GC41I-01:
Climate, ENSO and ‘Black Swans’ over the Last Millennium

Thursday, 18 December 2014: 8:00 AM
Lonnie G Thompson1,2, Ellen Mosley-Thompson1,3, Mary Elizabeth Davis1, Donald V Kenny1 and Ping-Nan Lin1, (1)The Ohio State University, Byrd Polar Research Center, Columbus, OH, United States, (2)The Ohio State University, School of Earth Sciences, Columbus, OH, United States, (3)The Ohio State University, Department of Geography, Columbus, OH, United States
Abstract:
Tropical rainfall patterns influence the lives of billions of people both north and south of the Equator. Evidence of major ENSO events such as droughts is often recorded in the oxygen isotopic ratios and aerosol concentrations in tropical ice cores. Here we examine unusual events recorded in three ice cores, two (Quelccaya and Coropuna) in the Southern Hemisphere on the Peruvian Altiplano and the third (Dasuopu) located 22,000 km away on the southern edge of the Tibetan Plateau at the top of the Himalayas. These records suggest that the unique lower and middle tropospheric air flow over chloride (Cl-) and fluoride (F-) enriched areas upwind of the sites during ENSO events leads to enhanced deposition of these species on these glaciers. Linkages are demonstrated between ice-core chemistry and drought indicators, changes in lake levels, and ENSO and monsoon indices. Two unusual events, in the late 18th and mid-14th Centuries, are marked by abnormally high concentrations of F- and Cl- in at least two of the ice core records. All three records document a drought from 1789 to 1800 CE in which increases in these anionic concentrations reflect the abundance of continental atmospheric dust derived from arid regions upwind of the core sites. The earlier event, apparent only in the Quelccaya and Dasuopu ice cores, begins abruptly in 1343 and tapers off by 1375. The interaction between high frequency El Niños and low frequency shifts in the inter-tropical convergence zone may have resulted in these unusually severe and extended droughts. These “Black Swan” events correspond to historically documented, devastating population disruptions that were in part climate related. The 1789 to 1800 CE event was concurrent with the Doji Bara famine resulting from extended droughts that led to over 600,000 deaths in central India by 1792. Similarly extensive climate disruptions are documented in Central and South America. The mid-14th Century drought is concomitant with major monsoon failures in India, collapse of the Yang Dynasty in China, and the “Black Death” pandemic that eliminated roughly 30% of the global population. Understanding the characteristics and drivers of these historical events is critical for design of adaptive measures for a world with over seven billion people and unprecedented anthropogenic influences on the climate.