the climate change challenge for agriculture
DESCRIPTION
The Climate Change Challenge for Agriculture. At issue is how the world will manage its carbon and nitrogen stocks sustainably. Presentation to the Kyoto Mechanisms Seminar March 14, 2003 by Dr. R. J. MacGregor Agriculture and Agri-Food Canada. - PowerPoint PPT PresentationTRANSCRIPT
The Climate ChangeChallenge for Agriculture
Presentation to the Kyoto Mechanisms Seminar March 14, 2003 by Dr. R. J. MacGregor
Agriculture and Agri-Food Canada
At issue is how the world will manage its carbon and nitrogen stocks sustainably
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InternationalTrade & Development
Food Safety and Food Quality
EnvironmentScience and Innovation
Renewal
Business Risk Management
The APF elements:
The Agriculture Policy Framework (APF) is our basis for moving forward...
3
Environment:
• Farm EnvironmentalPlanning
• Managing:- pests,- nutrients- nuisances - land and water
WaterNutrients Pathogens Pesticides
SoilErosionOrganic matter
BiodiversityWildlife habitat Species at risk Wildlife damage
AirParticulatesGreenhousegasesOdours
Innovation
•Biofuels,
• Bioproducts
• Bioprocesses
…to promote sustainable and profitable resource use...
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…where addressing climate change is about contributing to environmental solutions that
are economically sustainable
• Climate change is all about managing the carbon and nitrogen cycles
• Agriculture is based on using energy from the sun for photosynthesis to transform carbon & nitrogen into food, fibre and bio-products consumed by humans
• Agriculture Policy Framework links goals for environmental management and innovation to better manage natural resources, based on carbon and nitrogen cycles
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Climate change is a global challenge…changing how we manage C & N
• All nations, industries and citizens need to learn to sustainably manage carbon, nitrogen and other sources of greenhouse gases
• Agriculture has an important role in these cycles (20% of global emissions)
• The challenge is to learn to profitably recycle rather than extract carbon and nitrogen
• Canada has opportunities to use its leadership in agricultural GHG science to create advantages in world markets
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Reduce
Remove Replace
Greenhouse gasemissions
Innovate to replace fossil fuels with bio-based
energy, chemicals and materials
Atmospheric C to store in soils and perennial
crops
AgriculturalGHG
Management
AdaptUse science, innovation & business risk management to adapt to climate change
Agriculture has many unique opportunities to manage greenhouse gases ...
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Agriculture Emission Sources
18.5
7.17
12.4
16.11
1
0 10 20
Enteric fermentation
Crops
Fertilizers
Manure
Other
Sour
ces
Tg CO2 Equivalent1996
Gas % of Emissions
CO2 3%CH4 41%N2O 56%
Agriculture’s primary energy source is the sun, not fossil fuels.
…because agriculture’s biological processes make us different from
energy users
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We have opportunities to reduce emissions and improve productivity
• Emissions represent inefficient use of resources:– Increasing efficiency can improve the economic
performance and reduce the environmental footprint of agriculture. Some opportunities are to:
• Improve nutrient use efficiency• Improve efficiency of livestock feeding• For 2008-12 -- 1 Mt emissions reductions (mostly N2O &
CH4)
• We can make efficiency gains now, but more science and technology are needed:
• to improve understanding and control of nitrous oxide and methane emissions
• to pave way for better management practices and technologies
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We have opportunities to remove carbon dioxide from the air in ways that
enhance sustainable resource use
• Improve management of soil & grazing lands
• Improve marginal land management– Promote permanent cover/perennial growth,
agroforestry, etc (Greencover is a start providing 1.1 MT)
• Invest in science• improve sequestration techniques & measurement• position ourselves to consider other land bases (eg.
Wetlands) in order to support public policy development
• 10 Mt BAU sink to maintain• For 2008-12 -- 7.7 Mt incremental sinks
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We have opportunities to innovate to replace conventional with renewable feedstocks to
link us with future economic growth• Innovation in biofuels, bioproducts &
bioprocesses– Use ethanol & biodiesel to address current
emissions: • Encourage policies for Canadian ethanol/biodiesel
market and industry development that keeps sourcing, production & benefits in Canada, and builds industrial base for future.
– Put in place building blocks for future technology• Research, technology development, demonstration and
industry development to improve efficiency of grain-based ethanol in short-term and cellulosic ethanol in the medium term
• Invest in research, analysis and industrial development to lay foundation for long-term transition to renewable bioproducts & bioprocesses
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2000 2010 2020 2030 2040 2050
0remove
replace
reduce
Ann
ual i
mpa
ct o
f miti
gativ
e st
rate
gies
(rel
ativ
e to
bus
ines
s-as
-usu
al)
Our strategy must be built on the fact that many Kyotos are required
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BAU withoutSinks
BAU with Sinks
354045505560657075
1990 1999 2010
Potential reductionsfrom BAU (5 to 20 Mt) [with incentives]
6% below 1990
Gap (6.5 Mt)
Incentives are needed to send the right signals
For the first commitment period,we know we can contribute
MT CO2e
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There is a strong role for agriculture in the Federal Plan for Mitigation ...
First steps- Building the Foundation on Solid Science
Increase awareness: Baseline study of awareness level and small programs to increase knowledge of agriculture’s role in climate change and GHG emission
Develop GHG mitigation & science programs: Shelterbelts, Biofuels, Model Farms, GHG Mitigation (soil, nutrients, livestock), Manure technology, Carbon measurement/verification
International: Win recognition of agricultural sinks in Kyoto Protocol
New Steps - To Realize the Potential
Develop emissions trading system: Agriculture has opportunity to participate in market for offsets (provides flexibility to firms in a DET system)
Develop climate friendly technology: Invest in promising areas such as ethanol from cellulose feedstocks, bioenergy, bioproducts
Encourage renewable biofuels: Expand use of ethanol and biodiesel in transportation with potential benefits for agricultural sector
Building core knowledge: Develop economically viable mitigation methods by investing in science and economic analysis
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… and the Federal Plan acknowledges the potential
Action Estimated result (2008-12)
• Business as Usual (BAU) sink 10 Mt/y• Current programs
-AP2000, Greencover & APF 5.8 Mt/y• Next steps
- emissions reductions 1 Mt/y- sinks 9 Mt/y
TOTAL 24.8 Mt/y
Counting everything in the National Inventory is only one challenge, attribution for program delivery is another major issue
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The Federal Plan identifies offsets as the incent mechanism for the
agricultural sector• The sector indicated they preferred a market
mechanism to more traditional instruments
• We made the case and the “door is open” to developing an offset system that will work for agriculture domestically
• Getting Articles 3.4 in Kyoto was the key to unlocking this door
To be successful, offsets must make economic sense, as well as environmental sense
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The sector will need to be involved in the design of a workable offset system - become
familiar with the issues ...• Offsets must be real
– They have to provide sinks or emission reductions that will be counted in the national inventory - IPCC rules will be important
• They must be measurable and verifiable– Science is the key and we have good start, but more required
(NCGAVS, model farms, GHGMP, CCFIA, BIOCAP etc.)
• Probably need to be project based – An entity will have to develop a plan to show they can provide real
offsets: ex ante review, ex post verification, certification
• They must be additional/surplus & occur in 2008-12
– Over and above “business as usual” in the commitment period– Need to be differentiated from other incentives or requirements– There is a policy against providing “credit for early action”– This is the “baseline” issue and critical to whole system and dealing
with continuum and saturation
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2000 2010 2020 2030 2040 2050
… and there is more to a system...• They must be calculated on a net-net basis
• “Leakage” will need to be accounted for
• The system must be affordable– Transaction costs must be kept low relative to the
value of the offsets - @ $10/t this may be a challenge• The role of numerous players will need to be
sorted out – producers, registry, government, auditors,
aggregators, futures/commodity markets, insurance industry etc.
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… and more issues of particular interest to agriculture
• Permanence and Liability are critical issues for the sector wrt. soil sinks
• At Calgary Credit Workshop agricultural participants did not support the transfer of the liability for emission reductions from covered sector to agricultural sector
• Problem is that building sinks depends not only on management choices - but also on the weather
• It may not prove economic to maintain them on a long term basis - producer wants flexibility also
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What are the next steps?
• Development of an Offset System within a DET/covenant world for Large Industrial Emitters (LIE)– options – rules– analysis– consultations
• Best guess - we will need to have pretty good idea on “if” and “how” an offset system would work by this fall!!!!!!
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Doubling of CO2
(2050 under business as usual)
But we also need to think about adaptation because we can’t move fast enough to
avoid some impacts• Expected changes
– Warmer temperatures, drier or wetter conditions, more extreme events
• Assess impacts & plan to manage risks.
– Build knowledge base, networks & planning systems.
– Assess impacts and adaptation strategies for key policiese.g. water infrastructure & drought management
– water supply & infrastructure– financial risk management – food safety, disease
management/eradication