Zambri Brian, Slawinska Joanna, Robock Alan, LeGrande Allegra N
Department of Environmental Sciences, Rutgers University, New Brunswick, NJ, USA.
NASA Goddard Institute for Space Studies, New York, NY, USA.
J Geophys Res Atmos. 2017 Aug 16;122(15):7971-7989. doi: 10.1002/2017jd026728. Epub 2017 Jul 28.
Observations show that all recent large tropical volcanic eruptions (1850-present) were followed by surface winter warming in the first Northern Hemisphere (NH) winter after the eruption. Recent studies show that climate models produce a surface winter warming response in the first winter after the largest eruptions, but require a large ensemble of simulations to see significant changes. It is also generally required that the eruption be very large, and only two such eruptions occurred in the historical period: Krakatau in 1883 and Pinatubo in 1991. Here we examine surface winter warming patterns after the 10 largest volcanic eruptions between 850 and 1850 in the Paleoclimate Modeling Intercomparison Project 3 last millennium simulations and in the Community Earth System Model Last Millennium Ensemble. These eruptions were all larger than those since 1850. Though the results depend on both the individual models and the forcing data set used, we have found that models produce a surface winter warming signal in the first winter after large volcanic eruptions, with higher temperatures over NH continents and a stronger polar vortex in the lower stratosphere. We also examined NH summer precipitation responses in the first year after the eruptions, and find clear reductions of summer Asian and African monsoon rainfall.
观测结果表明,近期所有大型热带火山喷发(1850年至今)之后,在喷发后的首个北半球冬季都出现了地面冬季变暖现象。近期研究表明,气候模型在最大规模喷发后的首个冬季会产生地面冬季变暖响应,但需要大量的模拟才能看到显著变化。通常还要求喷发规模非常大,而在历史时期仅发生过两次这样的喷发:1883年的喀拉喀托火山喷发和1991年的皮纳图博火山喷发。在此,我们在古气候模拟比较计划3的上千年模拟以及社区地球系统模型上千年集合中,研究了公元850年至1850年间10次最大规模火山喷发后的地面冬季变暖模式。这些喷发规模均大于1850年以来的火山喷发。尽管结果取决于所使用的具体模型和强迫数据集,但我们发现,模型在大型火山喷发后的首个冬季会产生地面冬季变暖信号,北半球大陆上空温度升高,平流层下部的极地涡旋增强。我们还研究了喷发后第一年北半球夏季降水的响应情况,发现亚洲和非洲夏季季风降雨量明显减少。