Expansion of the Southern Hemisphere Hadley Cell in Response to Greenhouse Gas Forcing

H. Nguyen Bureau of Meteorology, Melbourne, Australia

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C. Lucas Bureau of Meteorology, Melbourne, Australia

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A. Evans Bureau of Meteorology, Melbourne, Australia

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B. Timbal Bureau of Meteorology, Melbourne, Australia

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L. Hanson Bureau of Meteorology, Melbourne, Australia

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Abstract

Changes of the Southern Hemisphere Hadley cell over the twentieth century are investigated using the Twentieth Century Reanalysis (20CR) and coupled model simulations from phase 5 of the Coupled Model Intercomparison Project (CMIP5). Trends computed on a 30-yr sliding window on the 20CR dataset reveal a statistically significant expansion of the Hadley cell from 1968 forced by an increasing surface global warming. This expansion is strongly associated with the intensification and poleward shift of the subtropical dry zone, which potentially explain the increasing trends of droughts in the subtropical regions such as southern Australia, South America, and Africa. Coupled models from the CMIP5 do not adequately simulate the observed amount of the Hadley expansion, only showing an average of one-fourth of the expansion as determined from the 20CR and only when simulations include greenhouse gas forcing as opposed to simulations including natural forcing only.

Corresponding author address: H. Nguyen, Bureau of Meteorology, CAWCR, 700 Collins St., Docklands, VIC 3008, Australia. E-mail: h.nguyen@bom.gov.au

Abstract

Changes of the Southern Hemisphere Hadley cell over the twentieth century are investigated using the Twentieth Century Reanalysis (20CR) and coupled model simulations from phase 5 of the Coupled Model Intercomparison Project (CMIP5). Trends computed on a 30-yr sliding window on the 20CR dataset reveal a statistically significant expansion of the Hadley cell from 1968 forced by an increasing surface global warming. This expansion is strongly associated with the intensification and poleward shift of the subtropical dry zone, which potentially explain the increasing trends of droughts in the subtropical regions such as southern Australia, South America, and Africa. Coupled models from the CMIP5 do not adequately simulate the observed amount of the Hadley expansion, only showing an average of one-fourth of the expansion as determined from the 20CR and only when simulations include greenhouse gas forcing as opposed to simulations including natural forcing only.

Corresponding author address: H. Nguyen, Bureau of Meteorology, CAWCR, 700 Collins St., Docklands, VIC 3008, Australia. E-mail: h.nguyen@bom.gov.au
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