An assessment of probabilistic prediction skill of seasonal temperature extremes over southern African is presented. Verification results are presented for six run-on seasons; September to November, October to December, November to January, December to February, January to March and February to April over a 15- year retroactive period. Comparisons are drawn between downscaled seasonal 850 hPa geopotential height field forecasts of a two-tiered system versus downscaled height forecasts from a coupled ocean-atmosphere system. The ECHAM4.5 atmospheric general circulation model is used for both systems; in the one-tiered system the ECHAM4.5 is directly coupled to the ocean model MOM3, and the two-tiered system the ECHAM4.5 is forced with...
Seasonal-to-interannual hindcasts (re-forecasts) for December-January-February (DJF) produced at a 1...
Forecast skill of three subseasonal‐to‐seasonal models and their ensemble mean outputs are evaluated...
Climatic uncertainty posed by the looming possibility of unprecedented climatic change is presenting...
An assessment of probabilistic prediction skill of seasonal temperature extremes over Southern Afric...
Statistical models have been used to provide operational seasonal forecasts of rainfall over souther...
Forecast performance by coupled ocean–atmosphere or one-tiered models predicting seasonal rainfall t...
Prediction skill for southern African (16 – 33 E, 22 –35 S) summer precipitation in the Scale Inter...
Two regression-based methods that recalibrate the ECHAM4.5 general circulation model (GCM) output du...
Sea‐surface temperature (SST) variations of the oceans surrounding southern Africa are associated wi...
The recent increase in availability of high-performance computing (HPC) resources in South Africa al...
A model output statistics (MOS) technique is developed to investigate the potential rainfall forecas...
Includes bibliographical references.This study contributes to a broader effort of institutions towar...
Southern African December-January-February (DJF) probabilistic rainfall forecast skill is assessed o...
The NCEP CFSv2 and ECMWF hindcasts are used to explore the deterministic subseasonal predictability ...
Aspects of forecast skill in predicting seasonal characteristics using global climate models (GCMs) ...
Seasonal-to-interannual hindcasts (re-forecasts) for December-January-February (DJF) produced at a 1...
Forecast skill of three subseasonal‐to‐seasonal models and their ensemble mean outputs are evaluated...
Climatic uncertainty posed by the looming possibility of unprecedented climatic change is presenting...
An assessment of probabilistic prediction skill of seasonal temperature extremes over Southern Afric...
Statistical models have been used to provide operational seasonal forecasts of rainfall over souther...
Forecast performance by coupled ocean–atmosphere or one-tiered models predicting seasonal rainfall t...
Prediction skill for southern African (16 – 33 E, 22 –35 S) summer precipitation in the Scale Inter...
Two regression-based methods that recalibrate the ECHAM4.5 general circulation model (GCM) output du...
Sea‐surface temperature (SST) variations of the oceans surrounding southern Africa are associated wi...
The recent increase in availability of high-performance computing (HPC) resources in South Africa al...
A model output statistics (MOS) technique is developed to investigate the potential rainfall forecas...
Includes bibliographical references.This study contributes to a broader effort of institutions towar...
Southern African December-January-February (DJF) probabilistic rainfall forecast skill is assessed o...
The NCEP CFSv2 and ECMWF hindcasts are used to explore the deterministic subseasonal predictability ...
Aspects of forecast skill in predicting seasonal characteristics using global climate models (GCMs) ...
Seasonal-to-interannual hindcasts (re-forecasts) for December-January-February (DJF) produced at a 1...
Forecast skill of three subseasonal‐to‐seasonal models and their ensemble mean outputs are evaluated...
Climatic uncertainty posed by the looming possibility of unprecedented climatic change is presenting...