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Performance of Organic Farming Systems and Implications on Climate Change
Erin Silva, University of Wisconsin
March 5, 2013
http://www.extension.org/organic_production
Erin Silva, University of Wisconsin
Performance of Organic Farming Systems and Implications on Climate
Change
Erin Silva and Janet Hedtcke
UW-Madison, CIAS and Agronomy Dept.
3eOrganic Webinar
The Wisconsin Integrated Cropping Systems Trial
Feb 22, 2013 4Organic Farming Conference, La Crosse, WI
Arlington site
Wisconsin’s organics tops the national ranks
• #1 for total organic livestock
• # 1 for field crop acreage
• #1 for total organic milk cows (22% of USA total)
• #2 in organic milk sales (64% of organic sales)
• #2 in organic farms (n=1159 farms)
• # 10 in vegetables
• Organic dairy and livestock farms drive market for organic feed
Source: UW-Madison CIAS/DATCP 2012 status report
5eOrganic Webinar
WICST was born in 1989
Two locations:
• Arlington (well drained silt loam soils)
• Lakeland (more-poorly drained silt loam soils)
Over 20 years of data summarized:
• from 1992 to 2012
•Trends emerging•Economics
•Soil carbon
•Yield trends
•Weed seed
6
WICST: Lakeland site
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Cash-grain systems
7
Continuous corn Strip-till corn-soybean Organic grain
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Dairy (forage-based) systems
8
Conventional Alfalfa Organic forage Managed grazing
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Effect of weed pressure on corn yield
Wet Springs(May + June >10” rain)
Normal Springs
ARS LAC ARS LAC|--------------------------bu/a-------------------------------|
Conventional (min-tillcorn-soybean)
160 137 173 132
Organic(3-yr grain) 115 103 167 124
Org:conv 72% 76% 96% 94%
9eOrganic Webinar
Effect of weed pressure on soybean yields
Wet Springs(May + June > 10” rain)
Normal Springs
ARS LAC ARS LAC|--------------------------bu/a---------------------------|
Conventional (min-till corn-soybean)
48 57 57 53
Organic(3-yr grain) 38 44 54 49
Org:conv 79% 76% 95% 92%10eOrganic Webinar
11
30’ rotary hoe or tine weedercan do ~ 30 acres/hr
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Corn yields in extreme weather yrs
0
50
100
150
200
250
2008 (flood) 2012 (drought)
Bu
/acr
e
cont. corn
strip-till corn-sb
conv. dairy
organic grain
organic dairy
aa
b
a
b
c
x
y
xy
zz
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Rodale
• Corn in the legume-based (left) and conventional (right) plots six weeks after planting during the
• 1995 drought. The conventional corn
• is showing signs of water stress.
13eOrganic Webinar
• Rodale -Organic corn yields were 31% higher than conventional in years of drought
• Or
14
Organic
Conventional vs. Organic Corn Yield Trends
0
50
100
150
200
250
0 1 2 3 4 5 6 7 8
Yie
ld,
bu
/a
Cycle
Conventional Corn
Organic Corn-in 3-yr grain system
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Conventional vs. Organic Corn Yield Trends
0
50
100
150
200
250
0 1 2 3 4 5 6 7 8
Yie
ld,
bu
/a
Cycle
Conventional Corn
Organic Corn- in 3-yr forage system
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Conventional vs. Organic Soybeans
0
10
20
30
40
50
60
1 2 3 4
Yie
ld,
bu
/a
Cycle
ConventionalOrganic
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Conventional vs. Organic Alfalfa
0.0
1.0
2.0
3.0
4.0
5.0
6.0
1 2
Yie
ld,
t d
m/a
Cycle
Conventional
Organic
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Base Gross Margins (GM)
• GM = Crop revenue – variable costs
• Grain priced at harvest; hay priced in winter
• Gov’t payments included
• Feed-grade organic premiums included
• Systems scaled up to farm size– 1200 acres for conventional grain farms
– 600 acres for organic grain farm
– 150 acres of conventional and organic forage farms
19eOrganic Webinar
Historic GM of grain systems
0
50
100
150
200
250
300
350
400
450
Conv. min-tillcorn-sb
Organic grain(c-sb-w)
Conv. min-tillcorn-sb
Organic grain(c-sb-w)
ARL (1992-2009) LAC (1992-2002)
$/a
cre
Org premium
Gov't payment
Base GM
a
b
x
y
20eOrganic Webinar
Historic GM of forage systems
21
0
50
100
150
200
250
300
350
400
Convent.Forage
Organicforage
Convent.Forage
Organicforage
ARL (1992-2009) LAC (1992-2000)
$/a
cre
Org premium
Gov't payment
Base GM
a
by
x
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Corn and soybean feed-price trends (at harvest)
0
10
20
30
19
96
19
98
20
00
20
02
20
04
20
06
20
08
20
10
20
12
$/b
u
organic soy
conv. soy
22
0
5
10
15
20
19
96
19
98
20
00
20
02
20
04
20
06
20
08
20
10
20
12
$/b
u
organic corn
conv. corn
eOrganic Webinar
Fertilizer cost in corn phase at ARL ($/acre)
23
$-
$50
$100
$150
$200
$250
$300
conventional (c-sb)
organic (c-sb-w)
PEPs corn grain
eOrganic Webinar
Corn seeding cost at ARL ($/acre)
0
20
40
60
80
100
120
2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011
$/a
cre conv
organic
PEPs, grain
24
reseeded
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Soybean seeding cost at ARL ($/acre)
0
10
20
30
40
50
60
70
80
90
100
2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011
$/a
cre
conv
organic
25eOrganic Webinar
Total expense in grain systems (ARL)
0
50
100
150
200
250
300
350
2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011
$/a
cre
conv. grain
organic grain
26eOrganic Webinar
27
0
50
100
150
200
250
300
350
2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011
$/a
cre
conv. forage
organic dairy
Total expense in forage systems (ARL)
eOrganic Webinar
Gross margins in 2000 decade-ARL
0
100
200
300
400
500
600
700
800
2002-2006 2007-2011
$/a
cre
Era
cont corn
strip-till corn
conv. dairy
organic grain
organic dairy
Era (E): p<0.0078System (S): p<0.0001E*S: p<0.0001
28
deef
ff f
a
b
c cd
de
eOrganic Webinar
Soil Organic C changes over 20 yrs-ARL
-20
-18
-16
-14
-12
-10
-8
-6
-4
-2
0
cont corn no-till c-sb org c-sb-w conv alfalfa org alfalfa pasture
Ton
s C
/a in
3 f
tp
rofi
le
a
b b
b
b
c
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Soil C inputs on WICST
ARL (‘92-’09) LAC (‘92-’02)
System lbs C/acre-1
Cont. corn 5390 3301
Min-till corn-sb 4081 3324
Org grain (c-sb-w) 3038 2297
Conv. Forage 6075 6353
Organic Forage 6377 7145
Pasture with managed grazing
5380 5548
30eOrganic Webinar
RUSLE2 Soil loss estimates† (18-yr avg, ARL)
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
cont corn no-till c-sb org c-sb-w conv alfalfa org alfalfa pasture
Ton
s/ac
re
† assuming 4% slope, 150 ft run, contours
eOrganic Webinar
N2O emissions/unit of N harvested-ARL
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C and N changes in other Long-Term Studies
• LTAR (Iowa) - Total nitrogen increased by 33 percent in the organic plots
– higher concentrations of carbon, potassium, phosphorous, magnesium and calcium
– results suggest that organic farming can foster greater efficiency in nutrient use and higher potential for sequestrating carbon
33eOrganic Webinar
• Rodale FST - in both organic and conventional systems, the highest overall GHG emissions were caused by soil processes fueled by nitrogen fertilizer, compost, and crop residues
34eOrganic Webinar
Rodale FST
• Organic system uses 45% less energy –mainly from not allowing conventional fertilizers
35
• Demand for non-renewable energy resources of the farming systems in the DOC experiment (1985–1998) per hectare and year (columns) and per kg dry matter (DM, line)(Nemecek et al., 2011)
36
LTRAS (California)
37http://asi.ucdavis.edu/programs/rr/research/carbon-sequestration-and-soil-organic-carbon
Conclusions
• Yields: Org:Conv >90% when weeds controlled
• Organic yields better than continuous GM corn in extreme weather years
• Organic yields similar to rotated GM corn in extreme weather years
• Yield trends– Corn increased at 2.5 bu/a/yr (same for organic and conventional)
– Soybeans had slight gain at 0.2 bu/a/yr (same for organic and conventional)
– Alfalfa –no real trend yet
38eOrganic Webinar
Conclusion (cont’d)
• Profitability: organic >conventional– Gross margin higher in last 5 yrs. vs. previous 5 yr
– Large part of the profitability is coming from strong and steady premiums (in this study feed premiums)
– Inputs (seed, fuel, and nutrients) are driving up expenses, often near to the cost of conventional inputs
• Ecosystem Services– All systems losing carbon other than pasture
– Expand rotation with alfalfa can reduce soil loss
– GHG lower under rotations but not necessary due to organic management
39eOrganic Webinar
Find the slides and recording of this presentation at http://www.extension.org/pages/67347
Register for upcoming webinars and view recorded eOrganic webinars at http://www.extension.org/pages/25242p://www.extension.org/pages/25242Additional organic farming questions? Ask them at https://ask.extension.org/groups/1668
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