Further unlocking the potential of maize: Dual-purpose is the new purpose of the world’s most important cereal

In the field: Kenya

Maize field at Kampi ya Moto, Kenya (photo on Flickr by C Schubert/CCAFS).

September 2013 special issue of the scientific journal Field Crops Research describes research to improve, and make wider use of, dual-purpose maize (or corn) varieties, which are used for their stover — the stalk, leaves and other residue of the plant after the grain has been harvested — as well as for their grain. Among smallholder farmers in Africa and other developing regions, maize stover is a common, and critically important, supplementary feed for ruminant livestock.

The special journal issue was edited by edited by Elaine Grings, of South Dakota State University (and formerly of ILRI); Olaf Erenstein, of the International Maize and Wheat Improvement Center; and Michael Blümmel, of the International Livestock Research Institute (ILRI).

The following statements are excerpted from a synthesis paper written by the editors, which presents key findings in 12 papers about the potential for dual-purpose maize varieties to meet changing maize demands.

This special issue substantiates that dual-purpose maize varieties are technically feasible and have a large potential market, particularly in many emerging markets. The reported findings argue the case for continued investments in maize stover R&D and thus reigniting earlier dual-purpose crop research in general.

WatotoWeeding4A-74

Children weed a maize plot at Kampi ya Moto, Kenya (photo on Flickr by C Schubert /CCAFS).

Among the findings are the following.

‘Maize — or corn (Zea mays L.) — now is the most important global cereal in terms of production reflecting its versatility in use, including human food, animal feed and fodder, industrial products and biofuel.’

‘Despite being a versatile crop, maize production and maize breeding efforts over time have typically had a single-purpose orientation [on improving grain yields]. . . . Even smallholders within mixed maize-livestock systems typically focus on maize grain yield . . . , with maize stover as additional byproduct and benefit.’

There are prospects within the range of stover quality to increase fodder quality without compromising grain yield.

‘It is this potential of dual-purpose varieties that has reignited research interest and some of the research underlying this special issue. Indeed, despite earlier skepticism only a decade ago, substantial progress has been made in developing dual-purpose maize options for both grain and fodder purposes . . . .’

‘Maize germplasm differences in fodder quality can be exploited without compromising on grain yield.’

‘Confirmation of the relatively favorable feed value of maize stover vis-à-vis other coarse cereal residues — having at least par if not better feed quality traits compared to sorghum and millet, which have been the focus of prior dual-purpose crop improvement research and have been reported to contribute substantially to gross crop production values.’

‘Confirmation of being able to rely on a few key laboratory indicators . . .  as good proxies for feed quality . . . as this enhances the ease of screening for feed quality traits.’

‘From a livestock nutrition viewpoint, an increase in stover quantity is only useful (unless making stover cheaper) if livestock can respond with increased intake, which is stover quality dependent.’

Dairy cow on a Kenyan smallholding

 A dairy cow on one of Kenya’s many smallholder farms consumes maize stover, an important supplementary feed in East Africa (photo credit: ILRI).

Read the synthesis paper, as well as other papers, in this special issue of Field Crops Research 153 (2013) 107–112, edited by Elaine Grings, Olaf Erenstein and Michael Blümmel. The papers authored by ILRI scientists include the following.

Blümmel M, Grings E and Erenstein O 2013:
Potential for dual-purpose maize varieties to meet changing maize demands: Synthesis

Erenstein O, Blümmel M and Grings E 2013:
Potential for dual-purpose maize varieties to meet changing maize demands: Overview

Homann Kee-Tui S, Blümmel M, Valbuena D, Chirima A, Masikati P, Rooyen AF van and Kassie GT 2013:
Assessing the potential of dual-purpose maize in southern Africa: A multi-level approach

Anandan S, Khan AA, Ravi D, Sai Butcha Rao M, Reddy YR and Blümmel M 2013:
Identification of a superior dual purpose maize hybrid among widely grown hybrids in South Asia
and value addition to its stover through feed supplementation and feed processing

Ravi D, Khan AA, Sai Butcha Rao M and Blümmel M 2013:
A note on suitable laboratory stover quality traits for multidimensional maize improvement

Ramana Reddy Y, Ravi D, Ramakrishna Reddy C, Prasad KVSV, Zaidi PH, Vinayan MT and Blümmel M 2013:
A note on the correlations between maize grain and maize stover quantitative and qualitative traits
and the implications for whole maize plant optimization

Lukuyu BA, Murdoch AJ, Romney D, Mwangi DM, Njuguna JGM, McLeod A and Jama AN 2013:
Integrated maize management options to improve forage yield and quality on smallholder farms in Kenya

Ertiro BT, Twumasi-Afriyie S, Blummel M, Friesen D, Negera D, Worku M, Abakemal D and Kitenge K 2013:
Genetic variability of maize stover quality and the potential for genetic improvement of fodder value

Ertiro BT, Zeleke H, Friesen D, Blümmel M and Twumasi-Afriyie, S 2013:
Relationship between the performance of parental inbred lines and hybrids for food-feed traits in maize (Zea mays L.) in Ethiopia

Zaidi PH, Vinayan MT and Blümmel M 2012:
Genetic variability of tropical maize stover quality and the potential for genetic improvement of food-feed value in India

Vinayan MT, Babu R, Jyothsna T, Zaidi PH and Blümmel M 2013:
A note on potential candidate genomic regions with implications for maize stover fodder quality

Read about this special issue in the ILRI Clippings Blog:
Field Crops Research special issue on dual-purpose maize for food and feed, 15 Nov 2013.

Sustainable intensification of agriculture in Africa: The case for mixed crop-livestock farming

Click to view this slide presentation made by Shirley Tarawali, director of institutional planning and partnerships at the International Livestock Research Institute (ILRI), in Nairobi, Kenya, on Thu 19 Sep 2013, at the 22 International Grasslands Congress, which was held in Sydney, Australia, 15−19 September 2013, and had some 800 participants. Other ILRI and former colleagues who developed the presentation with Tarawali are Alan Duncan, Peter Thorne, Diego Valbuena, Katrien Descheemaeker and Sabine Homann-KeeTui.

This ILRI presentation made the case for continued close integration of crop farming and livestock raising in Africa, where such integrated farming systems are key to helping small-scale food producers intensify their production levels while conserving their natural resources and protecting their environments.

Tarawali had three main messages for her audience, for which she and her colleagues provided samples of latest research work at ILRI and its partners around the world.

  1. Don’t decouple crop intensification efforts from livestock intensification work.
  2. Address the biomass challenge.
  3. Improve the efficiencies of smallholder livestock production systems to reduce any harm they cause to the environment.

(1) DON’T DE-COUPLE CROP AND LIVESTOCK INTENSIFICATION

Mixed crop-and-livestock farming systems are important for feeding the world

Slide 3: Livestock demand is highest in developing countries

Slide 4: Developing countries lead in global food production

Smallholder livestock keepers in developing countries are remarkably competitive

Slide 6: Smallholder livestock keepers are competitive

Slide 7: Smallholder livestock keepers are competitive

Slide 8: Key points related to smallholder competitiveness

Livestock benefit crop production

Slide 9: Soil fertility and manure

Slide 10: Animal traction

Crop production benefits livestock

Slide 12: Crop residues

(2) ADDRESS THE BIOMASS CHALLENGE

Slide 13: Importance of grazed biomass for livestock

Slide 14: Sustainable intensification

Slide 18: More biomass?

(3) IMPROVE SMALLHOLDER LIVESTOCK PRODUCTION EFFICIENCIES TO REDUCE ENVIRONMENTAL HARM

Improve crop residues for livestock feed

Slide 20: Improve dual-purpise crop-residues for livestock feed

Slide 21: Opportunities to improve livestock efficiencies

Read / view the opening keynote presentation made at the International Grasslands Congress by ILRI’s director general Jimmy Smith on the ILRI News Blog:

Why the world’s small-scale livestock farms matter so much: Keynote address at International Grasslands Congress, Part 1, 16 Sep 2013

Why tackling partial truths about livestock matters so much: Keynote address at International Grasslands Congress, Part 2, 17 Sep 2013

 

Roots and tubers to the fore: How a Tanzanian crop and goat project is helping farmers

Integrated Dairy Goat and Root Crop in Tanzania workshop

A meeting to review research results from a dairy goat and root crop project in Tanzania was held in Nairobi last week (photo credit: ILRI/Paul Karaimu).

Last week (18-20 Jun 2013) the Nairobi campus of the International Livestock Research Institute (ILRI) hosted partners in a crop and goat project working to improve food security in Tanzania. The meeting reviewed research results from the two-year-old project.

This project is helping Tanzanian farmers integrate their dairy goat production with growing root crops. It’s raising incomes by improving the milk production potential of dairy goats, introducing improved sweet potato and cassava varieties and improving marketing options for goats and crops in Tanzania’s Kongwa and Mvomero districts.

Led by Tanzania’s Sokoine University of Agriculture and the University of Alberta in Canada, the project also involves collaboration with an agricultural research institute in Kibaha, the Kongwa and Mvomero district councils and the Foundation for Sustainable Rural Development, a non-governmental organization in the country. ILRI is serving as knowledge-support partner for the project and is providing expertise on goat production, gender issues and monitoring and evaluation.

Started in March 2011, the project is funded by the Canadian International Development Research Centre (IDRC) and the Canadian International Development Agency. The project brings together farmers and scientists in setting up community-managed breeding programs for dairy goats and introducing improved varieties of cassava and sweet potato in agro-pastoral area of the two districts. Previously, dairy goat keeping was restricted to wetter areas of the districts.

‘This is one of few projects whose achievements so far the IDRC is proud of and it stands a good chance for being considered for funding for scaling-up under the Food Security Research Fund,’ said Pascal Sanginga, of IDRC.

The program’s interventions have focused on understanding women’s roles in livestock activities such as feeding and milking, getting more women involved in livestock keeping and increasing women’s access to, and control over, benefits from livestock rearing and farming.

‘This project highlights the central role of partnerships in ILRI’s work in Tanzania, which is a focus country for the CGIAR Research Program on Livestock and Fish,’ says Amos Omore, the project’s coordinator at ILRI.

ILRI's Okeyo Mwai and Amos Omore with Immaculate Maina (KARI)

Participants in the meeting, who included graduate students and faculty from Sokoine and Alberta universities and researchers from ILRI, shared 16 research presentations, which will now be reworked as papers for submission to scientific journals. Feedback from these presentations guided a project evaluation and planning session that followed the workshop.

‘We’re learning about the challenges in establishing root crops and dairy goat production in marginal environments where there is a high variability in rainfall and stiff competition from pastoralism,’ said John Parkins, of Alberta University.

The project, which is reaching more than 100 farmers, has conducted a baseline study and has developed gender and monitoring & evaluation strategies.

Findings from this workshop, which included determination of specific environmental constraints and the costs and benefits of adopting new varieties of sweet potatoes and cassava, guided preparation of a proposal to scale up the project’s interventions. This proposal will be used to implement the final phase of the project, which ends in August 2014.

‘This meeting revealed a need to focus on doing a few things well—like facilitating fodder production, animal health and disease control,’ said Parkins.

View presentations from the meeting:

Read more about the project, ‘Integrating dairy goats and root crop production for increasing food, nutrition and income security of smallholder farmers in Tanzania’, http://ilri.org/node/1177 and https://sites.google.com/a/ualberta.ca/diary-goats-and-root-crops-tanzania/home. Download a project brochure

Read an ILRI news article about the project: Cassava and sweet potato may improve dairy goat production in Tanzania’s drylands, but will women benefit?

 

Action learning, systemic change and sustainability, desired legacy of an Ethiopian R4D project (IPMS)

Kemeria Hussien at Ethiopian milk market

Kemeria Hussien, a young woman at a milk market in Meisso District, West Hararghe Zone, Ethiopia, 2011 (photo credit: ILRI/Apollo Habtamu).

On 28 March 2013, a team from the project ‘Improving Productivity and Market Success of Ethiopian farmers (or IPMS project) gave a ‘livestock live talk’ seminar at the Addis Ababa, Ethiopia, campus of the International Livestock Research Institute (ILRI). This seminar, given for 70 people physically present and a few more connected virtually via WebEx, happened in the middle of the research planning workshop for a project that is a ‘sequel’ to IPMS, called ‘LIVES’: Livestock and Irrigated Value chains for Ethiopian Smallholders.

ILRI staff members Dirk Hoekstra, Berhanu Gebremedhin and Azage Tegegne have been managing IPMS, and learning from it, since its inception in 2004. The legacy as well as the learning from the IPMS project will be applied in the LIVES project, as well as other initiatives led by ILRI and other parties involved in IPMS.

What choices?
This project to ‘improve the productivity and market success of Ethiopian farmers’ was nothing if not ambitious, and, for a research organization, opted for some relatively daring choices:

  • IPMS relied on developmental (uncontrolled) as well as experimental (controlled) research activities, which ranged along the spectrum of diagnostic, action-research and ‘impact research’ activities (so-called for the expected development impact they would have).
  • Some activities were outsourced to development partners rather than undertaken by the research team.
  • The project worked along entire value chains, from crop and livestock farmers and other food producers to rural and urban consumers, with the team restricting itself to introducing and facilitating the implementation of interventions validated by local stakeholders.
  • Rather than focus on value chain interventions exclusively, the IPMS researchers investigated farming production systems as a whole and focused on the role of agricultural extension in the uptake of research results and their integration in interventions.
  • The IPMS workers used ‘action learning’ methods, which appears to have enabled an on-going evolution in the development of their targeted value chains. This kind of learning approach also sped the adoption of new technologies and the implementation of interventions and encouraged the team to use failures as fuel to modify the project’s trajectory.

. . . Led to what insights?
Insights from the project team were at the core of this ‘live talk’, with the lessons IPMS learned simple and straightforward; some examples follow.

Technology generation by itself is not enough to achieve developmental outcomes and impacts – Several interventions in the value chain development approach need to be implemented together to achieve impact.

Research for development can be implemented well in a research environment, i.e., it is possible to combine rigorous research with development processes without sacrificing the quality of scientific research or the generation of robust evidence.

Knowledge management and capacity development—using, among other methods, innovative information and communication technologies and approaches such as farming radio programs, local information portals connected to local knowledge centres and e-extension—are key to development of responsive extension systems as well as women and men farmers working to transform subsistence agriculture into sustainable economic enterprises.

Gathering those lessons was itself far from straightforward. The IPMS team experienced difficulties in negotiating value chain developments and the specific interventions that were felt as necessary, and in making choices among all actors involved in the value chain (e.g., a failed experiment to market sunflowers) because of market failures and insufficient returns on investments. The team also realized that working in an adaptive manner across a broad value chain and extension framework implies letting go of control and of tight deadlines, but can improve relations among value chain actors and their joint interventions.

As ILRI’s new LIVES project is now in full swing, and as a new long-term ILRI strategy demands that ILRI take a more coherent approach to making development impacts, these insights from  IPMS can help guide those undertaking new initiatives of ILRI and of its partners.

Watch and listen to this seminar here: https://www.ilri.org/livestream.

View the slide presentation here: Agriculture research for crop and livestock value chains development: the IPMS experience, presentation by Dirk Hoekstra, Berhanu Gebremedhin and Azage Tegegne on 28 Mar 2013.

You can contact the IPMS/LIVES team at lives-ethiopia [at] cgiar.org.


Note:Livestock live talks’ is a seminar series at ILRI that aims to address livestock-related issues, mobilize external as well as in-house expertise and audiences and engage the livestock community around interdisciplinary conversations that ask hard questions and seek to refine current research concepts and practices.

All ILRI staff, partners and donors, and interested outsiders are invited. Those non-staff who would want to come, please contact Angeline Nekesa at a.nekesa[at]cgiar.org (or via ILRI switchboard 020 422 3000) to let her know. If you would like to give one of these seminars, or have someone you would like to recommend, please contact Silvia Silvestri at s.silvestri[at]cgiar.org (or via ILRI switchboard 020 422 3000).

Ethiopian farmers to get market boost: New project to help livestock and irrigated agriculture farmers improve their livelihoods through value chain improvement

LIVES project logo

A new research for development project was launched today by the International Livestock Research Institute (ILRI) and the International Water Management Institute (IWMI), both members of the CGIAR Consortium. Entitled ‘Livestock and Irrigation Value chains for Ethiopian Smallholders – LIVES’, it will directly support of the Government of Ethiopia’s effort to transform smallholder agriculture to be more market-oriented.

Supported by the Canadian International Development Agency (CIDA), the LIVES project is jointly implemented by ILRI, IWMI, the Ethiopian Institute of Agricultural research (EIAR), the Ethiopian Ministry of Agriculture and regional Bureaus of Agriculture, Livestock Development Agencies, Agricultural Research Institutes and other development projects.

LIVES project manager, Azage Tegegne emphasized that this project is unique in that it integrates livestock with irrigated agriculture development. The project is designed to support the commercialization of smallholder agriculture by testing and scaling lessons to other parts of Ethiopia. “It is also excellent opportunity for CGIAR centres to work hand in hand with Ethiopian research and development institutions.”

Ethiopian State Minister of Agriculture H.E. Wondirad Mandefro welcomed the project, asserting that it will directly contribute to both the Growth Transformation Plan (GTP) and the Agricultural Growth Program (AGP) of the Ethiopian Government. Canadian Head of Aid, Amy Baker expects this investment to generate technologies, practices and results that can be implemented at larger scales and ultimately benefit millions of Ethiopian smallholder producers as well as the consumers of their products. Canadian Ambassador David Usher noted that the project will contribute to Ethiopia’s efforts to drive agricultural transformation, improve nutritional status and unlock sustainable economic growth. LIVES is also a reflection of Canada’s commitment to the 2012 G-8 New Alliance for Food and Nutrition Security which will allow Ethiopia, donors and the private sector create new and innovative partnerships that will drive agricultural growth.

LIVES actions will take place over six years in 31 districts of ten zones in Amhara, Oromia, Southern Nations, Nationalities, and Peoples and Tigray regions, where 8% of the country’s human population resides. LIVES will improve the incomes of smallholder farmers through value chains development in livestock (dairy, beef, sheep and goats, poultry and apiculture) and irrigated agriculture (fruits, vegetables and fodder).

The project, with a total investment of CAD 19.26 million, aims to directly and indirectly benefit more than 200,000 households engaged in livestock and irrigated agriculture, improve the skills of over 5,000 public service staff, and work with 2,100 value chain input and service suppliers at district, zone and federal levels.

“Projects that support local farmers can help a community in so many ways; not only by providing food and the most appropriate crops, but also by teaching long term skills that can have an impact for years to come,” said Canada Minister of International Cooperation the Honourable Julian Fantino. “The Livestock and Irrigation Value Chains project teaches smallholder farmers new agricultural techniques and provides technical assistance, training, and mentoring to government specialists. They in turn will provide production and marketing assistance to local farmers. This is a project that helps all areas of farming and agriculture development.”

The project will focus on clusters of districts, developing and improving livestock production systems and technologies in animal breeding, feed resources, animal nutrition and management, sustainable forage seed systems, sanitation and animal health, and higher market competitiveness. Potential irrigated agriculture interventions include provision of new genetic materials, development of private seedling nurseries, work on seed systems, irrigation management, water use efficiency, water management options, crop cycle management, and pump repair and maintenance through services that provide well pump repair in Snohomish, WA.

The main components of the project are capacity development, knowledge management, promotion, commodity value chain development, and documentation of tested and successful interventions. Gender and the environment will be integrated and mainstreamed in all components of the project.

A few of our favourite (missed) livestock presentations in 2012

Here, for your New Year’s reading/viewing pleasure, are 20 slide presentations on 12 topics made by staff of the International Livestock Research Institute (ILRI) in 2012 that we missed reporting on here (at the ILRI News Blog) during the year.

Happy reading and Happy New Year!

1 LIVESTOCK RESEARCH FOR FOR DEVELOPMENT

>>> Sustainable and Productive Farming Systems: The Livestock Sector
Jimmy Smith
International Conference on Food Security in Africa: Bridging Research and Practice, Sydney, Australia
29-30 Nov 2012; posted on ILRI Slideshare 27 Nov 2012; 426 views.

Excerpts:
A balanced diet for 9 billion: Importance of livestock
•  Enough food: much of the world’s meat, milk and cereals comes from developing-country livestock based systems
•  Wholesome food: Small amounts of livestock products – huge impact on cognitive development, immunity and well being
•  Livelihoods: 80% of the poor in Africa keep livestock, which contribute at least one-third of the annual income.
The role of women in raising animals, processing and 3 selling their products is essential.

Key messages: opportunities
•  Livestock for nutrition and food security:
– Direct – 17% global kilocalories; 33% protein; contribute food for 830 million food insecure.
Demand for all livestock products will rise by more than 100% in the next 30 years, poultry especially so (170% in Africa)
– Indirect – livelihoods for almost 1 billion, two thirds women
•  Small-scale crop livestock systems (less than 2ha; 2 TLU) provide 50–75% total livestock and staple food production in Africa and Asia
and provide the greatest opportunity for research to impact on a trajectory of growth that is inclusive –
equitable, economically and environmentally sustainable.

>>> The Global Livestock Agenda: Opportunities and Challenges
Jimmy Smith
15th AAAP [Asian-Australasian Association of Animal Production] Animal Science Congress, Bangkok,Thailand
26–30 Nov 2012; posted on ILRI Slideshare 27 Nov 2012; 1,650 views

Excerpt:
Livestock and global development challenges
•  Feeding the world
– Livestock provide 58 million tonnes of protein annually and 17% of the global kilocalories.
•  Removing poverty
– Almost 1 billion people rely on livestock for livelihoods
•  Managing the environment
– Livestock contribute 14–18% anthropogenic greenhouse gas emissions, use 30% of the freshwater used for agriculture and 30% of the ice free land
– Transition of livestock systems
– Huge opportunity to impact on future environment
•  Improving human health
– Zoonoses and contaminated animal-source foods
– Malnutrition and obesity

>>> Meat and Veg: Livestock and Vegetable Researchers Are Natural,
High-value, Partners in Work for the Well-being of the World’s Poor

Jimmy Smith
World Vegetable Center, Taiwan
18 Nov 2012; posted on ILRI Slideshare 27 Nov 2012; 294 views.

Excerpts:
Livestock and vegetables suit an urbanizing, warming world
Smallholder livestock and vegetable production offers similar opportunities:
•  Nutritious foods for the malnourished.
•  Market opportunities to meet high urban demand.
•  Income opportunities for women and youth.
•  Expands household incomes.
•  Generates jobs.
•  Makes use of organic urban waste and wastewater.
•  Can be considered ‘organic’ and supplied to niche markets.

Opportunities for livestock & vegetable research
Research is needed on:
•  Ways to manage the perishable nature of these products.
•  Innovative technological and institutional solutions for food safety and public health problems that suit developing countries.
•  Processes, regulations and institutional arrangements regarding use of banned or inappropriate pesticides,
polluted water or wastewater for irrigation, and untreated sewage sludge for fertilizer.
•  Innovative mechanisms that will ensure access by the poor to these growing markets.
•  Ways to include small-scale producers in markets demanding
increasingly stringent food quality, safety and uniformity standards.

>>> The African Livestock Sector:
A Research View of Priorities and Strategies

Jimmy Smith
6th Meeting of the CGIAR Independent Science and Partnership Council, Addis Ababa, Ethiopia
26−29 Sep 2012; posted on ILRI Slideshare 25 Sep 2012;  4,227 views.

Excerpts:
Livestock for nutrition
• In developing countries, livestock contribute 6−36% of protein and 2−12% of calories.
• Livestock provide food for at least 830 million food-insecure people.
• Small amounts of animal-source foods have large benefits on child growth and cognition and on pregnancy outcomes.
• A small number of countries bear most of the burden of malnutrition (India, Ethiopia, Nigeria−36% burden).

Smallholder competitiveness
Ruminant production
• Underused local feed resources and family labour give small-scale ruminant producers a comparative advantage over larger producers, who buy these.
Dairy production
• Above-normal profits of 19−28% of revenue are found in three levels of intensification of dairy production systems.
• Non-market benefits – finance, insurance, manure, traction – add 16−21% on top of cash revenue.
• Dairy production across sites in Asia, Africa, South America showed few economies of scale until opportunity costs of labour rose.
• Nos. of African smallholders still growing strongly.
Small ruminant production
• Production still dominated by poor rural livestock keepers, incl. women.
• Peri-urban fattening adds value.

>>> The CGIAR Research Program on Livestock and Fish and its Synergies
with the CGIAR Research Program on Agriculture for Nutrition and Health

Delia Grace and Tom Randolph
Third annual conference on Agricultural Research for Development: Innovations and Incentives, Uppsala, Sweden
26–27 Sep 2012; posted on ILRI Slideshare 13 Oct 2012;  468 views.

Excerpts:
Lessons around innovations and incentives
• FAILURE IS GETTING EASIER TO PREDICT – but not necessarily success
• INNOVATIONS ARE THE LEVER – but often succeed in the project context but not in the real world
• PICKING WINNERS IS WISE BUT PORTFOLIO SHOULD BE WIDER– strong markets and growing sectors drive uptake
• INCENTIVES ARE CENTRAL: value chain actors need to capture visible benefits
• POLICY: not creating enabling policy so much as stopping the dead hand of disabling policy and predatory policy implementers
‘Think like a systemicist, act like a reductionist.’

>>> The Production and Consumption of Livestock Products
in Developing Countries: Issues Facing the World’s Poor

Nancy Johnson, Jimmy Smith, Mario Herrero, Shirley Tarawali, Susan MacMillan, and Delia Grace
Farm Animal Integrated Research 2012 Conference, Washington DC, USA
4–6 Mar 2012; posted on ILRI Slideshare 7 Mar 2012; 1,108 views.

Excerpts:
The rising demand for livestock foods in poor countries presents
– Opportunities
• Pathway out of poverty and malnutrition
• Less vulnerability in drylands
• Sustainable mixed systems
– Threats
• Environmental degradation at local and global scales
• Greater risk of disease and poor health
• Greater risk of conflict and inequity

• Key issues for decision makers
– appreciation of the vast divide in livestock production between rich and poor countries
– intimate understanding of the specific local context for specific livestock value chains
– reliable evidence-based assessments of the hard trade-offs involved in adopting any given approach to livestock development

• Institutional innovations as important as technological/biological innovations in charting the best ways forward
– Organization within the sector
– Managing trade offs at multiple scales

2 LIVESTOCK FEEDS

>>> Livestock feeds in the CGIAR Research Programs
Alan Duncan
Food and Agricultural Organization of the United Nations (FAO) West Africa Regional Workshop on Crop Residues, Dakar, Senegal
10–13 Dec 2012; posted on ILRI Slideshare on 18 Dec 2012; 3,437 views.

>>> Biomass Pressures in Mixed Farms: Implications for Livelihoods
and Ecosystems Services in South Asia & Sub-Saharan Africa

Diego Valbuena, Olaf Erenstein, Sabine Homann-Kee Tui, Tahirou Abdoulaye, Alan Duncan, Bruno Gérard, and Nils Teufel
Planet Under Pressure Conference, London, UK
26-29 Mar 2012; posted on ILRI Slideshare 27 Mar 2012;  1,999 views.

3 LIVESTOCK IN INDIA

>>> Assessing the Potential to Change Partners’ Knowledge,
Attitude and Practices on Sustainable Livestock Husbandry in India

Sapna Jarial, Harrison Rware, Pamela Pali, Jane Poole and V Padmakumar
International Symposium on Agricultural Communication and
Sustainable Rural Development, Pantnagar, Uttarkhand, India
22–24 Nov 2012; posted on ILRI Slideshare 30 Nov 2012; 516 views.

Excerpt:
Introduction to ELKS
• ‘Enhancing Livelihoods Through Livestock Knowledge Systems’ (ELKS) is an initiative
to put the accumulated knowledge of advanced livestock research directly to use
by disadvantaged livestock rearing communities in rural India.
• ELKS provides research support to Sir Ratan Tata Trust and its development partners
to address technological, institutional and policy gaps.

4 AGRICULTURAL R4D IN THE HORN OF AFRICA

>>> Introducing the Technical Consortium
for Building Resilience to Drought in the Horn of Africa

Polly Ericksen, Mohamed Manssouri and Katie Downie
Global Alliance on Drought Resilience and Growth, Addis Ababa, Ethiopia
5 Nov 2012; posted on ILRI Slideshare 21 Dec 2012; 8,003 views.

Excerpts:
What is the Technical Consortium?
• A joint CGIAR-FAO [Food and Agriculture Organization of the United Nations] initiative,
with ILRI representing the CGIAR Centres and the FAO Investment Centre representing FAO.
• ILRI hosts the Coordinator on behalf of the CGIAR.
• Funded initially by USAID [United State Agency for International Development] for 18 months –
this is envisioned as a longer term initiative, complementing the implementation of investment plans
in the region and harnessing, developing and applying innovation and research to enhance resilience.
• An innovative partnersh–ip linking demand-driven research sustainable action for development.

What is the purpose of the Technical Consortium?
• To provide technical and analytical support to IGAD [Inter-governmental Authority on Development]
and its member countries to design and implement the CPPs [Country Programming Papers]
and the RPF [Regional Programming Framework], within the scope of
the IGAD Drought Disaster Resilience and Sustainability Initiative (IDDRSI).
• To provide support to IGAD and its member countries to develop regional and national
resilience-enhancing investment programmes for the long term development of ASALs [arid and semi-arid lands].
• To harness CGIAR research, FAO and others’ knowledge on drought resilience and bring it to bear on investments and policies.

5 LIVESTOCK AND FOOD/NUTRITIONAL SECURITY

>>> Mobilizing AR4D Partnerships to Improve
Access to Critical Animal-source Foods

Tom Randolph
Pre-conference meeting of the second Global Conference for Agricultural Research for Development (GCARD2), Punta de Este, Uruguay
27 Oct 2012; posted on ILRI Slideshare 29 Oct 2012; 385 views.

Excerpts:
The challenge
• Can research accelerate livestock and aquaculture development to benefit the poor?
– Mixed record to date
– Systematic under-investment
– Also related to our research-for-development model?
• Focus of new CGIAR Research Program
– Increase productivity of small-scale systems
> ‘by the poor’ for poverty reduction
> ‘for the poor’ for food security

Correcting perceptions
1. Animal-source foods are a luxury and bad for health, so should not promote
2. Small-scale production and marketing systems are disappearing; sector is quickly industrializing
3. Livestock and aquaculture development will have negative environmental impacts

Our underlying hypothesis
• Livestock and Blue Revolutions: accelerating demand in developing countries as urbanization and incomes rise
• Industrial systems will provide a large part of the needed increase in supply to cities and the better-off in some places
• But the poor will often continue to rely on small-scale production and marketing systems
• If able to respond, they could contribute, both increasing supplies and reducing poverty
. . . and better manage the transition for many smallholder households.

6 LIVESTOCK INSURANCE

>>> Index-Based Livestock Insurance:
Protecting Pastoralists against Drought-related Livestock Mortality

Andrew Mude
World Food Prize ‘Feed the Future’ event, Des Moines, USA
18 Oct 2012; posted on ILRI Slideshare 22 Oct 2012; 576 views.

Excerpts:
Index-Based Livestock Insurance
• An innovative insurance scheme designed to protect pastoralists against the risk of drought-related livestock deaths
• Based on satellite data on forage availability (NDVI), this insurance pays out when forage scarcity is predicted to cause livestock deaths in an area.
• IBLI pilot first launched in northern Kenya in Jan 2010. Sold commercially by local insurance company UAP with reinsurance from Swiss Re
• Ethiopia pilot launched in Aug 2012.

Why IBLI? Social and Economic Welfare Potential
An effective IBLI program can:
• Prevent downward slide of vulnerable populations
• Stabilize expectations & crowd-in investment by the poor
• Induce financial deepening by crowding-in credit S & D
• Reinforce existing social insurance mechanisms

Determinants of IBLI Success
DEMONSTRATE WELFARE IMPACTS
• 33% drop in households employing hunger strategies
• 50% drop in distress sales of assets
• 33% drop in food aid reliance (aid traps)

7 LIVESTOCK-HUMAN (ZOONOTIC) DISEASES

>>> Lessons Learned from the Application of Outcome Mapping to
an IDRC EcoHealth Project: A Double-acting Participatory Process
K Tohtubtiang, R Asse, W Wisartsakul and J Gilbert
1st Pan Asia-Africa Monitoring and Evaluation Forum, Bangkok, Thailand
26–28 Nov 2012; posted on ILRI Slideshare 5 Dec 2012; 1,395 views.

Excerpt:
EcoZD Project Overview
Ecosystem Approaches to the Better Management of Zoonotic Emerging
Infectious Diseases in the Southeast Asia Region (EcoZD)
•  Funded by International Development Research Centre, Canada (IDRC)
•  5-year project implemented by International Livestock Research Institute (ILRI)
•  Goals: capacity building & evidence-based knowledge•  8 Research & outreach teams in 6 countries.

>>> Mapping the interface of poverty, emerging markets and zoonoses
Delia Grace
Ecohealth 2012 conference, Kunming, China
15–18 Oct 2012; posted on ILRI Slideshare 23 Nov 2012; 255 views.

Excerpt:
Impacts of zoonoses currently or in the last year
• 12% of animals have brucellosis, reducing production by 8%
• 10% of livestock in Africa have HAT, reducing their production by 15%
• 7% of livestock have TB, reducing their production by 6% and from 3–10% of human TB cases may be caused by zoonotic TB
• 17% of smallholder pigs have cysticercosis, reducing their value and creating the enormous burden of human cysticercosis
• 27% of livestock have bacterial food-borne disease, a major source of food contamination and illness in people
• 26% of livestock have leptospirosis, reducing production and acting as a reservoir for infection
• 25% of livestock have Q fever, and are a major source of infection of farmers and consumers.

>>> International Agricultural Research and Agricultural Associated Diseases
Delia Grace (ILRI) and John McDermott (IFPRI)
Workshop on Global Risk Forum at the One Health Summit 2012—
One Health–One Planet–One Future: Risks and Opportunities, Davos, Switzerland
19–22 Feb 2012; posted on ILRI Slideshare 5 Mar 2012; 529 views.

8 LIVESTOCK MEAT MARKETS IN AFRICA

>>> African Beef and Sheep Markets: Situation and Drivers
Derek Baker
South African National Beef and Sheep Conference, Pretoria, South Africa
21 Jun 2012; posted on ILRI Slideshare 24 Nov 2012; 189 views.

Excerpt:
African demand and consumption: looking to the future
• By 2050 Africa is estimated to become the largest world’s market in terms of pop: 27% of world’s population.
• Africa’s consumption of meat, milk and eggs will increase to 12, 15 and 11% resp. of global total (FAO, 2009)

9 KNOWLEDGE SHARING FOR LIVESTOCK DEVELOPMENT

>>> Open Knowledge Sharing to Support Learning in
Agricultural and Livestock Research for Development Projects

Peter Ballantyne
United States Agency for International Development-Technical and Operational Performance Support (USAID-TOPS) Program: Food Security and Nutrition Network East Africa Regional Knowledge Sharing Meeting, Addis Ababa, Ethiopia
11–13 Jun 2012; posted on ILRI Slideshare 11 Jun 2012; 2,220 views

10 LIVESTOCK AND GENDER ISSUES

>>> Strategy and Plan of Action for Mainstreaming Gender in ILRI
Jemimah Njuki
International Women’s Day, ILRI, Nairobi, Kenya
8 Mar 2012; posted on ILRI Slideshare 8 Mar 2012; 876 views.

11 AGRICULTURAL BIOSCIENCES HUB IN AFRICA

>>> Biosciences eastern and central Africa –
International Livestock Research Institute (BecA-ILRI) Hub:
Its Role in Enhancing Science and Technology Capacity in Africa

Appolinaire Djikeng
Annual Meeting of the American Association for the Advancement of Science (AAAS), Vancouver, Canada
16–20 Feb 2012; posted on ILRI Slideshare 20 Feb 2012; 2,405 views.

12 PASTORAL PAYMENTS FOR ENVIRONMENTAL SERVICES

>>> Review of Community Conservancies in Kenya
Mohammed Said, Philip Osano, Jan de Leeuw, Shem Kifugo, Dickson Kaelo, Claire Bedelian and Caroline Bosire
Workshop on Enabling Livestock-Based Economies in Kenya to Adapt to Climate Change:
A Review of PES from Wildlife Tourism as a Climate Change Adaptation Option, at ILRI, Nairobi, Kenya
15 Feb 2012; posted on ILRI Slideshare 27 Feb 2012; 762 views.

Roots and tubers to the fore: Cassava and sweet potato may improve dairy goat production in Tanzania’s drylands, but will women benefit?

Tanzania Dairy Goats and Root Crops Project: M&E training

Harrison Rware, an ILRI researcher, listens to Sinayo Taigo, a farmer in Mvomero District, Tanzania during a review of 3-year work plans developed by women in a program that is setting up community-managed breeding programs for dairy goats and introducing improved varieties of cassava and sweet potato in the country (photo credit: ILRI/Deo Gratias Shayo).

Researchers in Tanzania are exploring how small-scale farmers might better integrate production of root and tuber crops, such as cassava and sweet potatoes, with rearing dairy goats to improve the food and nutritional security of their households.

Surprisingly, few programs in Tanzania have yet focused on integrating these crops with small ruminants, such as goats. This is despite the fact that sweet potato and cassava are among the most important root and tuber crops grown by the country’s farmers, most of whom keep goats. Cassava and sweet potato provide human food in periods of hunger, provide feed for ruminant animals (leaf meal from cassava and vines from the sweet potato plant), and can be grown in semi-arid areas.

With farmers, the scientists are setting up community-managed breeding programs for dairy goats and introducing improved varieties of cassava and sweet potato. Both dairy goats and root crops are new to the study region, the Mvomero and Kongwa districts of Morogoro and Dodoma regions, respectively, where project staff distributed Toggenburg and Norwegian improved breeds of dairy goats to 107 farmers in February 2012.

Drought-tolerant varieties of cassava and sweet potato have never before been farmed at large scale in the region and dairy goat keeping has previously been restricted to the wetter areas of the districts. ‘This is changing now,’ says Faustin Lekule, a professor with Sokoine University of Agriculture, ‘because with the use of these crops, we can now introduce dairy goats in dry agro-pastoral areas.’

Led by Tanzania’s Sokoine University of Agriculture and the University of Alberta, in Canada, the project also involves collaboration with the agricultural research institute in Kibaha, the Kongwa and Mvomero district councils and the Foundation for Sustainable Rural Development, a non-governmental organization. The International Livestock Research Institute (ILRI) is serving as knowledge-support partner for the project and is providing expertise on goat production, gender integration, monitoring and evaluation, and assessing food and nutritional security.

‘We’re combining project- and community-based indicators to ensure that farmer decisions guide the project’s implementation,’ said Pamela Pali, a scientist at ILRI who is leading the monitoring and evaluation component of the project. The project is using a web-based monitoring and evaluation system, set up by ILRI’s Research Methods Group, to collect and share information on how farmers are responding to the project’s interventions.

A gender analysis has been applied from the start of the project, including in its research design. ‘We analyzed gender roles, time use, labour allocation and other gender-related factors associated with raising dairy goats and cultivating root crops,’ said Pali. This information was used to refine the distribution of goats and planting materials to households.

Tanzania Dairy Goats and Root Crops Project: M&E Training

ILRI scientist Pamela Pali leads a session on community-based monitoring and evaluation to train farmers in Kongwa District, Tanzania on creating project objectives and indicators (photo credit: ILRI/Deo Gratias Shayo). 

Results from the study sites show that few women own goats or have control over the milk produced and sold from dairy goats. As the demand for milk and milk products increases in cities and milk points, men’s role in milk marketing has taken centre stage. ‘But we also know that livestock activities for women in Africa increase with intensification of production’, says Pali. ‘Seasonal and gender differences in livestock activities such as feeding, watering and milking must be well understood so that we avoid the extra work load on women but ensure that their control over the benefits is increased.’

A key input of the project has been capacity building. Both Sokoine University of Agriculture and the agricultural research institute in Kibaha are training farmers how to raise dairy goats.

‘I received a goat in February this year. As a result of the training, I now understand how to feed the animal, construct a better goat house and identify signs of diseases for my goat. This project has improved my farming skills,’ said Subeida Zaidi, a woman farmer in Kongwa District.

Farmers like Zaidi, who keep goats and grow root crops on small plots typically about one-quarter of an acre, both consume the milk produced by their animals at home and will start to sell it to meet their cash needs. Sustainability is built into this project: once a goat produces offspring, its owner gives a female kid to another farmer, thus ‘passing on the gift’, to use the term made popular by the American non-governmental organization Heifer International.

The project’s monitoring and evaluation trainings have helped farmers clarify their objectives, which include increasing the number of goats they keep, the amount of milk their goats produce and the amount of dual-purpose food-fodder root crops they cultivate. The farmers keep records of their milk production, and this information is supposed to be regularly fed into the web-based monitoring and evaluation system. The researchers are using the information generated to put checks against interventions that are likely to impact women and men, especially those that will narrow the gender, nutrition, income and asset gaps between men and women. The information is also helping project staff and the community members to better understand, and make better use of, the informal markets and ‘value chains’ in the region that the farmers use.

In particular, the University of Alberta is using the project to assess the economic impacts of informal markets, trading and gift giving between households at the village level. Knowing how these informal markets for root crops and goats work will broaden understanding of, and inform, ongoing initiatives in the project.

This project, ‘Integrating Dairy Goats and Root Crops Production for Increasing Food, Nutrition and Income Security of Smallholder Farmers in Tanzania’, is funded by Canada’s International Development Research Centre, and Canadian International Development Agency (CIDA).

Read more about the project http://ilri.org/node/1177 and https://sites.google.com/a/ualberta.ca/diary-goats-and-root-crops-tanzania/home

For more information, read a working paper about this project published earlier this year: Integrating improved goat breeds with new varieties of sweet potatoes and cassava in the agro-pastoral systems in Tanzania: A gendered analysis, by Petra Saghir, Jemimah Njuki, Elizabeth Waithanji, Juliet Kariuki and Anna Sikira, 2012, ILRI Discussion Paper No. 21, International Livestock Research Institute.

The road back to Rio: Turning straw into gold — Crop ‘wastes’ at the heart of greener livestock development

Cow consumes the wastes of a crop harvest in West Bengal

A West Bengal cow consumes straw (photo credit: ILRI/Susan MacMillan).

Key findings were presented today on ways to enhance the value of coarse crop ‘wastes’—better termed ‘residues’—as feed for cattle, water buffalo, sheep, goats and other ruminant farm animals. The talk was given at a ‘learning event’ that is part of Agriculture Day at the Rio-20 United Nations Conference on Sustainable Development.

Carlos Seré, former director general of the International Livestock Research Institute (ILRI) now serving as chief strategist for the International Fund for Agricultural Development (IFAD), delivered this presentation on behalf of Michael Blümmel, an animal nutritionist based in ILRI’s office in Hyderabad, India, who could not make the event as scheduled.

The gist of the presentation is that wheat and rice straw, maize stover, groundnut haulms and other residues of crops that remain after their grain or pods have been harvested for human consumption are major feed resources for livestock in developing countries. Widespread and increasing shortages of arable land and water in these countries are increasing the importance of these crop residues for livestock feed, and their importance will only increase over the coming decades as human population grows and as more and more people move out of poverty and begin adding more milk and meat to their diets.

In recent years, livestock and crop improvement researchers have worked together to improve the fodder value, in terms of both quantity and quality, of crop residues at their source. They’ve done this in crop improvement programs that incorporate fodder traits in crop selection, breeding and new cultivar release criteria. Key cereals and legumes are tackled and both conventional and molecular breeding techniques are employed. Fodder traders and feed processors have started employing additional interventions to further improve the superior crop straws and stover.

The following examples illustrate the many promising findings from this collaborative fodder research.

01  Nutritionally significant variations exist in crop residue fodder value among existing cultivars that can be exploited through simple phenotyping without detriment to primary crop traits such as grain and pod yields.
As a ballpark figure, 5 percentage units in digestibility can be exploited in crop residue fodder quality without detriment to gain or pod yield in all key cereal and leguminous crops. The advantage of daily milk yield accruing from 5% difference in digestibility of basal diet in well designed ration is about 5 kg per day due to a multiplicator effect from both higher energy concentration in the diet and higher intake.

02  Simple and network-sharable food/feed/fodder nutritional phenotyping techniques have been established, such as near-infrared spectroscopy (NIRS) platforms that support whole-plant crop improvement paradigms and programs.
ILRI NIRS platforms in India and Ethiopia are being used by other research programs (e.g., the new CGIAR Research Program on Livestock and Fish) and research organizations (e.g., the International Center from Tropical Agriculture and the International Centre for Agricultural Research in the Dry Areas). Staff of national agricultural research institutions from the Congo, Eritrea, Ethiopia, Rwanda, Tanzania and Uganda have been trained in the NIRS technology and have access to network-shared NIRS equations. NIRS is increasingly being used to test for more qualitative grain traits such as lysine, tryptophan, iron, zinc and polyunsaturated fatty acids, with the aim of optimizing whole plants. This collaborative research is facilitating the analysis of 50 to 100 cultivars every day and gaining information about all their pertinent grain and crop residue traits.

03  Fodder value can be further increased through conventional crop breeding (such as recurrent selection) and molecular crop breeding (such as quantitative trait loci [QTL] identification and backcrossing).
Identification of stay-green QTLs and their backcrossing into elite sorghum varieties could increase stover digestibility by 3 to 5 percentage units while also increasing the sorghum plant’s drought resistance and water-use efficiencies.

04  In mixed crop-and-livestock agricultural production systems, the rates of adoption of new crop cultivars improved for both food and feed/fodder traits appear to be better than that for adoption of new cultivars improved for food traits only.
In a recent maize project in East Africa, farmers ranked stover traits 2.4 and grain yield 2.9 on a scale of 3. Farmers were most likely to adopt new maize cultivars that had improved stover as well as grain traits. Anecdotal  evidence from groundnut adoption studies in India suggests that farmers prefer relatively small additive advantages—say 10% more pod + 10% more haulm + 10% more haulm quality—over (often theoretical) drastic increases in pod yield.

05 Participants in fodder value chains for straw and stover profit from superior straw and stover.
Price premiums for 3 to 5 percentage units in digestibility are in the range of 10 to 30%. There is higher demand for higher quality crop residues and superior sorghum stover is now regularly transported more than 400 km in parts of India. There are significant employment opportunities in harvesting, chopping, transporting and selling these crop residues.

06  Further improvement of superior straw and stover, in the form of supplementation, fortification or densification, can be done in feed processing, with productivity levels achieved from such processed but largely by-product-based feeds being four or more times greater than current levels of production.
Complete rations based on more than on 80% by-products (50–60% straws and stovers) can support 15–16 kg of milk daily in dairy buffaloes, about 1 kg live-weight gain in cattle and 120–130 g in sheep. Complete rations are suitable for smallholder farmers because the rations need not entail complex feed processing options; simply chopping and supplementing residues can suffice.

07  Increasing current yields of animals in India, such as by doubling the average daily yield of 3.6 kg of milk (across buffalo, crossbred and local cattle herds), would reduce levels of greenhouse gases dramatically, decreasing methane emission from dairy production by more than 1 million tons per year.
This is straightforward; increasing average daily milk yields in India from 3.6 to 6 to 7 kg per animal per day would reduce methane production from dairy animals relative to the same amount of milk produced by about 1 million tons per year.

In addition, there are good prospects for mainstreaming such multi-dimensional crop improvement outputs. For example, new CGIAR Research Programs (such as those on maize, rice, dryland cereals, and grain legumes) have already adopted the approach and have incorporated fodder value as high-priority traits in these crops.

Read more
Read more about the context for this livestock feeds learning event at Agriculture Day at Rio+20 on this ILRI News Blog:
The Road Back to Rio: ‘LivestockPLUS Learning Event’ shows how better feed reduces poverty AND livestock ‘hoofprints’, 18 Jun 2012.

Follow the presentations and discussions of this learning event on Twitter as @agricultureday and check updates via the Twitter-tags #RioPlus20 and #Rio4Ag and the Facebook page for ARDD. You can also follow CGIAR at Rio on this landing page on the CGIAR Consortium website.

Read more about ILRI’s crop residue research:
Dual-purpose groundnut, pigeonpea, millet and sorghum raise milk yields in dairy-intensive India, 8 Apr 2012.

Food-feed crops research: A synthesis, 17 Jan 2011.

Better support for, and integration of, mixed crop and animal farming is key to increasing and sustaining world food production

Gita Kothari, crop-livestock farmer in India's northern state of Uttarakhand

A crop and livestock farmer in Uttarakhand, India. Integrated crop and livestock farming systems can play a significant role in improving global food security (photo credit: ILRI/Susan Macmillan).

Gita Fartiyal is a master’s student at Almora University, in Uttarakhand, India. She is also a small-scale livestock keeper. The money she makes from selling milk and animals is helping pay for her schooling. Fartiyal and her brother keep about 40 goats on a family crop-and-livestock farm in the mid-Himalayan region of northern India. Gebremicheal Desta grows crops and keeps dairy cows on a small farm in Ethiopia’s’s northern region of Tigray. His family depends on the income it gets from farming to pay for food, daily expenses and school fees.

Smallholder farmers, especially those in mixed crop and livestock systems like Fartiyal and Desta, produce milk, meat and eggs not only for their families but also to meet growing demands for foods of livestock origin. In much of the developing world, increasing population, economic growth and urbanization is driving a rapid demand for livestock foods. In India, for example, smallholders are producing more milk (105 million tons of milk in 2009 compared to 74 million tons in 1999) to respond to an increasing demand for dairy products. With the world’s population expected to reach 9 billion people by 2050, smallholder farmers are expected to play an important role in meeting global food demand in coming years.

Mixed crop and livestock farming systems support nearly 1 billion poor people across the world. Most of these are smallholders working a couple of hectares and relying on family labour to grow crops and keep livestock. But questions remain about how best to intensify production in these mixed systems so as to increase food yields and do so sustainably.

A report released last year, ‘Integrating crops and livestock in subtropical agricultural systems’, produced by researchers from the International Livestock Research Institute (ILRI) and the International Maize and Wheat Improvement Center, evaluates options to sustainably intensify production in these smallholder mixed systems. The 2011 report explores ways of refining the integration of crop growing and animal husbandry in the face of ever-diminishing land and water resources and climate change.

‘We need to help these small-scale farmers make the most efficient use of their land and water resources to increase productivity while at the same time sustaining and enhancing their natural resource base’, said Iain Wright, a science leader at ILRI and one of the report’s authors.

According to the paper, a key to global food security is helping tropical smallholders produce more food more efficiently through smart integration of their crop and livestock production.

The authors recommend three practical ways to both improve and sustain smallholder crop production.

First, crop and animal scientists should work together in crop improvement programs to improve the fodder quality of cereal and legume food crops. The resulting new varieties of sorghum and other crops would provide good yields of both human food and livestock feed. Second, farmers should make greater use of crop residues as animal feeds, which will make better use of water resources by ‘spreading the “cost” of the water used for growing crops across the grain and animal feed components’. Third, farmers should more effectively harness manure for crop production by adopting the ‘technology of storing and distributing manure to avoid the loss of nutrients and biomass’.

In the battle to produce more food to feed the world, smallholder mixed crop and livestock systems are increasingly seen as competitive because they make efficient use of natural resources, spread risk across several enterprises and allow for more flexible and profitable use of family labour, all of which can translate into much lower costs and environmental impacts in producing food compared to large specialized and industrialized farms. The increasing demand for livestock products is also making it possible for farmers to access local markets and increase their incomes.

The report also acknowledges that mixed crop and livestock farming systems alone will not produce all the food the world will need. ‘Specialised cropping systems and intensive livestock systems will [also] play their part’, the paper says. The rapid transition to industrial production of poultry, pig and dairy production systems in Asia is an example of how intensified agricultural production systems are helping to meet food demands for growing populations in that part of the world.

At the same time, the vast army of small-scale farmers like Fartiyal and Desta will be able to fulfill their potential and fully participate in more efficiently integrated agricultural systems that improve global food security only if they have access to ‘appropriate technologies, supportive policies at local, national and regional level and dynamic markets that can supply inputs and channel outputs to consumers more efficiently’.

Download the report: https://cgspace.cgiar.org/handle/10568/5556

Watch a related ILRI photofilm: ‘A tribute to the unsung heroes of small-scale food production’, http://blip.tv/ilri-photofilm/tribute-to-the-unsung-heroes-of-small-scale-food-production-5225764

 

 

 

Making Asian agriculture smarter

cambodia21_lo

A cow feeds on improved CIAT forage grasses, in Kampong Cham, Cambodia (photo credit: Neil Palmer/CIAT).

Last week, coming on the heels of a Planet Under Pressure conference in London, which set out to better define our ‘planetary boundaries’ and to offer scientific inputs to the Rio+20 United Nations sustainable development conference this June, a group of leaders in Asia—comprising agriculture and meteorology chiefs, climate negotiators and specialists, and heads of development agencies—met to hammer out a consensus on ways to make Asian agriculture smarter.

The workshop, Climate-smart agriculture in Asia: Research and development priorities, was held 11–12 April 2012 in Bangkok. It was organized by the Asia-Pacific Association of Agricultural Research Institutes; the CGIAR Research Program on Climate Change, Agriculture and Food Security; and the World Meteorological Organization.

This group set itself three ambitious tasks: To determine the best options (1) for producing food that will generate lower levels of greenhouse gases, which cause global warming; (2) for producing much greater amounts of food, which are needed to feed the region’s rapidly growing and urbanizing population; and (3) for doing all this under a changing climate that, if farming and farm policies don’t change, is expected to reduce agricultural productivity in the region by anywhere from 10 to 50 per cent over the next three decades.

The workshop participants started by reviewing the best practices and technologies now available for making agriculture ‘climate smart’. They then reviewed current understanding of how climate change is likely to impact Asian agriculture. They then agreed on what are the gaps in the solutions now available and which kinds of research and development should be given highest priority to fill those gaps. Finally, they developed a plan for filling the gaps and linking scientific knowledge with policy actions at all levels.

On the second of this two-day workshop, the participants were asked to short-list no more than ten key areas as being of highest priority for Asia’s research and development communities.

This exercise tempted this blogger to suggest ten suitable areas in the livestock sector.

(1) Lower greenhouse gas emissions from livestock through adoption of improved feed supplements (crops residues) that reduce greenhouse gas emissions.
Contact ILRI animal nutritionist Michael Blümmel, based in Hydrabad, for more information: m.blummel at cgiar.org

(2) Safeguard public health by enhancing Asia’s capacity to detect and control outbreaks of infectious diseases transmitted between animals and people.
Contact ILRI veterinary epidemiologist Jeff Gilbert, based in Vientienne, for more information: j.gilbert at cgiar.org

(3) Improve the efficiency of water used for livestock and forage production.
Contact ILRI rangeland ecologist Don Peden, based in Vancouver, for more information: d.peden at cgiar.org 

(4) Pay livestock keepers for their provision of environmental services.
Contact ILRI ecologist Jan de Leeuw, based in Nairobi, for more information: j.leeuw at cgiar.org

(5) Recommend levels of consumption of meat, milk and eggs appropriate for the health of people, their livelihoods and environments in different regions and communities.
Contact ILRI partner Tara Garnett, who runs the Food Climate Research Network based in Guildford, for more information:  t.garnett at surrey.ac.uk

(6) Design institutional and market mechanisms that support the poorer livestock keepers, women in particular.
Contact ILRI agricultural economist Steve Staal, based in Nairobi, for more information: s.staal at cgiar.org 

(7) Educate publics in the West on the markedly different roles that livestock play in different regions of the world.
Contact ILRI systems analyst Philip Thornton, based in Edinburgh, for more information: p.thornton at cgiar.org

(8) Adopt risk- rather than rule-based approaches to ensuring the safety of livestock foods.
Contact ILRI veterinary epidemiologist Delia Grace, based in Nairobi, for more information: d.grace at cgiar.org 

(9) Focus attention on small-scale, relatively extensive, mixed crop-and-livestock production systems.
Contact ILRI systems analyst Mario Herrero, based in Nairobi, for more information: m.herrero at cgiar.org 

(10) Give livestock-keeping communities relevant and timely climate and other information via mobile technologies.
Contact ILRI knowledge manager Pier-Paolo Ficarelli, based in Delhi, for more information: p.ficarelli at cgiar.org

Do you have a ‘top-ten’ list of what could make Asian agriculture ‘smart agriculture’? Post it in the Comment box, please!

Go here for ILRI blogs about the Planet Under Pressure conference.

ILRI in Asia blog

‘Feed the Future’: Connecting ALL the (agricultural research) dots in the Ethiopian highlands

Sustainable intensification of crop-livestock systems to improve food security and farm income diversification in the Ethiopian highlands: Project Design Workshop—Project Outline and concepts

Watch and listen to a 17-minute (audio-enhanced) slide presentation made by ILRI’s Shirley Tarawali on the ‘Sustainable intensification of crop-livestock systems to improve food security and farm income diversification in the Ethiopian highlands,’ 30 Jan 2012.

Can scientists make the whole of agricultural research for development greater than the sum of its parts? That’s the aim of a new initiative starting this year in three regions of sub-Saharan Africa.

As part of an American ‘Feed the Future’ initiative to reduce hunger in sub-Saharan Africa, the US Agency for International Development (USAID) is supporting three agricultural research projects aiming to help Africa’s smallholders intensify their production systems and do so in ways that are sustainable.

These projects will be conducted in three regions of Africa: Sustainable intensification of cereal-based farming systems (1) in the Sudano-Sahelian Zone of West Africa and (2) in East and Southern Africa, both led by the International Institute of Tropical Agriculture (IITA), based in Ibadan, Nigeria; and (3) Sustainable intensification of crop-livestock systems to improve food security and farm income diversification in the Ethiopian highlands, led by the International Livestock Research Institue (ILRI).

These three African agricultural intensification projects were all launched this year (2012) with design workshops. A wiki has information on the three workshops, including their agendas and outputs.

The design workshop for the project in the Ethiopian highlands has just started at ILRI’s campus in Addis Ababa. ILRI’s director for its People, Livestock and the Environment Theme, agronomist Shirley Tarawali, who will soon take up a new position as ILRI’s director of institutional planning, gave a 17-minute slide presentation on the project (above).

Tarawali said in her presentation that the project is ambitious to fix the disconnect between separate research projects on separate agricultural topics (livestock, cereals, water, and so on) by identifying and then pulling together the best research outputs from the separate research projects. Such outputs include, for example, the identification of legumes and cereals that will better feed livestock as well as people (and sometimes soils as well); ways to make more strategic use of scarce fertilizers and optimal combinations of organic (manure) and inorganic (synthetic) fertilizers; and more efficient ways to use water resources.

Add these kinds of useful products together and we could benefit whole farming systems,’ says Tarawali.

To learn more, or to contribute to the discussions, visit a blog about this Feed the Future initiative in the Ethiopian highlands.

Read an ILRI Clippings Blog about this initiative: Experts meet in Addis Ababa to design new agricultural research project for Ethiopian highlands, 30 Jan 2012.

Read more about the importance of small-scale mixed crop-and-livestock farming systems in the developing world:

Seminal and holistic review of the probable ‘futures’ of livestock production, food security and environmental protection, 7 Dec 2011.

Mixed crop-and-livestock farmers on ‘extensive frontier’ critical to sustainable 21st century food system, 23 Jun 2011.

 

 

Livestock systems in Africa: The big picture–by livestock economist Carlos Sere

Watch this 11-minute video of a slide presentation made by ILRI Director General Carlos Seré in Los Banos, the Philippines, in late 2010 (video produced by the International Rice Research Institute).

In a slide presentation on ‘Reinventing Agriculture in the 21st Century: Livestock Systems in Africa,’ Carlos Seré, director general of the International Livestock Research Institute (ILRI), made three main points.

First, livestock is the fastest growing part of developing-world agriculture. It’s the ‘demand pull’ that can drive these agricultural systems.

Second, these are all ‘mixed systems’, with crop growing mixed with livestock raising; understanding the interactions between them is essential for the design of any strategy for agricultural development.

Third, we have a lot of the building blocks to achieve ‘sustainable intensification’ of smallholder agricultural production, but the real challenge is much more institutional in nature—how do we tie everything together, scale out the best interventions, and deliver them effectively?

Data from the United Nations Food and Agriculture Organization (FAO) tells us that the most important agricultural commodity in the world is cow’s milk, followed by rice, cattle meat, pig meat, chicken, wheat and eggs . . . So we can see that livestock is central to the global agricultural sector and becomes increasingly so as societies develop. In developing countries, rice is the number one commodity, followed by indigenous cattle meat and cow’s milk.

Due to population growth and other factors, the developing world’s livestock systems are changing fast and in big ways. Science can help the world’s poorer livestock keepers to work with these trends.

Most people in developing countries live in areas where mixed crop-livestock systems predominate. That is something we tend to forget: we tend to come in with a specific disciplinary approach, looking at crops or trees or livestock in isolation, when all these and more are integrated in a whole agricultural system that we must attend to.

Seré summed up his presentation by saying that livestock is the motor that brings in cash to smallholder mixed farmers. While cereals sustain the family, animals are the cash source. There’s a lot of potential to help small-scale livestock keepers to reduce the amount of greenhouse gases produced per kilo of livestock output. A lot of the techniques and interventions needed to intensify smallholder food production are already there; the challenge is how to bring them all together at scale and in useful ways for the farmer.