Improved seasonal climate forecasts of the South Asian summer monsoon using a suite of 13 coupled ocean-atmosphere models

Chakraborty Arindam; Krishnamurti T.N.; Florida State University (FSU) - FSU, 2006

Several modeling studies have shown that the south Asian monsoon region has the lowest skill for seasonal forecasts compared with many other domains of the world. This paper demonstrates that a multimodel synthetic superensemble approach, when constructed with any set of coupled atmosphere-ocean models, can provide improved skill in seasonal climate prediction compared with single-member models or their ensemble mean for the south Asian summer monsoon region. However, performance of the superensemble tends to improve when a better set of input member models are used. As many as 13 state-of-the ...

English

 Improved seasonal climate forecasts of the South Asian summer monsoon using a suite of 13 coupled ocean-atmosphere models

  Available online: http://www.mmm.ucar.edu/events/indo_us/PDFs/0701_Krishnamurti_NCAR05.pdf

Arindam Chakraborty ; T.N. Krishnamurti ; Florida State University (United States)

Published by: FSU ; 2006

Several modeling studies have shown that the south Asian monsoon region has the lowest skill for seasonal forecasts compared with many other domains of the world. This paper demonstrates that a multimodel synthetic superensemble approach, when constructed with any set of coupled atmosphere-ocean models, can provide improved skill in seasonal climate prediction compared with single-member models or their ensemble mean for the south Asian summer monsoon region. However, performance of the superensemble tends to improve when a better set of input member models are used. As many as 13 state-of-the-art coupled atmosphere-ocean models were used in the synthetic superensemble algorithm. The merit of this technique lies in assigning differential weights to the member models. The rms errors, anomaly correlations, case studies of extreme events, and probabilistic skill scores are used here to assess these forecast skills. It was found that over the south Asian region the seasonal forecasts from the superensemble are, in general, superior to the forecasts of the individual member models, and their bias-removed ensemble mean at a significance level of 95% or more (based on a Student's t test) during the 13 yr of forecasts. Moreover, the skill of the superensemble was found to be better than those of the ensemble mean over smaller domains as well as during extreme events that were monitored, especially during the switch on and off of the Indian Ocean dipole, which seems to modulate the Indian monsoon rainfall. The results of this paper suggest that the superensemble provides somewhat consistent forecasts on the seasonal time scale. This methodology needs to be tested for real-time seasonal climate forecasting over the south Asian region.

Language(s): English

Format: Digital (Free) (ill., charts, maps)

Tags: Oceans ; Seasonal forecast ; Monsoon ; National Meteorological and Hydrological Service (NMHS) ; Coupled atmosphere/ocean models ; South East Asia Add tag

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Prediction of the diurnal change using a multimodel superensemble, Part I. Precipitation

Krishnamurti T.N.; Gnanaseelan C.; Chakraborty Arindam; et al. - FSU, 2006

Modeling the geographical distribution of the phase and amplitude of the diurnal change is a challenging problem. This paper addresses the issues of modeling the diurnal mode of precipitation over the Tropics. Largely an early morning precipitation maximum over the oceans and an afternoon rainfall maximum over land areas describe the first-order diurnal variability. However, large variability in phase and amplitude prevails even within the land and oceanic areas. This paper addresses the importance of a multimodel superensemble for much improved prediction of the diurnal mode as compared to wh ...

English

 Precipitation

  Available online: http://journals.ametsoc.org/doi/abs/10.1175/MWR3446.1

T.N. Krishnamurti ; C. Gnanaseelan ; Arindam Chakraborty ; Florida State University (United States)

Published by: FSU ; 2006

Modeling the geographical distribution of the phase and amplitude of the diurnal change is a challenging problem. This paper addresses the issues of modeling the diurnal mode of precipitation over the Tropics. Largely an early morning precipitation maximum over the oceans and an afternoon rainfall maximum over land areas describe the first-order diurnal variability. However, large variability in phase and amplitude prevails even within the land and oceanic areas. This paper addresses the importance of a multimodel superensemble for much improved prediction of the diurnal mode as compared to what is possible from individual models.

Collection(s) and Series:  Prediction of the diurnal change using a multimodel superensemble- No. Part I

Language(s): English

Format: Digital (Free) (ill., charts)

Tags: Meteorology ; Precipitation ; United States of America Add tag

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Seasonal prediction of sea surface temperatures anomalies using a suite of 13 coupled atmosphere-ocean models

Krishnamurti T.N.; Chakraborty Arindam; Krishnamurti Ruby; et al. - FSU, 2006

Improved seasonal prediction of sea surface temperature (SST) anomalies over the global oceans is the theme of this paper. Using 13 state-of-the-art coupled global atmosphere-ocean models and 13 yr of seasonal forecasts, the performance of individual models, the ensemble mean, the bias-removed ensemble mean, and the Florida State University (FSU) superensemble are compared. A total of 23 400 seasonal forecasts based on 1-month lead times were available for this study. Evaluation metrics include both deterministic and probabilistic skill measures, such as verification of anomalies based on mode ...

English

 Seasonal prediction of sea surface temperatures anomalies using a suite of 13 coupled atmosphere-ocean models

  Available online: http://journals.ametsoc.org/doi/pdf/10.1175/JCLI3938.1

T.N. Krishnamurti ; Arindam Chakraborty ; Ruby Krishnamurti ; Florida State University (United States)

Published by: FSU ; 2006

Improved seasonal prediction of sea surface temperature (SST) anomalies over the global oceans is the theme of this paper. Using 13 state-of-the-art coupled global atmosphere-ocean models and 13 yr of seasonal forecasts, the performance of individual models, the ensemble mean, the bias-removed ensemble mean, and the Florida State University (FSU) superensemble are compared. A total of 23 400 seasonal forecasts based on 1-month lead times were available for this study. Evaluation metrics include both deterministic and probabilistic skill measures, such as verification of anomalies based on model and observed climatology, time series of specific climate indices, standard deterministic ensemble mean scores including anomaly correlations, root-mean-square (RMS) errors, and probabilistic skill measures such as equitable threat scores for seasonal SST forecasts. This study also illustrates the Niño-3.4 SST forecast skill for the equatorial Pacific Ocean and for the dipole index for the Indian Ocean. The relative skills of total SST fields and of the SST anomalies from the 13 coupled atmosphere-ocean models are presented. Comparisons of superensemble-based seasonal forecasts with recent studies on SST anomaly forecasts are also shown. Overall it is found that the multimodel superensemble forecasts are characterized by considerable RMS error reductions and increased accuracy in the spatial distribution of SST. Superensemble SST skill also persists for El Niño and La Niña forecasts since the large comparative skill of the superensemble is retained across such years. Real-time forecasts of seasonal sea surface temperature anomalies appear to be possible.

Language(s): English

Format: Digital (Free) (ill., charts, maps)

Tags: Oceans ; Ocean model ; Seasonal forecast ; Temperature anomaly ; National Meteorological and Hydrological Service (NMHS) ; Modelling Add tag

in

 Journal of Climate 

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