![]() ![]() ![]() ![]() The winter warming trend is reflected in a below average number of very cold nights since 1990, with the exception of the 2010–2014 period (Figure 2d).įigure 2: Observed (a) summer (June–August) average temperature, (b) annual number of very hot days (maximum temperature of 95☏ or higher), (c) annual number of warm nights (minimum temperature of 70☏ or higher), and (d) annual number of very cold nights (minimum temperature of 0☏ or lower) for Iowa from (a) 1895 to 2020 and (b, c, d) 1900 to 2020. This lack of summer warming is reflected in a below average number of very hot days (Figure 2b) and no overall trend in warm nights (Figure 2c). Warming has been concentrated in winter and fall, while summers have not warmed substantially (Figure 2a), a feature characteristic of much of the Midwest. The hottest year on record was 2012, with an annual average temperature of 52.1°, which is 4.5☏ above the long-term (1895–2020) average. Increases in humidity may be one cause of this asymmetric warming between night and day. The warming is due to increases in nighttime minimum temperatures daytime maximum temperatures, however, show no trend. Temperatures in the 2000s have been higher than in any other historical period, with the exception of the early 1930s Dust Bowl era. Temperatures in Iowa have risen more than 1☏ since the beginning of the 20th century (Figure 1). As a result, its climate is characterized by wide-ranging temperatures. Iowa’s location in the interior of North America and the lack of mountains to the north and south expose the state to incursions of bitterly cold air masses from the Arctic in the winter and warm, humid air masses from the Gulf of Mexico in the summer. Less warming is expected under a lower emissions future (the coldest end-of-century projections being about 2☏ warmer than the historical average green shading) and more warming under a higher emissions future (the hottest end-of-century projections being about 12☏ warmer than the hottest year in the historical record red shading). Historically unprecedented warming is projected during this century. Observed temperatures are generally within the envelope of model simulations of the historical period (gray shading). Shading indicates the range of annual temperatures from the set of models. Temperatures in Iowa (orange line) have risen more than 1☏ since the beginning of the 20th century. Projected changes for 2006–2100 are from global climate models for two possible futures: one in which greenhouse gas emissions continue to increase (higher emissions) and another in which greenhouse gas emissions increase at a slower rate (lower emissions). Figure 1: Observed and projected changes (compared to the 1901–1960 average) in near-surface air temperature for Iowa. NWS Precipitation Image overlays are provided by the National Weather Service. USGS rain-gage data shown in the table are available at Water Data for the Nation : Current Illinois Precipitation “ – – ” Parameter not determined, usually due to missing data.The "no data" icon is the result of an NWISWeb status code: The colored portion of the icon will represent the precipitation amount for that time interval. Half colored icons designate gage data that appears to be logging correctly but is over 1 hour and 15 minutes older than the NWISWeb time stamp at the top of the Rainfall page.Hourly and Daily values are calculated from the last time a gage value was updated, which is not necessarily the time this web page was updated. * For precipitation values less than 0.01 inches, the USGS gage symbol is white and the NWS overlay is transparent. Legend colors apply to both USGS gage and National Weather Service precipitation overlays (at full opacity). ![]()
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