Contact:- 8860008073 Call Girls in Karnal Escort Service Available at Afforda...
Outcomes of the Wheat Futures Convening: Envisioning Possibilities for Wheat Improvement
1. Outcomes of the Wheat Futures Convening:
Envisioning possibilities for wheat improvement
2013 BGRI Technical Workshop, Session 10; August 21, 2013
Moderator: Kathy Kahn, Bill & Melinda Gates Foundation
Panelists: Iago Hale, University of New Hampshire, USA
Jemanesh Haile, Ethiopian Institute of Agricultural Research, Ethiopia
Jessica Rutkoski, Cornell University, USA
2. The participants
K. Muleta
WSU
I. Hale
UNH
R.E. Amil
LARI
J.K. Haile
EIAR
P. Juliana
Cornell
K. Kahn
BMGF
D.G.O. Saunders
Sainsbury Lab
E. Heffner
DuPont Pioneer
M. Rouse
USDA
L. Derevina
UC Davis
S. Berraies
U Tunis
E. Alwaan
WSU
M. Acevedo
NDSU
T.L. Dugo
Sinana ARC
C. Lan
CIMMYT
J. Rutkoski
Cornell
S.D. Evanega
DRRW
T. Cavalieri
BMGF
M. Smith
BMGF
V. Mwaja
BMGF
15 early-career wheat scientists
9 countries
14 institutions (public and private)
3. What will it take to achieve global wheat security?
What does the wheat world need globally?
How can we strengthen/improve wheat productivity?
The challenges
9 billion people by 2050
Resource limitations
Extreme weather events
Urbanizing population
Growing demand for wheat
The opportunity
5. Anti-problems
What could prevent progress in wheat improvement and delivery to farmers?
Centralized decision-making and research
Restrictions on data sharing and germplasm exchange
Exclusive focus on genetics as a solution
Uncoordinated activities across sectors and stakeholders
Lack of investment in extension and farmer training
Disconnect between researchers and farmers
Gluten intolerance becomes a communicable disease
6. Researcher empowerment
Support training and deployment 9
Facilities 7
New tool development 5
Shared data management platforms 4
The Farmer Link
Integrate farmer input into research
objectives and priorities
Align research activities with farmer
needs
Effective systems of demonstration
Empower farmers to engage in
research and disseminationGenetic improvement
Integrate molecular breeding
approaches 9
Strengthen phenotyping 9
Strategies for multi-disease durable
resistance 8
Breeding for widely-adapted wheat 3
Strengthen genotyping 1
Cultural practices
Integrated cropping systems 11
Soil fertility management 8
Small-scale mechanization 7
Management of problematic soils 3
Irrigation and water management 1
7. A
Global
Wheat
Improvement
Network
to
Empower
Breeders
and
Scien<sts
8. Wheat
breeders/scien<sts
share
common
challenges
Organize
and
store
data
Phenotyping
Analyze
data
……with
limited
<me
and
resources
Genotyping
MASwheat
Crossa
et
al
2013
10. Community
database
and
analysis
tools
à
improved
breeding
decisions
Database
for:
Ø Genotypes
Ø Pedigrees
Ø Phenotypes
Ø Clima/c
data
Tools
for:
Ø Trial
design
Ø Phenotypic
data
analysis
Ø Marker
assisted
selec/on
Ø Genomic
selec/on
Ø Germplasm
characteriza/on
11. Training
and
within-‐community
consulta<on
à
researcher/breeder
empowerment
Group
training
courses
Individual
consulta<on
Ø Phenotyping
Ø Data
management
Ø Data
analysis
Ø Marker
assisted
and
genomic
selec/on
Exchange
of
experts
across
breeding
programs
to:
Ø Understand
specific
needs
Ø Provide
expert
advice
Ø Learn
from
exposure
to
different
programs
h9p://blog.cimmyt.org
12. Improving Wheat Productivity Through
Integrated Crop Management Research
and Extension for Local Conditions
(Ethiopia as a Case Study)
13. Ø 60% of the national
income
Ø 80% of the work force
Ø 60% of the total export income
Agriculture in Ethiopia
v Mainstay of Ethiopian
economy
14. Ø 15% of the arable land is
currently utilized
Ø 1% of the irrigable land is
currently utilized
Ø Low productivity
e.g. wheat ≤ 2 tons/ha
v Characterized by low production and productivity
Agriculture in Ethiopia
15. v Soil Fertility degradation
Ø Extremely low fertilizer use
Ø High price of fertilizer
Ø Lack of capacity for frequent soil
analysis (Blanket recommendation)
ü Proposed Solutions
Ø Identify/disseminate site-specific fertilizer rate and type
Ø Establish means for fertilizer affordability & access
Ø Identify locally available alternative sources
Ø Upgrade the capacity of soil fertility analysis (human
resources, mobile labs, equipments, reagents, etc.)
Major Agronomic Constraints to Wheat Production in Ethiopia
16. v Lack of agricultural implements
Ø Difficulty implementing row planting
Ø Non-optimal management practices
Ø High labor intensity
Ø Avoidable losses during harvest and
postharvest
ü Proposed Solutions
Ø Build local capacity (partnerships between small scale industry/
manufacturing and research centers)
Ø Design, produce, and disseminate small farm implements that are
easily available and affordable to farmers
Major Agronomic Constraints to Wheat Production in Ethiopia
17. v Problematic soils (vertisol, acidic and saline soils)
Ø Large proportion of the arable land
Ø Central highlands, Northern & South-Eastern parts of the country
Ø Large acreage of wheat production in these areas
ü Proposed solutions
Ø Targeted agronomic and soil management practices
Ø Drainage improvement
Ø Proper farm implements
v Other constraints
Ø Lack of irrigation (immense water resources)
Ø Expansion of wheat into marginal (drought prone) areas
Ø Climate change
Major Agronomic Constraints to Wheat Production in Ethiopia
18. v Surveys (farmers & researchers) – EIAR / Stakeholders
Ø Assessments of local wheat production constraints
Ø Technology/capacity/vision/challenge inventories
v Workshops
v Project implementation (pilot) areas
Ø Central Highlands
Ø South-Eastern (Awash basin)
Ø Northern parts of Ethiopia
v Objective: To improve wheat productivity in Ethiopia
through Integrated Crop Management
The Approach: ICM for local conditions
19. Wheat, comparative yield data (kg/ha)
Evans School of Public Affairs, Brief No. 98, 2010
Smallholder wheat yield gap in sub-Saharan Africa:
2,120 kg/ha
22. Timeframe for the overall activities of the proposed project
Time
frame
Phase
Activity
1 2 3 4 5
I
Engaging Central, Northern & South-Eastern parts in developing and
carrying out surveys
Soil samples collected and analyzed from pilot areas (existing facilities)
Expanding soil analysis capacity and expertise (Mobile labs)
Building and upgrading of weather stations in selected pilot areas
Prioritization of production constraints
Identification of model farmers
Workshop (s) to determine future experiments and demonstrations
(Extension agents, researchers, model farmers, other stakeholders - wheat
industry)
II
Design and conduct experiments & demonstrations
Results/Training/Communication/Evaluation of adoption
Outreach: initiation of field days - short videos!