George S. Burr scite author profile

ABSTRACT. The focus of this paper is the conversion of radiocarbon ages to calibrated (cal) ages for the interval 24,000-0 cal BP (Before Present, 0 cal BP = AD 1950), based upon a sample set of dendrochronologically dated tree rings, uranium-thorium dated corals, and varve-counted marine sediment. The 14C age-cal age information, produced by many laboratories, is converted to 14C profiles and calibration curves, for the atmosphere as well as the oceans. We discuss offsets in measured 14C ages and the errors therein, regional 14C age differences, tree-coral 14C age comparisons and the time dependence of marine reservoir ages, and evaluate decadal vs. single-year 14C results. Changes in oceanic deepwater circulation, especially for the 16,000-11,000 cal BP interval, are reflected in the A14C values of INTCAL98.

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IntCal09 and Marine09 Radiocarbon Age Calibration Curves, 0–50,000 Years cal BP

Reimer

et al. 2009

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ABSTRACT. The IntCal04 and Marine04 radiocarbon calibration curves have been updated from 12 cal kBP (cal kBP is here defined as thousands of calibrated years before AD 1950), and extended to 50 cal kBP, utilizing newly available data sets that meet the IntCal Working Group criteria for pristine corals and other carbonates and for quantification of uncertainty in both the 14 C and calendar timescales as established in 2002. No change was made to the curves from 0-12 cal kBP. The curves were constructed using a Markov chain Monte Carlo (MCMC) implementation of the random walk model used for IntCal04 and Marine04. The new curves were ratified at the 20th International Radiocarbon Conference in June 2009 and are available in the Supplemental Material at www.radiocarbon.org.

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Marine04 Marine Radiocarbon Age Calibration, 0–26 Cal Kyr Bp

et al. 2004

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ABSTRACT. New radiocarbon calibration curves, IntCal04 and Marine04, have been constructed and internationally ratified to replace the terrestrial and marine components of IntCal98. The new calibration data sets extend an additional 2000 yr, from 0-26 cal kyr BP (Before Present, 0 cal BP = AD 1950), and provide much higher resolution, greater precision, and more detailed structure than IntCal98. For the Marine04 curve, dendrochronologically-dated tree-ring samples, converted with a box diffusion model to marine mixed-layer ages, cover the period from 0-10.5 cal kyr BP. Beyond 10.5 cal kyr BP, high-resolution marine data become available from foraminifera in varved sediments and U/Th-dated corals. The marine records are corrected with site-specific 14 C reservoir age information to provide a single global marine mixed-layer calibration from 10.5-26.0 cal kyr BP. A substantial enhancement relative to IntCal98 is the introduction of a random walk model, which takes into account the uncertainty in both the calendar age and the 14 C age to calculate the underlying calibration curve (Buck and Blackwell, this issue). The marine data sets and calibration curve for marine samples from the surface mixed layer (Marine04) are discussed here. The tree-ring data sets, sources of uncertainty, and regional offsets are presented in detail in a companion paper by Reimer et al. (this issue).

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Rapid sea-level fall and deep-ocean temperature change since the last interglacial period

Cutler

Edwards

Taylor

et al. 2003

Earth and Planetary Science Letters

440

476

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A Large Drop in Atmospheric ¹⁴ C/ ¹² C and Reduced Melting in the Younger Dryas, Documented with ²³⁰ Th Ages of Corals

Edwards

Beck

Burr

et al. 1993

Science

467

317

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Paired carbon-14 ( 14 C) and thorium-230( 230 Th) ages were determined on fossil corals from the Huon Peninsula, Papua New Guinea. The ages were used to calibrate part of the 14 C time scale and to estimate rates of sea-level rise during the last deglaciation. An abrupt offset between the 14 C and 230 Th ages suggests that the atmospheric 14 C/ 12 C ratio dropped by 15 percent during the latter part of and after the Younger Dryas (YD). This prominent drop coincides with greatly reduced rates of sea-level rise. Reduction of melting because of cooler conditions during the YD may have caused an increase in the rate of ocean ventilation, which caused the atmospheric 14 C/ 12 C ratio to fall. The record of sea-level rise also shows that globally averaged rates of melting were relatively high at the beginning of the YD. Thus, these measurements satisfy one of the conditions required by the hypothesis that the diversion of meltwater from the Mississippi to the St. Lawrence River triggered the YD event.

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George S. Burr

INTCAL98 Radiocarbon Age Calibration, 24,000–0 cal BP

IntCal09 and Marine09 Radiocarbon Age Calibration Curves, 0–50,000 Years cal BP

Marine04 Marine Radiocarbon Age Calibration, 0–26 Cal Kyr Bp

Rapid sea-level fall and deep-ocean temperature change since the last interglacial period

A Large Drop in Atmospheric ¹⁴ C/ ¹² C and Reduced Melting in the Younger Dryas, Documented with ²³⁰ Th Ages of Corals

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George S. Burr

INTCAL98 Radiocarbon Age Calibration, 24,000–0 cal BP

IntCal09 and Marine09 Radiocarbon Age Calibration Curves, 0–50,000 Years cal BP

Marine04 Marine Radiocarbon Age Calibration, 0–26 Cal Kyr Bp

Rapid sea-level fall and deep-ocean temperature change since the last interglacial period

A Large Drop in Atmospheric 14 C/ 12 C and Reduced Melting in the Younger Dryas, Documented with 230 Th Ages of Corals

Contact Info

Product

Resources

About

A Large Drop in Atmospheric ¹⁴ C/ ¹² C and Reduced Melting in the Younger Dryas, Documented with ²³⁰ Th Ages of Corals