Search results for "Younger Drya"

showing 10 items of 40 documents

The ELSA-Flood-Stack: A reconstruction from the laminated sediments of Eifel maar structures during the last 60 000 years

2016

Abstract This study reconstructs the main flood phases in central Europe from event layers in sediment cores from Holocene Eifel maar lakes and Pleistocene dry maar structures. These reconstructions are combined with recent gauge time-series to cover the entire precipitation extremes of the last 60 000 years. In general, Eifel maar sediments are perfectly suited for the preservation of event layers since the deep water in the maar lakes is seasonal anoxic and therefore, bioturbation is low. However, the preservation of annual lamination is only preserved in Holzmaar and Ulmener Maar; the other cores are dated by 14C, magnetostratigraphy, tephra markers and ice core tuning. The cores were dr…

010506 paleontologyGlobal and Planetary Change010504 meteorology & atmospheric sciencesFlood mythOceanography01 natural sciencesMaarIce corePaleoclimatologyPhysical geographyYounger DryasStadialGlacial periodGeomorphologyGeologyHolocene0105 earth and related environmental sciencesGlobal and Planetary Change
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A multiproxy study of Younger Dryas and Early Holocene climatic conditions from the Grabia River paleo-oxbow lake (central Poland)

2015

International audience; A multi-proxy reconstruction of water depth, temperature and precipitation inferred from Cladocera, Chironomidae and pollen assemblages has been obtained from Świerczyna paleo-oxbow (central Poland) during the Younger Dryas (YD) and Early Holocene. Results suggest that the YD was relatively cold and comprised two main phases. The first (ca. 12,500–12,000 cal. yrs BP) is characterized by a continental climatic regime and a decrease in winter temperatures and precipitation but an increase in spring/summer precipitation. The second phase (ca. 12,000–11,500 cal. yrs BP) was more mild with a variable continental climate, an increase in summer and winter temperature, a len…

010506 paleontologyYounger Dryas010504 meteorology & atmospheric sciencesPaleoclimateta1171Climate changeGrowing seasonOceanography01 natural sciencesChironomidaeEarly HoloceneMirePaleoclimatologyYounger DryasPrecipitationEcology Evolution Behavior and SystematicsHolocene0105 earth and related environmental sciencesEarth-Surface ProcessesPaleontology15. Life on landCladoceraWater level13. Climate actionClimatology[SDE]Environmental SciencesPollenPhysical geographyGeology
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Sandy fan‐like forms in the central‐eastern mazovian lowland (central poland): textural record and chronology

2016

A unique, continuous, fan-shaped belt of sandy landforms in the central-eastern Mazovian Lowland, Central Poland has been investigated using a multiproxy dataset of sediment physical properties and chronological framework. Although there are several previous studies of similar fan-like forms elsewhere in Central Poland, this central-eastern part has not been investigated in detail. A combined methodological approach, using grain-size distributions, the roundness, surface character and microtexture of quartz grains, and the mineral composition of the light and heavy fractions, indicate a predominantly aeolian origin for the fan-like forms. Overlying them are dunes, the sediment within which …

010506 paleontologygeographygeography.geographical_feature_category010504 meteorology & atmospheric sciencesPleistoceneLandformGeography Planning and DevelopmentGeochemistrySedimentGeologyRoundness (geology)01 natural sciencesAeolian processesGlacial periodYounger DryasGeomorphologyGeology0105 earth and related environmental sciencesChronologyGeografiska Annaler: Series A, Physical Geography
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STOP 13: Inland dune field near Daugavpils, East-Latvian Lowland

2014

Allerød–Younger Dryas boundarygrain-size analysis:NATURAL SCIENCES::Earth sciences::Exogenous earth sciences::Sedimentology [Research Subject Categories]LatvianAustrumlatvijas zemiene:NATURAL SCIENCES::Earth sciences::Exogenous earth sciences::Quaternary geology [Research Subject Categories]Archaeologyrounding and surface character of quartz grainslanguage.human_languageField (geography)GeographyKvartāra ģeoloģijalanguagePhysical geographyLate Quaternary Terrestrial Processes, Sediments and History: From Glacial to Postglacial Environments
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Illuminating Intcal During the Younger Dryas

2020

As the worldwide standard for radiocarbon (14C) dating over the past ca. 50,000 years, the International Calibration Curve (IntCal) is continuously improving towards higher resolution and replication. Tree-ring-based 14C measurements provide absolute dating throughout most of the Holocene, although high-precision data are limited for the Younger Dryas interval and farther back in time. Here, we describe the dendrochronological characteristics of 1448 new 14C dates, between ~11,950 and 13,160 cal BP, from 13 pines that were growing in Switzerland. Significantly enhancing the ongoing IntCal update (IntCal20), this Late Glacial (LG) compilation contains more annually precise 14C dates than any…

ArcheologyEnvironmental changeIntCaldendrochronologyLate Glacial perioddendrochronology; IntCal; Late Glacial period; radiocarbon AMS dating; Switzerlandlaw.inventionradiocarbon AMS datinglawAbsolute datingDendrochronologyPeriod (geology)General Earth and Planetary SciencesPhysical geographyYounger DryasRadiocarbon datingGlacial periodHoloceneGeologySwitzerland
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HOLOCENE CLIMATE AS REFLECTED BY A MALACOLOGICAL SEQUENCE AT VERRIERES FRANCE

2008

Though numerous analyses have been made of Holocene pollen sequences, they come from similar environmental contexts, mainly peat deposits. Land snails can provide good palaeoecological and palaeoclimatical data in different drier environmental settings. The Verrieres deposits, located in the Seine Valley, southeast of Paris, provide rich and abundant malacofaunas. We compare the well–defined local biostratigraphy with other mollusc stratigraphies from Burgundy, the closet site to the studied region. Multivariate analysis of the malacofaunas indicates that temperature and moisture did not always vary in parallel during the Holocene. On the other hand, Verrieres malacofaunas reflect the main …

ArcheologyPaleontologyPeatPreborealBorealSubatlanticGeologyYounger DryasBiostratigraphyEcology Evolution Behavior and SystematicsHoloceneGeologySubboreal
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Seismic stratigraphy of upper Quaternary shallow-water contourite drifts in the Gulf of Taranto (Ionian Sea, southern Italy)

2018

Abstract The occurrence of articulated seafloor morphology over continental shelf-upper slope environments, may result in a significant change in the patterns and intensity of basin-scale thermohaline circulation during eustatic sea-level fluctuations. These changes may cause, in turn, erosion, deposition and/or transport of sediments at the seafloor, to form shallow-water contourite drifts. Here we investigate this process in the NW sector of the Gulf of Taranto (Ionian Sea) during and following the Last Glacial Maximum (LGM), by integrating multibeam bathymetric data, ultra-high resolution seismic-reflection data and gravity core data. Sea level fall caused subaerial exposure of the summi…

Axial and lateral channel-patch drifts; Channel-related drifts; Gulf of Taranto; Ionian Sea; Last Glacial Maximum; Shallow-water contourites; Younger DryasYounger Dryas010504 meteorology & atmospheric sciencesSettore GEO/02 - Geologia Stratigrafica E SedimentologicaSettore GEO/03 - Geologia StrutturaleGulf of TarantoAxial and lateral channel-patch driftsYounger Drya010502 geochemistry & geophysicsOceanography01 natural sciencesChannel-related driftsPaleontologyGeochemistry and PetrologyShallow-water contouriteShallow-water contouritesYounger DryasSea level0105 earth and related environmental sciencesgeographygeography.geographical_feature_categoryLast Glacial MaximumContinental shelfAxial and lateral channel-patch driftGeologyContouriteLast Glacial MaximumIonian SeaSeafloor spreadingThermohaline circulationChannel-related driftQuaternaryGeology
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Nanodiamond-Rich Layer across Three Continents Consistent with Major Cosmic Impact at 12,800 Cal BP

2014

© 2014 by The University of Chicago. All rights reserved. A major cosmic-impact event has been proposed at the onset of the Younger Dryas (YD) cooling episode at ≈12,800 ± 150 years before present, forming the YD Boundary (YDB) layer, distributed over 150 million km2 on four continents. In 24 dated stratigraphic sections in 10 countries of the Northern Hemisphere, the YDB layer contains a clearly defined abundance peak in nanodiamonds (NDs), a major cosmic-impact proxy. Observed ND polytypes include cubic diamonds, lonsdaleite-like crystals, and diamond-like carbon nanoparticles, called n-diamond and i-carbon. The ND abundances in bulk YDB sediments ranged up to ≈500 ppb (mean: 200 ppb) and…

GeochemistryCOSMIC cancer databaseCarbon NanoparticlesNorthern HemisphereSedimentMineralogyGeologyYounger DryasBefore PresentNanodiamondGeologyThe Journal of Geology
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How dry was the Younger Dryas? Evidence from a coupled <i>δ</i><sup>2</sup>H–<i&gt…

2019

Abstract. Causes of the Late Glacial to Early Holocene transition phase and particularly the Younger Dryas period, i.e. the major last cold spell in central Europe during the Late Glacial, are considered to be keys for understanding rapid natural climate change in the past. The sediments from maar lakes in the Eifel, Germany, have turned out to be valuable archives for recording such paleoenvironmental changes. For this study, we investigated a Late Glacial to Early Holocene sediment core that was retrieved from the Gemündener Maar in the Western Eifel, Germany. We analysed the hydrogen (δ2H) and oxygen (δ18O) stable isotope composition of leaf-wax-derived lipid biomarkers (n-alkanes C27 an…

Global and Planetary Change010504 meteorology & atmospheric sciencesδ18OStratigraphyPaleontologyClimate change15. Life on land010502 geochemistry & geophysics01 natural sciencesMaarAllerød oscillationPreboreal13. Climate actionPhysical geographyGlacial periodYounger DryasGeologyHolocene0105 earth and related environmental sciencesClimate of the Past
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Variations in Sediment Yield from the Upper Doubs River Carbonate Watershed (Jura, France) since the Late-Glacial Period

1999

AbstractThe Upper Doubs River Valley is a 910-km2watershed feeding into Lake Chaillexon. The lake was formed by a natural rockfall at the end of the Bølling Chronozone (around 14,250 cal yr B.P.) and since then has trapped material eroded from the watershed. The filling process and variations in sediment yield have been investigated by mechanical coring, seismic surveys, and electric soundings. The detrital sediment yield of the upstream watershed can be calculated by quantifying the sedimentary stocks for each climatic stage of the Late-Glacial period and Holocene Epoch and estimating the lake's entrapment capacity. This enables us to determine the intensity of the erosion processes in rel…

Hydrology010506 paleontology010504 meteorology & atmospheric sciences01 natural sciencesPreborealArts and Humanities (miscellaneous)BorealSubatlanticGeneral Earth and Planetary SciencesChronozoneYounger DryasGlacial periodGeologyHolocene0105 earth and related environmental sciencesEarth-Surface ProcessesSubborealQuaternary Research
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