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Temperature-driven global sea-level variability in the Common Era
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2
Timing of emergence of modern rates of sea-level rise by 1863
Published 2022“…Regional and local sea-level changes occurring over different time periods drive the spatial pattern in emergence, suggesting regional processes underlie centennial-timescale sea-level variability over the Common Era.…”
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A Bayesian hierarchical model for reconstructing relative sea level: from raw data to rates of change
Published 2018“…Our approach is illustrated using a case study of Common Era sea-level variability from New Jersey, USA We develop a new B-TF using foraminifera, with and without the additional (δ13C) proxy and compare our results to those from a widely used weighted-averaging transfer function (WA-TF). …”
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A new perspective on eruption data completeness: insights from the First Recorded EruptionS in the Holocene (FRESH) database
Published 2022“…Regional RCDs in the Common Era (CE) range from as recently as 1964 CE in the Indian Ocean (southern) to 200 CE in Middle East and Western Indian Ocean. …”
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5
Hydroclimate variability of western Thailand during the last 1400 years
Published 2020“…Here, we present a new multi-proxy (δ18O and δ13C values, trace element concentrations, and grayscale values) data set of stalagmite KPC1 from Khao Prae cave in western Thailand spanning the last 1400 years (500–1900 CE; the Common Era). These multi-proxy data reveal a high variability between the wet and dry periods during 500–850 CE and 1150–1300 CE, stable climate conditions during 850–1150 CE, and overall dry conditions since 1300 CE. …”
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Incorporating temporal and spatial variability of salt-marsh foraminifera into sea-level reconstructions
Published 2022“…Information about the temporal and spatial variability of modern foraminiferal distributions was formally incorporated into the Bayesian transfer function through informative foraminifera variability priors and was applied to a Common Era relative sea-level record in New Jersey. …”
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