0000000000275655

AUTHOR

Adam Sookdeo

0000-0002-6307-9794

showing 3 related works from this author

New tree-ring evidence for the Late Glacial period from the northern pre-Alps in eastern Switzerland

2018

Abstract The rate and magnitude of temperature variability at the transition from the Last Glacial Maximum into the early Holocene represents a natural analog to current and predicted climate change. A limited number of high-resolution proxy archives, however, challenges our understanding of environmental conditions during this period. Here, we present combined dendrochronological and radiocarbon evidence from 253 newly discovered subfossil pine stumps from Zurich, Switzerland. The individual trees reveal ages of 41–506 years and were growing between the Allerod and Preboreal (∼13′900–11′300 cal BP). Together with previously collected pines from this region, this world's best preserved Late…

010506 paleontologyArcheologyGlobal and Planetary Change010504 meteorology & atmospheric sciencesGeologyLast Glacial Maximum01 natural scienceslaw.inventionAllerød oscillationGeographyPreboreal13. Climate actionlawDendrochronologyGlacial periodRadiocarbon datingYounger DryasPhysical geographyCentral Europe; Dendrochronology; Late Glacial; Paleoclimatology; Radiocarbon; Subfossil wood; Switzerland; Tree rings; Younger DryasEcology Evolution Behavior and SystematicsHolocene0105 earth and related environmental sciencesQuaternary Science Reviews
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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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Introducing anatomical techniques to subfossil wood

2018

Abstract Successful cross-dating of subfossil wood, ideally in combination with precise information on germination and dieback, requires the accurate detection of tree-ring width (TRW) boundaries along continuous measurement tracks from pith to bark. However, wood decay and the mechanical deformation of cells often challenge the dendrochronological analysis and subsequent paleoclimatic and environmental interpretations. Here, we show that wood anatomical techniques can improve the assessment of heavily degraded and/or deformed material. We apply state-of-the-art sample preparation, thin sectioning and double-staining to a unique collection of Late Glacial pines that were growing ∼13,000 yea…

0106 biological sciencesContinuous measurementSubfossilCross-dating; Cell deformation; Subfossil wood; Thin sectioning; Wood anatomy; wood decay010504 meteorology & atmospheric sciencesEcologyPlant Science15. Life on land01 natural sciencescomplex mixturesPaleontologyPithThin SectioningGeology010606 plant biology & botany0105 earth and related environmental sciences
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