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Climate and Weather Trends in Ohio – Implications in Crop
Production
Jeffrey C. Rogers
Department of Geography and Atmospheric Science Program
State Climate Office for Ohio
The Ohio State University
January 3, 2012
Agronomic Crops In-Service
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Today’s Talk
• Statewide spatial variation in Ohio’s climate
• Climate change forcing by Greenhouse gases
• Climate extremes and Ohio precipitation extremes– Causes and implications
• Climate trends in Ohio– Precipitation and temperatures trends
– Seasonal variations in trends and implications
• Summary
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Average Temperature
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Average Precipitation
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Ohio Evaporation Estimate
Evaporation amount usually exceeds growing season rainfall by a few inches, averaging about 33 inches versus 27 inches of rain
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Evaporation of Water
• Gaseous water vapor is a greenhouse gas that becomes warmer when it absorbs infrared radiation from earth’s surface trying to escape to space.
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Evaporation into the air is a function of air Temperature
HumidityUnder100%
Humidity much over 100%;doesn’t occur naturally on Earth,except briefly in clouds.
The amount of water vapor occurring in the air, when it is saturated, is directly related to the air temperature.Implications of vapor pressure: Precipitation, buoyancy, severe weather
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Temperature and Water Loss in Ohio River Basins
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New Daily Evaporation Measurements in Ohio through CoCoRaHS
www.cocorahs.org
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Evaporation in Summer 2012
• June 28 – July 18
• Avg High temp: 93.9F
List below is Evap / Precip
Avon: 3.86" / 2.06"
Eaton: 4.67" / 0.90"
Bradford: 4.59" / 1.35"
Alexandria: 4.49" / 1.72"
• July 20 – Aug. 9
• Avg. High temp: 89.8F
List below is Evap / Precip
Avon: 3.19" / 1.83"
Eaton: 3.34" / 1.51"
Bradford: 3.15" / 3.78"
Alexandria: 3.43" / 2.08"
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Temperature, Precipitation, Evaporation links
• Key climate parameters in Ohio agriculture are temperature, precipitation and evaporation.
• There is a strong positive temperature/evaporation (humidity) link.
• There is also a temperature/precipitation link in the eastern United States; it is weak and negative. Example: high temperature/low rainfall.
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Climate Change forcing mechanisms
• Increasing greenhouse gas concentrations may be driving temperature and precipitation changes.
• But forcing of precipitation is also dependent on the occurrence of day-to-day weather systems: cyclones, fronts, thunderstorm complexes.
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Increasing GHG Concentrations
N2O Methane
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Earth with Greenhouse Gases
With Greenhouse gases (CO2 and H2O vapor) the planet’s average temperature fluctuates around +59ºF.
This is 58ºF warmer than with no greenhouse gases
39F° is contributed by H2O vapor,
19F° by CO2
Our societal debate is whether the observed increases in GHGs will increase the air temperature beyond 59°F, to 60°F, 61°F, etc.
Carina Van Vliet
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Projected Future Climate Change• Atmosphere-ocean coupled models are the only way to predict
the future with any certainty
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2000-2009vs 1951-80
Ocean heatcontent
Current Evidence
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Beaufort Sea (north of Alaska),
Arctic Ocean• Temperature – ice – albedo - feedback
Summer 1976
Summer 2008
Courtesy Mark Serreze, NSIDC
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Ohio annual air temperature could Increase 1-2°C near-term (2010-2039) andUp to 5°C by late 21st century (2070-2099).
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Ohio precipitation couldincrease 5-15% in winter& spring, decline 10% in summer by 2080-2099.
USGS/MORPC model is patterned after this.
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The U.S. Climate Change Science Program (2008)
“…biggest impacts of global warming will come in the form of changes in weather and climate extremes.”
• More heat waves
• Drought more frequent & severe in some regions
• Precipitation will be less frequent but more intense, high rainfall events more common.
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National GeographicSeptember 2012
Changing Climate Extremes
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Trends in Heavy Precipitation Events, 1931-1996
• Heavy precipitation events have already increased.
• Consistent with increases in atmospheric water vapor associated with human-caused greenhouse gas increases.
• Precipitation has become less frequent but more intense.
(Kunkel, Andsager and Easterling, 1999)
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One Inch Rain Days per Year: Ohio
1900-1910Dayton: 6 days
Columbus: 4.5 days
Cleveland: under 4 days
2000’sDayton: Over 9 days
Columbus: ~ 8 days
Cleveland: ~ 7 days
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Ohio Droughts• Six Droughts since 1988: 1988, 1991-1992, 1998-
1999, 2002, 2005 (limited), 2012
• Lowest statewide growing season Palmer drought severity values – 1988: -3.86 (June 1988)
– 1992: -3.33 (April 1992)
– 1999: -2.74 (September, 1999)
– 2002: -1.86 (August 2002)
– 2005: -1.39 (July 2005)
– 2012: -3.40 (August 2012)
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Alternating rainfall extremes
• Consequences: flooding, property damage, increased fertilizer runoff. Crop loss.
• Old community water/sewer systems may not be able to handle high rain events.
• Water-borne diseases
• Consequences: Drought! Crop, animal losses.
• Reduced lake/stream levels, reduced community water storage; water conflicts.
• Water pollution, wildfires.
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Why will drought and flooding both become more common?
Drought:
With higher temperatures, air can take in more moisture and ground generally dries out as soil water evaporates into the air.
Flooding:
Very humid air will return moisture to the ground in larger amounts than usual in areas favored by forcing such as weather fronts and thunderstorm complexes.
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Example from 2011
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TRENDS IN OHIO’S SEASONAL AND ANNUAL CLIMATE WITH
TIME
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Ohio Precipitation time trends 1895-2012
• Increasing precipitation in every season but winter.
• Net annual increase of 3.14 inches per century.
• Summer and autumn are not becoming drier
• Possible conclusion: precipitation increasing in seasons having more evaporation.
-0.18"/Century
+1.03" /century
+0.67" /century
+1.60 "/century
+3.14" /century
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+0.91F/century
+1.29F/century
+1.62F/century
+0.28F/century
+0.27F/century
Ohio Temperature time trends 1895-2012
-Warming in all seasons-Largest warming in spring-Large annual temperature trend is up over 2°F since 1960s
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Warming in Ohio (Annually)
• Top 15% of warmest years since 1895:– 8 have occurred since 1998 (8 of 15 years since ‘98)
– 1998 warmest, followed by 2012 (2nd), 2006 (10th), 2002 (11th), 2011 (13th), 2001 (16th), 1999 (17th), 2007 (18th)
• 1998-1999, 2002 and 2012 were droughts
• 2006 was 13th wettest, 2011 was 1st wettest
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Plants, Crops, & Winter Climate Change
1990 USDA plant hardiness zones (based on 1974-1986 data)
2006 Nat’l Arbor Day Foundation (based on weather service data 1991-2005)
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Springtime Warming
• Since year 2000 more new maximum daily temperature records are set than in any season.
• Columbus, OH: between March 17 and April 19 (34 days), 15 days have record maxima set since 2000. Similar data for Cleveland and Cincinnati. No new record lows in those 34 days.
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New CMH daily record maxima and minima temperatures since 2000
• Highs (43):
Dec: 3
Jan: 6
Feb: 5
March: 8
April: 9
May/June: 0
July: 3 (all 2012)
Aug &Sep: 2 each
Oct.: 4
Nov. : 1
• Lows (5):
Dec.: 0
Jan.: 1
Feb.: 0
March: 1
April: 0
May: 3
June – Nov.: zero
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Ohio: Spring Heat Wave Consequences• Early warm period in March 22-28, 2007 (70s
& 80s °F) was followed by a prolonged hard freeze from April 4-10, lows in the 20’s.
• Impacts– Forage: alfalfa and grass hay in southern Ohio
were substantially reduced or delayed
– 2007 apple crop wiped out in southern OH
– Bramble: black- & raspberries largely lost in southern OH
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Spring warmth 2012
• Temperatures in 70s and 80s March 16-23.
• Record highs in mid-80s 20th, 21st, 22nd.
• April: subfreezing statewide from 5th-7th and 11th-12th.
• Losses statewide and in the Midwest to apples and strawberries as well as other berries, peaches and grapes.
• April/May cold waves will kill crops but do not set record low temperatures.
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Summer Warming in Ohio
• Summer Ohio mean temperatures are not increasing very much, +0.28F/century.
• But 5 summers since 2000 are in warmest dozen.
• Top 15% of summers since 1895 (18 seasons):
2010 (2nd), 2002 (5th), 2005 (6th), 2011 (10th), 2012 (12th).
1934 continues as warmest summer ever
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Differing Summer Daytime and Nighttime Temperature Changes
• Across Ohio and the Midwest, Daytime: little change
• Overnight lows increasing dramatically.
• Humidity and dew point temperatures are going up.
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Why are record highs occurring in spring in Ohio but not in summer?Why are overnight lows increasing in summer?
• Answer: Increasing humidity (evaporated moisture)
• Humidity suppresses Tmax in the summer but, as a greenhouse gas, keeps overnight temperatures high.
• Humidity is not as high in spring, Tmax goes up, some cold waves (Tmin) still occur.
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June 29 2012 derecho. Events such as these may become more common; with increasing humidity the summertime air becomes more unstable.
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Impacts of increasing nighttime minimum summer temperatures
• Latitudinal shifts in agro-climatic zones
• Introduction of new agricultural pests, pathogens and fungi
• Corn nighttime respiration changes which shorten time to maturity and decrease corn yields
• Yield reductions reported in other crops such as rice.
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Increasing Ohio temperatures and humidity – summary
• Using statewide May through September growing season averages:
• 10 of the 13 growing seasons since 2000 are either among the wettest or the warmest growing seasons since 1895.
• Wettest: 2003 (1st), 2004 (4th) 2011 (8th), 2006 (16th), 2000 (20th)
• Warmest: 2010 (3rd), 2012 (8th) 2007 (14th), 2002 (20th), 2011 (21st), 2005 (24th).
• None occur among the coldest or driest.
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Overall Summary (1)• Ohio is becoming warmer and wetter with time
and summers/growing seasons are more humid.• Changing climate will involve increases in
extreme events.• High rainfall events are more common in Ohio• Record high temperatures in spring
• Spring is a season of agricultural peril: increasing rain and temperatures, especially Tmax while cold waves can still kill plants in April and May
• Precipitation is increasing across Ohio, over 3 inches in the last century, especially in the non-winter (more humid) seasons.
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Overall Summary (2)
• Increasing humidity is possibly resulting in higher rainfall but increases summer temperatures at night. In winter and spring it has less impact on temperatures and these seasons exhibit more frequent record daytime temperatures.
• Current data suggest that as long as storms and fronts keep active in Ohio, our climate may not dry out during most growing seasons.