Cropland management to increase soil carbon sequestration ...Projected Annual increase in soil...
Transcript of Cropland management to increase soil carbon sequestration ...Projected Annual increase in soil...
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Cropland management to increase soil carbon sequestration and
implications for other ecosystem services
Sean Smukler
February 21, 2019
Optimizing Land Use for Sustainable Growth: a CAPI Dialogue
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Ciais et al, 2013. IPCC Climate Change 2013: The Physical Science Basis
https://www.ipcc.ch/pdf/assessment-report/ar5/wg1/WG1AR5_Chapter06_FINAL.pdf
1500 -2400 Pg C
589 Pg C
16,000 m
2 m
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The Next 30 Minutes
1. Opportunities for increasing cropland soil carbon (SOC) sequestration
2. Challenges for adoption of SOC beneficial practices
3. Managing risks and trade-offs with other ecosystem services
4. Examples of solution strategies and recommendations
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Opportunities for increasing cropland soil carbon sequestration
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4 per mille Soils for Food Security and Climate
Launched at the COP21 in December 2015
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Soil Organic Carbon (SOC)
Sequestration
Weil and Brady (2017). The Nature and Properties of Soils. Pearson Education. 15 Edition.
CO2
CO2
65-85 g
Organic C
in residues
100 g
Relatively
stable
humus C
10-30 g
Biomass C
(soil
organisms)
2-5 g
Non-living
labile C
3-10 g
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Water holding capacity
Tilth
Carbon storage
Nutrient storage
and cycling
Infiltration
Examples of the Benefits of SOC
SOM
50% of soil organic matter (SOM) is carbon
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SOC and Land Use Change
Deng et. al 2016 Global patterns of the effects of land-use changes on soil carbon stocks. Global Ecology and Conservation Volume 5,
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Increase Organic Inputs
Improve Nutrient Management
Biosolids applications
Compost applications
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Increase Crop Yield and Root Inputs
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Modelled Carbon fluxes in Canadian agroecosystem (2005–2015 average)
Fan, J., B. G. McConkey, B. C. Liang, D. A. Angers, H. H. Janzen, R. Kröbel, D. D. Cerkowniak, and W. N. Smith. 2019. Increasing crop yields and root input make Canadian farmland a large carbon sink. Geoderma 336:49–58.
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Modelled Annual rate of change of SOCs (%) from 1971 to 2015 in 0–20 cm
Fan, J., B. G. McConkey, B. C. Liang, D. A. Angers, H. H. Janzen, R. Kröbel, D. D. Cerkowniak, and W. N. Smith. 2019. Increasing crop yields and root input make Canadian farmland a large carbon sink. Geoderma 336:49–58.
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Reduced soil disturbance
Cover crops
Reduced tillage
Strip crops
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Crop rotations Incorporate Grassland Set-Asides
(GLSA) into crop rotations
15
Increase Diversity
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Plant trees in and around crop fields -
agroforestry
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Agroforestry Meta-Analysis of SOC
De Stefano, A., and M. G. Jacobson. 2018. Soil carbon sequestration in agroforestry systems: a meta-analysis. Agroforestry Systems 92:285–299.
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Plant hedgerows
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Hedgerows and SOC
0
1
2
3
4
5
6
7
0-20 20-40
Ca
rbo
n c
on
ten
t (k
g C
/m2
)
Depth from surface (cm)
Planted
HedgerowsPlanted
Production FieldsRemnant
HedgerowsRemnant
Production Fields
a
b b ab
c c c
ab
Bryanna Thiel MSc, 2014
Thiel, B., S. M. Smukler, et al. 2015. Using hedgerow biodiversity to enhance the carbon storage of farmland
in the Fraser River delta of British Columbia. Journal of Soil and Water Conservation 70:247–256.
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Hedgerow Biodiversity and Carbon Storage
y = 118.68x + 117.21
R² = 0.58
0
50
100
150
200
250
0 0.2 0.4 0.6 0.8
So
il C
arb
on
(t
C h
a-1
)
Shannon Diversity Value
Thiel, B., S. M. Smukler, et al. 2015. Using hedgerow biodiversity to enhance the carbon storage of farmland
in the Fraser River delta of British Columbia. Journal of Soil and Water Conservation 70:247–256.
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Getting Carbon into the Soil
Smith et al 2007 Agriculture. In Climate Change 2007: Mitigation. Contribution of Working Group III to the
Fourth Assessment Report of the IPCC
Climate Zone Practice Ave. Low High
Cool moist Nutrient management 0.55 0.01 1.10
Tillage and residue
management
0.51 0.00 1.03
Set-aside and LUC 3.04 1.17 4.91
Warm moist Agro-forestry 0.70 -0.40 1.80
Restoration of degraded
soils
3.45 -0.37 7.26
tCO2-eq/ha/yr Uncertainty is
high
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Challenges for adoption of SOC beneficial
practices
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Shared Challenge
Farmers
Scienists Policy
makers
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Farmer Challenges
Economically Viable
Increased labour
Material costs
Increased complexity
Improves sustainability
Long-term
Not easy to quantify
Land tenure
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Scientific Challenges
High costs of sampling
and analysis
Limited capacity to scale from
point to field to
landscape
Limited capacity to
predict long-term
SOC
High cost high
uncertainty
Guidance for beneficial
management practices
Monitoring, reporting, and
verification
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Policy Challenges
Farmer Incentives
Must be carefully designed
Consumer Need to be engaged
Planning Land use
planning needs to account for
trade-offs
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Managing risks and trade-offs with other ecosystem services
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+ Ecosystem Services
- Ecosystem Services
- Mitigation + Mitigation
Tradeoffs Between SOC Sequestration
and other Ecosystem Services
Increased N2O emissions
Land conversion elsewhere
(leakage)
Loss of nutrients and/or
pesticides to aquatic
ecosystems
Increased habitat
and biodiversity
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Potential Field Scale Trade-offs
• Four treatments
• Low Compost: municipal compost matching P removal
• High Compost: municipal compost matching crop N demand
• Manure: poultry manure matching crop N demand
• Hybrid: control + blood meal to match crop N demand
Maltais-Landry, G. and Smukler, S. In prep. Gabriel Maltais-Landry, PhD
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Potential Field Scale Trade-offs
0
0.25
1
Yields
C inputs
CO2
Efflux
Residual NN2O
Efflux
PANUE
PUE
●
●
●
●
●
●
●
●
Low compost
High compost
Manure
HybridAll crops
Yields
C inputs
CO2
Efflux
Residual NN2O
Efflux
PANUE
PUE●
●
●
●
●
●
●
Cauliflower(High N:P)
Yields
C inputs
CO2
Efflux
Residual NN2O
Efflux
PANUE
PUE
●
●
●
●
●
●
●
Beet(Low N:P)
Maltais-Landry, G. and Smukler, S. In prep
0
0.25
1
Yields
C inputs
CO2
Efflux
Residual NN2O
Efflux
PANUE
PUE
●
●
●
●
●
●
●
●
Low compost
High compost
Manure
HybridAll crops
Yields
C inputs
CO2
Efflux
Residual NN2O
Efflux
PANUE
PUE●
●
●
●
●
●
●
Cauliflower(High N:P)
Yields
C inputs
CO2
Efflux
Residual NN2O
Efflux
PANUE
PUE
●
●
●
●
●
●
●
Beet(Low N:P)
High C inputs
Low phosphorus
use efficiency
Medium C
inputs
High nitrous
oxide emissions
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Potential Landscape
Scale Trade-offs
Rallings, A. M., S. M. Smukler, S. E. Gergel, and K. Mullinix. 2019. Towards multifunctional land use in an agricultural landscape: A trade-off and synergy analysis in the Lower Fraser Valley, Canada. Landscape and Urban Planning 184:88–100.
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Rallings, A. M., S. M. Smukler, S. E. Gergel, and K. Mullinix. 2019. Towards multifunctional land use in an agricultural landscape: A trade-off and synergy analysis in the Lower Fraser Valley, Canada. Landscape and Urban Planning 184:88–100.
Carbon vs. Habitat
Above ground carbon stocks
reduced by 80.0%
Habitat connectivity decreased by
51.8%,
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Examples of solution strategies and recommendations
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• Since 2002, close to 13 million tonnes of CO2e have been voluntarily removed
• Offsets are estimated to have generated about $170 million for farmers and aggregators.
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$15 million to
fund Incentives
Program and
Demonstration
Projects
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Healthy Soils Initiative Objectives
(1) providing financial incentives to California growers and ranchers for agricultural management practices that sequester carbon, reduce atmospheric GHGs and improve soil health,
(2) funding on-farm demonstration projects that conduct research and/or showcase conservation management practices
that mitigate GHG emissions and improve soil health, and
(3) creating a platform promoting widespread adoption of conservation management practices throughout the state.
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1. Develop a baseline
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Sidd Paul http://sal-lab.landfood.ubc.ca/people/siddhartho-paul/
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2. Analyze options, identify and prioritize management solutions
• Quantify impacts of management options
• Develop cost effective analysis
• Reduce uncertainty
• Assess potential tradeoffs
• Model future benefits
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3. Coordinate and collaborate
• Optimize the use of resources
• Find synergies
• Build knowledge strategically
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Government,
Associations,
Council and
NGOs
Research
Organizations
Agriculture
Industry
Associations
BC Agricultural Climate Change
Adaptation Research Network
(ACARN)
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4. Establish policy
• Resources have to be committed
• Extension services need investment and deployment
• Need to provide incentives for farmers to adopt different practices
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Projected Annual increase in soil organic
carbon (SOC) 0-30 cm
Zomer, R. J., D. A. Bossio, R. Sommer, and L. V. Verchot. 2017. Global Sequestration
Potential of Increased Organic Carbon in Cropland Soils. Scientific Reports 7:15554.
Globally 0.90 and 1.85 Pg C/yr, i.e.
26–53% of the target of the “4p1000
Initiative: Soils for Food Security and
Climate”
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Questions
To find out more about our research:
The Sustainable Agricultural Landscapes (SAL) Lab http://sal-lab.landfood.ubc.ca/
Centre for Sustainable Food Systems at the UBC Farm http://ubcfarm.ubc.ca/