Dryland agriculture program launched for developing countries: Hot topic for a hot climate

Coping with Disaster: Sandstorm in Kenya

A sandstorm on the western shore of Lake Baringo (photo on Flickr by UN/Ray Witlin).

A new science program launched in Jordan last week—the CGIAR Research Program on Dryland Systems—is setting itself a huge ambition: To help many of the 2.5 billion people living in the vast drylands of the developing world raise their levels of both food production and security. A CGIAR Fund is supporting the program’s first three years of work to the tune of 120 million dollars.

This is the latest ‘research for development’ program of CGIAR, a global enterprise conducting ‘agricultural research for a food-secure future’. Some ten thousand scientific and support staff in the CGIAR community are at work with hundreds of organizations worldwide to design enduring food systems, via new means for healthy and productive lives and lands, across the whole of the developing world.

More than 60 research and development organizations, including the International Livestock Research Institute (ILRI), are part of this new drylands program. It is targeting dryland farmers, livestock keepers and pastoral herders in some of the hottest dryland hotspots of both Africa (West Africa’s Sahel and dry savannas as well as the extensive arid and semi-arid lands of North, East and Southern Africa) and Asia (West and Central Asia, including the Caucasus, and South Asia).

ILRI scientist Polly Ericksen leads the CGIAR Research Program on Drylands Systems in East and Southern Africa, where, in the coming years, the program aims to assist 20 million people and mitigate land degradation over some 600,000 square kilometres.

The program as a whole is led by the International Center for Agricultural Research in the Dry Areas (ICARDA), which, like ILRI, is a member of the CGIAR Consortium. Scientific, development, agri-business and local experts are joining forces to find new ways to help communities living in the harshest drylands to become more resilient and to help those in better-endowed drylands to increase their agricultural yields and incomes without degrading their natural resource base.

The dry areas of the developing world are likely to experience increasing poverty, out-migration and food insecurity’, says Frank Rijsberman, CEO of the CGIAR Consortium, adding that climate change is worsening agricultural and related livelihood prospects in many dry regions of the developing world.

The many scientists and partners in this program will investigate all options and combinations of options, including dryland cropping, livestock raising, mixed (agro-pastoral) crop-and-livestock production, integrating trees or shrubs in cropping and animal husbandry practices (agroforestry), and making diverse and sustainable use of different kinds of rangeland and aquatic resources. Among options to be developed are more sustainable farming techniques and management of water, land and other natural resources; genetically improved crop varieties and livestock breeds tailored for dryland environments; more enabling policy environments and infrastructure; and user-friendly ‘climate smart’ strategies and technologies.

Given the importance of agriculture to dryland developing countries, where farming remains the backbone of the economy but land is degraded, water scarce, rainfall and temperatures increasingly unpredictable, and civil strife (uncommonly) common, it will profit all of us to make sure that the world’s dryland communities can in future earn a decent living and produce food securely.

Note
The kinds of research, investment and policy support this sector needs to move forward in the face of climate change are outlined in a press release and report on Strategies for combating climate change in drylands agriculture, published in 2012 by the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS), ICARDA and the CGIAR Research Program on Dryland Systems. The report examined the problem of changing climate patterns in dryland areas and its effects on rural populations and offered practical solutions as input to the Conference of the Parties (COP18) United Nations Framework Convention on Climate Change (UNFCCC). The information came from discussions at the International Conference on Food Security in Dry Lands, held in Doha, Qatar, 14–15 Nov 2012.

Read a recent book, Pastoralism and Development in Africa: Dynamic Change at the Margins, edited by Andy Catley, Jeremy Lind and Ian Scoones. Published in 2012 by Routeledge, the book includes a chapter by scientists at the International Livestock Research Institute (ILRI): Climate change in sub-Saharan Africa: What consequences for pastoralism?, written by ILRI’s Polly Ericksen and colleagues. Parts of the book are available on Google books here.

Other related articles
ILRI News Blog: Pastoral livestock development in the Horn: Where the centre cannot (should not) hold, 31 Dec 2012.
ILRI News Blog: Africa’s vast eastern and southern drylands get new attention–and support–from agricultural researchers, 6 Jun 2012.
ILRI News Blog: Experts comment on new drylands research program for eastern and southern Africa, 25 Jun 2012.

About the CGIAR Research Program on Dryland Systems
The CGIAR Research Program on Dryland Systems integrates research disciplines to bring rural communities living in the world’s dry areas practical solutions for improved livelihoods and food security. The program develops and refines strategies and tools that minimize risk and reduce vulnerability in low-potential drylands while helping farmers and herders in higher potential drylands to intensify their food production in sustainable ways.

Livestock ‘goods’ and ‘bads’: What are the published facts?

Study for Composition VIII (The Cow), by Theo van Doesburg, c. 1918

‘Study for Composition VIII (The Cow)’, by Theo van Doesburg, c.1918, via WikiPaintings.

Yesterday’s post on this ILRI News Blog, Livestock, poverty and the environment: A balancing act and a balanced account, highlighted the overviews and conclusions provided in a new science paper on the roles of livestock in developing countries.

The paper, written by scientists at the International Livestock Research Institute (ILRI), also provides a wealth of research-based livestock facts little known (and less cited) in current global debates on the roles farm animals play in reducing or promoting global poverty, hunger, malnutrition, gender inequality, ill health, infectious disease and environmental harm.

The authors of the paper argue that no single, or simple, way exists to view, approach or resolve issues at the interface of livestock and these big global problems.

Consider the following facts / complicating factors cited in the new paper.

LIVESTOCK AND POVERTY
Up to 1.3 billion people globally are employed in different livestock product value chains globally (Herrero et al. 2009). Milk and meat rank as some of the agricultural commodities with the highest gross value of production (VOP) in the developing world (FAOSTAT 2011). Nearly 1 billion people living on less than 2 dollars a day in South Asia and sub-Saharan Africa keep livestock (FAO 2009). More than 80% of poor Africans keep livestock and 40–66% of poor people in India and Bangladesh keep livestock (FAO 2009). Some 68% of households in the developing world earn income from livestock (Davis et al. 2007). Across the developing world, livestock contribute, on average, 33% of household income in mixed crop-livestock systems and 55% of pastoral incomes (Staal et al. 2009). The growth in demand for milk and meat, mainly driven by urban consumers in developing countries, has been increasing in the last few decades and is projected to double by 2050 (Delgado et al. 1999, Rosegrant et al. 2009).

LIVESTOCK AND HUNGER
‘Livestock contribute greatly to global food security: they directly provide highly nourishing animal-source foods; they provide scarce cash income from sales of livestock and livestock products used to purchase food; their manure and traction increase household cereal supplies; and increases in livestock production can increase access by the poor to livestock foods through lower prices of livestock products.’

  • Livestock systems in developing countries now produce about 50% of the world’s beef, as well as 41% of our milk, 72% of our lamb, 59% of our pork and 53% of our poultry future (Herrero et al. 2009); all these shares are expected to increase in future (Bruinsma 2003, Rosegrant et al. 2009).
  • Most meat and milk in the developing world comes from so-called ‘mixed’ crop-and-livestock systems [which] . . . are central to global food security, as they also produce close to 50% of the global cereal output (Herrero et al. 2009 and 2010).

LIVESTOCK AND MALNUTRITION
‘Although livestock and fish clearly make important contributions to overall food security, there is an even more important role of animal source foods in achieving nutrition, as opposed to food, security. Animal source foods are dense and palatable sources of energy and high-quality protein, important for vulnerable groups, such as infants, children, pregnant and nursing women and people living with human immunodeficiency virus with high nutritional needs. They also provide a variety of essential micronutrients, some of which, such as vitamin A, vitamin B12, riboflavin, calcium, iron, zinc and various essential fatty acids, are difficult to obtain in adequate amounts from plant-based foods alone (Murphy and Allen 2003). Animal source foods provide multiple micronutrients simultaneously, which can be important in diets that are lacking in more than one nutrient: for example, vitamin A and riboflavin are both needed for iron mobilisation and haemoglobin synthesis, and supplementation with iron alone may not successfully treat anaemia if these other nutrients are deficient (Allen 2002). Micronutrients in animal source foods are also often more readily absorbed and bioavailable than those in plant-based foods (Murphy and Allen 2003).’

LIVESTOCK AND GENDER INEQUALITY
‘Almost two-thirds of the world’s billion poor livestock keepers are rural women (Staal et al. 2009). . . . Livestock are an important asset for women because it is often easier for women in developing countries to acquire livestock assets . . . than it is for them to purchase land or other physical assets or to control other financial assets (Rubin et al. 2010). . . . Livestock assets are generally more equitably distributed between men and women than are other assets like land (Flintan 2008). . . . Women generally play a major role in managing and caring for animals, even when they are not the owners. . . . Despite the role of women in livestock production, women have lower access to technologies and inputs than men and there are gender disparities in access to extension services, information and training throughout the developing world due to women’s long workdays, a neglect of women’s needs and circumstances when targeting extension work, and widespread female illiteracy.’

LIVESTOCK AND ILL HEALTH
‘In developing countries, human health is inextricably linked to the livestock, which underpin the livelihoods of almost a billion people . . . . Livestock have an essential role in contributing to good health through providing animal source food, manure and draft power for plant source food, as well as income to buy food and health care. At the same time, livestock can lead to poor health if animal source foods contribute to poor diet and through providing a reservoir for diseases infectious to people (zoonoses). The relationship between livestock, human nutrition and human health are complex, with multiple synergistic and antagonistic links . . . . For example, poor livestock keepers worldwide face daily trade-offs between selling their (relatively expensive) milk, meat and eggs to increase their household income and consuming the same (high-quality) foods to increase their household nutrition. Because animal source foods are so dense in nutrients, including micronutrients that help prevent ‘hidden hunger’, decisions in these matters have potentially large implications for the nutritional and economic health of households. Livestock contributes to food security and nutrition in various ways.’

LIVESTOCK AND INFECTIOUS DISEASE
‘In poor countries, infectious disease still accounts for around 40% of the health burden in terms of years lost through sickness and death (WHO 2008). Livestock directly contribute to this through the foodborne diseases transmitted through animal source foods, the zoonoses transmissible between livestock and people, and human diseases emerging from livestock. A recent estimate suggests that 12% of the infectious disease burden in least developed countries is due to zoonoses, and the majority of this is transmitted to people from livestock hosts through consumption of animal source foods, vectors or direct contact (Grace et al. 2012). More indirectly, keeping of livestock affects agro-ecosystems in ways that influence their ability to provide health-provisioning services. This may be positive or negative. In some circumstances, livestock act as a buffer, for example, between trypanosomosis-carrying tsetse or malaria-carrying mosquitoes and people; in this case, livestock act as alternative hosts, effectively protecting people. In other cases, livestock are an amplifying host, for example pigs harbouring and multiplying Japanese encephalitis and thus increasing the risk it poses to people.’

  • Food-borne disease is the world’s most common illness and is most commonly manifested as gastrointestinal disease; diarrhoea is one of the top three infectious diseases in most developing countries, killing an estimated 1.4 million children a year (Black et al. 2010).
  • In countries where good data exist, zoonotic pathogens are among the most important causes of food-borne disease (Thorns 2000, Schlundt et al. 2004).
  • Animal-source food is the most risky of food commodities (Lynch et al. 2006), with meat and milk providing excellent mediums for microbial growth.
  • Most human diseases come from animals, with some 61% being ‘zoonotic’, or transmissible between animals and humans, including many of the most important causes of sickness and death.
  • Endemic zoonoses that prevail in poor countries are among the most neglected diseases.
  • Zoonoses (diseases transmissible between animals and man) and diseases recently emerged from animals (mostly human immunodeficiency virus [HIV]-acquired immunodeficiency syndrome) make up 25% of the infectious disease burden in the least developed countries (Gilbert et al. 2010).
  • Currently, one new disease is emerging every four months, and 75% of these originate in animals (Jones et al. 2008).

LIVESTOCK AND ENVIRONMENTAL HARM
‘The impacts of livestock on the environment have received considerable attention as the publication of the Livestock’s Long Shadow study (Steinfeld et al. 2006). This study helped draw attention to the magnitude and scale of livestock’s impact on land use, greenhouse gas (GHG) emissions and pollution among others, and it created a thrust for the sector’s stakeholders to develop research agendas geared towards generating better data for the environmental assessment of global livestock systems, and to develop solutions for mitigating environmental livestock problems, and policy agendas more conducive to a greening of the sector by promoting regulation, increases in efficiency and others.’

Land: For grazing or fodder?

  • Livestock systems are one of the main users of land; livestock use some 3.4 billion ha for grazing and 0.5 million ha of cropland for the production of feeds (33% of arable land), globally (Steinfeld et al. 2006).
  • Of the world’s 3.4 billion ha of grazing lands, 2.3 million ha (67%) are in the developing world, with expansion of pastureland at the expense of natural habitats in the developing world in the order of 330 million ha in the last 40 years (FAO 2009).
  • The world will require an additional 450 million tonnes of grain to meet demand for animal products by 2050 (Rosegrant et al. 2009).

Climate change: Decrease livestock numbers or increase livestock efficiencies? (or both?)

  • Livestock are an important contributor to global greenhouse gas emissions causing global warming; current estimates range from 8.5% to 18% of global anthropogenic greenhouse gas emissions (O’Mara 2011), with the range reflecting methodological differences (inventories v. life cycle assessment), attribution of emissions to land use (Herrero et al. 2011, O’Mara 2011) and uncertainty in parameter values (FAO 2010).
  • Livestock in the developing world contribute 50% to 65% of the total emissions from livestock in the world. (Herrero et al. 2013).
  • The higher the productivity of farm animals, the lower the emissions per unit of their products (FAO 2010).
  • While livestock systems in general terms generate significantly more greenhouse gas emissions per kilocalorie than crops, the potential for the livestock sector to mitigate such emissions is very large (1.74 Gt CO2-eq per year, Smith et al. 2007), with land-use management practices representing over 80% of this potential (Smith et al. 2007) and with most of the mitigation potential (70%) lying in the developing world (Smith et al. 2007).

Livestock manure: Waste or resource?

  • Livestock wastes—considered a serious problem in the developed world—are a critical agricultural resource in large parts of Africa, where soils are inherently poor (Petersen et al. 2007, Rufino et al. 2007).
  • Manure contributes between 12% and 24% of the nitrogen input in nitrogen cycles in cropland in the developing world (Liu et al. 2010).
  • Recycling of animal manures is practiced in most mixed crop-livestock systems, although efficiencies are rarely close to those of the developed world (Rufino et al. 2006).
  • Synthetic fertilizers are unaffordable for most small-scale farmers, who depend on the (poor) fertility of their soils to produce food crops, or on livestock to concentrate nutrients from the relatively large grazing lands (Herrero et al. 2013).
  • In many farming systems, the production of food crops directly relies on animal manures to increase effectiveness of fertilizers applied to cropland (Vanlauwe and Giller 2006).
  • Although animal manure can be a very effective soil amendment, its availability at the farm level is often very limited, so designing technologies for soil fertility restoration only around the use of animal manure is unrealistic.

Payments for environmental services: Exclude or include livestock keepers?

  • Despite the fact that livestock is widely distributed in virtually all agro-ecosystems of the developing world, few ‘payment for environmental services’ schemes have targeted livestock keepers; most have focused on such services as climate, water and wildlife (Landell-Mills and Porras 2002, Wunder 2005).
  • Enhancing the role that rangelands play in maintaining ecosystem services through improved rangeland management could be of essential importance for enhancing global green water cycles (Rockström et al. 2007).
  • In Africa, where close to half of the pastoralists earn less than US$1/day, it’s estimated that even modest improvements in natural resource management in the drylands may yield gains of 0.5 t C/ha per year, which translates into US$50/year, bringing about a 14% increase in income for the pastoralist (Reid et al. 2004).

Read the whole paper
The roles of livestock in developing countries, by ILRI authors Mario Herrero, Delia Grace, Jemimah Njuki, Nancy Johnson, Dolapo Enahoro, Silvi Silvestri and Mariana Rufino, Animal (2013), 7:s1, pp 3–18 & The Animal Consortium 2012, doi:10.1017/S1751731112001954

Read related articles
Livestock, poverty and the environment: A balancing act—and a balanced account, 3 Apr 2012
Taking the long livestock view, 23 Jan 2013
Greening the livestock sector, 22 Jan 2013
Livestock livelihoods for the poor: Beyond meat, milk and eggs, 8 Jan 2013
A fine balancing act will be needed for livestock development in a changing world, 7 Dec 2012
Fewer, better fed, animals good for the world’s climate and the world’s poor, 22 Nov 2012
Scientific assessments needed by a global livestock sector facing increasingly hard trade-offs, 12 Jul 2013.
A new global alliance for a safer, fairer and more sustainable livestock sector, 13 Apr 2012
Sharing the space: Seven livestock leaders speak out on a global agenda, 20 Mar 2012
Towards a more coherent narrative for the global livestock sector, 15 Mar 2012
Developing an enabling global livestock agenda for our lives, health and lands, 13 Mar 2012

Acknowledgements
This paper is an ILRI output of two CGIAR Research Programs: Livestock and Fish and Climate Change, Agriculture and Food Security.

Livestock, poverty and the environment: A balancing act–and a balanced account

Worldmapper: Meat consumed

Territory size shows the proportion of worldwide meat consumption that occurs there (map by Worldmapper). Meat consumption per person is highest in Western Europe, with nine of the top ten meat-consuming populations living in Western Europe (the tenth in this ranking is New Zealand). The most meat is consumed in China, where a fifth of the world population lives.

Authors of a new paper setting out the roles of livestock in developing countries argue that although providing a ‘balanced account’ of livestock’s roles entails something of a ‘balancing act’, we had better get on with it if we want to build global food, economic and environmental security.

‘The importance of this paper lies in providing a balanced account [for] . . .  the often, ill-informed or generalized discussion on the . . .  roles of livestock. Only by understanding the nuances in these roles will we be able to design more sustainable solutions for the sector.

‘We are at a moment in time where our actions could be decisive for the resilience of the world food system, the environment and a billion poor people in the developing world . . . . At the same time, . . . the demand for livestock products is increasing, . . . adding additional pressures on the world natural resources.

Not surprisingly, the world is asking a big question: what should we do about livestock?

The paper, by scientists at the International Livestock Research Institute (ILRI), provides ‘a sophisticated and disaggregated answer’.

‘The sector is large. There are 17 billion animals in the world eating, excreting and using substantial amounts of natural resources, mostly in the developing world, where most of the growth of the sector will occur. The roles of livestock in the developing world are many . . . . [L]ivestock can be polluters in one place, whereas in another they provide vital nutrients for supporting crop production.’

The picture is complex. Whether for its positive or negative roles, livestock are in the spotlight. . . . [M]aking broad generalizations about the livestock sector [is] useless (and dangerous) for informing the current global debates on food security and the environment.

So what are these ‘nuanced, scientifically informed messages about livestock’s roles’ that the authors say are essential? Well, here are a few, but it is recommended that interested readers read the paper itself to get a sense of the whole, complicated, picture.

In a nutshell (taken from the paper’s conclusion), the authors say that ‘weighing the roles that livestock play in the developing world’ is a ‘complex balancing act’.

On the one hand, we acknowledge that livestock is an important contributor to the economies of developing nations, to the incomes and livelihoods of millions of poor and vulnerable producers and consumers, and it is an important source of nourishment. On the other side of the equation, the sector [is a] . . . large user of land and water, [a] notorious GHG [greenhouse gas] emitter, a reservoir of disease, [and a] source of nutrients at times, polluter at others . . . .

‘Against this dichotomy, [this] is a sector that could improve its environmental performance significantly . . . .’

This paper argues that we will help ensure poor decision-making in the livestock sector if we do the following.

Continue to ignore the inequities inherent
in the debate on whether or not to eat meat
‘This debate translates into poor food choices v. the food choices of the poor [and remains] dominated by the concerns of the developed world, [whose over-consumers of livestock and other foods] . . . should reduce the consumption of animal products as a health measure. However, the debate needs to increase in sophistication so that the poor and undernourished are not the victims of generalisations that may translate into policies or reduced support for the livestock sector in parts of the world where the multiple benefits of livestock outweigh the problems it causes.’

Take as given the projected trajectories of animal
consumption proposed by the ‘livestock revolution’
These trajectories ‘are not inevitable. Part of our responsibility is to challenge these future trajectories, and ensure that we identify levels of consumption and nutritional diversity for different parts of the world that will achieve the best compromise between a healthy diet that includes livestock products (or not), economic growth, livelihoods and livestock’s impacts on the environment. No mean feat, but certainly a crucial area of research.’

Continue to promote large-scale consolidated farms over efficient
and market-oriented smallholders as engines for feeding the world
‘Advocates of large-scale farming argue in favour of the higher efficiencies of resource use often found in these systems and how simple it is to disseminate technology and effect technological change. True, when the market economy is working.’ Not true when the market economy is not working. Investment in developing efficient value chains is essential ‘to create incentives for smallholders to integrate in the market economy, formal or informal.’

Continue to hurt the competitiveness
of the smallholder livestock sector
‘Formal and informal markets will need to ensure the supply of cheaper, locally produced, safe livestock products to adequately compete. This implies a significant reduction in transaction costs for the provision of inputs, increased resource use efficiencies, and very responsive, innovative and supporting institutions for the livestock sector in developing countries (FAO, 2009).

Continue to give lip service to paying for environmental services—
and continue to ignore livestock keepers as targets of these services
‘Proofs of concept that test how these schemes could operate in very fragmented systems, with multiple users of the land or in communal pastoral areas, are necessary. Research on fair, equitable and robust monitoring and evaluation frameworks and mechanisms for effecting payments schemes that work under these conditions is necessary. The promise of PES [payment for environmental services] schemes as a means to . . . produce food while protecting the world’s ecosystems is yet to be seen on a large scale.’

Don’t help small-scale livestock farmers and herders
adapt to climate change or help mitigate global warming
In a low carbon economy, and as the global food system prepares to become part of the climate change negotiations, ‘it will be essential that the livestock sector mitigate GHG [greenhouse gas emissions] effectively in relation to other sectors. Demonstrating that these options are real, with tangible examples, is essential . . . .’

Don’t modify institutions and markets to reach smallholders—
and continue to ignore women livestock producers
‘Underinvestment in extension systems and other support services has rendered poor producers disenfranchised to access support systems necessary for increasing productivity and efficiency’ or safety nets. Increased public investment in innovation and support platforms to link the poor, and especially women, to markets is essential.

Continue to protect global environmental goods
at the expense of local livelihoods of the poor
‘. . . [S]tern public opinion in favour of protecting global environmental goods, instead of local livelihoods, could create an investment climate’ that hurts smallholder farmers. The informal and formal retail sectors must ‘gain consumers trust as safe providers of livestock products for urban and rural consumers’.

Bottom line: Need for nuanced information / narratives / approaches
The authors conclude their paper with a plea for greater tolerance for ambiguity and diversity rather than fixed ideas, and a greater appetite for accurate and location-specific information rather than simplistic generalities.

Balancing the multiple roles of livestock in the developing world and contrasting them with those in the developed world is not simple.

‘The disaggregated evidence by region, species, production system, value chain, etc. needs to be generated. Messages need to be well distilled, backed by scientific evidence and well articulated to avoid making generalisations that more often than not confuse the picture and ill-inform policy. Livestock’s roles are simply not the same everywhere.

The roles, whether good or bad, need to be accepted by the scientific community.

‘Research agendas need to use the livestock bads as opportunities for improvement, while continuing to foster the positive aspects. These are essential ingredients for society to make better-informed choices about the future roles of livestock in sustainable food production, economic growth and poverty alleviation.’

Access the full paper
The roles of livestock in developing countries, by ILRI authors Mario Herrero, Delia Grace, Jemimah Njuki, Nancy Johnson, Dolapo Enahoro, Silvi Silvestri and Mariana Rufino, Animal (2013), 7:s1, pp 3–18.

Read related articles
Taking the long livestock view, 23 Jan 2013
Greening the livestock sector, 22 Jan 2013
Livestock livelihoods for the poor: Beyond meat, milk and eggs, 8 Jan 2013
A fine balancing act will be needed for livestock development in a changing world, 7 Dec 2012
Fewer, better fed, animals good for the world’s climate and the world’s poor, 22 Nov 2012
Scientific assessments needed by a global livestock sector facing increasingly hard trade-offs, 12 Jul 2013.
A new global alliance for a safer, fairer and more sustainable livestock sector, 13 Apr 2012
Sharing the space: Seven livestock leaders speak out on a global agenda, 20 Mar 2012
Towards a more coherent narrative for the global livestock sector, 15 Mar 2012
Developing an enabling global livestock agenda for our lives, health and lands, 13 Mar 2012

Acknowledgements
This paper is an ILRI output of two CGIAR Research Programs: Livestock and Fish and Climate Change, Agriculture and Food Security.

Lowering the ‘water footprint’ of livestock products

vietnam fodder10_lo

A smallholder livestock farm in Dak Nong Province, Vietnam. Animals raised in mixed systems have a much lower water footprint on surface and groundwater bodies than those in industrialized farming systems (Photo credit: Neil Palmer/CIAT).

A leading researcher in water resources says that the efficiency of water use in smallholder livestock systems in Africa could be raised significantly through such means as reducing levels of concentrate feed used in livestock feeding systems, raising more livestock in drylands unsuitable for crop farming, and greater cooperation between livestock sector players and water management experts.

Arjen Hoekstra, a professor in water management from the University of Twente, in the Netherlands, made these remarks during a ‘Livestock live talk’ on ‘The water footprint of livestock products’ at the International Livestock Research Institute (ILRI) on 7 Feb 2013.

According to Hoekstra, every commodity has a water footprint –‘the volume of fresh water that is used to produce the commodity, summed over the various steps of the production chain’. This footprint includes when and where the water was used and the temporal and spatial dimensions of the water used.

About 4% of the global water footprint comes from domestic water use, but by far most of the world’s water footprint – 96% – is ‘invisible’ and is associated with agricultural and industrial products bought in markets.

‘Ninety-two per cent of humanity’s water footprint comes from agricultural production, and animal production is responsible for 29% of the water footprint of the global agricultural sector,’ said Hoekstra. Agriculture-related water use inefficiencies in developing countries contribute to a farming water footprint that is much larger in these countries than in developed countries.

Hoekstra presented results from a series of studies that looked at the globalization of water, the water footprint of animals and what can be done to reduce it. These studies focus on components of water consumption and water pollution in producing market commodities, including the volume of rain, surface or ground water evaporated or incorporated into a product and the volume of polluted water resulting from the processes of producing specific commodities.

His results show that in food production, animal products such as beef, poultry and pork had a consistently higher footprint than crops such as wheat and soybean.

‘The higher water footprint of animal products is mostly related to the origin and composition of animal feeds and the feed conversion efficiency’, said Hoekstra. ‘Whether concentrates are organic or conventional determines the pollution-related water footprint of the feed.’

Hoekstra noted that animals raised in grazing and mixed systems had a much lower water footprint on surface and groundwater bodies than those in industrialized farming systems. ‘Even though the conversion of feed to livestock product (milk or meat) improves as one moves from grazing to industrial systems, this is at the cost of more high-nutrient concentrate feed, which has a larger water footprint than roughages,’ he said.

Water footprint assessment is a growing field. ‘In future’, Hoekstra said, ‘stakeholders have the challenge of coming up with shared terminologies and calculations for a global water footprint standard and setting up benchmarks for quantitative water footprint reduction targets.’ A Water Footprint Network that brings together academia, governments and the private and public sectors has already been established towards this end.

View Arjen Hoekstra’s presentation:

Read a related article by Jane Gitau in ILRI’s People, Livestock and Environment blog.

Climate change and agricultural experts gather in California this week to search for the holy grail of global food security

Silhouette of a woman, by Vincent van Gogh,

Silhouette of a peasant woman digging carrots, by Vincent van Gogh, 1885, Van Gogh Museum, Amsterdam, Netherlands (via WikiPaintings).

Experts working at the interface of climate change and agriculture are gathering at two venues in California this week to do the impossible: find ways to do ‘climate-smart agriculture’, specifically—use science to feed more of the world’s growing population and reduce world poverty while mitigating agriculture’s environmental harms the greenhouse gas emissions that are warming the Earth.

First up is a CGIAR group looking to work better, with faster impacts, through so-called ‘social learning’. On Mon and Tue, 18–19 Mar 2013, the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS) is holding its annual science meeting, in Bodega Bay. This group of 70 or so people is Rethinking Science, Learning and Partnerships to Meet Development Outcomes: Reducing Poverty and Improving Food Security in the Context of Climate Change.

This CCAFS meeting is looking for ways to achieve better, bigger and faster impacts through engagement with a wide variety of communities. The participants see untapped potential in CGIAR and beyond for actors of diverse kinds to join forces in improving global food security in the light of climate change. They’re looking at innovative ways to democratize and co-create science for practical use. They hope to build on a legacy of social learning approaches and participatory work within CGIAR and to find ways to adapt these to address the complex challenges faced by hundreds of millions of small-scale food producers and sellers in developing countries.

Updates from the event are being shared on the CCAFS website and on Twitter (follow #2013CCSL).
For more information, go to CCAFS 2013 Science Meeting programme.

Among the CCAFS participants coming from the International Livestock Research Institute (ILRI), in Nairobi, Kenya, are Philip Thornton, James Kinyangi, Mariana Rufino, Polly Ericksen, Wiebke Foerch, Maren Radeny and Ewen Le Borgne.

Three peasants at a meal, by Pablo Picasso (via WikiPaintings)

Three peasants at a meal, pencil sketch and study by Vincent van Gogh, 1890, Van Gogh Museum, Amsterdam, Netherlands (via WikiPaintings).

Following the Bodega Bay meeting, a larger group of climate change and agricultural experts will meet at the University of California at Davis from Wed through Fri, 20–22 Mar 2013, for a global science conference on Climate-Smart Agriculture (and here).

With climate change occurring more rapidly than anticipated, an increase in extreme weather events is threatening global agriculture and food supplies. Existing technologies and institutional structures will be insufficient to slow climate change while feeding the growing human population sustainably. Participants at this conference will work to identify useful actions that are science-based, to use knowledge systems in new ways and to help strengthen the resilience of agricultural communities facing an uncertain future. They’ll look at new ways of integrating science and policy to transform land management and community action for food security. The overall aim is to link agricultural sciences with policies and practices so as to ensure a triple bottom line: food security, poverty alleviation and ecosystem services.

Many CCAFS staff will be participating in, or organizing sessions at, this conference as well.
For more information, visit the UC Davis website.

Boosting pig production among India’s poor: Tata-ILRI research partnership helps farmers beat classical swine fever

ILRI pig production project in Nagaland

A pig farmer in Nagaland, India. A Tata-ILRI partnership is helping Indian farmers beat classical swine fever to boost pig production (photo credit: ILRI/Ram Deka).

A program that is supporting rural Indian farmers improve their livelihoods by helping them to raise pigs more efficiently is the highlight of a new annual report by a project coordinated by the International Livestock Research Institute (ILRI).

The project, ‘Enhancing livelihoods through livestock knowledge systems’, is a partnership between the Sir Ratan Tata Trust, the Navajbai Ratan Tata Trust and ILRI that was started in 2011. The pig farming component of the project is being implemented in four Indian states: Jharkhand, Arunachal, Mizoram and Nagaland.

‘We support animal breeding, feeding, housing, health care and marketing through appropriate institutions,’ said V Padmakumar, the project’s coordinator from ILRI, who is based in ILRI’s Hyderabad office.

Nearly 80 per cent of the households in the four states rear pigs in smallholder systems, with each household rearing up to three pigs. Pork meets a significant part of the dietary protein needs of these communities.

‘Pig farmers in these remote areas not only have difficulty accessing markets due to poor roads but also have little knowledge on how they can improve their feeds and feeding systems to speed and increase their pig production,’ says Padmakumar. ‘Veterinary services are also scarce,’ he said.

One of the project’s key successes has been to raise attention of the need to improve veterinary services to deal with classical swine fever, a highly contagious and potentially fatal viral disease of pigs.

The project carried out a survey in 2011 that revealed that smallholder farmers in Assam, Mizoram and Nagaland lose, each year, nearly USD40 million in incomes due to the costs of treating and replacing pigs lost to classical swine fever.

Targeted advocacy by the project has increased government attention to the burden of this disease on the country’s smallholders. As a result, there now exists a nationwide swine fever control program that is prioritizing interventions against the disease in Assam, Mizoram and Nagaland. The project has also managed to raise awareness of control options available for controlling classical swine fever; the government is now supporting increased in-country production of vaccines that will protect pig populations against the disease.

Read the ‘Tata-ILRI Partnership Program’ annual report.

Download the project policy brief.

Better grass for better smallholder dairying in East Africa

The tuft of grass minor, by Albrecht Durer (via Wikipaintings).

The Tuft of Grass Minor, watercolour by Albrecht Dürer (1471–1521) (image via Wikipaintings).

An impact case study on Getting superior Napier grass to dairy farmers in East Africa was published on 1 Mar 2013 by the European Initiative for Agricultural Research for Development (EIARD), the International Livestock Research Institute (ILRI) and the Kenya Agricultural Research institute (KARI). Excerpts follow.

To meet demand for high-yielding, disease resistant fodder from smallholder dairy farmers in East Africa, scientists from the Kenya Agricultural Research Institute (KARI) and the International Livestock Research Institute (ILRI) worked together to select and distribute smut-resistant varieties of Napier grass.

‘Napier grass has become the most important fodder crop in Kenya, but 20 years ago head smut disease began to have a devastating impact, turning valuable fodder into thin, shrivelled stems. With the cost of disease control using systemic fungicide beyond the means of most smallholder dairy farmers, KARI began work to select smut-resistant varieties.

‘With access to Napier grass germplasm from ILRI’s genebank, KARI developed two resistant varieties — Kakamega I and Kakamega II. Favourable laboratory results were confirmed in farmer’s fields and work began to multiply planting material. Within a year, cuttings were distributed to over 10,000 smallholder farmers. The new varieties are not quite as productive as the best of Kenya’s local Napier grass varieties, but have still proven popular in smut-affected areas. By 2007, 13 per cent of farmers were using Kakamega I for zero grazing systems in smut prone areas.

‘The chance of head smut resistance breaking down in the new varieties is high, so KARI is screening more materials from ILRI, which is continuing to build its Napier grass collection to have germplasm available to screen for new resistant varieties. In 2012, ILRI provided the Brazilian Agricultural Research Corporation, Embrapa, with Kakamega I and II to enable researchers to use them to develop higher yielding and more nutritious resistant varieties. . . .

Background
‘Dairy farming, Kenya’s leading livestock sector activity, is vital for the livelihoods and food security of millions of Kenyans. More than 80 per cent of milk produced and sold in Kenya comes from smallholder farmers, typically raising just one or two dairy cows on small plots of land. Women perform half of all dairy related activities in Kenya, which improves household welfare, primarily through increased household income and milk consumption.

‘With a growing population and shrinking areas for pasture, cattle are increasingly being fed on crop residues, cultivated fodder and some concentrates. Ninety per cent of farmers now produce on-farm feeds. Being able to provide enough good quality fodder is by far the most important factor in achieving high milk quality and yield, with a well fed animal producing two or three times more milk than an averagely fed one.

‘The high yielding fodder, Napier grass — Pennisetum purpureum — has become by far the most important due to its wide adaptation to different regions, high yield and ease of propagation and management. Napier grass constitutes between 40–80 per cent of the forage for more than 0.6 million smallholder dairy farms. With fodder in high demand, selling Napier grass as a business has good potential for improving smallholder livelihoods. According to a recent survey, up to 58 per cent of Kenyan smallholder farmers already sell fodder, including crop residues, straw or grass.

‘However, in the early 1990s, head smut disease, caused by the fungus Ustilago kamerunensis, began to have a devastating impact on Napier grass. Spread rapidly by wind and infected plant material, smut turned valuable Napier grass into thin, shrivelled stems and reduced yields by 25–46 per cent. For smallholder farmers, the threat was very serious.

‘Disease control using systemic fungicide in fodder crops is very expensive and therefore beyond the means of most smallholders. Using tolerant high yielding varieties is a cost effective solution and avoids the additional costs of moving to a different feeding system. ILRI maintains an international collection of forage germplasm under the auspices of the International Treaty on Plant Genetic Resources for Food and Agriculture. The state of the art genebank, based in Ethiopia, holds over 19,000 forage accessions, including 60 genotypes of Napier grass. . . .’

Funding
ILRI received direct funding from the European Union, Germany, Switzerland and the United Kingdom to support their forage diversity work and forage genebank in addition to funding from CGIAR.

For further information
Getting superior Napier grass to dairy farmers in East Africa, impacts case study by EIARD, ILRI and KARI, Mar 2013
Visit ILRI’s forage diversity website
Visit the project site: Napier Grass Stunt and Smut Project
Saving animal feed plants to preserve livelihoods, 2007 (ILRI film, run-time: 11 minutes)
Putting ILRI’s genebank to work, 2007 (ILRI film: run-time: 14 minutes)
Contact: Alexandra Jorge, ILRI Genebank Manager: a.jorge [at] cgiar.org

Greening the livestock sector: ‘Game changers’ for environmental, social, economic gains

Global Agenda of Action in Support of Sustainable Livestock Sector Development, Nairobi

Jimmy Smith (centre), director general of ILRI, with participants at the 3rd Multi-stakeholder Platform Meeting of the Global Agenda of Action in Support of Sustainable Livestock Sector Development, 22–24 Jan 2013 (photo credit: ILRI/Paul Karaimu).

A week-long Third Multi-stakeholder Platform Meeting of A Global Agenda of Action in Support of Sustainable Livestock Sector Development, kicked off today in Nairobi, Kenya.

People concerned about either the benefits or the costs of livestock production should take note of these deliberations.

The Global Agenda is committed to broad-based, voluntary and informal stakeholder actions improving the performance of the livestock sector. It ambitiously aims to protect natural resources as well as to reduce poverty and protect public health. The assumption (‘theory of change’) underpinning the Agenda is that natural resource-use efficiency and thus sustainable development of the livestock sector can be achieved by an increase in the use of humanmade resources and a concomitant reduction in the use of natural resources per unit of livestock food/product/output.

View or watch (livestream) a slide presentation about the Global Agenda, titled People, the Planet and Sustainable Livestock, made by Jeroen Dijkman, of the United Nations Food and Agriculture Organization (FAO), at the International Livestock Research Institute (ILRI), in Nairobi, Kenya, on Friday, 18 January 2013. This was the fifth in a series of ‘livestock live talks’ at ILRI. Dijkman spoke of the coming crunch: ‘We’re adding two China’s to the world in the next 30 years and by 2050 we’ll need to feed 335 more people and need 70% more meat and milk.’ This, Dijkman said, is happening in the midst of growing land, soil and water scarcity (agriculture accounts for 70% of all freshwater use) and increasing livestock and other greenhouse gas emissions that are heating up our climate.

When Dijkman was asked if he thinks the Global Agenda offers a ‘third way’ for livestock production, one somewhere between subsistence and industrial production, he answered, it’s the ‘only way’.

We’re not going to stop livestock production, and livestock is at the centre of most contemporary resource use issues (land, water, energy, nutrients, climate change). Demand for livestock products will likely continue to be strong. Efficiency is key to reducing resource requirements and environmental impact. We need faster new technology adoption and better supporting policy frameworks. Making livestock more sustainable is both important and urgent: action is what is needed. ‘Blame games’ aren’t helpful: We need a constructive dialogue to build consensus. Resource use efficiency is the common ground and it indicates the direction of change.” — Jeroen Dijkman, FAO

Rationale
Growing populations, income gains and urbanization have made livestock one of the fastest growing sub-sectors of agriculture. Past sector expansion in developed countries and more recently in emerging nations has been impressive and has been associated with a widespread transformation of the livestock sector. Ensuring that the continuing demand expansion for livestock products does not increase pressure on natural resources and contributes to socially desirable outcomes, however, will require further adjustments and improvements in sector policies, governance and investments.

Focus
The Agenda’s stakeholders have agreed initially to focus on the following three areas.

Closing the efficiency gap
Application of existing technology and institutional frameworks to generate large resource use efficiency, economic and social gains.

Restoring value to grasslands
Harnessing grass/rangeland’s potential to contribute to environmental services and sustainable livelihoods.

Towards zero discharge
Reducing nutrient overload and greenhouse gas emissions through cost-effective recycling and recovery of nutrients and energy contained in animal manure.

As FAO’s Dijkman said in his seminar at ILRI the week before:

We’re moving to a new narrative. The livestock sector will grow but that growth will need to be ‘green’. The livestock sector offers great opportunities for better resource management and development. The good news is that social and health objectives can be aligned. We need to do this jointly – through collective action. That’s what this Global Agenda is all about.”

Field visits
Participants at the Global Agenda meeting this week will visit the following three agencies on the Friday following the close of the meeting on Thursday.

Ol Kalou Dairy
Ol Kalou Dairy Ltd is a well-established limited company founded located in the Central Province of Kenya. Founded in 2002 and comprising 3500 farmers, the dairy collects about 20,000 litres per day. The dairy is well equipped with a cooler and an agro vet shop that provides inputs and services on credit to active suppliers. Extension services are provided to the members. The dairy is currently been supported by the East Africa Dairy Development Project.

ILRI biosciences laboratories
A morning’s visit to the laboratories at ILRI will include an overview of ILRI by its director general, Jimmy Smith, followed by a tour of ILRI’s facilities, including the Biosciences eastern and central Africa (BecA)-ILRI Hub and its research, capacity building and services. works with partners worldwide to enhance the roles livestock play in pathways out of poverty, principally in Africa and Asia. The tour will also showcase ILRI’s biosciences livestock research, including its 454 sequencing platform and a project on ‘An Integrated Response System for Emerging Infectious Diseases in East Africa’, another on mycotoxins research, a nutritional diagnostics platform and a livestock bio-repository. The tour will be followed by a science poster session and lunch.

Farmers’ Choice
Farmer’s Choice was established in 1980 with its main objective being the sale of fresh and processed pork products to the entire population and across all income groups in Kenya. The core business of Farmer’s Choice is the production of sausages, bacon, ham, delicatessen products and fresh pork. Beef, lamb and poultry have also become important supplementary products.

Background
This meeting is organized by the International Livestock Research Institute (ILRI), the African Union-Interafrican Bureau for Animal Resources (AU-IBAR) and the Food and Agriculture Organization of the United Nations (FAO). ILRI and AU-IBAR are co-hosting the meeting at the Intercontinental Hotel in Nairobi, Kenya, from 22 to 24 January 2013, with a third of the participants taking field trips on the following Friday. This meeting represents a ‘constituting milestone’ for the Agenda, entailing, in addition to information and networking events, working sessions to refine action programs and governance agreements.

About ILRI
The International Livestock Research Institute (ILRI) works with partners worldwide to enhance the roles livestock play in pathways out of poverty, principally in Africa and Asia. The products 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 their 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 USD60 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.

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.

Pastoral livestock development in the Horn: Where the centre cannot (should not) hold

Pastoralism and Development in Africa

Who eats better, pastoral children in mobile herding or settled communities? (answer: mobile). Which kind of tropical lands are among those most at risk of being grabbed by outsiders for development? (rangelands). Are pastoral women benefitting at all from recent changes in pastoral livelihoods? (yes). Which region in the world has the largest concentration of camel herds in the the world? (Horn of Africa). Where are camel export opportunities the greatest? (Kenya/Ethiopa borderlands). Is the growth of ‘town camels and milk villages’ in the Somali region of Ethiopia largely the result of one man’s (desperate) innovation? (yes). Which is the more productive dryland livestock system, ranching or pastoralism? (pastoralism). Is irrigation involving pastoralists new? (no). Are we missing opportunities to make irrigated agriculture a valuable alternative or additional livelihoods to pastoralism? (perhaps).

The answers to these and other fascinating questions most of us will never have thought to even ask are found in a new book, Pastoralism and Development in Africa: Dynamic Change at the Margins, edited by Andy Catley, of the Feinstein International Center, at Tufts University; Jeremy Lind, of the Institute of Development Studies at the University of Sussex and Future Agricultures Consortium; and Ian Scoones, of the Institute of Development Studies, the STEPS Centre and the Future Agricultures Consortium. Published in 2012, it includes a chapter by scientists at the International Livestock Research Institute (ILRI): Climate change in sub-Saharan Africa: What consequences for pastoralism?

Thirty-six experts in pastoral development update us on what’s so in pastoral development in the Greater Horn of Africa, highlighting innovation and entrepreneurialism, cooperation and networking and diverse approaches rarely in line with standard development prescriptions. The book highlights diverse pathways of development, going beyond the standard ‘aid’ and ‘disaster’ narratives. The book’s editors argue that ‘by making the margins the centre of our thinking, a different view of future pathways emerges’. Contributions to the book were originally presented at an international conference on The Future of Pastoralism in Africa, held at ILRI’s campus in Addis Ababa, Ethiopia, in Mar 2011.

Here are a few of the book’s ‘unstandard’ ways of looking at pastoralism.

‘Overall, mainstream pastoral development is a litany of failure. . . . Pastoral borderlands are . . . beyond the reach of the state, and so the development industry.  ·  Perhaps no other livelihood system has suffered more from biased language and narratives than pastoralism. . . . Hidden in these narratives also are political agendas that perceive mobile pastoralism as a security and political threat to the state, and, therefore, in need of controlling or eliminating.  ·  To avoid the Malthusian label, or simply out of ignorance, many social scientists have neglected the important implications of demographic trends in pastoral areas. . . . Some of the fastest growing towns in Kenya are in pastoralist districts.  ·  Local demand for education is consistently high among pastoralists, a pattern that was not the case even 10–15 years ago.  ·   It seems feasible . . . to propose a pastoral livestock and meat trade value approaching US$1 billion for the Horn in 2010.  ·  The past dominant livestock practice characterized as traditional mobile pastoralism” is increasingly rare. . . . The creation of a relatively elite commercial class within pastoral societies is occurring at a rapid pace in some areas.  ·  . . . [P]astoral lands are vulnerable to being grabbed. On a scale never before envisioned, the most valued pastoral lands are being acquired through state allocation or purchase . . . . The Tana Delta sits at the precipice of an unprecedented transformation as a range of investors seek to acquire large tracts of land to produce food and biofuels and extract minerals, often at the expense of pastoralists’ access to key resources. . . . A notable facet of changing livelihoods in the Tana Delta is the increasingly important role of women in the diversifying economy, a trend seen elsewhere in the region. . . . Until now, pastoralists have been mostly unsuccessful at challenging proposed land deals through the Kenyan courts.  ·  The shift from a breeding herd to a trading herd is perhaps the biggest shift in Maasai pastoralism.  ·  Although drought is a perennial risk to pastoralist livelihoods, an emerging concern is securing access to high value fodder and other resources to support herds, in areas where rangelands are becoming increasingly fragmented due to capture of key resource sites.  ·  During the 2009–2011 drought in the Horn of Africa, several hundred pastoralists who participated in an Index-Based Livestock Insurance (IBLI) scheme in northern Kenya received cash payments.  ·  Despite its many challenges, mobile pastoralism will continue in low-rainfall rangelands throughout the Horn for the simple reason that a more viable, alternative land use system for these areas has not been found. . . . But the nature of pastoralism in 2030 will be very different than today in 2012. . . .’

One of the book’s chapters is on Climate change in sub-Saharan Africa: What consequences for pastoralism? It was written by ILRI’s Polly Ericksen (USA), whose broad expertise includes food systems, ecosystem services and adaptations to climate change by poor agricultural and pastoral societies; and her ILRI colleagues Jan de Leeuw (Netherlands), an ecologist specializing in rangelands (who has since moved to ILRI’s sister Nairobi CGIAR centre, the World Agroforestry Centre); Mohammed Said (Kenyan), an ecologist specializing in remote sensing and community mapping; Philip Thornton (UK) and Mario Herrero (Costa Rica), agricultural systems analysts who focus on the impacts of climate and other changes on the world’s poor countries and communities; and An Notenbaert (Belgium), a land use planner and spatial analyst.

The ILRI scientists argue that if we’re going to find ways to adapt to climate change, we’re going to need to learn from pastoralists — who, after all, are demonstrably supreme managers of highly variable climates in addition to rapidly changing social, economic and political contexts — about how to make sustainable and profitable, if cyclical and opportunistic, use of increasingly scarce, temporally erratic and spatially scattered water, land, forage and other natural resources.

In important respects, pastoral people are at the forefront of responses to climate change, given their experience managing high climate variability over the centuries. Insights from pastoral systems are critical for generating wider lessons for climate adaptation responses.’

What scientists don’t know about climate change in these and other drylands, they warn, is much, much greater than what we do know. So:

The key question is how to make choices today given uncertainties of the future.’

Because ‘the more arid a pastoral environment, the less predictable the rainfall’, and because ‘vegetation growth closely follows rainfall amount, frequency and duration, . . . the primary production of rangelands is variable in time and space’, with the primary driver of this variability in livestock production in pastoral areas being the availability or scarcity of forages for feeding herds of ruminant animals (e.g., cattle, sheep, goats, camels). In severe or prolonged droughts, forage and water scarcity become a lethal combination, killing animals en masse. The authors quote former ILRI scientist David Ndedianye, a Maasai from the Kitengela rangelands in Nairobi’s backyard, and other ILRI colleagues who report in a 2011 paper on pastoral mobility that pastoral livestock losses in a 2005 drought in the Horn were between 14 and 43% in southern Kenya and as high as 80% in a drought devastating the same region in 2009. It may take four or five years for a herd to recover after a major drought.

Map of flip in temperatures above and below 30 degrees C
Maps of a flip in temperatures above 30 degrees C. Left: Threshold 4 — maximum temperature flips to greater than 30°C. Right: Threshold 5 — maximum temperature in the growing season flips to greater than 30°C. Map credit: Polly Ericksen et al., Mapping hotspots of climate change and food insecurity in the global tropics, CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS), 2011.

Evidence from a range of modelling efforts was used by the authors to calculate places in the global tropics where maximum temperatures are predicted to flip from less than 30 degrees C to greater than 30 degrees C by 2050. This temperature threshold is a limit for a number of staple crops, including maize beans and groundnut. Heat stress also affects grass and livestock productivity. Large areas in East African may undergo this flip, according to these models, although the authors warn that these predictions remain highly uncertain.

Thornton and Herrero in a background paper to the World Bank’s 2010 World Development Report investigated the impacts of increased drought frequency on livestock herd dynamics in Kenya’s Kajiado District. ‘Their results indicate that drought every five years keeps the herds stable as it allows sufficient time for the herds to re-establish. A once in three year drought interval by contrast drives livestock density to lower levels . . . . Hence, if there is a greater frequency of drought under climate change, this might have a lasting impact on stocking density, and the productivity of pastoral livestock systems.

The results were extrapolated to all arid and semi-arid districts in Kenya and estimated that 1.8 million animals could be lost by 2030 due to increased drought frequency, with a combined value of US$630 million due to losses in animals, milk and meat production. . . .’

In the face of changes in climate (historical and current), many pastoralists will change the species of animals they keep, or change the composition of the species in their herds. In the space of three decades (between 1997/8 and 2005–10) in Kenya, for example, the ratio of shoats (sheep and goats) to cattle kept increased significantly. Goats, as well as camels, are more drought tolerant than cattle, and also prefer browse to grasses.

Such changes in species mix and distribution will have important implications for overall livestock productivity and nutrition, as well as milk production.’

While change is and always has been fundamental to pastoralist livelihood strategies, much more—and much more rapid and diverse—change is now sweeping the Horn and many of the other drylands of the world, with local population explosions and increasing rangeland fragmentation and civil conflicts coming on top of climate and other global changes whose nature remains highly uncertain. New threats are appearing, as well as new opportunities.

While the ILRI team argues that we can and should look to pastoralist cultures, strategies and innovations for insights into how the wider world can adapt better to climate change, they also say that ‘development at the margins’ is going to be successful only where pastoralists, climate modellers and other scientists  work together:

. . . [A]daptation and response strategies in increasingly variable environments must emerge from grounded local experience and knowledge, as well as be informed by increasingly sophisticated [climate] modeling efforts.’

Support for the conference and book came from the UK Department for International Development, the United States Agency for International Development in Ethiopia, and CORDAID. Purchase the book from Routledge (USD44.96 for the paperback edition): Pastoralism and Development in Africa: Dynamic Change at the Margins, first issued in paperback 2012, edited by Andy Catley, Jeremy Lind and Ian Scoones, Oxon, UK, and New York: Routledge and Earthscan, 328 pages. You’ll find parts of the book available on Google books here.

To read the ILRI chapter—Climate change in sub-Saharan Africa: What consequences for pastoralism?, by Polly Ericksen, Jan de Leeuw, Philip Thornton, Mohammed Said, Mario Herrero and An Notenbaert—contact ILRI communications officer Jane Gitau at j.w.gitau [at] cgiar.org.

New research program for humid tropics to boost world food production while reducing severe poverty

DRC20_lo

A guinea pig keeper in the North Kivu Province of DR Congo (photo credit: Neil Palmer/CIAT).

Humidtropics, a major new research-for-development program launched today, aims at increasing average farm income by 50% with 25% of poor households lifted above the poverty line in the humid tropics in the next 15 years.

The humid tropics—the vast hot and wet areas spanning the equator that are home to some 2.9 billion people living on 3 billion hectares of land—support the guinea pig keepers of North Kivu Province in DR Congo, the cocoa plantations of West Africa, the plantain/banana systems of East and Central Africa,  the  mixed crop-livestock systems of Central America and the Caribbean and the intensively farmed crop-and-livestock systems of Asia.

Most of the world’s rural poor live in the world’s humid tropics, which are critical to ensuring global food supplies, maintaining global biodiversity, reducing global warming and, last but certainly not least, empowering women with precious few other options for making a living and feeding their children.

Research leading to production system intensification will boost yields of staple crops and help to reduce the number of malnourished children by 30%.

This new CGIAR research program will help poor women and farm families boost their agricultural productivity while conserving their land and natural resources.

Participants in this new CGIAR research program include the world’s leading agricultural research institutions: Bioversity International, the Forum for Agricultural Research in Africa (FARA), the International Centre of Insect Physiology and Ecology (icipe), the International Center for Tropical Agriculture (CIAT), the International Livestock Research Institute (ILRI), the International Potato Center (CIP), the International Water Management Institute (IWMI), the World Agroforestry Centre (ICRAF), Wageningen University and the World Vegetable Center (AVRDC).

If you are interested in this new program, please register at http://humidtropics.org/contact.

For more information, contact Humidtropics Office, Humidtropics@cgiar.org

More ‘crop per drop’? Only when ‘more milk per drop’ saves the poor as well as Nile Basin waterflows

Now it is time for the herders to cool their body

Herder boys and cattle both cool their bodies in the midday heat in the Awash River in Ethiopia’s Oromia Region, posing health problems for people at such shared livestock watering sites (photo credit: ILRI).

Ten years ago, scientists at the International Livestock Research Institute (ILRI) and the International Water Management Institute (IWMI) established a partnership centred at ILRI’s campus in Addis Ababa, Ethiopia. The partnership was formed to address widespread concerns that livestock consume excessive amounts of water and that livestock keeping is a major cause of water degradation. A statistic commonly reported, and believed, was that producing one kilogram of meat required 100,000 litres of water, mainly for production of livestock feed, in contrast to less than 3000 litres needed to grow most crops.

The ILRI-IWMI partners believed that these statements were neither sufficiently nuanced to note huge differences in the world’s livestock systems nor grounded in good science. But it was clear to them that if the figures were true, they needed to find ways to reduce livestock use of water resources and if the figures were not true, they needed to determine accurate estimates of water use. They were fortunate to be welcomed into the CGIAR Challenge Program on Water and Food (CPWF) and the CGIAR Comprehensive Assessment of Water and Agriculture, both of which enabled the new partners to pursue research on what was quickly termed ‘livestock water productivity’ in an African context.

Many unanswered questions remain, but the following consensus emerged from the ILRI-IWMI partnership.
1. African beef production typically uses one-tenth to one-fifth the amount of water used in industrialized countries and livestock systems; 11,000–18,000 litres of water are used to produce one kilogram of beef in Africa compared to the 100,000 litres for beef production that is so often reported (see above). It is clear that industrialized livestock production systems tend to use vastly more water per unit of beef produced than Africa’s livestock keepers, who typically integrate their raising of beef stock with food cropping on small plots of land, where the livestock enhance the cropping (e.g., via manure for fertilizing the soils and draught power for ploughing the land) and the cropping enhances the livestock (e.g., via the residues of grain crops used to feed the farm animals).

2. Because cattle and other livestock serve and benefit the world’s poor farmers in many ways, with meat being only one benefit that usually comes after an animal has served a long life on a farm, the water used in African smallholder livestock production systems generates many more benefits than meat alone.

3. Over the preceding half a century, much research had been conducted to increase crop water productivity, but virtually none to increase livestock water productivity. This dearth, along with the high and rising value of many animal products, suggests that returns on investments made to develop agricultural water resources for crops will be much greater if livestock are integrated in the cropping systems and factored into the water equations.

4. Finally, there still remains much room to increase livestock water productivity in Africa’s small-scale livestock production systems. Four strategies for doing this are outlined below and are included in a book that was launched earlier today in Addis Ababa.

But before we get to that press release, listen for a moment to Don Peden, a rangeland ecologist who led this research at ILRI for many years and who says the IWMI-ILRI partnership ‘was an extraordinary example of the potential for inter-centre collaboration.

I often think the partnership was as important as the research products it generated’, says Peden. ‘Many people and institutions helped make our collaborative work on water and livestock succeed. First on the list is Doug Merrey. Many of the CPWF staff made huge contributions and provided outstanding encouragement. There are too many to mention, but they include Jonathan Woolley, Alain Vidal, Seleshi Bekele, David Molden and Simon Cook.

‘We also owe a great debt to many of our partners’, Peden goes on to say. ‘This includes professors (the late) Gabriel Kiwuwa, David Mutetitka and Denis Mpairwe from Makerere University as well as Hamid Faki from Sudan’s Agricultural Research Corporation. And special mention should be made about Shirley Tarawali, now serving as ILRI’s director for Institutional Planning, who provided day-to-day encouragement and support throughout the project and made a tremendous contribution. And we also had a unique research team in ILRI’s People, Livestock and the Environment Theme that made successes possible.

In brief, the interpersonal interactions among all of these people and institutions and many others made this work possible. The success of the project lies in the people, and not just in the book.’

5 key messages regarding livestock and water—excerpted in full from the livestock chapter in the new—book follow.
(1) ‘Domestic animals contribute significantly to agricultural GDP throughout the Nile Basin and are major users of its water resources. However, investments in agricultural water development have largely ignored the livestock sector, resulting in negative or sub-optimal investment returns because the benefits of livestock were not considered and low-cost livestock-related interventions, such as provision of veterinary care, were not part of water project budgets and planning. Integrating livestock and crop development in the context of agricultural water development will often increase water productivity and avoid animal-induced land and water degradation. . . .

(2) ‘Under current management practices, livestock production and productivity cannot meet projected demands for animal products and services in the Nile Basin. Given the relative scarcity of water and the large amounts already used for agriculture, increased livestock water productivity is needed over large areas of the Basin. Significant opportunities exist to increase livestock water productivity through four basic strategies. These are:
‘a) utilizing feed sources that have inherently low water costs for their production
‘b) adoption of the state of the art animal science technology and policy options that increase animal and herd production efficiencies
‘c) adoption of water conservation options
‘d) optimally balancing the spatial distributions of animal feeds, drinking water supplies and livestock stocking rates across the basin and its landscapes. . . .

(3) ‘Suites of intervention options based on these strategies are likely to be more effective than a single-technology policy or management practice. Appropriate interventions must take account of spatially variable biophysical and socio-economic conditions. . . .

(4) ‘For millennia, pastoral livestock production has depended on mobility, enabling herders to cope with spatially and temporally variable rainfall and pasture. Recent expansion of rain-fed and irrigated croplands, along with political border and trade barriers has restricted mobility. Strategies are needed to ensure that existing and newly developed cropping practices allow for migration corridors along with water and feed availability. Where pastoralists have been displaced by irrigation or encroachment of agriculture into dry-season grazing and watering areas, feeds based on crop residues and by-products can offset loss of grazing land. . . .

(5) ‘In the Nile Basin, livestock currently utilize about 4 per cent of the total rainfall, and most of this takes place in rain-fed areas where water used is part of a depletion pathway that does not include the basin’s blue water resources. In these rain-fed areas, better vegetation and soil management can promote conversion of excessive evaporation to transpiration while restoring vegetative cover and increasing feed availability. Evidence suggests that livestock production can be increased significantly without placing additional demands on river water.’

Nile

Cows on the banks of the Nile (in Luxor, Egypt) (photo on Flickr by Travis S).

Now (finally) on to that press release.

‘Tens of millions of small-scale farmers in 11 countries need improved stake in development of the Nile River Basin—News conference, Addis Ababa, 5 Nov 2012

Alan Duncan at the Quick Feeds Synthesis meeting

ILRI livestock feed specialist Alan Duncan (right), joint Basin leader of the Nile Basin Development Challenge Programme, participated in a news conference today in Addis Ababa launching a new study on the Nile Basin and poverty reduction (photo credit: ILRI/Zerihun Sewunet).

As planetary emergencies go, finding ways to feed livestock more efficiently, with less water, typically do not find their way into ‘top ten’ lists. But today that topic was part of a discussion by a group of experts gathered in the Hilton Hotel in Addis Ababa, Ethiopia, to highlight the Nile River Basin’s potential to help 90 million people lift themselves and their families out of absolute poverty.

Despite attempts to cooperate, the 11 countries that share the Nile river, including a new nation, South Sudan, and the drought-ridden Horn of Africa, often disagree about how this precious and finite resource should be shared among the region’s some 180 million people—half of whom live below the poverty line—who rely on the river for their food and income.

But a new book by the CPWF argues that the risk of a ‘water war’ is secondary to ensuring that the poor have fair and easy access to the Nile. It incorporates new research to suggest that the river has enough water to supply dams and irrigate parched agriculture in all 11 countries—but that policymakers risk turning the poor into water ‘have nots’ if they don’t enact efficient and inclusive water management policies.

The authors of the book, The Nile River Basin: Water, Agriculture, Governance and Livelihoods, include leading hydrologists, economists, agriculturalists and social scientists. This book is the most comprehensive overview to date of an oft-discussed but persistently misunderstood river and region. To discuss the significance of the findings in the book were Seleshi Bekele Awulachew, a senior water resources and climate specialist at the United Nations Economic Commission for Africa; Simon Langan, head of the East Africa and Nile Basin office of IWMI; and Alan Duncan, a livestock scientist at ILRI.

Drawing water from the Nile

Drawing water from the Nile (photo on Flickr by Challenge Program on Water and Food).

Smallholder farmers need improved stake in Nile’s development
There is enough water in the Nile basin to support development, but small farmers are at risk of being marginalized, says the new book, which finds that the Nile River, together with its associated tributaries and rainfall, could provide 11 countries—including a new country, South Sudan, and the drought-plagued countries of the Horn of Africa—with enough water to support a vibrant agriculture sector, but that the poor in the region who rely on the river for their food and incomes risk missing out on these benefits without effective and inclusive water management policies.

The Nile River Basin: Water, Agriculture, Governance and Livelihoods, published by CPWF, incorporates new research and analysis to provide the most comprehensive analysis yet of the water, agriculture, governance and poverty challenges facing policymakers in the countries that rely on the water flowing through one of Africa’s most important basins. The book also argues that better cooperation among the riparian countries is required to share this precious resource.

This book will change the way people think about the world’s longest river’, said Vladimir Smakhtin, water availability and access theme leader at IWMI and one of the book’s co-authors.

Agriculture, the economic bedrock of all 11 Nile countries, and the most important source of income for the majority of the region’s people, is under increased pressure to feed the basin’s burgeoning population—already 180 million people, half of which live below the poverty line. According to the book, investing in a set of water management approaches known as ‘agricultural water management’, which include irrigation and rainwater collection, could help this water-scarce region grow enough food despite these dry growing conditions.

‘Improved agricultural water management, which the book shows is so key to the region’s economic growth, food security and poverty reduction, must be better integrated into the region’s agricultural policies, where it currently receives scant attention’, says Seleshi Bekele, senior water resources and climate specialist at the United Nations Economic Commission for Africa and one of the book’s co-authors. ‘It is tempting for these governments to focus on large-scale irrigation schemes, such as existing schemes in Sudan and Egypt, but more attention must also be paid to smaller, on-farm water management approaches that make use of rainwater and stored water resources such as aquifers.’

Lack of access to water is another area that could negatively impact the poor, according to the book. In the Nile Basin, poor people live further away from water sources than the wealthy, which forces them to travel longer distances to collect water. Women that are responsible for collecting water for their households and smallholder farmers who rely on rainwater to irrigate their crops would therefore benefit from policies that give them greater access to water in the Nile Basin.

We need to look beyond simply using water for crop production if we are to comprehensively address the issues of poverty in the region’, says David Molden, IMWI’s former director general and one of the book’s co-authors. ‘Water is a vital resource for many other activities, including small-scale enterprises like livestock and fisheries. This should not be forgotten in the rush to develop large-scale infrastructure.’

Improving governance, especially coordination among Nile Basin country governments, is another crucial aspect of ensuring that the poor benefit from the basin’s water resources. The book argues that the establishment of a permanent, international body—the Nile Basin Commission—to manage the river would play a key role in strengthening the region’s agriculture, socio-economic development and regional integration.

‘The Nile Basin is as long as it is complex—its poverty, productivity, vulnerability, water access and socio-economic conditions vary considerably’, says Molden. ‘Continued in-depth research and local analysis is essential to further understanding the issues and systems, and to design appropriate measures that all countries can sign on to.’

Interestingly, the book counters a common tendency to exaggerate reports of conflict among these countries over these complex management issues. ‘Past experience has shown that countries tend to cooperate when it comes to sharing water’, says Alain Vidal, CPWF’s director. ‘On the Nile, recent agreements between Egypt and Ethiopia show that even the most outspoken Basin country politicians are very aware that they have much more to gain through cooperation than confrontation.’

For more information, visit the website of the Challenge Program on Water and Food.

The Nile River Basin: Water, Agriculture, Governance and Livelihoods is available for purchase from Routeledge as of 5 Nov 2012. IWMI’s Addis Ababa office is donating 300 copies of the book to local water managers, policymakers and institutions in Ethiopia and elsewhere in the region. If you are interested in receiving a copy please contact Nigist Wagaye [at] n.wagaye@cgiar.org.

Notes

The CGIAR Challenge Program on Water and Food (CPWF) aims to increase the resilience of social and ecological systems through better water management for food production (crops, fisheries and livestock). The CPWF does this through an innovative research and development approach that brings together a broad range of scientists, development specialists, policymakers and communities to address the challenges of food security, poverty and water scarcity. The CPWF is currently working in six river basins globally: Andes, Ganges, Limpopo, Mekong, Nile and Volta www.waterandfood.org

The International Water Management Institute (IWMI) is a nonprofit, scientific research organization focusing on the sustainable use of land and water resources in agriculture to benefit poor people in developing countries. IWMI’s mission is “to improve the management of land and water resources for food, livelihoods and the environment.” IWMI has its headquarters in Colombo, Sri Lanka, and regional offices across Asia and Africa. The Institute works in partnership with developing countries, international and national research institutes, universities and other organizations to develop tools and technologies that contribute to poverty reduction as well as food and livelihood security. www.iwmi.org

The International Livestock Research Institute (ILRI) works with partners worldwide to enhance the roles livestock play in pathways out of poverty. ILRI research products 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 their risks of livestock-related diseases. ILRI is a member of the CGIAR Consortium of 15 research centres working for a food-secure future. ILRI has its headquarters in Nairobi, Kenya, a principal campus in Addis Ababa, Ethiopia, and other hubs in East, West and southern Africa and South, Southeast and East Asia. www.ilri.org

CGIAR is a global research partnership that unites organizations engaged in research for sustainable development. CGIAR research is dedicated to reducing rural poverty, increasing food security, improving human health and nutrition, and ensuring more sustainable management of natural resources. It is carried out by the 15 centers who are members of the CGIAR Consortium in close collaboration with hundreds of partner organizations, including national and regional research institutes, civil society organizations, academia, and the private sector. www.cgiar.org

The CGIAR Research Program on Water, Land and Ecosystems examines how we can intensify agriculture, while still protecting the environment and lifting millions of farm families out of poverty. The program focuses on the three critical issues of water scarcity, land degradation and ecosystem services. It will also make substantial contributions in the areas of food security, poverty alleviation and health and nutrition. The initiative combines the resources of 14 CGIAR centers and numerous external partners to provide an integrated approach to natural resource management research. This program is led by the International Water Management Institute (IWMI). www.wle.cgiar.org

Alan Duncan is a livestock feed specialist at the International Livestock Research Institute (ILRI) and joint Basin leader of the Nile Basin Development Challenge Programme (NBDC). Duncan joined ILRI in 2007 coming from the Macaulay Institute in Scotland. He has a technical background in livestock nutrition but in recent years has been researching institutional barriers to feed improvement among smallholders. Livestock-water interactions are a key issue in Ethiopia, particularly in relation to competition for water between livestock feed and staple crops. This is a core research topic for the NBDC and Duncan has built on pioneering work in this field led by ILRI’s Don Peden. Duncan manages a range of research for development projects and acts as ILRI’s focal point for the CGIAR Research Program on Integrated Systems for the Humid Tropics.