Drop in hot days blamed
on moisture from Great Plains
BY SID PERKINS 2:02PM,
JANUARY 22, 2010
Magazine issue: Vol. 177
#4, February 13, 2010, p. 15
ATLANTA
— If summers seem cooler and wetter in parts of the Midwest in recent years,
you can thank — or blame — farmers, two new studies contend.
While
average global temperatures rose about 0.74 degrees Celsius during the past
century, the U.S. Midwest has experienced a noticeable slump in summer
temperatures in recent decades, reported David Changnon, a climatologist at
Northern Illinois University in DeKalb, on January 19 at the annual meeting of
the American Meteorological Society.
On
average, daily high temperatures in Chicago rise above 90° Fahrenheit (32.2°
Celsius) on 24 days each summer. But from 2000 through 2009, only two years
tallied more than 24 days hotter than 90°— the lowest decadal total in 80
years, Changnon noted.
Rather
than being just a statistical anomaly, the recent cool temperatures seem to be
part of a steady long-term decline in summertime highs in Chicago, Changnon and
his colleagues found. The last 10 years have seen a total of only 172 days
above 90°; the 1930s saw more than twice as many. And Chicago wasn’t alone. The
team noted a comparable decline in unusually hot days at 13 other sites in a
swath stretching from western Iowa through Illinois to eastern Indiana.
From
1970 through 2009, average high temperatures at the sites in Iowa and Illinois
during July and August were between 0.5 and 1.0 degrees F (0.28 and 0.56
degrees C) cooler than they were for the years 1930 through 1969, the
researchers found. The amount of precipitation received in the region has
changed substantially as well: Average rainfall for July and August from the
1970s through 2009 was about 0.33 inches (0.8 centimeters) higher each month
than it was from the 1930s through the 1960s.
Changnon
suggested that fewer hot days and more precipitation are linked, because humid
air warms more slowly than dry air does. One likely source of the extra
moisture is the region’s agriculture. Plants pump vast amounts of water from
surface soil into the atmosphere as they grow, and thirsty row crops such as
corn and soybeans are much more prevalent in the region these days — about 97
percent of farmland is planted in those crops now, versus about 57 percent in
the 1930s, Changnon notes. Also, the plants are spaced more closely now (about
30 inches apart, versus the 40-inch spacing typical in the 1930s), a trend that
has boosted the numbers of water-pumping plants per acre by about 60 percent.
Even
if much of the extra summer rainfall in the Midwest derives from water in local
soils, the original source of that moisture might be an irrigation spigot
somewhere on the Great Plains. A rapid rise in irrigation in that region
apparently has boosted precipitation downwind in the Midwest, Alan Robock, an
atmospheric scientist at Rutgers University in New Brunswick, N.J., reported
January 21 at the meeting. Rather than running off into rivers and streams or
soaking back into the ground, Robock added, most of that liberated groundwater
was used by plants, evaporated into the air and was carried downwind, where it
condensed in clouds and then fell to the ground as rain.
In
1930, in a swath of plains that stretches from South Dakota down to Oklahoma
and the Texas panhandle, farmers irrigated only about 7,500 square kilometers,
an area about half the size of Connecticut. But by 1980, he notes, irrigated
farmland in this same area covered about 60,000 square kilometers. During the
20th century, irrigation pulled more than 333 cubic kilometers of groundwater
from aquifers beneath the Great Plains.
When
Robock and his colleagues analyzed precipitation at more than 300 weather
stations from central Wisconsin and Michigan down to northeastern Arkansas and
northwestern Tennessee — a region that includes much of the same area studied
by Changnon and his team — they too found that rainfall had increased. At sites
in that swath, precipitation during a typical July late in the 20th century was
between 25 and 50 percent higher that it was early in the century.
A
variety of climate simulations don’t show such long-term changes in
precipitation, probably because those simulations don’t take irrigation into
account, Robock and his colleagues say. July, Robock noted, is when irrigation
on the Great Plains is most profligate, with more than one-third of groundwater
withdrawal occurring during that month.
Future
analyses will compare the results of simulations that include irrigation with
those that don’t, Robock said. Results of those studies might allow the team to
more confidently pin the blame for the region’s increased July rainfall on
Great Plains irrigation, he noted.
(Reader’s note: “Blame?” Rain and milder summer weather than 90
degrees is a good
thing!)
Citations:
Changnon, D., V. Gensini, and J. Prell. 2010. A common
Midwestern question: Where have all our 90° F days gone? American
Meteorological Society meeting. Jan. 17–21. Atlanta. Abstract available: [Go to]
DeAngelis, A. . . . A. Robock, et al. A. 2010. Great Plains irrigation produces enhanced summer precipitation in the Midwest. American Meteorological Society meeting. Jan. 17–21. Atlanta. Abstract available: [Go to]
Further
Reading:
Perkins, S. 2007. Hey, it’s cooler near the sprinklers. Science
News 171(March 17):174. Available to subscribers: [Go to]
This article is reprinted for fair use in education, as one cannot directly access whole Science
News articles unless one subscribes to ScienceNews.
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