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DOI	10.5194/acp-20-345-2020
	Surface temperature response to the major volcanic eruptions in multiple reanalysis data sets
	Fujiwara M.; Martineau P.; Wright J.S.
发表日期	2020
ISSN	1680-7316
起始页码	345
结束页码	374
卷号	20 期号:1
英文摘要	The global response of air temperature at 2m above the surface to the eruptions of Mount Agung in March 1963, El Chichon in April 1982, and Mount Pinatubo in June 1991 is investigated using 11 global atmospheric reanalysis data sets (JRA-55, JRA-25, MERRA-2, MERRA, ERA-Interim, ERA-40, CFSR, NCEP-NCAR R-1, 20CR version 2c, ERA-20C, and CERA-20C). Multiple linear regression (MLR) is applied to the monthly mean time series of temperature for two periods - 1980-2010 (for 10 reanalyses) and 1958-2001 (for 6 reanalyses) - by considering explanatory factors of seasonal harmonics, linear trends, quasibiennial oscillation (QBO), solar cycle, tropical sea surface temperature (SST) variations in the Pacific, Indian, and Atlantic Oceans, and Arctic SST variations. Empirical orthogonal function (EOF) analysis is applied to these climatic indices to obtain a set of orthogonal indices to be used for the MLR. The residuals of the MLR are used to define the volcanic signals for the three eruptions separately. First, areaaveraged time series of the residuals are investigated and compared with the results from previous studies. Then, the geographical distribution of the response during the peak cooling period after each eruption is investigated. In general, different reanalyses show similar geographical patterns of the response, but with the largest differences in the polar regions. The Pinatubo response shows the largest average cooling in the 60° N-60° S region among the three eruptions, with a peak cooling of 0.10-0.15 K. The El Chichon response shows slightly larger cooling in the NH than in the Southern Hemisphere (SH), while the Agung response shows larger cooling in the SH. These hemispheric differences are consistent with the distribution of stratospheric aerosol optical depth after these eruptions; however, the peak cooling after these two eruptions is comparable in magnitude to unexplained cooling events in other periods without volcanic influence. Other methods in which the MLR model is used with different sets of indices are also tested, and it is found that careful treatment of tropical SST variability is necessary to evaluate the surface response to volcanic eruptions in observations and reanalyses. © Author(s) 2020.
语种	英语
scopus关键词	air temperature; cooling; global change; numerical model; regression analysis; surface temperature; temperature profile; volcanic ash; volcanic cloud; volcanic eruption; Bali; Central Luzon; Indonesia; Lesser Sunda Islands; Luzon; Mount Agung; Mount Pinatubo; Philippines; Sunda Isles; Zambales
来源期刊	ATMOSPHERIC CHEMISTRY AND PHYSICS
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/248055
作者单位	Faculty of Environmental Earth Science, Hokkaido University, Sapporo, 060-0810, Japan; Research Center for Advanced Science and Technology, University of Tokyo, Tokyo, 153-8904, Japan; Department of Earth System Science, Tsinghua University, Beijing, 100084, China
推荐引用方式 GB/T 7714	Fujiwara M.,Martineau P.,Wright J.S.. Surface temperature response to the major volcanic eruptions in multiple reanalysis data sets[J],2020,20(1).
APA	Fujiwara M.,Martineau P.,&Wright J.S..(2020).Surface temperature response to the major volcanic eruptions in multiple reanalysis data sets.ATMOSPHERIC CHEMISTRY AND PHYSICS,20(1).
MLA	Fujiwara M.,et al."Surface temperature response to the major volcanic eruptions in multiple reanalysis data sets".ATMOSPHERIC CHEMISTRY AND PHYSICS 20.1(2020).