The Global Food Security Challenge: Constraints, consequences

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Transcript The Global Food Security Challenge: Constraints, consequences

The Global Food Security Challenge
Constraints, consequences and opportunities ahead
Christopher B. Barrett
1st International Conference on Global Food Security
Noordwijkerhout, The Netherlands
30 September 2013
Background
Food systems successes in 1940s-80s enabled dramatic
poverty reduction and improved standards of living
>6(~5) bn people have adequate calories (macro- and micronutrients) today, up from only about 2 billion 50 years ago.
Public/private ag research and policy reforms led productivity
growth to outpace demand growth, increasing land/water
efficiency use and steadily lowering real food prices through
mid-2000s, lifting hundreds of millions of people from poverty.
Successes enabled population growth, urbanization and income
growth over the “Long Peace” of the late 20th century
… and induced a dangerous complacency.
Background
Complacency led to underinvestment. Food output growth
slowed relative to demand growth. Result: higher food prices.
250
25
15
150
10
100
5
50
6 mo. lagged std. dev.
20
200
0
1/1990
1/1991
1/1992
1/1993
1/1994
1/1995
1/1996
1/1997
1/1998
1/1999
1/2000
1/2001
1/2002
1/2003
1/2004
1/2005
1/2006
1/2007
1/2008
1/2009
1/2010
1/2011
1/2012
12/2012
FAO Real Food Price Index (2002-4 = 100)
FAO Real Food Price Index
OECD/IFPRI/FAO now all forecast food prices 5-20% higher
than 2012 levels for the 10-20 years.
Overview
The shift to a higher food price regime hurts the poor
most, imperiling advances in global food security.
So how to respond to the prospect of a high food price
regime going forward?
The keys lie in recognizing the:
1) constraints we face
2) consequences of insufficient (or slow) response
3) opportunities ahead
Constraints
Aggregate Demand Growth Is Largely Unavoidable
A more populous, urban, and wealthier world will demand
70-100% more food by 2050 than the world consumes today.
Why?
- Population growth of ~2 bn people
- Population will urbanize, up from 50% to 70%
- Income growth 4-6%/yr in LDCs + marginal growth in
food D due to income in LDCs 5-8x that in the US.
Result:>90% of demand growth will be in Africa/Asia
Probably cannot reduce demand growth significantly
Limited capacity to dramatically reduce food waste or overconsumption, rebalance diets away from animal products, or
eliminate food/feed-biofuel competition
… Demand-side adjustment not a viable solution
Constraints
Must grow supply by 1 or more of 3 methods:
1) More inputs … but extensification unlikely b/c
- Arable land essentially fixed without major (ecologically
risky) conversion of forest, wetlands, or drylands.
- Limited capacity to expand ag frontier in Asia/MENA
- Increasing competition for land from urban expansion,
protected areas and biofuels
- Ag already accounts for ~70% of human water usage, >
80% in Africa and Asia.
- Climate change will aggravate water shortages in critical
regions, esp. in tropics with fastest demand growth
- Marine capture fisheries stable or declining
Constraints
Constraints
Adverse expected yield change in 11 key crops due to climate change
Source: World Bank
WDR 2010
Constraints
2) Improved efficiency given current inputs/tech
But …
- Smallholder ‘inefficiency’ mainly due to variable agroenvironmental conditions and untargetable
- Inverse farm size-productivity relationship hard to
exploit for yield gains (b/c arises from market failures)
and tendency is toward farm consolidation anyway
- The true extent of waste in post-harvest food systems
remains unclear, as does the question of whether it’s
cost-effective to reduce waste substantially
Constraints
3) So must rely mainly on technological advances to
resolve demand-supply growth imbalance. But …
– Slowing growth in yields (esp. w/climate change)
– Challenge of widespread opposition to GM, esp. foods
– IP regimes and associated ‘gene grabs’ pose obstacles
– Site specificity due to agroecological heterogeneity
– Innovation most needed in Africa/Asia, where demand
growth will occur but ag R&D capacity also most limited
– Technological advance requires investment.
Governments and philanthropies are essential but
insufficient … will rely heavily on private sector.
Constraints
Global Annual Cereal Flows
600
50
500
Commerical imports (read against left axis)
40
400
Production (read against right axis)
30
300
20
200
10
100
Food aid (read against left axis)
0
1970
0
1975
1980
1985
1990
1995
2000
2005
2010
Years
Source: FAO, FAOStat database
Productivity growth must occur in Africa/Asia, where
demand growth will occur because 85-90% of food is
consumed within the country where it is grown,
even with food trade growing faster than production.
Ceral Production in kilograms per person
Cereal Trade and Aid in kilograms per person
60
Constraints
But remember increasing food availability is only
necessary, not sufficient, to improve food security.
– Improved access is key and depends mainly on poverty
reduction and improved social protection measures to
ensure that ample food gets distributed equitably.
– The biggest challenges surround utilization and
especially micronutrient deficiencies, which are more
widespread and respond more slowly to productivity/
income growth than does macronutrient intake and
associated undernutrition.
– So cannot focus just on cereals or even just staples …
must pay more attention to fruits and vegetables.
Constraints
Countries by malnutrition problem and ag productivity (SOFA 2013)
- None have only stunting problems; MND persists far longer
Consequences
If we fail to address food security through
accelerated productivity growth and
improved food access and utilization …
- More resourceand food-related
sociopolitical
instability
- Environmental
degradation
- Sharply slowed
poverty reduction
Consequences
As food prices
began rising from
2000, progress on
MDGs/WFS food
security goals
began to lag.
(Source: FAO SOFI 2012)
Opportunities
Threats imply corresponding opportunities.
Ultimately, I’m optimistic for two reasons
1) Renewed gov’t/philanthropic investments
can/will crowd in private investment through:
• Renewed donor/gov’t attention to basic ag/NRM R&D and
agricultural sciences capacity building
• Greater attention to institutional/physical infrastructure
… access untapped water resources, reliable transport
systems, clear/fair resource tenure rules and product
grades and standards, reduced trade barriers/farm support
payments, proper env’t regulation and enforcement
• Reliable and inclusive social protection programs
Opportunities
2) Higher food prices induce private innovation
- R&D in improved agricultural technologies (ex: GM).
- FDI in developing country agriculture, which is generally
capital starved in closing yawning yield gaps.
- New business models to transform agricultural value chains
in ways that boost productivity, improve sustainability and
promote healthier diets.
- 3 distinct business models show special promise …
Opportunities
I. Apple Model
Develop (and patent) new products people didn’t
previously know they needed or wanted
- Recent examples: GM crops, precision agriculture eqpt
- Looming examples: biofortified crops, C4 rice, biofuels
and biofertilizers from inedible wastes
Opportunities
Example: rapid growth in genetically modified crops, esp. in
developing countries …
Opportunities
II. Coke Model
Value addition with strict quality standards, low
input costs, mass distribution, and marketing
emphasizing product differentiation to nudge
consumers toward price inelastic, luxury attributes
(like healthy, sustainable, fair trade …)
- Recent examples: 100 calorie packs, UHT milk,
- Looming examples: micronutrient rich processed foods/
drinks, longer shelf-life varieties
Opportunities
III. Wal-Mart Model
Superior logistics to squeeze costs from system
while finding/tapping economies of scale/scope
- Recent examples: ‘supermarket revolution’
- Looming examples: ICT-based customized agro-input
packages
Looking Forward
Past success proves the potential of food systems to
reduce human suffering.
Structural demand and supply patterns for food pose
major challenges.
Almost inexorable demand growth, land/water
scarcity, climate change, more complex IP regimes
pose harder constraints than we faced 1940s-80s.
Most importantly, must focus most attention where
the needs are and will be greatest – in Africa and Asia
– and increasingly on micronutrient-rich foods.
Never waste a crisis!
Looking Forward
If we fail to meet this challenge, the environmental,
human and sociopolitical consequences are grave.
But opportunities are great, especially with symbiotic
investments by governments/philanthropies and by
profit-seeking firms following any of several models.
Food security achieved via greater nutrient
productivity per worker/ha/m3, improved food
distribution/processing systems and/or social
protection policies can help stimulate growth and meet
the challenge … equitably, profitably and sustainably.
Multiple models exist … let 100 flowers blossom!
Thank you
Thank you for your time, interest and comments!
Photo credit: Corbis Images