Jose falck zepeda presentation georgetown university april 2015 final
1. Program for Biosafety Systems – http://pbs.ifpri.info/
“Biotechnology and Developing Countries”
José Falck Zepeda
Senior Research Fellow
International Food Policy Research Institute - Program
for Biosafety Systems (IFPRI - PBS)
Presentation made at Georgetown University,April 2015
2. Program for Biosafety Systems – http://pbs.ifpri.info/
Content
1. Background and conceptual framework
2. Biotechnology as a tool
3. GM biotechnology as the regulated technology
4. Socioeconomic assessment experiences
5. Concluding comments
3. Program for Biosafety Systems – http://pbs.ifpri.info/
The challenge ahead
To feed 9 billion people by 2050
Would require increase in production
Higher demands
will need to rely on
Productivity
increases
rather than
land expansion
4. Program for Biosafety Systems – http://pbs.ifpri.info/
“New” constraints
• Erosion, water and irrigation problems
• Climate change => Global warming?
• Soil fertility
• Urbanization and land being retired from production
• Consumer concerns about intensive agriculture: Organic, Fair
Trade
• Competition from biofuels production
• Social, philosophical, ethical and religious concerns over the
food production system
• Concerns over globalization and corporate control of
agriculture
• …
5. Program for Biosafety Systems – http://pbs.ifpri.info/
The Green Revolution
• Transformation of agriculture during
1940s-1970s that lead to significant
increases in yields
• Firmly based on:
– Agricultural production needs to keep
pace with population growth
– Agricultural sciences philosophy of
maximizing production per unit of land
– Plant breeding developments of the late
19th early 20th centuries
• Initially focused on a few crops (Wheat,
rice, maize) but has been expanded
6. Program for Biosafety Systems – http://pbs.ifpri.info/
The Green Revolution: Frame of Mind
• Haiti Can’t- be-saved
• Egypt Can’t-be-saved
• The Gambia Walking Wounded
• Tunisia Should Receive Food
• Libya Walking Wounded
• India Can’t-be-saved
• Pakistan Should Receive Food
- Paul and William Paddock, 1967 book
“Famine 1975!”
7. Program for Biosafety Systems – http://pbs.ifpri.info/
Norman Bourlag: Father of the Green
Revolution
• Developed the wheat program
that later became CIMMYT in
1963
– Shuttle breeding
– Incorporate short-stature genes into
wheat
– Increased yield and rust resistance in
wheat
• Mexico:
– 1948 self sufficient wheat producer
– 1965 Net exporter
• Won Nobel Peace Prize in 1970
and World Food Prize
• Genesis of the Consultative
Group of International
Agricultural Research ( CGIAR)
8. Program for Biosafety Systems – http://pbs.ifpri.info/
Green Revolution: Successes
• Significant increases in yields and production
– From 1950 to 1992, the world’s grain output rose from 692 million tons
produced on 1.70 billion acres of cropland to 1.9 billion tons on 1.73
billion acres
– India: food production increased from 50 to 205 million tons during the
last 5 decades
– But, barely happened in Sub-Saharan Africa
• Economic output per hectare increases significantly
• 30% increase in cereal and calorie availability per person
• Poverty reductions—some studies show this is attributed to GR
raising farmers incomes
9. Program for Biosafety Systems – http://pbs.ifpri.info/
Green Revolution: Social and Economic
Criticisms
• Does not address underlying social, cultural, ethnical and
institutional constraints that create vulnerability and thus affect
livelihoods
– Is hunger and food insecurity a question of production or unequal
distribution of resources?
• Increased mechanization affected rural labor employment
• Debt effects and credit institutions necessary
• Technology not scale neutral
– Uneven adoption as larger/wealthier farmers adopted first capturing larger
share of benefits
• Landowner/Landholder displacement
• Dependence on pesticides and fertilizers
10. Program for Biosafety Systems – http://pbs.ifpri.info/
Green Revolution: Environmental/Ecological
Criticisms
• Loss of agricultural biodiversity, not so clear effect on
wild biodiversity
– Focus on few crops => monocultures
• Increased used of pesticides and the pesticide
treadmill
• Increased use of fertilizers
• Irrigation
– Negative impacts of salinization, damage to soils, and
lowering of water tables
– Need to build dams and irrigation systems
11. Program for Biosafety Systems – http://pbs.ifpri.info/
Lessons Learned
• Increasing agricultural productivity is necessary but not
sufficient to guarantee food security
• Scale neutral technologies
• Knowledge transfer to/from farmers
• Need to consider agriculture within the social,
political, economic, national/international context
• We can’t continue proposing “technology-only solutions”
to complex problems....nevertheless technological
responses are indeed critical to the “solution”
• Learn from mistakes and inexperience to come up with
better alternatives => Policy options, strategies and
outcomes
13. Program for Biosafety Systems – http://pbs.ifpri.info/
What is biotechnology?
• Manipulation of living organisms for a useful purpose
• Definition that covers a broad range of techniques
– Traditional: Plant breeding, tissue culture, micro-
propagation
– Modern: Marker assisted selection, Genetic Modifications
and Genomics
• Only GM products are currently regulated for
biosafety
15. Program for Biosafety Systems – http://pbs.ifpri.info/
Implications for developing country
agriculture
• Majority expansion is in four crops and two traits
(insect protection and herbicide tolerance) produced
by industrialized countries for its agriculture
• Diffusion to developing has been a (fortunate)
development
• Challenge now is meeting explicit needs of
– Developing countries
– Smallholder / resource poor farmers
– Crop / traits
16. Program for Biosafety Systems – http://pbs.ifpri.info/
R&D and innovation for and by
developing countries
• Crops and traits of interest/value have been
produced
• Capacity to develop GM crops and other
biotechnologies
– Advanced => China, Brazil, Mexico, India, Argentina
– Medium- Advanced => Philippines, Thailand, Indonesia
• Next Harvest documented 270 technologies in 16
developing countries
Why aren’t these technologies in the hands of famers?
17. Program for Biosafety Systems – http://pbs.ifpri.info/
Why GM biotech?
• Embodied technologies
• Address specific productivity constraints
not easily addressed by conventional
means
• Can be deployed in low resource use
production systems
• Flexible – fit with other production
systems
– GM and Integrated Pest Management
– GM and organic production methods (!!!)
• Impacts can be non-pecuniary, indirect,
and scale neutral
• Scalable
18. Program for Biosafety Systems – http://pbs.ifpri.info/
3. Biotechnology as a regulated R&D
activity
19. Program for Biosafety Systems – http://pbs.ifpri.info/
Biosafety as a process…
Contained Use
Experiments
Confined
Field Trials
Deliberate
Release
Post
Release
Deregulation
Regulatory decision points
Familiarity
Learning
20. Program for Biosafety Systems – http://pbs.ifpri.info/
R&D and product development life cycle
1 – 3 yrs. 1 – 3 yrs. 1 – 3 yrs.
Product
Concept
Discovery Early Product
Testing &
Development
Integration
& Product
Selection
Product
Ramp Up
Market
Introduction
1 2 3 4 5 6
Confined Field Trials
Author: Ramaeker-Zahn
21. Program for Biosafety Systems – http://pbs.ifpri.info/
Portfolio of biosafety assessments
• Environmental
risk
• Food/feed safety
• Socioeconomic
assessments
22. Program for Biosafety Systems – http://pbs.ifpri.info/
Impacts on biodiversity
• Which biodiversity?
Agricultural vs. Wild
• Agricultural biodiversity –
intraspecific vs interspecific
• Tradeoffs between land use
and the maintenance of the
agricultural frontier and
encroachment in protected
and/or “wild” areas
• Biodiversity valuation issues
and measuring taxonomic
diversity and richness
• Ecosystem services
23. Program for Biosafety Systems – http://pbs.ifpri.info/
What is socio-economic impact
assessment?
• Different levels
– Household, Farm, Communities,
Industry, Consumer, Trade
• May be done before or after
adoption of the technology (ex
ante or ex post)
• Compare effects of intervention
against a counterfactual
– Economics => monetary costs and
benefits
– Sociology /Anthropology => impact
on people
24. Program for Biosafety Systems – http://pbs.ifpri.info/
4. What do we know about the socio-
economic impact of GE technologies?
25. Program for Biosafety Systems – http://pbs.ifpri.info/
How does a producer benefit? Insect resistance
traits
The case of Bt cotton
Producer Profit
Producer Surplus
Cost to Benefit
Additional
Cost of
Using the
Technology
Tech fee:
US$80/ha
0
+
-
Decrease
pesticide
application
cost
-Insecticide
-Machinery &
Equipment
Yield /
Reduction
in damage
-Timing
applications
-Reduced
damage bolls
Price change
due to increase
in supply
Additional
cost of
controlling
secondary
pests
Amenable to
IPM and/or
controlled
easily
Labor
Labor
26. Program for Biosafety Systems – http://pbs.ifpri.info/
What do we know from the economic impact
assessment literature to date?
• A review of 187 peer
reviewed studies
• Examined studies with
a focus on:
– Farmers, household
and community
– Industry and markets
– Consumers
– Trade
Citation: Smale, Melinda; Zambrano, Patricia; Gruère, Guillaume; Falck-Zepeda, José; Matuschke, Ira; Horna, Daniela; Nagarajan, Latha;
Yerramareddy, Indira; Jones, Hannah. 2009. Measuring the economic impacts of transgenic crops in developing agriculture during the first
decade: Approaches, findings, and future directions. (Food policy review 10) Washington, D.C.: International Food Policy Research Institute
(IFPRI) 107 pages
27. Program for Biosafety Systems – http://pbs.ifpri.info/
Food Policy Review 10 conclusions
• On average LMO crops have a
higher economic performance
— but averages do not reflect
the variability by agro-climate,
host cultivar, trait, farmer
• Too few traits, too few
cases/authors—
generalizations should not be
drawn yet...need more time to
describe adoption
These conclusions are no different than
those for most technologies released to
date…
28. Program for Biosafety Systems – http://pbs.ifpri.info/
A meta-analysis paper by Areal, Riesgo and
Rodriguez-Cerezo (2012)
“GM crops perform better than their conventional
counterparts in agronomic and economic (gross
margin) terms”
“GM crops tend to perform better in developing
countries than in developed countries, with Bt
cotton being the most profitable crop grown”
29. Program for Biosafety Systems – http://pbs.ifpri.info/
Before release case study of Fungal Resistant
Bananas in Uganda
• One year delay, forego
potential annual (social)
benefits of +/- US$200
million
• Observed difference in
perceptions between urban
and rural consumers and
producers
• Trust and technology
diffusion
Photos credits: Kikulwe 2009 and Edmeades 2008
Kikulwe, E.M., E. Birol, J. Wesseler, J. Falck-Zepeda. A
latent class approach to investigating demand for genetically
modified banana in Uganda Agricultural Economics 2011.
30. Program for Biosafety Systems – http://pbs.ifpri.info/
After release case study of Bt maize in
the Philippines
• Growing Bt maize
significantly increases
profits and yields
• Significant insecticide use
reductions
• Adopters tend to be
– Cultivate larger areas
– Use hired labor
– More educated
– have more positive perceptions
of current and future status
Change in economic surplus
(mill pesos)
Producer Surplus 7906
Seed Innovator 703
Total Surplus 8609
Producer Share (%) 92
Innovator Share (%) 8
Bt maize studies in Philippines led by Dr. Jose
Yorobe Jr. with 466 farmers in 16 villages Isabela
Province, Luzon, South Cotabato Province,
Mindanao
32. Program for Biosafety Systems – http://pbs.ifpri.info/
After release case study of Bt cotton in the U.S.
-22 -12 -14
58 37 37
141
80 97
63
85
93
-50
0
50
100
150
200
250
300
1996
Industry
US Farmers
Consumers
Foreign Farmers
1997 1998
Industry
36%
Consumers
19%
US Farmers
45%
Total benefit estimates
(Millions US $)
Falck-Zepeda, Traxler & Nelson 1999, 2000
34. Program for Biosafety Systems – http://pbs.ifpri.info/
Example from seed adoption sector
“Farmer preferences for Milpa diversity and genetically modified
maize in Mexico” (Birol, Villalobos and Smale 2007)
• “Milpa” is crop production system in Mexico and C. America
– Private economic value: food security, diet quality and livelihoods
– Public economic value: conserving agrobiodiversity, especially that of
maize landraces (potential to contribute unique traits for future plant
breeding efforts
• Subject to multiple externalities which have a negative impact
• Farmer heterogeneity is an issue identified by the study
– (i) Landrace Conservationists
– (ii) Milpa Diversity Managers
– iii) Marginalized Maize Producers
• Contrast results with the 2004 Commission for Environmental
Cooperation report
35. Program for Biosafety Systems – http://pbs.ifpri.info/
Concluding comments
• Biotechnology and Genetically Modified Crops are still only
technologies
• Similarities and differences with other technologies
• Actual and potential benefits from GM technology
adoption…important tool to consider. Cannot disregard
• Developments in the public sector in developing countries
• Additional crops/traits of interest whose limitations can
probably be only addressed through biotechnology means,
will be available if we manage to resolve institutional and
regulatory issues.
36. Program for Biosafety Systems – http://pbs.ifpri.info/
José Benjamin Falck-
Zepeda, Ph.D.
Senior Research Fellow
IFPRI
2033 K Street NW
Washington, DC 20006-1002
USA
j.falck-zepeda@cgiar.org
Brief bio/pubs:
http://www.ifpri.org/staffprofile/jose-falck-
zepeda
Blog:
http://socioeconomicbiosafety.wordpress.com/
Follow me on Twitter: @josefalck