World’s largest agricultural research partnership, serving 1 billion poor, marks $1 billion funding milestone–CGIAR

Tanzanian Maasai helping to treat cattle against East Coast fever

Tanzanian Maasai help vaccinate their calves against lethal East Coast fever (photo credit: ILRI/Stevie Mann).

CGIAR has doubled its funding in the last five years, from $500 million (in 2008) to $1 billion (in 2013).

Officials say harvesting the fruits of this historic commitment could, among other benefits, lift 150 million people in Asia out of poverty by boosting rice production, provide 12 million African households with sustainable irrigation, save 1.7 million hectares of forest from destruction, give 50 million poor people access to highly nutritious food crops, and save up to 1 million cattle from dying untimely deaths each year due to a lethal disease.

The International Livestock Research Institute (ILRI) is one of 15 global research centres belonging to CGIAR, which works with hundreds of partners to develop innovative solutions, tools, and technologies for the benefit of the world’s poorest people. It seeks to bring cutting edge science to bear on a wide range of issues facing millions of farmers and other poor smallholders in developing countries who collectively generate nearly 70 percent of the world’s food production.

‘The $1 billion in funding will help finance CGIAR’s 16 global research programs and accelerate the development of scientific, policy and technological advances needed to overcome complex challenges—such as climate change, water scarcity, land degradation, and chronic malnutrition, greatly improving the well-being of millions of poor families across the developing world’, said Frank Rijsberman, CEO of the CGIAR Consortium.

For more than 40 years, CGIAR and its partners have transformed the lives of hundreds of millions of people with the tangible outcomes of agriculture research, including improved crop varieties, sustainable farming methods, new fish strains, novel livestock vaccines, climate-smart solutions, and incisive policy analysis.

For example:

In eastern Africa, a ‘live’ vaccine against the deadly cattle disease East Coast fever developed by ILRI with the Kenya Agricultural Research Institute and other partners and now being distributed by GALVmed, has saved 620,000 calves, benefiting up to 50,000 poor households that rely on cattle for food and income. The vaccine could benefit 20 million more people in the region, with annual benefits of $270 million.

  • Drought tolerant maize has increased farmers’ yields by 20-30%, benefiting 20 million people in 13 African countries.
  • ‘Scuba rice’, which can survive under water for two weeks, is protecting the harvests, incomes, and food security of poor farmers and consumers across monsoon Asia.
  • Newly developed potato varieties that withstand late blight disease and yielded eight times more than native varieties in the region have made the difference between having enough to eat or not in the Paucartambo province of Peru, where late blight threatened to devastate staple food supplies.
  • By integrating food crops with trees that draw nitrogen from the air and transfer it to the soil, an innovative agroforestry practice captures carbon and reduces greenhouse gas emissions, while improving soil fertility, rainwater use efficiency, and yields by up to 400% for maize in the Sahel region.
  • Across Afghanistan, Bangladesh, Ethiopia, Egypt, Nepal, and Pakistan, high-yielding wheat varieties resistant to Ug99, a highly virulent disease, have protected the livelihoods and food security of 500,000 farming families.

Read the CGIAR press release: CGIAR doubles funding to $1 billion in five years, 17 Dec 2013.

ILRI PhotoBlog — ‘Livestock Portraits’: Sheko cattle in Ethiopia

Sheko calf kept in the Ghibe Valley of Southern Ethiopia (photo credit: Jim Richardson)

The above photo, taken by National Geographic photographer Jim Richardson, is of a Sheko calf kept in the Ghibe Valley of southern Ethiopia. The Sheko cattle breed is endangered, with only about 2,500 in existence today. They are a valuable breed because of their ability to resist diseases (African animal trypanosomiasis, related to human sleeping sickness) transmitted by Africa’s tsetse fly. The International Livestock Research Institute (ILRI) is protecting, studying, and breeding Sheko cattle in Ethiopia.

Read more here about ILRI’s work to conserve animal genetic resources of developing countries.

 

 

New advances in the battle against a major disease threat to cattle and people in Africa

ILRI research on biotechnology to fight a major disease threat to cattle and people in Africa

An 8-month old cloned Boran calf named Tumaini (meaning ‘hope’ in Kiswahili), on the left, is part of a long-term ILRI research project to develop cattle for Africa that are genetically resistant to trypanosomiasis (photo credit: ILRI/Paul Karaimu).

The International Livestock Research Institute (ILRI), a member of the CGIAR Consortium, is a non-profit organization based in Africa. ILRI’s mission is to use the best and safest livestock science available to confront poverty, hunger, and disease in the developing world, where livestock provide livelihoods and food for hundreds of millions of people.

One of ILRI’s most important priorities today is to help poor livestock keepers in Africa deal with the constant threat of a devastating disease called trypanosomiasis. This disease is arguably Africa’s most important livestock disease, wasting and killing cattle, commonly the most important asset of poor households. The human form of the disease is called sleeping sickness, which afflicts tens of thousands of people every year, killing many of them, and putting tens of millions more people at risk.

As part of ILRI’s comprehensive fight against trypanosomiasis, the institute is now in the very early stages of a project to develop disease-resistant cattle, which could save the lives of livestock and people both. Thus far, ILRI and its partners have taken a preliminary step in the process, which involved successfully cloning a male calf from one of East Africa’s most important cattle breeds, the Boran. The calf is healthy and is being raised at ILRI’s research facilities in Kenya.

A next step is to develop a new Boran clone modified with a gene that naturally confers resistance to the disease. This involves using a synthetic copy of a gene sequence originally identified in baboons that should protect cattle against this devastating disease.

A final step will be to use these disease-resistant cattle in breeding schemes that will provide African countries with another option in their fight against trypanosomiasis.

This research potentially offers a reliable, self-sustaining and cost-effective way of protecting tens of millions of African cattle against disease and untimely death, as well as dramatically reducing poverty across Africa. By reducing the reservoir of pathogens, this should also help to save thousands of human lives each year.

It could take up to two decades to develop disease-resistant cattle herds for Africa. ILRI and its partners are also continuing to pursue other options for fighting trypanosomiasis, such as rationale drug treatment and integrated disease control methods.

For ILRI, public safety and animal welfare are paramount; this means working with all the relevant Kenyan and international regulatory authorities to ensure that the highest bio-safety standards are always employed. In line with its commitment to transparency, ILRI places all of its research results in the public domain.

ILRI is working with a team that includes scientists from New York University, along with experts from the Roslin Institute in Scotland, and Michigan State University in the USA. The fundamental research aspects of this project are being funded by the US National Science Foundation.

For further information, see:
ILRI website:
https://www.ilri.org/breadtrypanosome

National Science Foundation:
www.nsf.gov/news/news_summ.jsp?cntn_id=116932

2009 paper published in the Proceedings of the National Academy of Sciences (USA) on original breakthrough in this research project:
http://dx.doi.org/10.1073%2Fpnas.0905669106

Or contact one of the following people:

Jimmy Smith
ILRI Director General
j.smith@cgiar.org

Suzanne Bertrand
ILRI Deputy Director General for Biosciences
s.bertrand@cgiar.org

Steve Kemp
Leader of ILRI’s research on this topic
s.kemp@cgiar.org

About ILRI: better lives through livestock
www.ilri.org
The International Livestock Research Institute (ILRI) works with partners worldwide to enhance the roles that livestock play in food security and poverty alleviation, principally in Africa and Asia. The outcomes of these research partnerships help people in developing countries keep their farm animals alive and productive, increase and sustain their livestock and farm productivity, find profitable markets for their animal products, and reduce the risk of livestock-related diseases. ILRI is a not-for-profit institution with a staff of about 600 and, in 2012, an operating budget of about USD 60 million. A member of the CGIAR Consortium working for a food-secure future, ILRI has its headquarters in Nairobi, Kenya, a principal campus in Addis Ababa, Ethiopia, and offices in other countries in East, West and Southern Africa and in South, Southeast and East Asia.

About CGIAR: working for a food-secure future
www.cgiar.org
CGIAR is a global partnership that unites organizations engaged in research for a food-secure future. It is carried out by 15 centres that are members of the CGIAR Consortium and conducted in close collaboration with hundreds of partner organizations, including national and regional research institutes, civil society organizations, academia and the private sector. The CGIAR’s 8,000 scientists and staff work in the developing world to reduce rural poverty, increase food security, improve human health and nutrition, and ensure more sustainable management of natural resources. With unparalleled research infrastructure and dynamic networks across the globe, and maintaining the world’s most comprehensive collections of genetic resources, CGIAR is the only institution with a clear mandate on science and technology development for the eradication of hunger and poverty at the global level.

ILRI PhotoBlog — ‘Livestock Cultures’: ‘Oxen in Repose’ by John Singer Sargent

Oxen in Repose, 1911, by John Singer Sargent

Oxen in repose, 1910, watercolour by John Singer Sargent (via WikiPaintings).

To receive alerts of new postings on this ILRI News Blog, including livestock-related artworks like the one above published in a new series of ‘photoblogs’, please subscribe to the ILRI News Blog by clicking on one of the buttons in the righthand column of this page: ‘Subscribe by email’ or ‘Subscribe to newsfeed’. Thank you!

Cows in the cloud: Kenyans are registering their cows, and increasing their milk yields, on their mobile phones

Su Kahumbu

Award-winning Kenyan agricultural entrepreneur Su Kahumbu (photo on Flickr by afromusing).

On Tue, 11 Dec 2012, Kenyan social entrepreneur Su Kahumbu gave ILRI’s fourth ‘livestock live talk’ seminar, titled ‘Livestock and mobile technology’, at the International Livestock Research Institute (ILRI), in Nairobi, Kenya.

Kahumbu founded Green Dreams Ltd and Green Dreams Tech Ltd companies, which are focused on creating solutions for small-scale organic farmers in Africa. She has 14 years experience across the whole of the organic value chains in Kenya, from production to consumption and policy to advocacy. Kahumbu is a TED Fellow and is spreading her passion through the TED network; her ambition is to help ‘Build a better Africa from the ground up’.

Kahumbu is also the creator of an Apps4Africa Award-winning app known as iCow, a mobile application officially launched in June 2011 that she developed to help small-scale dairy farmers track their cow’s fertility cycle. It prompts  farmers on vital days of cow gestation period, helps  farmers find the nearest vet and all service providers, collects and stores farmer milk and breeding records, and sends farmers best dairy practices.

A mother of three, Kahumbu started her presentation by confessing to her largely scientific audience that she knew little cows when she started and know little about technology . “What I feel I do know about is what smallholder farmers need to help them mitigate the big risks of farming. My presentation will take you through the development of iCow.

What keeps her up at night
‘There are a few things that keep me up at night. One billion people on the planet suffering from malnutrition. And climbing. Largely due to unsustainable agriculture and ecological practices. . . . We do produce enough food for the planet, but we only consume half of what we produce. Millions of tonnes are lost in post-harvest, transport, processing and retail.

‘That’s worrying. More worrying is that more than one in four Africans—218 million people—on this continent are suffering from undernourishment.

‘The current solutions I feel that we’ve been delivering to small-scale farmers and to farmers in general have been at the expense of our ecosystem and is resulting in dependence on very heavy, expensive inputs: fertilizers, adapted and modified seeds that generally the farmers cannot afford.

‘In working with farmers over the last few years, I’ve seen this continual vicious cycle, with farmers being pushed to adopt new technologies, and to spend more, and to get money from banks. And I don’t see this as sustainable, especially when the core problem is that we’re not focusing on the fertility of our soils.

‘On top of that, who is it that we call a farmer? Farmers in industrialized countries are mechanized, industiralized, subsidized, compared to farmers here who are, literally, unsupported, yet, in our case in Kenya, supply 80% of the national food. It’s quite shocking.

‘Farmers risks [here] are enormous. If I were to say to you, “Let’s all of us get out there and go get a job where we’re going to have weather on our doorsteps, poor storage, poor infrastructure, high inputs”, how many of us would actually say “That’s great, let’s go do it”? Yet we depend on these same smallholder farmers to feed us.

Going forward, one of the things I think we really need to focus on is what I’m largely doing with iCow, and that is focusing on reducing the risks of the smallholder farmer. . . .

It became quite evident that what farmers needed was knowledge, markets and finance. . . .

Mobiles in Kenya: A ‘huge, huge, huge opportunity’
‘We have today 80% mobile phone penetration across the country, with 100% penetration among 20 to 29 year olds. On the African continent, we have 700 million mobile phones using many mobile phone plans. That is a huge, huge, huge opportunity to get information out to farmers.

‘And that leads me to iCow. iCow is an agricultural information platform accessed primarily via mobile phones, although we do do some stuff on the web. You don’t have to have a smart phone. We started out using sms [short message service]. The objectives were to increase farmer productivity through increased knowledge.

The iCow ‘pipe’
‘I describe iCow as a pipe, with one end the farmers. . . . Farmers register their cow on the date the animal is served and we start to push sms’s to them along the gestation period of that animal, reminding the farmer when she’ll come into heat again. We continue to drip-feed information on best practices right up until the animal gives birth. If it’s a lactating animal, when tell them when and how to dry the cow off without it getting mastitis, etc.

‘To get a vet or AI, farmers simply send the word “vet” or “AI” plus the short code—the short code is 50-24—over one of the three largest networks in the country. When they send the word “vet”; they get a response asking them where they’re located, and they receive the telephone numbers and the names of the vets in their locality. Same with AI. This service is offered 24/7.  The system is automated so they can receive the information whenever they like. Both these features are quite popular.

‘As we took the product to market, we had to build in a customer care centre . . . . We found that many farmers knowing that there is a voice at the end of the system helps them adopt new technologies.

‘As we started to roll out the platform, on 3 June 2011, . . . we had to build another feature quite quickly, and that is what we call Mashauri. That is where farmers register to receive three sms messages a week, at this point in time across the value proposition of the cow. And so they get information on feeding, on vaccinations, on calf care, etc. But they don’t have to have registered their cow.

‘Soon after that, farmers started saying “I want to buy a cow”, “Where do I get  a heifer calf”. Or “I want to buy a dairy goat”. So we built a marketplace [called Soko]. Very, very easy. Just like Craig’sList [an online classified ad service in many cities and countries throughout the world], but on a mobile phone [rather than the internet]. Through a series of steps, a farmer posts what it is he wants to sell, and through a series a steps whoever is looking for that will simply get his telephone number. So if you’re selling a Toggenburg goat, you will put in “Toggenburg goat” and farmers looking for Toggenburg goats will get your number. . . .

‘As our database started to grow—today our database is 42,000 farmers—we put on a feature called Sauti. Again, farmers register for it, and if anything critical comes up, we can send them that information on their authority. . . .

‘And then Videos. An sms is only 160 characters long; you cannot put too much information in an sms. So we’ve put up 2-3-minute videos on our website and we’ve shown farmers who are registered what to do when they get to the nearest cybercafe; we send them short links where they’ll find short videos about  the information they’re looking for. . . .

TEDx Nairobi 2010: Su Kahumbu

Su Kahumbu is a TEDX Fellow (picture on Flickr by Wa-J, Joshua Wanyama).

Both ends of the iCow pipe are working
‘What we found was that as we were dealing with farmers, other people started getting interested—the other end of the pipe—the NGOs, government, practitioners on the ground, etc. We started getting requests from them to help reach farmers, in some cases just to do surveys, so that they could see very quickly how their programs were impacting on the ground. So both ends of the pipe are now actually working.

Virtual vets
‘We also found that sometimes farmers were requesting things from us that we couldn’t answer. And they weren’t very happy about the vets on the ground. So we thought, “What can we do about that?”. So we started looking at using vets in the virtual sense.

‘We formed a very simple system using Google Docs. We upload any question that we can’t deal with or that the farmer didn’t get an answer to on the ground to a few vets, and the vets send the messages among themselves and come up with the best answer that they send to us, that we then forward to the farmer.

‘It’s really interesting because we have vets in Uganda answering questions from farmers in Kenya. And we’ve had requests from Senegal, where they had only four vets on the ground, asking whether they can use the same system.

‘Long-term, it makes it very interesting how expertise and skills using the cloud can actually network and reach out across borders quite easily, if it is planned right and there is political support.

iCow snapshot

  • 42,000 farmers in the iCow database.
  • iCow is becoming an educational tool.
  • Profile of iCow farmer: 1–2 acres land, 2–3 cows, 20% women.
  • After 7 months, iCow farmers are getting 2–3 extra litres of milk per cow per day.
  • Other gains:
    Reduced calf mortality
    Fee conservation
    Fodder production
    Reduced veterinary costs
    Healthier animals

Amazing maize story
‘An interesting thing happened on April 10th, when the first information started coming out about maize disease in the country. Farmers were up in arms—they weren’t getting any responses from government. They wanted to know “What is the solution? What can we do?” Government was being quite, everybody was being quiet, because nobody knew what to do.

‘But we heard from some farmers on Facebook that one of the seed multiplication centres of KARI [the Kenya Agricultural Research Institute] had some good-quality disease-free seed. So we took that information, put it on our system and sent it to 11,000 farmers, using iCow. And literally, within minutes, the phone in that centre was ringing off the hook and farmers started to buy the seed using MPESA [Kenyan mobile phone financial service] and having it sent by matatu [Kenyan taxi]. Within three days, there was no seed left in that centre.

‘We called KARI and asked “What was the reaction?”. They said, “How did that happen? We now have to bulk up three times as much seed as we thought we needed. They expected to sell the seed over a six-month period and they sold it, literally, within days. So again, using technology to make those links, make those connections work. It was 6 weeks later that the seed problem hit the headlines in Kenya. I was so happy that at least we could do something that much earlier for farmers.

East Coast fever vaccine: 99% of Kenyan farmers want it
‘Many of you know, especially here in ILRI, that the ECF [East Coast fever] vaccination has just been launched  in Kitale. We worked with GALVmed to do a survey using iCow to find out what farmers felt about the vaccination. And 99% of those surveyed said they want the vaccination and said “When can we have it? Let us know straight away.”

‘We were invited to the launch and I’m happy to say that this is going to be a huge thing for the farmers in Africa. This is an awful disease killing up to 1.1. million livestock a year on the continent.

‘That brings me to the end of my presentation.

What iCow is doing, I believe, is turning our farmers, our survivors, our people on the land, whatever you want to call them, into knowledgable farmers. We currently have farmers in 42 different counties; we have 42,000 farmers in our database using different features of the platform.

Thank you.’

Watch and listen to this Part 1 of ILRI’s ‘livestock live talk’ seminar here: https://www.ilri.org/livestream. Part 2 of this talk, in which Kahumbu tells us more about herself and answer questions, will be posted here soon.

Or view her slide presentation here: Livestock and mobile technology, presentation by Su Kahumbu at ILRI on 11 Dec 2012.

You can contact Su Kahumbu at su [at] greendreams.co.ke


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).

Fewer, better fed, farm animals: Good for the world’s climate and the world’s poor

 

‘Fewer but better fed animals can make livestock production more efficient.’ This was said by Mario Herrero at the International Livestock Research Institute (ILRI) in Nairobi. Herrero was speaking on 13 November 2012 in the fourth of a series of science seminars organized by the CGIAR Research Program on Climate Change, Agriculture and Food security (CCAFS). The presentation was live-streamed to an online audience of 220 people.

Herrero, an agricultural systems analyst at ILRI, gave an up-to-date overview of ways the livestock sector in developing countries can help mitigate greenhouse gas emissions, which are causing global warming. `We face the challenge of feeding an increasing human population, estimated to reach 9 billion by 2050, and doing so in ways that are socially just, economically profitable and environmental friendly,’ he said.

This matters a lot. There are about 17 billion domestic animals in the world, with most of these in developing countries. The raising of these animals generates greenhouse gases such as methane (emitted through enteric fermentation and some manure management practices). And the number of livestock in the developing world will only increase in future decades.

Mitigating potentials of the livestock sector

Livestock benefit many of the world’s poorest people, with at least 1 billion of them depending either directly or indirectly on livestock for nourishment and income and livelihoods. But most of the inefficiencies in livestock production occur in developing countries, where people lack the resources to refine their production practices.

The good news is that livestock production in poor countries can be improved dramatically to close big yield gaps there. Herrero gave some examples:

  • Discourage and reduce over-consumption of animal-source foods in communities where this occurs,
  • Encourage and provide incentives to small-scale farmers to keep fewer but better fed and higher producing animals, and
  • Promote ways of managing manure from domestic animals that reduce methane emissions.

Mitigation potentials of the livestock sector

Herrero leads ILRI’s climate change research and a Sustainable Livestock Futures group, which reviews interactions between livestock systems, poverty and the environment. He says,  `In the coming decades, the livestock sector will require as much grain as people. That’s why there’s great need to keep fewer but more productive farm animals. We need to find ways to produce enough food for the world’s growing human population while reducing global warming and sustaining livelihoods of the poor.’

That, says Herrero, will involve some hard thinking about hard trade-offs.

For instance, while reducing the number of animals kept by poor food producers, and intensifying livestock production systems, could reduce global methane emissions by livestock, we’ll have to find efficient and sustainable ways for small-scale farmers and herders to better feed their animal stock. And while raising pigs and poultry generates lower levels of greenhouse gas emissions than raising cattle and other ruminant animals, pigs and poultry cannot, like ruminants, convert grass to meat.

‘There’s no single option that’s best,’ cautions Herrero. ‘Any solution will need to meet a triple bottom line: building livelihoods while feeding more people and reducing greenhouse gas emissions.’

Click on this link to view Mario Herrero’s full presentation: Mitigation potentials of the livestock sector, http://www.slideshare.net/cgiarclimate/livestock-mitigation-mario-herrero-nov-2012

 

Cattle pneumonia pathogen arose with domestication of ruminants ten thousand years ago, researchers say

In this short (3:45 min) video interview, Joerg Jores, a molecular biologist at the International Livestock Research Institute (ILRI), shares new insights from his research on contagious bovine pleuropneumonia, a killer livestock disease endemic in Africa.

Jores describes a recent study by researchers from ILRI, the International Centre of Insect Physiology and Ecology and partners in Germany, Sweden, Switzerland and the USA that evaluated the history and relationships of pathogens that cause both cattle (contagious bovine pleuropneumonia) and goat (contagious caprine pleuropneumonia) pneumonia.

The study, ‘The origin of the “Mycoplasma mycoides cluster” coincides with domestication of ruminants,’ was published in the April 2012 edition of the Public Library of Science (PLoS, 27 Apr 2012). The researchers found that the bacterium Mycoplasma mycoides, which causes contagious bovine pleuropneumonia, arose at the same time as humans first started to domesticate wild ruminants.

The onset of domestication of livestock about 10,000 years ago, which established large ruminant populations and the herding of mixed species, is thought to have contributed to creating the conditions favouring the spread and diversification of the pathogens by allowing them to adapt to different hosts.

Contagious bovine pleuropneumonia can kill up to 80 per cent of animals in infected herds, and the surviving animals often carry the disease for long periods and can introduce it to uninfected herds.

‘This research was the largest comparative study of Mycoplasma mycoides cluster to date,’ says Jores. ‘Our findings are shedding light into the history of contagious bovine pleuropneumonia and this new knowledge is expected to guide future research into the disease.’

Read a related ILRI clippings article on the paper: Lethal family tree: ILRI research shows livestock bacterium is as old as the livestock it kills.

Download the paper: The origin of the Mycoplasma mycoides cluster coincides with domestication of ruminants, by Anne Fischer (ICIPE and ILRI), Beth Shapiro (Pennsylvania State University), Cecilia Muriuki (ILRI), Martin Heller (Friedrich-Loeffler-Institute), Christiane Schnee (Friedrich-Loeffler-Institute), Erik Bongcam-Rudloff (Swedish University of Agricultural Sciences), Joachim Frey (University of Bern) and Joerg Jores (ILRI), 2012, PLoS ONE 7(4): e36150.

 

Straw matter(s) in Nepal

Nimala Bogati feeds her cows in Nepal

Dairy woman Nimala Bogati feeds her improved dairy cows green fodder. An ILRI-CSISA project on the Indo-Gangetic Plains of Chitwan District, in south-central Nepal, began in Sep 2010. Project staff are introducing residue-based feeding strategies supplemented with green fodder and concentrates to increase cattle and buffalo milk production (photo credit: ILRI/Susan MacMillan).

Starting in 2010, feed‐related aspects of dairying in two municipalities of Chitwan District in south-central Nepal have been investigated by staff members from the International Livestock Research Institute (ILRI) and a local Nepali non-governmental organization called Forum for Rural Welfare and Agricultural Reform for Development (FORWARD). This study set out to gain an understanding of the overall dairy production system in this district, with a particular focus on the livestock feeding strategies employed by farmers, and to identify key areas of the feeding strategy that could be altered to improve livestock productivity. A feed assessment tool called FEAST—a questionnaire that combines informal group discussions with structured interviews of key farmer informants—was used to rapidly assess on‐farm feed availability in a smallholder context.

FORWARD's Deep Sapkota and ILRI's Arindam Samaddar in Nepal

FORWARD’s Deep Sapkota and ILRI’s Arindam Samaddar confer on a visit to a smallholder dairy producer in Gitanagar, Chitwan District, south-central Nepal (photo credit: ILRI/Susan MacMillan).

Project staff from ILRI and FORWARD selected the municipalities of Gitanagar and Ratnanagar for this study because these sites were to become part of projects conducted by a multi-institutional Cereal Systems Initiative of South Asia (CSISA) in Nepal.

Farmers in this area generally have very small plots of land, averaging just 0.24 hectares, from which they produce a wide variety of crops. Rice, maize and wheat are the dominant cereal crops here. Goats and dairy cattle, predominately Holstein-Friesian and Jersey, are the main livestock kept. Some households also keep dairy buffaloes and poultry.

Dairying and other livestock activities contribute 63% of household income, cropping the remaining 37%.

Crop residues (most of which until recently were purchased) are the primary component of the feed for the farm animals and are relied on throughout the year.

Purchased concentrate feeds such as wheat bran and commercially mixed rations provide a significant portion of the dietary metabolizable energy and crude protein.

ILRI has been working with FORWARD for just over one year to improve understanding in these farming communities of key animal health, nutrition and reproduction concepts, so that the farmers can reduce the costs of their milk production, with purchased feed being the main cost.

Farmhouse goats in Nepal

Two goats kept by a farm household in Nepal in a community served by the ILRI-FORWARD-CSISA project (photo credit: ILRI/Susan MacMillan).

Goats are the most popular livestock species kept within the area. Eighty percent of households keep 2–3 goats, which are used to fulfil household meat requirements and/or sold at irregular intervals for slaughter. Half the households here keep improved dairy cows, primarily Holstein-Freisian and Jersey, with each household keeping some 2–3 cows. About 10% of the households maintain local buffalo, and 5% improved buffalo such as Murrah, for milking, with each household keeping 1–2 animals. Local cows and buffalo are the cheapest dairy animals available, costing about 10,000Rs (USD$141) and 30,000Rs (USD$423) per head respectively. Improved cows and buffalo are available for 80000–90000Rs (USD$1128–USD$1269) per head. Dairy animals in this area produce approximately 3141 litres of milk per head per year, with sales of milk generating 249446Rs (USD$3519) per household annually.

Man and buffalo in Nepal

Bhim Bahadur Bogati, father-in-law of dairy woman Nirmala Bogati, and his son’s staff-kept buffalo cow (photo credit: ILRI/Susan MacMillan).

The dairy animals are usually maintained in purpose built sheds in close proximity to the household and stall fed throughout the year. The shed will generally only have temporary walls that are erected during winter months to keep the animals warm. During summer months, the walls are removed to allow air to circulate around the animals to keep them cool.

To find out more, read: Characterisation of the livestock production system and the potential of feed‐based interventions in the municipality of Ratnanagar and Gitanagar in the Chitwan district of southern Nepal, September 2010.

Notes
About FEAST
Feed for livestock is often cited as the main constraint to improved productivity in smallholder systems. Overcoming this constraint often seems an elusive goal and technical feed interventions tend to adopt a scattergun or trial and error approach which often fails to adequately diagnose the nature of the feed problem and opportunities and therefore the means to deal with problems and harness opportunities. The purpose of the Feed Assessment Tool described here is to offer a systematic and rapid methodology for assessing feed resources at site level with a view to developing a site-specific strategy for improving feed supply and utilization through technical or organizational interventions. Output from FEAST consists of a short report in a defined format along with some quantitative information on overall feed availability, quality and seasonality which can be used to help inform intervention strategies. The tool is aimed at research and development practitioners who are working in the livestock sector and need a more systematic means of assessing current feed-related strategies and developing new ones.

About CSISA
The Cereal Systems Initiative for South Asia (CSISA) applies science and technologies to accelerate cereal production growth in South Asia’s most important grain baskets. CSISA works in partnerships in 9 intensive cereal-production ‘hubs’ in Bangladesh, India, Nepal and Pakistan to boost deployment of existing crop varieties, hybrids, management technologies and market information. CSISA is funded by the Bill and Melinda Gates Foundation and the United States Agency for International Development and conducted by the International Maize and Wheat Improvement Program (CIMMYT), the International Food Policy Research Institute (IFPRI), ILRI and the International Rice Research Institute (IRRI).

ILRI DAIRY FEED INTERVENTIONS IN SOUTH ASIA
Last September, ILRI held a workshop in Dehradun, northern India, to develop a tool for feed technology screening and prioritization. Last December, ILRI and national research institutions and NGOs from Bangladesh, India and Nepal conducted dairy feed experimental trials and demonstrated better use of crop residues for feeding to their dairy cows. Thirteen participants from four sites in Haryana, India (National Dairy Research Institute); Bihar, India (Bihar Veterinary College, Sarairanjan Primary Agricultural Cooperative Society); Chitwan, Nepal (Forum for Rural Welfare and Agricultural Reform for Development); and Dinajpur, Bangladesh (Bangladesh Livestock Research Institute, Cooperative for Assistance and Relief Everywhere) shared their results of the feed intervention trials and related training activities.

ETHIOPIAN LIVESTOCK FEEDS PROJECT (ELF)
This week (21–22 Feb 2012), an inception workshop for an Ethiopian Livestock Feeds Project (ELF) is taking place at ILRI’s campus in Addis Ababa, Ethiopia. The project involves a short scoping study that will be used to help further develop and test rapid livestock feed assessment methods such as FEAST and Techfit. This work is funded by the Australian Centre for International Agricultural Research.

Frontline livestock disease research in, and for, Africa highlighted in White House conversation today

Scientists at the International Livestock Research Institute (ILRI) are working with many partners to improve control of major diseases of cattle in Africa.

East Coast fever in African cattle, one of the target diseases of the International Livestock Research Institute (ILRI), is included in a message today at the White House delivered by Raj Shah, administrator of the United States Agency for International Development. Shah will remind his audience that East Coast fever kills one cow every 30 seconds in Africa. Watch the live stream and join the conversation at 11am ET at the White House today, when Shah and others will answer questions about Innovations for Global Development.

Two other target diseases of ILRI’s are contagious bovine pleuropneumonia and trypanosomosis. All three diseases affect millions of the world’s poorest farmers. And all remain underfunded because they occur mostly in developing regions of the world.

ILRI recently produced three short films on research battles against these diseases.

CBPP: A new vaccine project starts
Contagious bovine pleuropneumonia (known by its acronym, CBPP) is found throughout most of sub-Saharan Africa, where it causes most harm in pastoralist areas. The disease kills up to 15% of infected animals, reduces the meat and milk yields of infected cows (milk yields drop by up to 90%), and reduces the ability of infected oxen to pull ploughs and do other kinds of farm work. An existing ‘live’ vaccine against this disease produces severe side effects and gives only limited protection.

Watch this short (runtime: 2:35) ILRI film, ‘Developing a Vaccine for a Highly Contagious Cattle Disease’, on the research recently begun at ILRI and its partner institutes, including the Kenya Agricultural Research Institute, to develop a more effective vaccine against this form of acute cattle pneumonia. This research is funded by the German Federal Ministry for Economic Cooperation and Development (BMZ).

Trypanosomosis: A genetic approach to its control
Trypanosomosis, called sleeping sickness in humans, is a wasting disease that maims and eventually kills millions of cattle in Africa and costs farmers billions of dollars annually.

In 2011, using the latest gene mapping and genomic technologies, researchers at ILRI’s Nairobi, Kenya, animal health laboratories and at institutes in the UK and Ireland identified two genes that enable Africa’s ancient N’Dama cattle breed to resist development of the disease when infected with the causative, trypanosome, parasite.

This breakthrough should eventually make it easier for Africa’s livestock breeders to breed animals that will remain healthy and productive in areas infested by the parasite-carrying tsetse fly. The international team that came together in this project is an example of the disciplinary breadth and agility needed to do frontline biology today, and the complex research approaches and technologies now needed to unravel fundamental biological issues so as to benefit world’s poor.

ILRI’s collaborating institutes in this work include Liverpool University; the Roslin Institute and Royal (Dick) School of Veterinary Studies, University of Edinburgh; Trinity College, Dublin; and the University of Manchester. The Wellcome Trust funded the bulk of the work in this project.

Watch this short (runtime: 5:28) ILRI film, ‘Battling a Killer Cattle Disease’, on the international partnership that made this breakthrough in trypanosomosis research.

 

Trypanosomosis: A community-based approach to its control
Another ILRI research team has been working with partners and livestock keepers in West Africa to develop safer ways to treat their cattle with drugs to protect them from trypanosomosis. Parasite resistance to the trypanocidal drugs used to treat and prevent this disease has emerged in many areas and is a growing problem for farmers and governments alike. This collaborative research team recently developed good practices in the use of trypanocides to slow the emergence of drug resistance in the parasites that cause the disease. This film describes the disease and these practices, known as ‘rational drug use’, clearly and in detail to help veterinary workers and farmers treat animals safely.

ILRI’s partners in this project include the Centre International de Recherche-Développement sur l’Elevage en Zone Subhumid, Freie Universität Berlin, Laboratoire Vétérinaire Centrale du Mali, Centre Régional de la Recherche Agricole Sikasso, Project de Lutte contra la Mouche Tsétsé et la Trypanosomose (Mali), Pan-African Tsetse and Trypanosomiasis Eradication Campaign (Mali), University of Hannover, Direction Nationale de l’Elevage et l’Institut de Recherche Agronomique de Guinée, Tsetse and Trypanosomosis Control Unit (Ghana), Institut National de la Recherche Agronomique du Bénin and the Nigerian Institute of Trypanosomiasis Research. The project was funded by the German Federal Ministry for Economic Cooperation and Development (BMZ).

Watch this ILRI film, ‘Community-Based Integrated Control of Trypanosomosis in Cattle’ (runtime: 12.48), for clear instructions on how to deploy drugs to better control trypanosomosis over the long term.

New study says livestock production provides Kenya with 43% of agricultural GDP

Collecting milk in Kenya's informal market

Collecting milk in Kenya’s informal market (photo credit: ILRI/Dave Elsworth).

Do estimates of the agricultural gross domestic product (GDP) of African nations really underestimate the value of the contribution from the livestock sector, as livestock specialists at the International Livestock Research Institute (ILRI) and elsewhere frequently complain? In Kenya and Ethiopia, the answer is a resounding ‘Yes’.

A new study by the Inter-Governmental Authority on Development (IGAD) Livestock Policy Initiative (LPI), which worked with national partners, concludes that livestock’s contribution to Kenya’s agricultural GDP is a whopping two and a half times larger than the official estimate for 2009. An earlier IGAD study concluded that livestock’s contribution to Ethiopia’s agricultural GDP has been even more dramatically under-reported; livestock’s contribution is now being estimated at three and a half times larger than that of the last official estimate available.

In Kenya, ‘This increase of 150% over official estimates means that the livestock contribution to agricultural GDP is only slightly less than that from arable agriculture, i.e. 320 billion Kenyan shillings for livestock (about $4.21 billion US dollars in 2009) versus 399 billion Kenyan shillings for crops and horticulture (in 2009 roughly $5.25 billion US dollars). . . .

‘According to the revised estimates, milk is Kenya’s most economically important livestock product, providing a little less than three quarters of the total gross value of livestock’s contribution to the agricultural sector. In terms of its contribution to agricultural GDP, milk is about four times more important than meat.

‘Cattle are Kenya’s most important source of red meat, supplying by value about 80% of the nation’s ruminant offtake for slaughter. More than 80% of the beef consumed in Kenya is produced by pastoralists, either domestically or in neighbouring countries and then imported on the hoof, often unofficially.’

In addition, the broad range of benefits rural food producers derive from livestock keeping—including manure for fertilizing crop field, traction for pulling ploughs, and serving as a means of savings and credit and insurance—represent about 11% of the value of the livestock contribution to GDP in Kenya and more than 50% in Ethiopia.

‘The conclusion to be drawn from this study is that Kenya’s livestock are economically much more important than hitherto believed; in fact, only marginally less than crops and horticulture combined. Agriculture and forestry are by far Kenya’s most important economic sector in terms of domestic production and it would now appear that livestock provide about 43% of the output from this sector. . . .’

We link here to the whole policy brief from the Inter-Governmental Authority on Development (IGAD) Livestock Policy Initiative (LPI – IGAD LPI website). The brief was based on working paper by the United Nations Food and Agriculture Organization and IGAD: The Contribution of Livestock to the Kenyan Economy, No. 03-2011, by Roy Behnke and David Muthami.

Read Part 1 and Part 2 of the earlier IGAD LPI working papers on Ethiopia (also a policy brief).

US-Kenyan team developing vaccine to protect African cattle against deadly East Coast fever

Dissecting ticks to extract parasites at ILRI

Staff of ILRI’s Tick Unit dissect ticks to extract the parasite Theileria parva, which causes East Coast fever in cattle (photo credit: Brad Collis).

A vaccine that protects cattle against East Coast fever, a deadly disease in eastern and central Africa, is being developed by scientists in Kenya working for the International Livestock Research Institute (ILRI) jointly with scientists at the Agricultural Research Service (ARS) Animal Disease Research Unit in Pullman, Washington, which is part of the United States Department of Agriculture (USDA). ARS is the USDA’s chief intramural scientific research agency. This research, which looks at combination vaccines for tick-borne diseases, supports USDA’s priority of promoting international food security.

Scientists are focusing on the tick that transmits the parasite responsible for East Coast fever. Because this host tick and its parasite are similar to the tick and parasite that cause babesiosis, commonly called Texas cattle fever, in the United States, developing a vaccine for East Coast fever could lead to a vaccine for Texas cattle fever, which is a serious illness for wild and domesticated animals, especially cattle.

In an initial study, scientists developed a polymerase chain reaction test that detects parasite DNA in ticks. They used tick populations that were produced at ILRI to have different susceptibilities to infection with the parasite. Two different strains of ticks—Muguga and Kiambu—were compared. The Muguga ticks had a low level of parasitic infection, whereas the Kiambu ticks were highly susceptible.

Understanding genetic differences between these two tick populations could lead to the identification of proteins that might be good targets for a vaccine to help control East Coast fever.

This international partnership is part of a global community effort to control diseases that limit food and fiber production. Although East Coast fever isn’t currently a problem in the United States, this collaborative research aids in keeping the US and other countries free of the disease. Results of this collaborative research may be applied to help control similar parasitic diseases.

Findings from this research were published in Gene and in the Journal of Medical Entomology.

Read more at the United States Department of Agriculture Agricultural Research Service: Partnership focuses on developing East Coast fever vaccine, 4 Oct 2011.

Read more about this research in the October 2011 issue of Agricultural Research Magazine.

Read more about this project on ILRI’s website.

Livestock-based research recommendations for better managing drought in Kenya

Kenya: drought leaves dead and dying animals in northen Kenya

Kenya: drought leaves dead and dying animals in northern Kenya (photo on Flickr by Brendan Cox / Oxfam).

Humanitarian organizations are bracing themselves for the the task of addressing the unfolding crisis in the drought-stricken Horn of Africa, where the rains have failed for two consecutive years and the next rainy season is not expected until September, at the earliest.

The BBC reports that in Kenya’s Dadaab refugee camp, to which starving Somali’s are fleeing at a rate of some 1000 a day, ‘at a makeshift cattle market in the middle of the refugee camp, herdsmen are trying to sell off what little livestock they have left.

‘But no-one wants to buy the cattle and goats on sale here, for the chances are that very soon they will be dead.

‘There is nowhere for them to graze: the pastures here are parched and arid, and it has barely rained for two years running.

‘”I’m selling my cattle at knock-down prices,” said one man. “I’m practically giving them away.”

‘Not far away, the landscape is littered with the carcasses of dead animals.

‘In this part of the world, livestock are everything: they represent a family’s entire assets, capital, savings and income. When the animals die, it frequently means the humans do as well.’

Read the full article at the BBC: Horn of Africa drought: Vision of hell, 8 Jul 2011.

All organizations involved in supporting these livestock-keeping peoples of the Horn are passionate about not only saving the most vulnerable members of these pastoral communities today, but also about finding long-term solutions to recurring drought in this region. Those solutions necessarily rely on an evidence base provided by scientists, particularly livestock researchers.

Four recent research reports published by the International Livestock Research Institute (ILRI), based in Nairobi, Kenya, noted and linked to below, assess the effectiveness of past drought interventions in Kenya’s northern drylands and offer tools for better management of the region’s drought cycles.

(1) Leeuw, Jan de; Ericksen, P.; Gitau, J.; Zwaagstra, L.; MacMillan, S. Jul 2011. ILRI research charts ways to better livestock-related drought interventions in Kenya’s drylands. ILRI Policy Brief.

(2) Johnson, N. and Wambile, A. (eds). 2011. The impacts of the Arid Lands Resource Management Project (ALRMPII) on livelihoods and vulnerability in the arid and semi-arid lands of Kenya. ILRI Research Report 25. Nairobi, Kenya: ILRI.

From the abstract: ‘There is an urgent need for new approaches and effective models for managing risk and promoting sustainable development in arid and semi-arid lands (ASALs), especially in the face of climate change and increasing frequency of drought in many areas. This study assesses the impacts of the Arid Lands Resource Management Project (ALRMPII), a community-based drought management initiative implemented in 28 arid and semi-arid districts in Kenya from 2003 to 2010. The project sought to improve the effectiveness of emergency drought response while at the same time reducing vulnerability, empowering local communities, and raising the profile of ASALs in national policies and institutions. . . .’

(3) Ericksen, P., Leeuw, J. de and Quiros, C. 2010. Livestock drought management tool. Final report for project submitted by ILRI to the FAO Sub-Regional Emergency and Rehabilitation Officer for East and Central Africa 10 December 2010. Nairobi, Kenya: ILRI.

From the abstract: In August 2010, the Food and Agriculture Organization (FAO) sub-Regional Emergency Office for Eastern and Central Africa (REOA) contracted the International Livestock Research Institute (ILRI) to develop a proto-type “Livestock Drought Management” (LDM) decision support tool for use by a range of emergency and relief planners and practitioners throughout the region. The tool, which is still conceptual rather than operational, links the concepts of Drought Cycle Management (DCM) with the best practice in livestock-related interventions throughout all phases of a drought, from normal through the alert and emergency stages to recovery. The tool uses data to indicate the severity of the drought (hazard) and the ability of livestock to survive the drought (sensitivity). . . .  The hazard data has currently been parameterized for Kenya, but can be used in any of the REOA countries. At the moment, the missing item is good-quality data for sensitivity. Additionally, experts did not agree on how to define the phase of the drought cycle. The tool requires pilot testing in a few local areas before it can be rolled out everywhere.

(4) Zwaagstra, L., Sharif, Z., Wambile, A., de Leeuw, J., Said, M.Y., Johnson, N., Njuki, J., Ericksen, P. and Herrero, M., 2010. An assessment of the response to the 2008 2009 drought in Kenya. A report to the European Union Delegation to the Republic of Kenya. Nairobi, Kenya: ILRI.

In early 2010, ILRI scientists reviewed responses to Kenya’s 2008–2009 drought in six arid and semi-arid districts of the country. The authors reviewed 474 livestock-based interventions and came up with the following conclusions, recommendations and lessons regarding the drought management intervention cycle, among others.

The Early Warning Bulletins

Conclusion: . . . To allow sufficient time to scale up livestock based interventions . . . have early warning based on indicators that precede the deterioration of livestock condition, such as rainfall estimates or the greenness of rangeland detected from satellite imagery. . . . Recommendation: Include a separate early warning message in the EWB specifically geared towards triggering interventions aiming at livestock. . . . [Harmonize] procedures used among districts for such a livestock early warning system.

Timing of interventions

Conclusion: The timing of several of the interventions, notably destocking, was too late while vaccination was implemented during an inappropriate phase of the drought management cycle. . . . Recommendation: Strengthen capacity to plan the implementation of each intervention type in view of the phase of the drought management cycle.

Effectiveness and appropriateness of interventions

1 Water tankering and borehole support

Conclusion: Water tankering and support to boreholes were considered effective [but] repair to water infrastructure can be done in periods of reduced stress. . . . Recommendation: Maintain boreholes and other water infrastructure during periods of reduced stress in order to increase drought preparedness.

2 Destocking

Conclusion: An estimated 16,996 TLU [tropical livestock units] were purchased or slaughtered in response to the drought in the 6 study districts. This is higher than the 9,857 TLU were purchased in 2000/1 in 10 districts (Aklilu and Wekesa 2001), but far below what would have been needed. Slaughter destocking interventions . . . were considered more effective than commercial destocking . . . . Recommendation: Make use of existing commercial livestock marketing infrastructure and on site slaughtering to destock during drought. To achieve optimal impact, initiate these interventions early on in the drought management cycle. See chapter 7 and annex 5 commercial destocking workshop section for further recommendations.

3 Health

Conclusion: Over 5.7 million animals were reached by health interventions between July 2008 and December 2009. De-worming was considered effective and appropriate, while vaccination was not. Recommendation: Increase de-worming during drought as it keeps animals in better condition for longer. Restrict vaccination at middle or end drought as it might create mortality with animals in poor body condition

4 Forage and supplements

Conclusion: The provision of feed was far too little and poorly coordinated, overall it was considered among the least effective interventions. . . . It is worthwhile to consider developing hay production and fodder markets locally. Recommendation: Promote initiatives to develop local hay production, fodder markets and strategic fodder reserves.

5 Migration and peace-building

Conclusion: Peace building interventions were generally considered effective; 30% more animals migrated in 2008/9 than in 2000/1. Disease problems reduced effectiveness, which suggests that interventions around these issues should be part of future migrations. Recommendation: Access to disputed land as part of pastoral mobility remains paramount in their coping strategy and more effective means to support this are required. This includes GoK commitment to play their role but specific interventions can be designed in the short and medium term to alleviate this problem as well.

6 Livelihood implications

Conclusion: . . . Interventions that build on and support local livelihoods and link to longer term development are better than purely emergency ones. Recommendation: Build on and strengthen rather than undermine local institution, livelihood strategies and coping strategies.

7 Community involvement

Conclusion: Despite recommendations from past assessments, few interventions involved the community in design or implementation. Those that did tended to have better outcomes than those that did not. Recommendation: Involve communities before the drought in the design of drought contingency plans.

8 Triggering of interventions

Conclusion: As yet there are no agreed upon triggers for the release of contingency funds. Furthermore access to these funds is often delayed due treasury related constraints. Recommendation: The drought contingency plans should be regularly updated and contain agreed upon quantitative triggers for the release of funds to implement interventions. Creation of a sufficiently endowed national drought contingency fund deserves the highest priority.

9 Climate change adaptation and drought interventions

Conclusion: There is a danger of duplicating efforts already implemented under the drought management strategy and it is advisable to implement climate change adaptation through these existing institutional arrangements. Recommendation: Implement climate change adaptation policy through existing institutional mechanisms aiming at better drought cycle management.

Among the more generic lessons learned are the following

  • The continued implementation of a basket of suitable preparedness activities remains the most cost effective approach to reduce the impact of shocks.
  • . . . Emergencies of this nature . . . are increasingly caused by a basket of factors whereby reduced access to previously accessible high-potential grazing is the single biggest contributor to stress. This is heavily exacerbated by a relentlessly increasing demographic pressure, thus creating a cadre of the population who have limited access to any livestock at all and who are consequently extremely vulnerable to shocks.
  • The most effective interventions remain those where facilitation to access grazing and watering resources, which had hitherto not been accessible, was made accessible.
  • Increased semi-permanent presence of key non-governmental organizations in critical areas which are able to encompass a realistic drought management cycle approach has substantially improved information and speed of response. This, in combination with a vastly improved collaboration between agencies, together with improved coordination has at face value provided improved response in both quality and timeliness. The net impact of this is however largely negated due to other factors such as reduced line ministry capacity and related administrative/institutional developments such as the relentless creation of new districts and conflicts. . . .
  • So-called commercial de-stocking remains the least cost-effective intervention. Distance, timing and economies of scale play an important role but more than anything else the lack of a dynamic and lively existing marketing system in many places virtually precludes the creation of a commercial de-stocking operation that will have the required impact at an acceptable cost.
  • ‘Livestock-fodder-aid’ comes a close second whereby substantial quantities of bulky commodities such as hay are shipped to some of the furthest locations at huge costs with very little if any measurable impact.
  • Slaughter-off take, preferably carried out on the spot with meat being distributed rapidly to presumed needy families is popular with beneficiaries and . . . can have considerable benefit on nutrition while maintaining a limited purchasing power of those affected.