Lateglacial and early HoloceneSpecial Issue: ESF Project, European Palaeoclimate and Man97588Search in Google Scholar

Starkel L, 2001. Historia doliny Wisły od ostatniego zlodowacenia do dziś. (Evolution of the Vistula river valley since the last glaciation till present) Monografie IGiPZ PAN, 1, Warszawa, 263 pp.StarkelL2001Historia doliny Wisły od ostatniego zlodowacenia do dziś(Evolution of the Vistula river valley since the last glaciation till present)Monografie IGiPZ PAN1Warszawa263Search in Google Scholar

Starkel L, Gębica P, Niedziałkowska E and Podgórska-Tkacz A, 1991. Evolution of both the Vistula floodplain and Lateglacial – early Holocene palaeochannel systems in the Grobla Forrest (Sandomierz Basin), in: L. Starkel (ed.) Evolution of the Vistula river valley during the last 15 000 years, IV, Geographical Sudies, Special Issue 6, 87–99.StarkelLGębicaPNiedziałkowskaEPodgórska-TkaczA1991Evolution of both the Vistula floodplain and Lateglacial – early Holocene palaeochannel systems in the Grobla Forrest (Sandomierz Basin)StarkelL.Evolution of the Vistula river valley during the last 15 000 yearsIVGeographical Sudies68799Search in Google Scholar

Strzelecka B, 1958. Historyczna dokumentacja niektórych młodszych zmian hydrograficznych na brzegu Karpat. (Historical documentation of some younger hydrographical changes of the margin of Carpathians) Czasopismo Geograficzne 29(4): 455–472.StrzeleckaB1958Historyczna dokumentacja niektórych młodszych zmian hydrograficznych na brzegu Karpat(Historical documentation of some younger hydrographical changes of the margin of Carpathians) Czasopismo Geograficzne294455472Search in Google Scholar

Superson S, 2014. Znaczenie datowań archeologicznych i radiowęglowych w określaniu wieku współczesnych aluwiów powodziowych na stanowisku Budy Łańcuckie III. (The importance of archaeological and radiocarbon datings in determininig the age of modern alluvial flood deposits in the Budy Łańcuckie site No. III) Materiały i Sprawozdania Rzeszowskiego Ośrodka Archeologicznego 35: 227–237.SupersonS2014Znaczenie datowań archeologicznych i radiowęglowych w określaniu wieku współczesnych aluwiów powodziowych na stanowisku Budy Łańcuckie III(The importance of archaeological and radiocarbon datings in determininig the age of modern alluvial flood deposits in the Budy Łańcuckie site No. III) Materiały i Sprawozdania Rzeszowskiego Ośrodka Archeologicznego35227237Search in Google Scholar

Superson S, Gębica P, Michczyński A, Kołaczek P and Szczepanek K, 2016. Chronostratigraphy of the Holocene alluvia of the Wisłok river in the light of the radiocarbon datings and palynological analysis (example from Wola Dalsza sandpit near Łańcut, Sandomierz Basin), Conference Abstracts Series, Geochronometria 1: 88–89.SupersonSGębicaPMichczyńskiAKołaczekPSzczepanekK2016Chronostratigraphy of the Holocene alluvia of the Wisłok river in the light of the radiocarbon datings and palynological analysis (example from Wola Dalsza sandpit near Łańcut, Sandomierz Basin), Conference Abstracts SeriesGeochronometria18889Search in Google Scholar

Topographic map on the scale 1: 100 000 ark. Rzeszów (P48 S34), 1938. WIG 1938.Topographic map on the scale 1: 100 000 arkRzeszów (P48 S34)1938WIG1938Search in Google Scholar

Tudyka K and Pazdur A, 2010. Radiocarbon dating of peat profile with metallurgy industry of evidence. Geochronometria 35: 3–9, 10.2478/v10003-010-0007-3.TudykaKPazdurA2010Radiocarbon dating of peat profile with metallurgy industry of evidenceGeochronometria353910.2478/v10003-010-0007-3Open DOISearch in Google Scholar

Tudyka K, Bluszcz A, Kozłowska B, Pawlyta J and Michczyński A, 2015. Low level 14C measurements in freshly prepared benzene samples with simultaneous 214Bi/214Po pairs counting for routine 222Rn contamination correction. Radiation Measurements 74: 6–11, 10.1016/j.radmeas.2015.01.010.TudykaKBluszczAKozłowskaBPawlytaJMichczyńskiA2015Low level 14C measurements in freshly prepared benzene samples with simultaneous 214Bi/214Po pairs counting for routine 222Rn contamination correctionRadiation Measurements7461110.1016/j.radmeas.2015.01.010Open DOISearch in Google Scholar