Summary
Dramatic examples of forecast failures in global models of moderate resolution (i.e., T106) have been shown to occur during periods of the negative phase of the Pacific/North American (PNA) pattern in the Northern Hemisphere winter. Specifically, in these periods forecast skills at 500 hPa as measured by the standard anomaly correlation index dropped to rather low values by days 4 and 5 of the forecasts. This paper examines systematically some of the factors that may have contributed to the failure of these model forecasts.
In particular, strong winds approaching intensities on the order of 100 m s−1 south of Japan at the 200 hPa level were degraded by the initialization and data assimilation procedures of the models. These observed winds were found to be supergradient in nature and representative of the anomalous solution of the gradient wind equation. Procedures such as the multivariate optimum interpolation (with its geostrophic constraints) and the normal-mode initialization including several vertical modes apparently were factors that led to the degradation of these strong winds in the initial model states. In this paper, an analysis of these factors is presented, and it is shown that uninitialized analyses (with no constraints) based on a simple successive correction procedure can retain the strong winds evident in the observations. Forecasts thus performed appear to retain wave trains, a characteristic feature of negative PNA initial states, leading to a significant improvement in forecast skill.
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Krishnamurti, T., Cunningham, P. & Rajendran, K. Anomalous gradient winds in the subtropical jet stream and interpretations of forecast failures. Meteorol. Atmos. Phys. 88, 237–250 (2005). https://doi.org/10.1007/s00703-004-0075-x
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DOI: https://doi.org/10.1007/s00703-004-0075-x