Atmosphere drives recent interannual variability of the Atlantic meridional overturning circulation at 26.5°N

C. D. Roberts*, J. Waters, K. A. Peterson, M. D. Palmer, G. D. McCarthy, E. Frajka-Williams, K. Haines, D. J. Lea, M. J. Martin, D. Storkey, E. W. Blockley, H. Zuo

*Corresponding author for this work

Research output: Contribution to journalArticle (Academic Journal)peer-review

79 Citations (Scopus)

Abstract

The Atlantic meridional overturning circulation (AMOC) has been observed at 26.5°N since 2004. During 2009/2010, there was a transient 30% weakening of the AMOC driven by anomalies in geostrophic and Ekman transports. Here, we use simulations based on the Met Office Forecast Ocean Assimilation Model (FOAM) to diagnose the relative importance of atmospheric forcings and internal ocean dynamics in driving the anomalous geostrophic circulation of 2009/2010. Data-assimilating experiments with FOAM accurately reproduce the mean strength and depth of the AMOC at 26.5°N. In addition, agreement between simulated and observed stream functions in the deep ocean is improved when we calculate the AMOC using a method that approximates the observing array at 26.5°N. The main features of the geostrophic circulation anomaly are captured by an ensemble of simulations without data assimilation. These model results suggest that the atmosphere played a dominant role in driving recent interannual variability of the AMOC. Key Points Recent interannual variability of the AMOC dominated by mid-ocean anomalies Most of this variability can be simulated as a response to atmospheric forcings Model-data agreement improved when AMOC calculated using observational method

Original languageEnglish
Pages (from-to)5164-5170
Number of pages7
JournalGeophysical Research Letters
Volume40
Issue number19
DOIs
Publication statusPublished - 16 Oct 2013

Keywords

  • AMOC
  • Atlantic meridional overturning circulation
  • data assimilation
  • ocean circulation
  • ocean model
  • variability

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