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Extended range prediction of active‐break spells of Indian summer monsoon rainfall using an ensemble prediction system in NCEP Climate Forecast System
Author(s) -
Abhilash S.,
Sahai A. K.,
Pattnaik S.,
Goswami B. N.,
Kumar Arun
Publication year - 2014
Publication title -
international journal of climatology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.58
H-Index - 166
eISSN - 1097-0088
pISSN - 0899-8418
DOI - 10.1002/joc.3668
Subject(s) - predictability , climatology , forecast skill , geopotential height , environmental science , precipitation , quantitative precipitation forecast , anomaly (physics) , perturbation (astronomy) , meteorology , mathematics , atmospheric sciences , geology , statistics , geography , physics , condensed matter physics , quantum mechanics
This study analyses skill of an extended range prediction system to forecast Indian Summer Monsoon Rainfall ( ISMR ) 3–4 pentads in advance. A series of 45‐d forecast integrations starting from 1 May to 29 September at 5‐d interval for 7 years from 2001 to 2007 are performed with an ensemble prediction system ( EPS ) in NCEP Climate Forecast System Version 1 ( CFSV1 ) model. The sensitivity experiments with different amount of perturbation suggest that full tendency perturbation experiment on all basic variables including humidity at all vertical level shows higher dispersion among forecast than other experiments. Spread–error relationship shows that the present EPS system is under‐dispersive. The lower bound of predictability is about 10–12 d and upper bound of predictability is found to be 20–25 d for zonal wind at 850 and 200 hPa . The signal‐to‐noise ratio ( SNR ) of precipitation (500 hPa geopotential height) reveals that the predictability limit is about 15(18) d over Indian monsoon region. The monsoon zone area averaged precipitation forecasts averaged over 5‐d period (pentads) up to 4 pentad lead time are also evaluated and compared with observation. The anomaly correlation coefficients ( ACC ) reaches zero after pentad 3 (pentad 5) lead for precipitation (dynamical variables). A probabilistic approach is developed from the EPS for extended range forecast applications. The relative operating characteristic ( ROC ) curves for three categories of precipitation shows that the prediction skill for active and break is slightly higher compared to that of normal category and skillful probabilistic forecasts can be generated for precipitation even beyond pentad 4 lead. Copyright © 2013 Royal Meteorological Society