corn and soybean production in western...
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Manitoba Agronomists Conference 2013Winnipeg, MB
Corn and Soybean Production
in Western Canada:
Climate and Heat Unit Risk
Paul Bullock1 and Andrew Nadler2
1Department of Soil Science, Faculty of Agricultural and Food Sciences, Univ. of MB2Weather INnovations Consulting LP
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New Meaning for “North American Grain Exchange”Canola ↓ Northern Great PlainsCentral Great Plains Soybeans‐Corn ↑
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Recent changes in prairie climate
Recent changes in agroclimatic risk
Predictions for future prairie climate
Future corn and soybean production risk
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Air Temperature in Southern Canada has increased‐Minimum temperature has increased at more than twice the rate of the maximum‐Most of the increase has occurred in the most recent decades
Mean annual maximum and minimum air temperature in comparison to the 1961‐1990 mean in southern Canada (Vincent et al. 2012, J Geophys Res 117: D18110).
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Maximum Air Temperature has increased across Western Canada (1950 to 2010)‐Most significant increase during winter and spring, variable in summer and fall
Maximum air temperature trends (Vincent et al. 2012, J Geophys Res 117: D18110).
WINTER
SUMMER
SPRING
FALL
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Minimum Air Temperature has increased across Western Canada (1950 to 2010)‐ Especially during winter and spring, somewhat in summer. variable in fall
Minimum air temperature trends (Vincent et al. 2012, J Geophys Res 117: D18110).
WINTER
SUMMER
SPRING
FALL
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Long Term average evaporation in Western Canada has decreased (1961‐2000)
Down arrows – decreasing trend; circles – no significant trend at p = 0.10. (Burn and Hesch, 2007, J Hydrol 336: 61)
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Brandon Mean Monthly Precip
0
20
40
60
80
100
120
jan feb mar apr may jun jul aug sep oct nov dec
Prec
ip (m
m)
Long Term Average Precipitation in Western Canada‐most of the annual precipitation is received as rainfall with the highest monthly amounts in June, July and August
Source: Environment Canada 1971‐2000 Climate Normals (climate.weather.gc.ca)
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Thompson
Churchill
Flin Flon
Arborg
Winnipeg
Sprague
Swan River
Neepawa
Brandon
Binscarth
La Ronge
Prince Albert
Yorkton
Estevan
Regina
SaskatoonWynyard
N. Battleford
Swift Current
Leader
Edmonton
Lethbridge
Ft McMurray
Cold Lake
High Level
Peace River
Grande Prairie
Red Deer
Calgary
Medicine Hat
Mean AnnualSnowfall
(% of Total Prec)1971-2000 Average
20
22
20
44
36
30
26
21
24
25
26
27
2629
28
26
31
28
25
26
27
39
3430
36
2934
31
24
30
Long Term Average Precipitation in Western Canada‐ 20 to 35% of average precipitation is received as snow
Source: Environment Canada 1971‐2000 Climate Normals (climate.weather.gc.ca)
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Rainfall has increased across Western Canada (1950 to 2009)‐ Especially in spring, somewhat in the fall and variable in summer
Rainfall trends (Mekis and Vincent 2011, J Clim 49: 163).
ANNUAL
SUMMER
SPRING
FALL
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Snowfall has generally decreased across Western Canada (1950 to 2009) ‐ especially in winter, generally in spring, variable in fall
Snowfall trends (Mekis and Vincent 2011, J Clim 49: 163).
ANNUAL
WINTER
FALL
SPRING
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Climatic Limitations for Crop Production on the Northern Great Plains
• Short frost‐free period• Short thermal time (i.e. lack of heat units)• Non‐optimal soil moisture conditions
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Average number of frost-free days above 0oC in western Canada (1971-2000).Nadler, 2007. An Agroclimatic Risk Assessment of Crop Production on the Canadian
Prairies. M.Sc. Thesis, Univ. of Manitoba http://hdl.handle.net/1993/2829
Most areas receive 100+ frost‐free days, on average
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25% risk for frost-free days above 0oC in western Canada (1971-2000).Nadler, 2007. An Agroclimatic Risk Assessment of Crop Production on the Canadian
Prairies. M.Sc. Thesis, Univ. of Manitoba http://hdl.handle.net/1993/2829
1 year in 4, half the prairies receive less than 100 FFD
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10% risk for frost-free days above 0oC in western Canada (1971-2000).Nadler, 2007. An Agroclimatic Risk Assessment of Crop Production on the Canadian
Prairies. M.Sc. Thesis, Univ. of Manitoba http://hdl.handle.net/1993/2829
1 year in 10, most of the prairies receive less than 100 FFD
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Annual frost‐free period (using a 0C benchmark) from 1940 to 1997 using average temperatures from 12 weather stations in western Canada (Cutforth et al. 2004, Can. J. Plant Sci. 84: 1085–1091).
Frost‐Free Period has been IncreasingSignificant Inter‐annual Variation
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Rate of change (d y‐1) in the frost‐free period (using a 0C benchmark) from 1940 to 1997 (Cutforth et al. 2004, Can. J. Plant Sci. 84: 1085–1091).
The rate of change in the frost‐free period is not the same everywhere.
Rapid increase Zero increase
or decrease
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Temperature dependence of wheat and corn development phases (Bonhomme2000, European Journal of Agronomy 13: 1‐10).
Corn Leaf Appearance Rate Cardinal Temperaturesminimum optimum maximum
Temperature is the most important weather condition affecting plant development
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http://www.omafra.gov.on.ca/english/crops/facts/93‐119.htm#c4
Crop (Corn) Heat Unit
CHU mimics plant response to temperature
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Cumulative Corn Heat Units from May 15 to first fall frost of ‐2.2C or lower on the northern Great Plains based on weather station data for 1971 to 2006.
Bullock et al, 2010, In Recent Trends in Soil Science and Agronomy Research in the Northern Great Plains of North America (Malhi, et al., eds.), Research Signpost, Kerala.
50% probability 25% probability
10% probability
Canadian prairies have higher risk for limited CHU accumulation compared to the Northern USA
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Average CHU accumulated during a growing season.Nadler, 2007. An Agroclimatic Risk Assessment of Crop Production on the Canadian
Prairies. M.Sc. Thesis, Univ. of Manitoba http://hdl.handle.net/1993/2829
Annual accumulation of 2000+ CHU in most areas.
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25% risk for accumulated CHU during a growing season.Nadler, 2007. An Agroclimatic Risk Assessment of Crop Production on the Canadian
Prairies. M.Sc. Thesis, Univ. of Manitoba http://hdl.handle.net/1993/2829
1 year in 4, over half the prairies is under 2000 CHU.
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Long-term trends (1920’s to 2000) in growing season accumulation of corn heat units at 12 locations across the Canadian Prairies (Nadler and Bullock, 2011, Clim. Change 104: 339-352).
Annual CHU accumulation has generally increased
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y = 1.0312x + 321.55
1500
2000
2500
3000
3500
1920 1940 1960 1980 2000
CHU
Brandon CHU Time Series(1920‐2000)
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y = 1.1799x + 31.92
1500
2000
2500
3000
3500
1920 1940 1960 1980 2000
CHU
Brandon CHU Time Series(1920‐2007)
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Weather Period Slope Up To Annual CHU ‐ ChangeStation of Record 2000 2010 in Long‐Term TrendBrandon 1920‐2007 1.0312 1.1799 more positiveMorden 1920‐2010 2.1923 1.9193 less positiveSprague 1920‐2010 6.1382 5.7060 less positiveMelfort 1920‐2010 1.1447 1.1339 unchangedPrince Albert 1920‐2010 ‐2.2033 ‐1.0486 less negativeIndian Head 1920‐2010 1.9734 0.2066 less positiveScott 1920‐2009 1.9107 1.6183 less positiveLacombe 1920‐2010 0.2848 0.3676 unchangedLethbridge 1920‐2010 2.2919 2.6818 more positiveMedicine Hat 1921‐2009 ‐1.8939 ‐1.0464 less negative
Trends in long‐term annual CHU accumulation have changed little with weather of the past 10 years.
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1500
1700
1900
2100
2300
2500
2700
1921‐50 1931‐60 1941‐70 1951‐80 1961‐90 1971‐00 1981‐10
CHU
Annual Accumulated CHU ‐ 25% Risk30‐Year Normals
Brandon
Indian Head
Lacombe
Lethbridge
Medicine Hat
Melfort
Morden
Prince Albert
Scott
Sprague
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2013 CHU accumulation
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2013 CHU‐slightly below to slightly above average
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Long-term trends (1920’s to 2000) in growing season crop water demand for corn at 12 locations across the Canadian Prairies (Nadler and Bullock, 2011, Clim. Change 104: 339-352).
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Crop water demand during the growth period of corn at 50% risk.(Nadler, A.J. 2007. An agroclimatic risk assessment of crop production on the Canadian prairies. M.Sc. Thesis, Univ of Manitoba [online] http://hdl.handle.net/1993/2829)
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Long-term trends (1920’s to 2000) in growing season precipitation at 12 locations across the Canadian Prairies (Nadler and Bullock, 2011, Clim. Change 104: 339-352).
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Long-term trends (1920’s to 2000) in growing season crop water deficit at 12 locations across the Canadian Prairies (Nadler and Bullock, 2011, Clim. Change 104: 339-352).
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Estimated corn evapotranspiration and yield loss per stress day during various stages of growth
0
0.05
0.1
0.15
0.2
0.25
0.3
0.35
0
1
2
3
4
5
6
7
8
Evapotranspiration (inches per day) % Yield Loss per Day
% Yield Loss /
Day
Evapotranspiration(inches per day)
derived from Rhoads and Bennett (1990) and Shaw (1988)
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Outlook is for a 1 to 4°C temperature increase (greater winter than summer) by 2045‐2065.
Dec‐Jan‐Feblow end mid‐range high end
Jun‐Jul‐Auglow end mid‐range high end
Temperature change in 2046‐2065 compared to 1986‐2005. Data from the Coupled Model Intercomparison Project Phase 5 (Taylor et al. 2012. Bulletin Amer Meteor Soc 93:485).
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Precipitation outlook ‐ slight increase (winter), small decrease to small increase (summer) by 2045‐2065.
Dec‐Jan‐Feblow end mid‐range high end
Jun‐Jul‐Auglow end mid‐range high end
Precipitation change in 2046‐2065 compared to 1986‐2005. Data from the Coupled Model Intercomparison Project Phase 5 (Taylor et al. 2012. Bulletin Amer Meteor Soc 93:485).
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Extreme PrecipitationLatest Intergovernmental Panel on Climate Change Draft Report• “There is medium confidence that, in some regions, increases in heavy
precipitation will occur despite projected decreases in total precipitation in those regions. Based on a range of emissions scenarios… a 1‐in‐20 year annual maximum daily precipitation amount is likely to become a 1‐in‐5 to 1‐in‐15 year event by the end of the 21st century in many regions”
• “There is medium confidence that droughts will intensify in the 21st century in some seasons and areas, due to reduced precipitation and/or increased evapotranspiration. This applies to regions including southern Europe and the Mediterranean region, central Europe, central North America, Central America and Mexico, northeast Brazil, and southern Africa.”
• “There is medium confidence (based on physical reasoning) that projected increases in heavy rainfall would contribute to increases in local flooding in some catchments or regions”
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Summary• Frost‐free period is likely to continue increasing in length,
especially early season• Heat units are likely to continue to increase(For both of the above, significant variability year‐to‐year, variation between locations)
• Precipitation outlook is uncertain• Potential for both increased drought and increased flood
Bottom Line• Soybean and corn production outlook is generally positive
from a heat unit perspective but this may be overshadowed by increasing occurrence of extreme precipitation events.