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Literature DB >> 12893941

Stratospheric memory and skill of extended-range weather forecasts.

Mark P Baldwin¹, David B Stephenson, David W J Thompson, Timothy J Dunkerton, Andrew J Charlton, Alan O'Neill.

Abstract

We use an empirical statistical model to demonstrate significant skill in making extended-range forecasts of the monthly-mean Arctic Oscillation (AO). Forecast skill derives from persistent circulation anomalies in the lowermost stratosphere and is greatest during boreal winter. A comparison to the Southern Hemisphere provides evidence that both the time scale and predictability of the AO depend on the presence of persistent circulation anomalies just above the tropopause. These circulation anomalies most likely affect the troposphere through changes to waves in the upper troposphere, which induce surface pressure changes that correspond to the AO.

Entities: Disease

Year: 2003 PMID： 12893941 DOI： 10.1126/science.1087143

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

Keyword Cloud
Cited

7 in total

Stratospheric memory and skill of extended-range weather forecasts.

1. Continuous and discrete extreme climatic events affecting the dynamics of a high-arctic reindeer population.

2. Stratospheric variability contributed to and sustained the recent hiatus in Eurasian winter warming.

3. The salience of nonlinearities in the boreal winter response to ENSO: Arctic stratosphere and Europe.

4. Limited surface impacts of the January 2021 sudden stratospheric warming.

5. Which Sudden Stratospheric Warming Events Are Most Predictable?

6. Seasonal predictability of the East Atlantic pattern from sea surface temperatures.

7. Forecasting extreme stratospheric polar vortex events.