Geographical distribution and seasonality of persistence in monthly mean air temperatures over the United States
Eighty years of monthly mean station temperatures are used to evaluate the persistence of monthly air temperature anomalies over the US. The geographical and seasonal dependencies of the monthly persistence are described in terms of the day-to-day persistence of temperature anomalies, the influence of the large-scale atmospheric circulation, and inferred associations with slowly varying properties of the earth's surface. The monthly persistence is generally smallest in the continental interior and largest in coastal regions. The seasonality of this spatial pattern is quite small, although the continental interior is characterized by a summer maximum. For the country as a whole, persistence is highest (0.30) in winter and summer and least (0.15) in fall and spring. For both raw and detrended data, the anomaly pattern correlations at lags of two and three months are much larger than would be expected from a first-order Markov process. The pattern of persistences computed using day-to-day autocorrelations shows that the presence of nearby bodies of water increases the month-to-month persistence over that to be expected from daily weather fluctuations. This finding is consistent with the results derived from an intuitive energy balance model in which the soil (or ocean) surface layers and the atmospheric boundary layer respond to prescribed daily fluctuations in the free atmosphere. Local surface influences are also implied by the fact that the 700-mb circulation-derived anomalies of monthly temperature have fewer spatial degrees of freedom than do the actual anomalies. While the large-scale circulation accounts for about half of the winter temperature persistence, small-scale effects, as well as the effects of the antecedent month's circulation, contribute substantially to the persistence of summer temperatures. 26 references, 13 figures, 3 tables.
- Research Organization:
- Univ. of Maryland, College Park
- DOE Contract Number:
- AS05-81EV10539
- OSTI ID:
- 7120881
- Journal Information:
- Mon. Weather Rev.; (United States), Vol. 114
- Country of Publication:
- United States
- Language:
- English
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