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Additional CLIVAR meeting slides Richard P. Allan – University of Reading.

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1 Additional CLIVAR meeting slides Richard P. Allan – University of Reading

2 Radiative forcing or energy redistribution? See also links to papers on DEEP-C website: www.met.reading.ac.uk/~sgs02rpa/research/DEEP-C.htmlDEEP-C website Radiative forcing? –volcanic, solar, sulphate, stratospheric water vapour, Pinatubo overshoot –Fyfe et al. (2013) GRL ; Murphy (2013) Nature Geosci ; Solomon et al. (2011) Science ; Kaufmann et al. (2011) PNAS ; Solomon et al. (2010) Science ; Murphy et al. (2009) JGR ; Solomon et al. (2011) Science ; Hansen et al. (2011) ACP.Fyfe et al. (2013) GRLMurphy (2013) Nature Geosci Solomon et al. (2011) ScienceKaufmann et al. (2011) PNASSolomon et al. (2010) ScienceMurphy et al. (2009) JGR Solomon et al. (2011) ScienceHansen et al. (2011) ACP Unforced variability? –Cloud forcing/adjustment/feedbacks, El Niño, IPO/climate shift, ocean circulation –Meehl et al. (2011) NCC; Meehl et al. (2013) J Clim; Watanabe et al. (2013) GRL; Palmer et al. (2010) GRL ; Guemas et al. (2013) NCC ; Katsman & van Oldenborgh (2011) GRL ; Balmaseda et_al._(2013)_GRL ; Foster and Rahmstorf (2011) ERL ; Loeb et al. (2012) Nature Geosci.; Chikamoto et al.(2012) GRLMeehl et al. (2011) NCCMeehl et al. (2013) J Clim Watanabe et al. (2013) GRLPalmer et al. (2010) GRL Guemas et al. (2013) NCC Katsman & van Oldenborgh (2011) GRLBalmaseda et_al._(2013)_GRLFoster and Rahmstorf (2011) ERLLoeb et al. (2012) Nature Geosci. Chikamoto et al.(2012) GRL

3 Variation in net radiation since 1985 60S-60N, after Allan (2011) Meteorol. AppsAllan (2011) Meteorol. Apps See also Loeb et al. (2012); Wong et al. (2006)Loeb et al. (2012); Wong et al. (2006) Combining satellite data with reanalyses and models

4 Additional thoughts & perspectives (Richard Allan) Previously highlighted “missing energy” explained by ocean heat content uncertainty combined with inappropriate net radiation satellite products Heating of Earth continues ~ 0.6 Wm -2 ; Negative radiative forcing does not appear to contribute strongly e.g._Hansen et al. (2011) ACP; Loeb et al. (2012) Nat GeosciHansen et al. (2011) ACPLoeb et al. (2012) Nat Geosci Energy continues to accumulate below the ocean surface-below 300m/700m/tropics? Balmaseda et_al._(2013)_GRL; Guemas et al. (2013) Nature Climate Change Balmaseda et_al._(2013)_GRLGuemas et al. (2013) Nature Climate Change MECHANISMS: where is the energy going and what process? Links to Interdecadal Pacific Oscillation… but what is this? e.g. Meehl et al. (2013) J ClimMeehl et al. (2013) J Clim Links to recent Strengthening of Walker circulation? e.g. Merrifield (2011) J Clim; Sohn et al. (2011) Clim Dyn; L’Heureux et al. (2013) NCC; Chikamoto et al. (2012) GRLMerrifield (2011) J ClimSohn et al. (2011) Clim DynL’Heureux et al. (2013) NCCChikamoto et al. (2012) GRL Implications for hydrological cycle: bigger land/sea temperature contrast, reduced relative humidity over land? Simmons et al. (2010) JGR; Cao et al. (2012) ERLSimmons et al. (2010) JGRCao et al. (2012) ERL Can we extend satellite record back to 1985 by combining with reanalyses/models? Can we improve estimates of surface flux variability by combining satellite data with reanalysis transports? e.g. Berrisford et al. (2011) QJRMSBerrisford et al. (2011) QJRMS Do minor energy storage terms contribute significantly to time-evolving heating rate? Atmospheric reanalyses cannot simulate trends due to a changing observing system. Can we trust ocean reanalyses?

5 Extra slides

6 Variation in SW radiation since 1985 60S-60N, after Allan (2011) Meteorol. AppsAllan (2011) Meteorol. Apps See also Loeb et al. (2012); Wong et al. (2006)Loeb et al. (2012); Wong et al. (2006)

7 Variation in LW radiation since 1985 60S-60N, after Allan (2011) Meteorol. AppsAllan (2011) Meteorol. Apps See also Loeb et al. (2012); Wong et al. (2006)Loeb et al. (2012); Wong et al. (2006)

8 Are minor energy flux terms important in time evolution of heating rate? 1)Changes in atmospheric energy (ΔA) from ERA Interim (thin black) 2)Changes in energy required to melt Arctic ice (ΔI). I assumed that additional land ice melt and heating increased these changes by factor of 2. 3)Heating of the land surface (ΔL) from ERA Interim (brown) 4)I adjusted the sum so that the average equalled the 0.07+0.04 Wm -2 minor heating terms assumed in Loeb et al. (thick black line) which included the deep ocean (ΔD) term.

9 Improved estimates of surface fluxes? Can we improve 2D estimate of surface fluxes by combining ERA Interim transports and CERES TOA fluxes? e.g. Berrisford et al. (2011) QJRMSBerrisford et al. (2011) QJRMS

10 Links to recent changes in atmospheric circulation & precipitation? Sohn et al. (2013) Climate DynSohn et al. (2013) Climate Dyn: Chikamoto et al. (2012) GRLChikamoto et al. (2012) GRL: Merrifield (2011) J Climate: L’Heureux et al. (2013) NCC Merrifield (2011) J Climate L’Heureux et al. (2013) NCC Wind-driven changes in sea surface height Merrifield 2011 J Clim Merrifield 2011 J Clim Is stronger Walker circulation connected with enhanced ocean mixing and changes in precipitation 1990-2000s ?

11 Implications for global water cycle? Simmons et al. (2010) JGR Simmons et al. (2010) JGR  See also Cao et al. (2012) ERLCao et al. (2012) ERL Land T global T Land RH Stalling of ocean surface temperatures in 2000s Continued warming of land Changes in land-sea temperature contrast? Reduced relative humidity over land?

12 Allan et al. (2013) Surv. GeophysAllan et al. (2013) Surv. Geophys. Chunlei Liu Energy balance model

13 Some slides introducing NERC DEEP-C project

14 DEEP-C project structure WP1 Reading Atmosphere obs R. Allan, C. Liu WP2 NOCS Ocean obs E. McDonagh, B. King, +PDRA WP3 Met Office Climate Modelling M. Palmer, C. Roberts WP4 Integration Reading Co-Is: T. Kuhlbrodt, J. Gregory Climate modelling, ocean Project Partners: N. Loeb (NASA Langley) Satellite Radiation budget K. Maskell (Walker Institute, Reading) C. Sear (DECC) Additional partners: Reading, NOCS, Met Office & UK community PROJECT WEBSITE: http://www.met.reading.ac.uk/~sgs02rpa/research/DEEP-C.htmlhttp://www.met.reading.ac.uk/~sgs02rpa/research/DEEP-C.html

15 Motivation (1) Missing energy? Trenberth and Fasullo (2010, Science) highlighted an apparent large discrepancy between net radiation and ocean heat content changesTrenberth and Fasullo (2010, Science) H1 – “Missing Energy” in the climate system is explained by deficiencies in the observing system and can be resolved through improved combination and analysis of updated satellite and in situ measurements and modelling

16 Motivation (2) What has caused the decline in rate of global surface warming? Global annual average temperature anomalies relative to 1951–1980 mean (shading denotes lower and upper 95% uncertainty range for HadCRUT4) H2 – The recent slow rates of surface warming (the so-called warming hiatus) are primarily due to an enhanced transport of heat to the deep ocean caused by natural variability in ocean circulation with changes in external forcing playing a secondary role. Plot by Ed Hawkins

17 Public understanding of climate change Ed Hawkins’ ClimateLabBookClimateLabBook

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