Optimal Ranking Regime Analysis of U.S. Summer Temperature and Degree-Days: 1895–2015

The optimal ranking regime (ORR) method was applied to mean summer maximum (TMX S ) and mean summer minimum (TMN S ) temperature and to cumulative summer cooling degree-days (CDD S ) calculated from U.S. climate-division data during 1895–2015. CDD S is proposed as a proxy for growing degree-days for...

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Bibliographic Details
Published in:Journal of applied meteorology and climatology 2018-09, Vol.57 (9), p.2141-2159
Main Author: Mauget, Steven A.
Format: Article
Language:English
Subjects:
Agricultural production
Agriculture
Bias
Climate
Climate change
Climatic analysis
Climatological means
Climatology
Corn
Corn belt
Crops
Datasets
Degree-days
Drought
Plains
Ranking
Soybeans
Summer
Temperature
Temperature cycles
Temperature effects
Time series
Trends
Water conservation
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Summary:The optimal ranking regime (ORR) method was applied to mean summer maximum (TMX S ) and mean summer minimum (TMN S ) temperature and to cumulative summer cooling degree-days (CDD S ) calculated from U.S. climate-division data during 1895–2015. CDD S is proposed as a proxy for growing degree-days for summer corn given their high rank correlation in station data during 1950–2014. The TMX S and CDD S ORR analyses show similar climate-regime patterns. Western and northeastern divisions experienced multidecadal cool periods before 1930 and warm periods after 1990. The 1930s drought appears as decadal warm regimes over the Midwest and Great Plains. Multidecadal TMX S and CDD S temperature cycles are evident over the Southeast, but TMX S and CDD S variation over the Midwest’s Corn Belt agricultural region has been regime free since the early 1940s. By contrast, TMN S regimes consistent with centennial-scale warming trends are found over most divisions outside the Southeast. From the multidecadal regime patterns detected by the ORR analyses, the TMX S , TMN S , and CDD S series of each climate division were tested for significant linear trends during 1910–2015 and 1970–2015. Significant positive TMN S trends during 1910–2015 are found in 48 of the 102 divisions, with some western trend magnitudes being greater than 15% of the twentieth-century climatological mean. During 1970–2015, positive TMX S trends are detected over 39 western and northeastern divisions, but warming TMN S trends are evident nationally. In some cooler western divisions, positive 1970–2015 CDD S trend magnitudes exceed 90% of the climatological mean. Consistent with the ORR analyses, Corn Belt TMX S and CDD S trends are insignificant during 1970–2015.
ISSN:1558-8424
1558-8432
DOI:10.1175/JAMC-D-18-0063.1