2008
DOI: 10.1029/2008jd010239
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Volcanic forcing of climate over the past 1500 years: An improved ice core‐based index for climate models

Abstract: This dissertation has investigated one of the most important natural causes of climate change, volcanic eruptions, by developing an ice core-based volcanic forcing index, using 54 ice core records from both the Arctic and Antarctica. The extensive collection of ice core data reduces errors inherent in reconstructions based on a single or small number of cores. This enables us to obtain much higher accuracy in both detection of events and quantification of the radiative effects. We extracted volcanic deposition… Show more

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Cited by 684 publications
(1,047 citation statements)
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References 118 publications
(251 reference statements)
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“…1). This follows because the volcanic activity is already very weak at MWP, with few events and each with aerosol loading of less than ∼25 teragram (Tg) (31). Current models are able to produce a cooling of ∼0.25°C from the MWP to the LIA, with large volcanic events of aerosols of 100-250 Tg.…”
Section: Uncertainty In Climate Modelsmentioning
confidence: 98%
“…1). This follows because the volcanic activity is already very weak at MWP, with few events and each with aerosol loading of less than ∼25 teragram (Tg) (31). Current models are able to produce a cooling of ∼0.25°C from the MWP to the LIA, with large volcanic events of aerosols of 100-250 Tg.…”
Section: Uncertainty In Climate Modelsmentioning
confidence: 98%
“…The use of more recent forcing reconstructions (e.g., Krivova et al 2007;Gao et al 2008;Pongratz et al 2009) or simulations and models in the Coupled Model Intercomparisons Project phase 5/Paleoclimate Modeling Intercomparison Project Phase 3 (CMIP5/PMIP3) (Taylor et al 2012) might improve the model-data comparison but would not be expected to have an impact on the validation of the reconstruction technique performed here.…”
Section: Model Description and Experimental Designmentioning
confidence: 99%
“…3). There were no major known volcanoes from 1680 to 1707 [although there were some unknown ones (38)], and it started to warm. Although commonly attributed to the Sun (1), the rapid warming of ∼1°C at the end of Maunder Minimum is 10 times greater than our understanding of the solar radiation change (39) can explain but is within the range of a speculative theory (40) if we remove 0.4°C as due to the AMO.…”
Section: Amomentioning
confidence: 99%