Tim Palmer

Ensemble forecasting

JOURNAL OF COMPUTATIONAL PHYSICS 227:7 (2008) 3515-3539

Authors:

M Leutbecher, TN Palmer

The new VarEPS-monthly forecasting system: A first step towards seamless prediction

QUARTERLY JOURNAL OF THE ROYAL METEOROLOGICAL SOCIETY 134:636 (2008) 1789-1799

Authors:

Frederic Vitart, Roberto Buizza, Magdalena Alonso Balmaseda, Gianpaolo Balsamo, Jean-Raymond Bidlot, Axel Bonet, Manuel Fuentes, Alfred Hofstadler, Franco Molteni, Tim N Palmer

Historical reconstruction of the Atlantic Meridional Overturning Circulation from the ECMWF operational ocean reanalysis

Geophysical Research Letters 34:23 (2007)

Authors:

MA Balmaseda, GC Smith, K Haines, D Anderson, TN Palmer, A Vidard

Abstract:

A reconstruction of the Atlantic Meridional Overturning Circulation (MOC) for the period 1959-2006 has been derived from the ECMWF operational ocean reanalysis. The reconstruction shows a wide range of time-variability, including a downward trend. At 26N, both the MOC intensity and changes in its vertical structure are in good agreement with previous estimates based on trans-Atlantic surveys. At 50N, the MOC and strength of the subpolar gyre are correlated at interannual time scales, but show opposite secular trends. Heat transport variability is highly correlated with the MOC but shows a smaller trend due to the warming of the upper ocean, which partially compensates for the weakening of the circulation. Results from sensitivity experiments show that although the time-varying upper boundary forcing provides useful MOC information, the sequential assimilation of ocean data further improves the MOC estimation by increasing both the mean and the time variability. Copyright 2007 by the American Geophysical Union.

Dynamically-based seasonal forecasts of Atlantic tropical storm activity issued in June by EUROSIP

Geophysical Research Letters 34:16 (2007)

Authors:

F Vitart, MR Huddleston, M Déqué, D Peake, TN Palmer, TN Stockdale, MK Davey, S Ineson, A Weisheimer

Abstract:

Most seasonal forecasts of Atlantic tropical storm numbers are produced using statistical-empirical models. However, forecasts can also be made using numerical models which encode the laws of physics, here referred to as "dynamical models". Based on 12 years of re-forecasts and 2 years of real-time forecasts, we show that the so-called EUROSIP (EUROpean Seasonal to Inter-annual Prediction) multi-model ensemble of coupled ocean atmosphere models has substantial skill in probabilistic prediction of the number of Atlantic tropical storms. The EUROSIP real-time forecasts correctly distinguished between the exceptional year of 2005 and the average hurricane year of 2006. These results have implications for the reliability of climate change predictions of tropical cyclone activity using similar dynamically-based coupled ocean-atmosphere models.

Ensemble decadal predictions from analysed initial conditions.

Philos Trans A Math Phys Eng Sci 365:1857 (2007) 2179-2191

Authors:

Alberto Troccoli, TN Palmer

Abstract:

Sensitivity experiments using a coupled model initialized from analysed atmospheric and oceanic observations are used to investigate the potential for interannual-to-decadal predictability. The potential for extending seasonal predictions to longer time scales is explored using the same coupled model configuration and initialization procedure as used for seasonal prediction. It is found that, despite model drift, climatic signals on interannual-to-decadal time scales appear to be detectable. Two climatic states have been chosen: one starting in 1965, i.e. ahead of a period of global cooling, and the other in 1994, ahead of a period of global warming. The impact of initial conditions and of the different levels of greenhouse gases are isolated in order to gain insights into the source of predictability.