21139 January 2000 Consultative Group on International Agricultural Research CGIAR ANNUAL REPORT 1999 SCIENCE FOR THE POOR AND THE ENVIRONMENT 640I CGIAR CENTERS CIAT: Centre dierncicnat he A tocC- a Trecical {icterm oaia Cer.ter ccr Trop: cM kgflcaiture) Coiomh,a CIFOR: 'enter for internnti M fn. es.a CIMMYT: Centd irT,r'ar oeM te Meorarnwnw de Maiz y Trigo pIniematLanal Center for the ornpcvrrn f n -Iizc ant . tt Mexic3 CIP: CetrO internaci6onai de la 'apa Internat onal Potato Canter) Peru ICARDA: hit rab na W C r ACnrtera Research in the Duy Areas. Syria ICLARM: Internationai Ceonte for to ivi, n Aquatic RcccOiutfes IVanagemnant. iaOavsia ICRAF: lntern.aion3I C-e,te for t Africa Rice Deveioornent Assoc-iation. tdte di ivoire 3 Message from the Chairman 15 Highlights from the CGIAR Centers 4 Overview from the Executive Secretary 16 CIAT 6 About the CGIAR 18 CIFOR 6 About Future Harvest 19 CIMMYT 7 In the News 20 CIP 21 ICARDA 22 ICLARM 9 The Challenge of Rural Development by Robert L. Thompson, Director, Rural 23 ICRAF Development Department, World Bank, 24 ICRISAT and CGIAR Cosponsor Representative 26 IFPRI 10 Charting a Course for System Change 27 IITA by Emil Javier, Chair, Technical Advisory 28 ILRI Committee 11 Agricultural Biotechnology and the Poor 29 IPGRI by Gabrielle Persley, Co-editor of Agricultural 30 IRRI Biotechnology and the Poor 31 ISNAR 12 Calling for a New 'Green Revolution' 32 IWMI by Maurice Strong, Chair, and Mahendra Shah, 33 WARDA Executive Secretary, third CGIAR System Review 34 Synergies in Science 44 Who's Who in the CGIAR OUR MISSION 4P~~~~~~~~~~~~~~- - I v' The Future Beckons The marvels of science are exploding in myriad ways. Yet harnessing these marvels to end human misery is a responsibility that will require redoubled efforts. Ismail Serageldin, CGIAR Chairman Message from the Chairman, Ismail Serageldin F ive years ago, when the CGIAR policy to address contemporary develop- CGIAR vision. Furthermore, beyond crops, concluded a program of renewal ment issues such as the growing divide to tackle poverty, there is a crying need for and launched a regenerated CGIAR, between the rich and the poor, the femi- intensified attention to policy, to environ- we agreed that "the success of nization of poverty, the dearth of jobs, over- mental issues (including water and soil), every program we espouse, every project population, climate change, and the loss to livestock, to the forestry and aquatic sec- we undertake, every endeavor we support, of forests and biodiversity." We must not- tors, and to ethics and safety in all we has to be measured by the extent of their we dare not-lose those opportunities. undertake. contribution toward alleviating poverty." So, we are ciallenged to design a new Very little of this can be done without That is a living commitment that requires vision for a now millennium, indeed, a the full involvement of national agricultural frequent review and renewal. So it was new age. It is an age in which the marvels research systems (NARS) in the South. The appropriate that we returned to this theme of science are exploding in myriad ways. widely differing capacity of NARS makes at International Centers Week in 1999 Yet harnessing these marvels to end capacity building of the weakest among (ICW99), our last meeting of the century, human misery, promote sustainable devel- them especially urgent. Moreover, any sim- at which we decided to create a new vision opment, and empower the weak and the ple unified approach that does not contex- to help us go out and meet the future. marginalized is a responsibility that will tualize research within the ecological and The founders of the CGIAR created this require redoubled efforts. socio-economic context of the various unique institution to fight hunger, combat The new breakthroughs that we have countries will be unrealistic. Of similar sig- its cause, poverty, and inhibit the wider been witnessing in the domains of molecu- nificance and urgency is attention to gen- consequences of both. Their perceptive lar biotechnology involve more than just the der issues and to participatory methods vision, formulated in the context of their ever-increasing speed and accuracy of at all stages of agricultural transformation. times, has been fulfilled. Few of the out- genomic sequencing techniques, or a deep- Agricultural research, if it is to be relevant standing scientific innovations of the past ened understanding of the functioning of and realistic, must be designed and carried 100 years have had as great an impact on ever more genes or the systematic unravel- out in collaboration with farmers and farm- the lives of as many people as the "green ing of the encoding of proteins. All these ers' organizations. The farmer in the field revolution" technologies. They led to an developments are exciting. Far more than and the scientist at the laboratory bench agricultural transformation in much of Asia any single discovery, however, the changing will then be united by devotion to a com- and Latin America, saving millions from face of the new science needs to be taken mon cause. Looming over all these issues the threat of starvation or death, preserving into account as we map our future course. will be the need for adequate investment land arid biodiversity, and reducing poverty Today, the new science is more and over the long term. by fueling broad economic growth. more the preserve of the private sector in The future beckons. There are difficul- Today, the global circumstances of the industrialized North. The private scctor ties ahead. There are, as well, rewards, not poverty, hunger, and environmental degra- mobilizes undreamed of amounts of just for scientists, managers, and investors dation challenge us to transform agriculture research money, rapidly accelerating the who can combine to create and design a yet again. The task is crucial and complex, pace of new discovery. This is commend- new vision, but for the poor for whom there involving both people and the environment. able. But it is accomplished in a way that is now no vision and little hope. Their des- We have, for instance, to prevail over the makes it increas ngly difficult for those tiny must be the vision of us all. The critical bizarre irony that rural areas, where food engaged in public goods research to deal issue, therefore, is that every instrument is grown, are home to cruel poverty and with in terms of Intellectual Property Rights of science-based agricultural transformation hunger. We need, at the same time, to (IPR) and the need to access the toolkit of should be mobilized in our efforts to feed ensure that productivity is fully sustain- the new science productively, while contin- the hungry, liberate the poor, and protect able-that triumphs are not achieved at uing to make ou, output available to all. the environment. We cannot accept the the expense of fragile natural resources. Resolving such conflicting approaches will notion that deprivation is imprinted on the The tasks appear formidable but, as require the negotiation and establishment genes of the poor and destitute and that M. S. Swaminathan, an elder statesman of new boundaries, and the creation of misery is their inevitable destiny. of the CGIAR, points out, "there are numer- new mechanisms. ous opportunities now to harness the power But biotechnology and germplasm of synergy between science and public improvement are only a small part of the 4 CGIAR ANNUAL REPORT 1999 |Ts,E FUTURE BEC:OPS ©wew@d( fbom the Eymcm&e e@ ag, !Uaander von der Osten s public attention was riveted CGIAR System decided that looking ahead The challenges of the new millennium, on the beginning of a new mil- is vital. "More of the sanie" is untenable in it is worth repeating, are awesorme. Finan- lennium, three A's prevailed: the context of changed and changing con- cial uncertainty among some investors awe, anxiety, and anticipation. ditions affecting the poor and disadvan- adds to the complexity of these challenges. The CGIAR System faced the same three taged. The task of harnessing dazzling CGIAR funding for the agreed research As, but for its own, special reasons. The scientific developments to support and ful- agenda is stable. The World Bank has breadth and complexity of the challenges fill the mission of the CQIAR requires con- maintained its support at $50 million and, looming in the new millennium could only tinuing and consistent renewal. The CGIAR in response to the assessment of the Sys- be described as awesome. Anxiety was System decided to march boldly forward. tem Review, has approved three-year fund- inevitable in the face of such challenges. Thus, at Internationel Centers Week, ing for the CGIAR. More than stability Yet, there was broad anticipation that the the CGIAR launched a visioning exercise. is required, however, if the CGIAR is to CGIAR could and would overcome them. The Technical Advisory Committee (TAC) realize its potential contribution to poverty The third System Review, which was was mandated to carry out a forward look- alleviation. brought to closure at the CGIAR Mid-Term ing assessment, with a five to ten year The need for expanded funding comes Meeting in Beijing (MTM99), said that the perspective, of what directions the CGIAR at a time when many OECD/DAC countries work of the CGIAR constitutes "a pro- should take, how its research should be are disenchanted with Official Development foundly significant achievement, with an conducted, and with what partners it Assistance (ODA) and when pressures on impact on the lives of millions who would should work. TAC has responded to the ODA budgets have increased. These cir- otherwise have been hungry, malnour- remit decisively and in a participatory cumstances frequently trigger constraints ished, or would have died." The CGIAR mode. The Centers have been fully con- and allocation readjustments. Investments was urged to build on the bedrock of past sulted, and their accumulated wisdom and in the CGIAR are vulnerable to all such achievement, designing new strategies, experience are being in˘orporated in the tendencies. A long-term strategy for CGIAR new research roles, and new structures new vision of the CGIAR. Additionally, funding is therefore critically important. to grapple with poverty, hunger, and pro- interested stakeholders have exchanged On the positive side, several trends tection of the environment. ideas and suggestions through an elec- noted in the period of this annual report The nexus of challenges is formidable. tronic "chat room." These and other con- provide grounds for optimism: Despite the great advances made in the sultations will strengthen the substance First, both as catalyst and member, twentieth century, more than a billion peo- of proposals that are being crafted. the CGIAR is able to influence as well as ple continue to live in extreme poverty. to draw strength from the global agricul- Some 800 million people are hungry. Most tural research system. The CGIAR now of the world's poor live in rural areas at collaborates with a wide range of partners, a time when rural regeneration is receiving including regional and national agricultural less attention and investment than it research systems (NARS) in the South, deserves. At the same time, the natural non-governmental organizations (NGOs), resources on which all mankind depends advanced research organizations in the are under siege. public and private sectors of both South In the face of these complexities, the and North, and the farm community. All Most of the world's poor live in rural areas at a time when rural regeneration is receiving less attention and investment than it deserves. CGIAR ANNUAL REPORT 1999 5 of these partners meet at and use the building through policy assessment to Global Forum for Agricultural Research sustainable produ˘tivity. as an instrument of consultation. The Fifth, empirical evidence has clearly CGIAR System is institutionally linked with identified how and revealed to what extent NGOs, the private sector, and the interna- agricultural resear˘h directly and indirectly tional scientific community through part- alleviates poverty. The System's Impact nership committees. Assessment and Evaluation Group has Second, the governance institutions of established scientific evidence of this chain the CGIAR System are fully engaged in of cause and effect, as has intensive field dealing with both short- and long-term research that was presented during the issues that affect the System's capabilities. year to an internatlonal audience at a sym- They have been fine-tuned through experi- posium organized by CIAT. ence and strengthened with the creation of The foremost message emerging from an ad hoc Consultative Council of all stake- 1999 is that the CGIAR is poised for cre- holders representing the CGIAR System. In ative and productive change. The ultimate a short period of time, this innovation in impact of this change will be on the lives governance has proved its usefulness as a of millions now barely touched by the mechanism for supporting sharply focused potential of science and technology. discussion and decision-making by the Clearly, a sense of enticipation is apt. CGIAR as a whole. Third, CGIAR Centers are committed to mobilizing frontier science and technol- ogy to attack poverty and hunger and to sustainably manage natural resources. Close and productive working relationships between Centers and NARS have evolved. The scientific excellence of the Centers is universally recognized. Fourth, it is now well established that CGIAR Centers are able to influence agri- cultural policy, programs, and progress in individual countries. By way of example, a series of well-documented presentations at MTM99 showed how linkages between CGIAR Centers and Chinese NARS had affected almost every aspect of China's agricultural transformation from capacity The CGIAR is poised for creative and productive change. 6 CGIAR ANNUAL REPORT 1999 | THiE FUTURE BECXO;'S AbeU ftD Ccnsulaz2uw 6cuP On I Agriculturat Research he largest scientific network of To build on these achievements, new and environmental research for a world its kind, the CGIAR works through CGIAR Centers were founded to work with with less poverty, less conflict, a healthier global partnerships to promote national research institutlons in pioneering human family, well-nourished children, food security, poverty eradication, improvements in other key food crops, and a revitalized environment. Future Har- and the sound management of natural such as legumes, roots, tubers and other vest supports research, promotes partner- resources-an ambitious and compelling cereals, and to concentrate on better man- ships, and mobilizes the world community agenda. Established in the 1970s, the agement of livestock. Centers were estab- to meet the human and environmental CGIAR now pursues these objectives lished to work on the problems of dry, challenges of today and tomorrow. through the activities of 16 international semi-arid, and tropical regions, and to con- Future Harvest commissions research research Centers. The CGIAR's 58 mem- duct research on forestry, agroforestry, to examine the links between agriculture bers-industrial and developing countries, water management, fisheries and marine and critical issues such as peace, prosper- private foundations, and regional and inter- resources. Centers were aIso set up to ana- ity, environmental renewal, health, and the national organizations-provide vital lyze national and international food poli- alleviation of human suffering. Outreach financing, technical support, and strategic cies, and to build the capacity of efforts are focused on innovative Internet- direction. A host of other public and private agricultural research at the national level. based and media relations strategies. More organizations work with the CGIAR as Today, 16 CGIAR Centers around the than a dozen world influentials serve as donors, research associates, and advisors. world are harnessing cutting-edge knowl- ambassadors for Future Harvest, including The need for a special partnership edge to help meet the wQrld's enormous former U.S. President Jimmy Carter, Queen within the agricultural research community food needs-with a steadfast allegiance Noor of Jordan, Nobel Peace laureates focused on fighting hunger and poverty to scientific excellence and the public Desmond Tutu and Oscar Arias, and through productivity-oriented research good. The advances made through CGIAR Grameen Bank founder Muhammad Yunus. was first recognized in the late 1960s, research are international public goods; During this new century, the earth will in response to the specter of widespread new plant varieties, pest control methods, need to sustain an additional 75 million famine in parts of Asia. Leaders from and resource management technologies are people each year. This task will require a 18 international organizations, founda- available free to all interested parties. For commitment to science for food, the envi- tions, and concerned governments formally more information visit www.cgiarorg ronment, and the world's poor. Future Har- joined together in 1971 as the first mem- vest is working to ensure this commitment. bers of the CGIAR. Through their continu- pultn Havvest For more information visit www.future ing support, hundreds of new wheat and Two years ago, the 16 CCnters supported harvest.org rice varieties were developed, released, by the CGIAR created a new entity and planted in developing countries, designed to build support for international adding an estimated $50 billion to the agricultural research. Now called Future value of world food supplies over two Harvest, this entity has evolved into a decades. charitable organization focused on food The CGDAR's first public service announcement aired worldwide-incliding CNN International, Bloomberg Television (Asia, Europe, United States), Star Television, and television stations in China and Ge,rmany- -wl ith the message that "hunger is everyone's concern." ~~~~~~~~~~~~~~~~~~S - .. _ T;-IE FUTuRE iEC:(o'iS I CGIAR ANNUAL REPORT 1999 7 Business World (The Philippines) 0 Estado de S. Paulo (Brazil) The Hindu (India) The CGIAR is ideally positioned to address The CGIAR shows that 95 percent of popu- The CGIAR, with its worldwide network of the next compelling challenge that agricul- lation growth occurs in the poorest coun- international agricultural research Centers, tural scientists must confront: combining tries, and it is the only entity in the world has a critical role to play in applying the conventional research with the promise that is dedicated exclusively to mobilizing new scientific advances for the basic of the genetic revolution. the best that agricultural science has to needs of humanity. The Centers represent offer on behalf of people suffering from the only authoritative international scien- Science magazine (United States) poverty and malnutrition. tific organization capable of harnessing The critical advances of the Green Revolu- the tremendous capacities of science to tion-and other work by the 16 interna- Op-ed by Jimmy Carter, The International address the problems of the poor in the tional agricultural research Centers that Herald Tribune developing world. make up the Consultative Group on Inter- Why has peace been so illusive? A recent national Agricultural Research (CGIAR)- report sponsored by Future Harvest and The Globe and Mail (Canada) helped world grain harvests more than generated by the International Peace "New ways must be developed to take double since 1960. Research Institute in Oslo'examines con- advantage of this diminishing resource if flicts around the world and finds that humanity is to feed itself in the 21st cen- Frankfurter Allgemeine Zeitung (Germany) unlike that in Kosovo, most of today's wars tury," said Mr. Serageldin, who heads the Even though the CGIAR's budget comprises are fueled by poverty, not by ideology. CGIAR. In an effort to improve water man- only 4 percent of the global expenditure agement, the group has compiled a mas- on agricultural research, experts agree that The Washington Post (United States) sive electronic world water and climate its work is of strategic importance for the Water, water not quite everywhere, and not atlas, a high-tech undertaking designed to rest of agricultural research. More so, with enough of it. And what very little fresh assist local farmers, their bankers, govern- returns on investment between 22 and water the world has, it is squandering. ment planners and even international 191 percent, CGIAR Centers exceed (those That's the message of the CGIAR as it financial groups. achieved by) similar private research insti- looks to the needs of the planet's farms tutions by far. and urban areas in the next century. China Daily (China) Chinese officials vowed to intensify The New Republic (United States) The Financial Times (United Kingdom) China's collaboration with the CGIAR, The CGIAR labs and their offshoots have The world's major network of international "which has been most fruitful since it first been spectacularly successful, as the ever- agricultural research Centers, run by the started in mid-1980s," in the upcoming declining incidence of world hunger attests. CGIAR, has already pledged not to include new millennium. Indeed, economists generally believe that such characteristics (genetic systems agricultural research is one of the best designed to prevent seed germination) in ways governments can spend money. any plant breeding material they produce. "anvest in agricultural research and cultivate peace," Future Harvest's first public service announcement, was produced in nine lan- guages and aired on CNN International, CNN Espaniol, CNISC Europe, Star 7V Asia, as well as television stations in the United States. _ b _5 i ,>4;;' Perspectives on AgricuLture and Science As the World Bankl's leading advocate for increased sustainable agricultural production in developing countries, the Rural Devel- opment Department shares goals with the CGIAR. Rvtobert Thoirnpson The Challenge of Rural Development Robert L. Thompson, the World Bank's The private sector's large investments in nerships, and building the capacity of new Director of Rural Development and biotechnology research also have major national agricultural research and technol- CGIAR Cosponsor Representative, shares implications for poverty reduction because ogy transfer systems. his perspective on the enormous chal- their research funding priorities often miss The CGIAR's agenda is directly relevant /enge of overcoming rural poverty. the crops that are vital to the poor in the to the work of RDV-from sustainable man- developing world. agement of natural resources, to forestry Despite today's record low food grain Numerous studies have documented and agroforestry, to improving water use prices, more than 800 million people suf- the high rate of return on investments in efficiency in agriculture. fer from malnutrition. The vast majority live agricultural research, generally in the range The CGIAR has a solid foundation of in the world's poorest countries, where of 50 to 80 percent per year. Unfortu- collaboration with the Bank. There are new poverty remains a principal cause of food nately, public investments in agricultural synergies to be exploited to help confront insecurity. research have declined significantly. For challenges to the Bank's rural poverty Over the next fifty years, global food much of the 20th century, most agricul- agenda, such as: demand is likely to double due to both tural research results were public goods, . Forest Policy Implementation population and income growth. Increased ultimately benefiting consumers in the form Because many of the world's poorest peo- incomes will change patterns of consump- of lower food prices. Public investment in ple are highly dependent on forests, the tion in developing countries, raising agricultural research directly benefited all Bank's support for forestry must be based demand for vegetables, fruits, meat, fish, consumers, especially the poorest, who on the imperative of poverty reduction. A and edible oils. Therefore the need to boost spend the largest fraction of their income recent internal study of the Bank's forestry food production, while protecting the natu- on food. It is essential that public support programs called for more strategic policies ral resources on which future food produc- for agricultural research be sustained to and partnerships to promote the coming tion depends, is urgent. complement private funding to assure food together of conservation and development There is very little additional arable security for a burgeoning world population. objectives. As the Bank reviews its forestry land in the world that is not highly erodi- Rural development is central to the strategy, the CGIAR Centers' cutting-edge ble, subject to desertification, or forested. World Bank's poverty reduction mission, research on sustainable forestry manage- To increase agricultural production by and the Bank has a long tradition of sup- ment and work on forestry policy issues expanding the area planted would require porting the development of scientific capa- will be directly relevant. massive clearing of forests, resulting in the bilities in agriculture in developing . Water Resources IWMI and IFPRI loss of wildlife habitats, biodiversity, and countries. The Bank has been a steadfast were both involved in the development of carbon sequestration capacity. These out- partner of the CGIAR since its inception. A Water Secure World: Vision for Water, comes are all environmentally unaccept- Bank President James Wolfensohn has Life, and the Environment, which was able. The only sustainable course is to called for a comprehensive rural strategy released at the Second World Water Forum. enhance the productivity of cultivated land as a cornerstone of the Bank's poverty alle- In his speech to the Forum, Mr. Wolfensohn by using each hectare to the fullest, based viation efforts. With this intensified poverty emphasized that lack of access to water is on environmentally sound technologies. reduction effort, the Bank will play an even synonymous with poverty in the developing The revolution in the biological sci- stronger leadership role in international world. He also announced the formation of ences promises powerful new tools for agricultural research. the Water Resources Management Group genetic improvement of food crop and live- As the Bank's leading advocate for within the Bank. As the Bank strengthens stock species. But most of the critical increased sustainable agricultural produc- its approach to the management of water research is in the private sector. Among the tion in developing countries, the Rural resources, the CGIAR Centers can provide world's top 300 companies, spending on Development Department (RDV) shares valuable assistance. agricultural research and development sur- goals with the CGIAR. CGIAR technologies The challenge of rural development in passes $24 billion. Although the resulting underpin the Bank's rural lending pro- the 21st century is formidable. The Bank knowledge creates opportunities, the risk grams that are directed at alleviating welcomes and looks forward to increasing that poor countries will not be able to hunger and poverty, improving rural pro- opportunities for collaboration with the maintain access to scientific advancements ductivity and raising agricultural incomes, CGIAR. protected as intellectual property is real. protecting the environment, nurturing part- 10 CGIAR ANNUAL REPORT 1999 | PERSPECTIVES ON AGRICULTURE AND SCIENCE ChavVng a g T qo$ System Chnge Emil Javier is the new Chair of the Techni- diversity resources upon which long-term, Advances in molecular biology, informa- cal Advisory Committee (TAC), which is sustainable agricultural productivity tion science, and communications are gen- charged with developing priorities and depends. erating new and more powerful research strategies for the CGIAR and assuring the There is strong evidence of the linkage tools. The massive entry of the private sec- quality and relevance of the Centers' sci- between agricultural research and poverty tor into some of the traditional domains of ence. In this guest editorial, Dr. Javier alleviation. Agricultural research helps to public agricultural research represent signif- discusses the new vision and strategy for produce the technology and the knowledge icant opportunities for partnerships that will the CGIAR. necessary for sustained agricultural devel- harness the full power of modern science opment, which is essential for economic and technology for agriculture. At ICW99, the CGIAR asked TAC to growth. Rural economic growth, in turn, The task ahead is enormous and develop, in close consultation with the is the most effective instrument for poverty daunting. We need to help put into place Centers, Members, and stakeholders, a alleviation in countries where the majority an integrated global research system for new vision for the CGIAR in 2010. More of the poor live in rural areas. agricultural development-a system that than 1.2 billion people continue to live in The CGIAR has made its biggest impact effectively links community, national, and conditions that are below any standards on poor consumers as well as on poor pro- regional efforts with the efforts of research of human dignity. ducers in favorable areas. We now need and development groups in developed Food security and poverty reduction to tackle food security and poverty chal- countries and in the private sector. The must remain the driving forces of the lenges in the more marginal environments CGIAR's network of international agricul- CGIAR. Our vision is a food-secure world where large concentrations of poverty per- tural research Centers should play, with for all. Our mission is to achieve food secu- sist. This task calls for a research paradigm relatively small resources, a nevertheless rity and poverty reduction through scientific that is ecologically oriented and regionally leading role in such a global system in the research, improved policies, and research- focused and that draws into active play the foreseeable future. However, to be sustain- related activities in the fields of agriculture, indigenous knowledge and political will able in the long run, this international forestry, and fisheries. And these goals of the affected communities. network of research capability should be must be accomplished while conserving increasingly owned by the developing and enhancing the soil, water, and bio- countries. The task ahead is enormous. We need a system that effectively links community, national, and regional efforts with the efforts of research and development groups in developed countries and in the private sector. PERSPECTIVES ON AGRICULTURE AND SCIENCE I CGIAR ANNUAL REPORT 1999 11 A glrkuMrag Notachn&ogy an the Poo Gabrielle J. Persley wrote the overview E Alleviating poverty, improving food arrangements. The CGIAR Centers could chapter ("Promethean Science") and is security, and reducing malnutrition, espe- develop, for the benefit of poor countries, co-editor with Manuel Lantin of Agricul- cially among children; more innovative partnerships with the pri- tural Biotechnology and the Poor. The m Providing sufficient income for the rap- vate sector and with universities and other book, published by the CGIAR, contains idly increasing numbers of urban poor; and advanced research institutions. the major contributions presented at E Using new technologies for environ- There are seven activities in which the a CGIAR/U.S. National Academy of mentally sustainable development. CGIAR System could play a useful role: Sciences-sponsored conference held Key issues that will affect the applica- E Facilitating sharing of information in October 1999 at the World Bank tion of new developments in modern bio- about developments in the use of modern in Washington, DC. technology for the public good are ethics, biotechnology in developing countries; food and environmental safety, and intel- . Identifying barriers to and opportunities Prometheus, according to Greek mythology, lectual property management. for mobilization of science to address the was a Titan, responsible for introducing In agriculture and forestry, biotechnol- problems of the poor, and identifying tech- fire to humans, a remarkable innovation ogy promises new ways to harness and nical, policy, and institutional issues to be at the time, but having benefits and risks, improve the genetic potential of crops, live- addressed at national, regional, or interna- depending on its use. Promethean has tional levels; since come to mean daringly original and r - - - . Providing further technical support for creative. Since science is an elegant way building the capacity of national agricul- of getting at the truth, it should therefore Agricultural tural research systems; follow that molecular biology and other A Ensuring that CGIAR Centers comply tools of modern biotechnology add ele- , with accepted biosafety standards; gance and precision to the pursuit of solu- * Improving the management of intellec- tions to thwart poverty, malnutrition, and tual property by CGIAR Centers and the food insecurity in developing countries. [ NARS; In the debate about biotechnology, the J _ Strengthening efforts to develop and elegance of science in the pursuit of truth implement public/private partnerships and is not appreciated by all. The debate has explore new modalities; and tended to focus on the potential risks to I * Communicating and addressing public human health and the environment. concerns through an open, transparent, Biotechnology, however, has the potential I - X- and inclusive dialogue on the benefits and to contribute to the solution of human prob -I risks of biotechnology. lems, particularly in developing countries. Biotechnology is only one tool, but a Despite the increasing availability of -- potentially important one, in the struggle food, over 800 million people in develop- to reduce poverty, improve food security, ing countries are food insecure, and 200 stock, fish and forests, and better ways reduce malnutrition, and improve the liveli- million of these are malnourished children. to diagnose and control the pests and hood of the rural and urban poor. The It is a further paradox that food insecurity pathogens that damage them. The perils lie uncertainties and risks are yet to be fully is so prevalent at a time when global food in the profound ethical issues surrounding understood, and the possibilities are yet prices are generally in decline. The basic the control and use of these powerful new to be fully explored. cause of this two-pronged paradox is the technologies, and the assessment and It is important not to deny people and intrinsic link between poverty and food management of risks to human health and nations access to new technologies, so security. Simply put, people's access to the environment. long as they are fully aware of the potential food depends on income. The CGIAR should enhance its role risks and benefits and are able to make The most important global challenges as protector of the interests of the poor and informed choices. are: facilitator and bridge-builder in biotechnol- The CGIAR Centers are on the thresh- ogy partnerships, and facilitate public pol- old of a daringly original and creative icy and innovative institutional Promethean science. 12 CGIAR ANNUAL REPORT 1999 | PERSPECTIVES ON AGRICULTURE AND SCIENCE Maurice Strong was Chairman and food insecurity, environmental degradation, in the developing world. The shift away Mahendra Shah, Executive Secretary, of and erosion of genetic resources. from the traditional food staples will make the third CGIAR System Review. The fol- Food Security. Feeding the world in the this challenge even more difficult. Simply lowing is excerpted from their new book, 21st century will require not only food increasing productivity of wheat and rice Food in the 21st Century: from Science availability, but food security-access to alone may not have the impact it did to Sustainable Agriculture. the food required for a healthy and produc- 30 years ago. tive life. It means the ability to grow and to Poverty. Throughout the developing Almost three decades ago, the world faced purchase food as needed. The basic statis- world, poverty is linked to hunger. For a global food shortage that experts pre- example, in sub-Saharan Africa, where mal- dicted would lead to catastrophic famines. -- nutrition is rampant, every other person is That danger was averted because a group poor. Rural poverty and accompanying mal- of public and private development agencies nutrition are usually tied to the small size or created a network of international agricul- poor quality of farmland and limited off-farm tural research Centers and a unique incomes. In addition, more women than alliance, CGIAR, to support the Centers. men live in poverty in the developing world. In what came to be known as the The Environment. Thirty years ago, the Green Revolution, CGIAR scientists found Green Revolution's high-yield food crops ways to increase the yields of some of the were the critical factor in preventing global world's most important food crops, and the famine. But an increase in crop lands and world's farmers put the innovations to use. the extensive use of fertilizer and irrigation As the new millennium begins, the world were also instrumental. As the 20th cen- faces another food crisis that is just as tury draws to a close, environmental con- dangerous-but much more complex- cerns rule out using this mix of strategies, than the one it confronted thirty years ago. which worked in the past, to meet the food Each year the global population climbs and agriculture crisis that looms ahead. by an estimated 90 million people. This Genetic Resources. Environmentalists means, at the very least, the world's farm- warn that as much as half of the world's ers will have to increase food production by remaining 2.5 billion hectares of tropical more than 50 percent to feed some two tics on food security are grim. In addition forest will come under pressure for agricul- billion more people by 2020. But the num- to the expected population growth, FAO tural expansion as the demand for food bers don't tell the full story. The challenge estimates as many as 840 million peo- grows. The loss of forests would mean more confronting the world is far more intricate ple-a number that exceeds the combined than the loss of trees and the wood, fuel than simply producing more food, because populations of Europe, the United States, and other products they provide. Disappear- global conditions are very different than Canada, and Japan-currently do not have ing forests threaten the world's biodiversity. they were on the eve of the Green Revolu- enough to eat. The companion problem Meeting these new challenges has tion. To prevent a crisis, the world commu- of "hidden hunger"-deficiencies of vital been made even more difficult because nity must confront the issues of poverty, micronutrients-affects even more people so few opinion leaders are aware of the Feeding the world in the 21st century will require not only food availability, but food security-access to the food required for a healthy and productive life. PERSPECTIVES ON AGRICULTURE AND SCIENCE I CGIAR ANNUAL REPORT 1999 13 urgency of food and agriculture problems. A Record of Accomplishment This lack of concern is reflected in the fact From its beginning, CGIAR's scientists have received world-wide acclaim for their accom- that public spending for agricultural plishments. Even more impressive than the accolades, though, has been the global research has declined sharply over the spread of the fruits of CGIAR research. past three decades. * More than 300 CGIAR-developed varieties of wheat and rice are in use by the world's An Integrated Approach. Given the farmers. complex and interlinked components of the * The Green Revolution doubled productivity of such staples as wheat and rice. overall challenge of feeding the world in In India, wheat production on existing acreage nearly tripled, achieving self-sufficiency. the 21st century, it is clear that solutions . More than 200 new CGIAR-developed varieties of maize are being grown in that deal only with one part-with crop 41 countries. productivity, for instance, or land use, m CGIAR work has produced improved varieties of legumes, roots and tubers, pasture water conservation, and forest protection- crops, and other cereals. will not be sufficient. The issues are con- . CGIAR's research has improved farming techniques and strategies for managing live- nected and must be dealt with as an stock disease, assessing fish stocks, protecting genetic resources, and effectively manag- interlocking, holistic system. ing natural resources. Some 85,000 researchers and scientists have worked and trained at CGIAR centers. The CGIAR System in Action . More than 600,000 accessions of germplasm are held in CGIAR genebanks. The CGIAR system has the combination of resources and integrated approach needed to meet these complex aspects of the loom- ing global crisis in food and agriculture. In fact, members of a distinguished inter- national panel recently concluded that the CGIAR is the only authoritative interna- tional scientific organization capable of ensuring that the tremendous capacities of science are made available to address the problems of the poor in the developing world. CGIAR's assets include an un- matched mix of knowledge, skills, experi- ence, and perspectives, as well as the ability to link scientists, farmers and environmentalists throughout the world. CGIAR's record of accomplishment and willingness to adapt itself to face new chal- lenges began with the Green Revolution and has continued ever since. The CGIAR system has the combination of resources and integrated approach needed to meet these complex aspects of the looming global crisis in food and agriculture. -~~~~~~~~~~~~~~~~~~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ - } ~~~~~~~~~~~~~~~~~~~~~~~ 0) * L. Q ) 0 I L/)m The CGIAR, the Green Rev- olution, and the campaign to defeat river blindness in Africa have all shown that determined and innovative forms of collaboration among the World Bank and other official bodies can deliver results. Latuirence Sumine.s, E. S. Treaist ry Secretatry NighUg2hts fromX the Reseac Centers ollectively, the CGIAR System's programs were strengthened and that much research covers a broad portfolio of the parent genetic material used by of humanity's most important national programs came from the CGIAR. food crops-rice, wheat, maize, The impact of the CGIAR's scientific barley, sorghum, millet, cassava, potato, partnerships on poverty reduction and the sweet potato, yam, banana and plantain, livelihoods of the poor was reinforced chickpea, cowpea, beans, lentil, pigeonpea, through a series of special workshops and soybeans, coconut, and groundnut-plus studies organized by CIAT during 1999. vital associated activities involving livestock, Among the key findings: forestry and agroforestry, fisheries, and . Investments in agricultural research water resources management. Were it not have increased agricultural productivity for the CGIAR, research on many of these and incomes on millions of small farms crops would cease because they are of little throughout the developing world. interest to private sector research. * Employment generation in agriculture CGIAR's numerous inter-Center part- has significantly improved rural well-being nerships have resulted in successes in by benefiting landless workers, among the genetic resources management, human poorest of the poor. resources development, crop and livestock * Cheaper food has created widespread improvement, and other areas critical to benefits to the poor, especially those living sustainable rural development. CGIAR sci- in urban areas who have to purchase their ence-based partnerships are vibrant com- food. Moreover, low food prices are the munities of diverse stakeholders-the most direct form of assistance to public scientists themselves, farmers, representa- poverty reduction programs. tives of public and private agencies, and . Independent studies have consistently civil society-who come together, form demonstrated that such research earns coalitions of the caring, all with a single handsome rates of return (e.g. 65 percent purpose: improving the lives of farming on rice in India and Indonesia, and 50 per- communities in developing countries. cent on wheat in all developing countries). The World Bank's President, James As is illustrated in the pages that fol- Wolfensohn, recently called the CGIAR low, all 16 CGIAR Centers draw on their "one of the most successful partnerships particular strengths, and their own net- in the history of development in terms of works of national and international part- scientific advances, training and capacity ners, to produce findings and scientific building, and agricultural development." breakthroughs that make a beneficial Studies by the independent Impact impact on the fields, grazing lands, forests, Assessment and Evaluation Group show and fisheries of the developing world's that virtually all developed country and crop poor. 16 CGIAR ANNUAL REPORT 1999 | LEADING WITH THEIR STRENGTHS __ farmers and Scientists lfransforml H111side AgrcuCture More than half a billion people live and and development specialists work with associations to work with farmers and farm on the tropical hillsides of Latin Amer- rural communities to: local specialists in several countries of ica, Africa, and Asia. This important and * devise computer-based, geographic Latin America. These grassroots organiza- diverse ecosystem covers 9 percent of information systems (GIS) that simplify the tions serve as a catalyst, providing farmers earth's landmass and contains 50 percent tasks of monitoring agricultural land use with advice, credit, and improved seed. of the world's tropical forests and 20 per- and choosing alternative courses of action This new approach to research was cent of the world's fresh water. Yet each at the regional, national, and local levels; pioneered in 1993 in the Cabuyal River year nearly 10,000 square miles of tropical * train poor farmers to develop and test watershed, located in Colombia's south- forests and 13 billion tons of topsoil are solutions to problems in agriculture and western Cauca Department. It drew upon lost, according to a new study prepared to disseminate them in rural communities, many years of fieldwork aimed at improv- by CIAT. with only modest outside assistance; ing crop varieties and farming practices At least 40 percent of the people in . design and create grassroots organiza- in the region. It also built on more recent hillside regions live in absolute poverty. tions that can orchestrate efforts (involving efforts to develop and introduce methods This poverty has caused widespread rural communities and the institutions that for farmers to participate in research. hunger and has led to political and crimi- serve them) to combat poverty and By 1995, the integrated approach was nal violence and drug trafficking in South improve the management of natural sufficiently advanced for further testing and America, Mexico, and Southeast Asia. resources in hillside watersheds; refinement in other countries where CIAT "The conditions of tropical hillside * establish networks of local experimen- has a long history of collaborative research poverty and violence are also causing a tal sites, where scientists, farmers, and on staple crops. Partners then replicated the mass exodus of the poor to cities around development specialists can work jointly to approach in three more locations and, with the world, increasing urban congestion, develop and evaluate a wide range of alter- CIAT, trained more than 1,000 profession- crime and disease," says Jacqueline Ashby, native technologies for agricultural produc- als from more than 400 municipal govern- research director at CIAT and chief author tion and natural resource conservation; and ment, NGO, and community organizations. of a new report: Farmers' Knowledge Meets * develop simple but reliable tools that As a result of action plans formulated dur- Formal Science: A People-Centered Strat- enable local communities and institutions ing the training, these institutions are intro- egy for Combating Poverty and Environ- to collect and manage the information they ducing elements of the approach into their mental Destruction in Tropical Hillsides. need for making decisions and planning own programs in watersheds and munici- CGIAR scientists began working in initiatives that promote local development palities elsewhere in Central America. 1993 to bring the latest scientific and environmental conservation. "With sufficient funds, municipal gov- advances to bear on this neglected envi- Poor farmers on tropical hillsides suffer ernments and communities can set up ronment. The Center's collaborative work from low and stagnant incomes, limited committees and watershed organizations with farmers, NGOs, and national institu- opportunities for employment, low agricul- to improve the livelihood of poor people tions has resulted in a novel program of tural productivity, poor access to education through better land management," says "integrated research with a landscape per- and health services, and a lack of political Dr. Ashby. spective," which is being tested at three power and institutional support. CIAT hillside sites in tropical Latin America. scientists form local agricultural research Under this approach, local researchers committees and community watershed INTERNATIONAL CENTER FOR TROPICAL AGRICULTURE (CIAT) tlS ~ ~~ AlA W%lolllIolllIA& ff1 11 ffffll$8l t @Afff IAQ Ag LEADING 1"ITH THEIR STRENGTHS I CGIAR ANNUAL REPORT 1999 17 Science and the SmaH Farmner: potential, and conserving the genetic base Now ChAT and the CGDAR Can of agriculture. Yet to wield these tools Conthnue to Make a Difference effectively, we need to change public per- ceptions of biotechnology by using it for By Joachim Voss, CIAT's new Director the benefit of the poor and the environ- General ment and by conducting credible biosafety evaluations. The central challenge for CIAT and the other CGIAR Centers, is to make the best Finding the balance I decided to accept science, technology, and information avail- CIAT's offer to serve as Director General able-especially to poor farmers. This chal- 1 mainly because I saw the Center pursuing lenge is easier said than done. More than a balanced approach to confronting these anything, it requires mutual respect and issues. I like to describe that approach participatory collaboration between farmers climate change and from water scarcity to with a simple formula adapted from Tim and scientists, with the aim of empowering genetic erosion. Meanwhile, globalization Reeves: G x E x I x M x P (genotype by the poor to increasingly control their own and the opening of markets simultaneously environment by information by manage- destinies. threaten the livelihoods of and create poten- ment by people). To meet that challenge, we need to tial opportunities for many small farmers. By combining resources in creative channel our efforts in three main direc- These developments have come about ways, the Center has made remarkable tions. First, we must gain a clearer under- in an increasingly explosive social context, headway in integrating germplasm standing of the context of our work with marked by a widening gap between rich improvement with better natural resource partners and clients across regions. What and poor. Meanwhile, shifts in public- and management, advancing the information are their constraints and opportunities and private-sector investment in research and revolution in the tropics, and building the how should the Centers act accordingly? the emergence of issues such as intellec- social capital of rural communities. These Second, we need to expand the potential tual property rights have shaken up famil- achievements, I believe, mark the way of biotechnology and infotechnology, creat- iar patterns of work, and opened up forward for CIAT as an innovative Center ing possibilities of which scientists dream entirely new possibilities. capable of mobilizing the best that the and farmers have yet to imagine. And world has to offer to fulfill its global and third, we must balance increased produc- Pushing the limits In this changing con- regional commitments. tivity with sustainability in seeking to text, CIAT and other Centers have a great reduce poverty. deal to offer for increasing agricultural pro- ductivity, developing new options for value- The changing context The global context added processing, improving research of our research has changed dramatically in organization, and moving small farmers biophysical and socioeconomic terms. We into the knowledge economy. Our biotech- now face a wide range of transnational nology research, for example, offers a pow- challenges, from the whitefly explosion to erful set of tools for increasing yield 18 CGIAR ANNUAL REPORT 1999 | LEADING WITH THEIR STRENGTHS Probing the Link between Agriculture and Deforestation Boosting agricultural productivity in devel- to a shift from more environmentally Another key factor is whether the techno- oping countries is a cornerstone of efforts benign coffee production to a massive soy- logical progress occurs on land that is to eradicate hunger and improve food bean industry-largely at the expense of adjacent to forest or that is already under security and is at the heart of the CGIAR's forest land. On Indonesia's island of Suma- intensive cultivation. mission. Now, two CIFOR scientists are tra, a move to replace traditional shifting The issue is how to make new tech- showing that increases in this productivity cultivation with more intensive smallholder nologies and agricultural progress compati- sometimes have an unintended side effect: rubber production on marginal lands did ble with goals of forest conservation by increased deforestation. not have the intended effect of halting identifying 'win-win' technologies and The findings reported in 1999 by Arild deforestation; instead, high world market conditions. Angelsen and David Kaimowitz have poten- prices for rubber and lowered production tially widespread implications because they costs associated with surplus labor spurred Toolkit to aid sustainable management call into question an assumption underly- farmers to cut down more trees to expand of forests 1999 brought a major output in ing many agricultural and development their plots of rubber trees. CIFOR's long-term efforts to develop criteria programs around the world-namely, that The effect of agricultural intensification and indicators (C&l) to guide sustainable helping poor farmers increase crop yields on forests is not clear-cut, the researchers management of forests: the do-it-yourself not only reduces poverty but also saves emphasize. And their work by no means C&l Toolkit. It consists of a computer-based trees by reducing the need to clear more denies the need to boost agricultural pro- set of materials that guide users through forest land for shifting cultivation. The two ductivity and introduce modern farming the process of designing sets of C&l CIFOR economists discovered that in many methods in developing countries to feed appropriate for use in a variety of forest cases more intensive agriculture is likely to growing populations and contribute gener- settings-from community forests to plan- increase forest loss by making farming on ally to economic growth and development. tations to nature reserves. marginal lands more profitable. But, they contend, the agricultural The C&l Toolkit can be used to create In a report on this research in the jour- research and development communities customized sets of C&l that take into nal Science (November 12, 1999), World need to recognize that in the absence of account particular local conditions. It con- Bank Senior Environmental Adviser John countervailing measures there may be sists of 10 interrelated products, including Spears called the work "extraordinarily trade-offs between poverty reduction and Guidelines for Developing, Testing and valuable." He added that the World Bank is forest conservation. Selecting Criteria and Indicators for taking the findings into account as it devel- The research will enable policymakers, Sustainable Forest Management, a C&l ops policies to ensure forest protection. donors, researchers, and others to better generic template, the CD ROM-based Angelsen and Kaimowitz point to understand the likely consequences of CIMAT (Criteria and Indicators Modification numerous instances around the world in intensifying agriculture under certain con- and Adaptation Tool), a resource database, which agricultural innovations have led ditions. It shows, for example, that labor- instructional manuals, and additional farmers to clear forest land more rapidly saving or capital-intensive technologies are materials on specialized aspects of the than they otherwise would have done. In more likely to lead to increased forest clear- C&l-building process. Brazil and others areas of the Amazon, for ing than production systems requiring a example, the introduction of better soybean large workforce. Market structure and price varieties and mechanized production led also significantly influence the outcome. CENTER FOR INTERNATIONAL FORESTRY RESEARCH (CIFOR) ITNF CVU0 k2J02 LEADING WITH THEIR STRENGTHS i CGIAR ANNUAL REPORT 1999 19 C I MM Y T New Tillage Practices for Wheat in Asia For decades the continuous rotation of rice India are eager to buy seed drills-the in Bangladesh. "One to two rotovations and wheat-two crops or more per year- special tractor attachment for sowing into over two or three days have substituted for has provided food and livelihoods for hun- unplowed soils. To help make the drills six to eight passes with a local plow, which dreds of millions of rural and urban poor in more widely available, CIMMYT staff are required up to three weeks." According to South Asia. But as population and the linking and advising farmer groups, local Meisner, for every day wheat is sown late, demand for grain have surged, yield machine shops, and agricultural engineer- yields fall 1.3 percent. Timely sowing- increases have slowed because weeds ing specialists. together with new, high-yielding varieties have proliferated and in many areas, irriga- that possess enhanced disease resistance, tion water is an increasingly scarce com- A boost from small-scale mechanization several improved management practices, modity. Alternative tillage practices that The two-wheel tractor, originally produced and area increases-has contributed to foster greater resource conservation and and widely used in China, is being adapted a recent series of bumper wheat crops. productivity in intensive Asian cropping for use in South Asia with an array of systems are being tested and promoted implements including pumps, threshers, Bed planting and tillage systems A third by the Rice-Wheat Consortium for the reapers, winnowing fans, and trailers. One recently promoted technique-planting of Indo-Gangetic Plains (RWC), an alliance set of implements tills and sows in a single wheat on raised beds set apart by irrigation of national organizations, CIMMYT, other pass. Small tractor systems appear to be furrows-saves an average 30 percent international Centers, and advanced especially useful to smaliholders, who are water and allows more efficient weed research institutes. testing them with great success in Nepal. control and targeting of fertilizer, among They allow timely sowing and reduce labor, other benefits. Minimum tillage to sow wheat on time in turn saving money, freeing farmers to Conservation tillage is the next innova- Two new practices-direct drilling and sur- pursue other profitable enterprises, and tion in bed planting. For the past six years, face seeding-allow farmers to prepare allowing children to attend school. Farmer CIMMYT has worked to develop appropri- soils and sow wheat after the rice harvest Hari Ram Giri of Dekawar village says, ate planters and bed-shaping equipment in a single operation, where previously as "We have saved so much time with the so that farmers can maintain "permanent" many as 12 tractor passes were required. tractor that we can do other income-gener- beds and retain crop residues-giving bed In many cases, farmers save 75 percent or ating work and, with the money earned, planting a conservation tillage advantage. more fuel, obtain better yields (earlier-sown we have been building some additions Dramatic reductions of tillage, combined wheat produces fuller grains), use about to our homes." As in India, RWC partners with proper management of crop residues, half the herbicide (weeds are shaded by are working with farmers to form purchase should reduce costs another 20 to 25 per- early, lush wheat stands), and apply groups with local artisans to promote cent and create a more sustainable produc- 10 percent less water. domestic production of tractors. tion system for farmers. The practices are simple: one involves CIMMYT researchers are working with use of a seed drill to sow wheat seed Hand tractors hit big In Bangladesh, the partners in Asia to tailor the system to irri- directly into rice stubble after harvest; the hand tractor is used widely as a rotovator. gated wheat settings there-in some cases other, simply tossing of the seed onto the "It has helped make minimum tillage a beginning with conventional-tillage bed surface of a moist field (often into a stand- reality on 70 percent of the wheat area," planting, and continuing with planting ing rice crop). Many farmers in northern says Craig Meisner, CIMMYT agronomist of reduced-tillage permanent beds. INTERNATIONAL CENTER FOR THE IMPROVEMENT OF MAIZE AND WHEAT (CIMMYT) FUD CN1AsV MA(t)F&0 FA~FLfrl3 ngg ©©I ©KU ©D U CSfV IT©Q tf ffIl. 20 CGIAR ANNUAL REPORT 1999 LEADING WITH THEIR STRENGTHS The Promise of Vitamin A An estimated 250 million children in devel- traditional crop in Kenya. The major sweet The appearance, taste, and texture of the oping countries are vitamin A-deficient, potato-producing region is in the western new varieties were well accepted by com- putting them at risk not only for night part of the country, where vitamin A defi- munity groups. Processed food products blindness but also for the highly infectious ciency is common. At present, the sweet made by substituting sweet potato for other diseases enabled by reductions in their potatoes most commonly grown are white- ingredients were also popular. And growing immune function. Since the discovery of fleshed varieties low in beta-carotene. In conditions in the study proved favorable for vitamin A's impact on children's health in western Kenya, sweet potatoes are eaten the growing of several crops of sweet the 1970s, aid groups have donated and as a supplementary staple food and are potato per year. All of these factors could helped distribute vitamin A capsules to consumed whole (boiled) or are mashed make the sweet potato an affordable, beta- malnourished children and lactating and eaten with legumes, leafy vegetables, carotene-rich food, available year-round. women. But because it is difficult to get meat, or fish. Sweet potatoes are consid- The orange-fleshed sweet potato vines supplements to some of the world's poorest ered a woman's crop, as they can be grown were widely distributed as soon as the or strife-ridden countries, many assistance on the small plots of land women receive study project was under way. Use of agencies are now seeking to fortify local from their husbands at marriage. orange sweet potatoes should grow: KARI foods with vitamin A. In the study, orange-fleshed sweet offices plan to continue to make planting In a study in Kenya, new varieties of potatoes rich in vitamin A were introduced materials available to farmers, and western sweet potatoes (Ipomoea batatas) that are to 20 women's groups in two districts of Kenyan farmers traditionally pass vine cut- rich in beta-carotene, a precursor of vita- western Kenya where vitamin A deficiency tings to other farmers free of charge. On- min A, have been introduced and promoted was high and where white sweet potatoes farm trial data showed that the new orange to women farmers. These varieties have were a common secondary staple (the pri- varieties survived drought well and had been selected by CIP and Kenyan scientists mary food is maize). Half of the women's higher yields than the traditional white to help alleviate vitamin A deficiencies, groups received a package designed to pro- varieties, both important factors for their especially among the young. mote the use and consumption of orange sustained cultivation. The study was one of five two-year sweet potatoes. The package included One of the key lessons learned was that intervention programs undertaken by the nutrition education and training in food orange-fleshed sweet potato varieties are International Center for Research on Women processing, packaging, preparation, and adopted most when introduced within the (ICRW) to explore ways to strengthen marketing. context of extension and education on fam- women's contributions to reduction of iron Orange-fleshed sweet potatoes and ily health and nutrition. Mothers must be and vitamin A deficiencies. Other studies sweet potato-based food products proved convinced that these new varieties are good were carried out in Ethiopia, Peru, Tanza- acceptable to both producers and con- for their children. In a foreword to one of nia, and Thailand. The Kenyan study was sumers and helped increase vitamin A his reports, Dr. Cyrus Ndiritu, director of a collaborative effort by the National Potato intake. Several of the new sweet potato KARI, confirmed these benefits: "Study Research Center of the Kenyan Agricultural varieties grown in the on-farm trials per- results indicate that orange-fleshed sweet Research Institute (KARI), CIP, the NGO formed well with respect to yield and pest potato (including leaves) and sweet potato- CARE's program in the Homa Bay District, resistance and were high in beta-carotene. based food products are highly nutritious and farmers. Consumer preferences are a crucial and can significantly contribute to year- Sweet potatoes are a widely cultivated, factor in variety evaluation and selection. round alleviation of vitamin A deficiency." INTERNATIONAL POTATO CENTER (CIP) MW8CS&% A01C˘ultQ˘E '˘LffLf. XfLf t¶S The CGIAR is one of the most successful partnerships in the history of develop- ment in terms of scientific advances, training and capacity building, and agricultural development. .1(1 I1U.S I lo//Jo i.sol in, I rorld Bani ik Pr dsid(nt Scientific collabora- tion has been the single most important determinant of CGIAR's successes. LEADING WITH THEIR STRENGTHS I CGIAR ANNUAL REPORT 1999 21 Breakthroughs in Control[ing the H{essian Fly At just 3mm long, the Hessian fly doesn't ing collaboration of Morocco's own identified in durum wheat. However, the look like much to the untrained eye. But National Institute of Agronomic Research collaboration between INRA (Morocco) and cereal growers throughout the Mediter- (INRA), Mexico-based CIMMYT, ICARDA, the CIMMYT/ICARDA durum wheat pro- ranean rim have long been suffering its and Kansas State University. Scientists gram for West Asia and North Africa paid devastating effect on their crop yields. Aver- from these organizations began collabora- off in the development of resistant lines by age losses of 36 percent yield of affected tion 15 years ago to develop wheat vari- the introgression into durum wheat of the bread wheat and 32 percent of affected eties resistant to the Hessian fly. H5 resistance gene, which had been iden- durum wheat in Morocco can be expected. Initial screening of plants for resistance tified in the bread wheat work research. The potential scale of these losses is is carried out in selected "hot spots" in the As a result, three new lines are almost deeply troubling for Morocco, which has wheat-growing areas of Morocco and in ready to be released as varieties. Named about four million hectares of spring bread INRA greenhouses. Then germplasm is Telset 1, 2, and 3 to reflect the cooperation wheat (Triticum aestivum) and durum exchanged between Morocco and the between Tel Hadya in Syria and Settat in wheat (Triticum turgidum) under produc- United States, which has a long-standing Morocco, these new varieties combine the tion each year. Yields have been reduced serious problem with Hessian fly. Kansas quality of durum wheat with the ability to to an average of about one ton per hectare State University, in particular, helps identify grow well urder drought and heat condi- because of Hessian fly infiltration and other resistance genes from this germplasm. In tions in Mediterranean drylands. The constraints. The decrease in yields is cost- Morocco and ICARDA's Tel Hadya head- breeding program continues for both types ing the country dearly because it has to quarters in Syria, adapted Moroccan culti- of wheat, and further improved varieties import replacement stocks of bread wheat vars and the newly identified sources of will be released in future years. and durum wheat, which is a staple part resistance are being crossed to obtain new So what does this mean for the Moroc- of the Moroccan diet, in particular the varieties. These crcsses are sent back to can wheat grower? Wheat yields in the country's best known dish, couscous. Morocco as segregating populations or fixed country's dry marginal areas are increasing Hessian fly (Mayetiola destructor) is the lines. Their ability to withstand Hessian fly by 30-50 percent providing a substantial major pest in the countrys wheat. Damage attack and, just as importantly, their agro- income boost to poorer farmers. One unof- is caused by the larvae, which feed on the nomic performance are tested in the field. ficial estimate suggests that use of the lower stem, reducing the flow of nutrients The greatest success has been the Hessian fly-resistant varieties throughout to the ear so that the plant lodges or breaks identification of 15.sources of resistance wheat-growing areas in Morocco would off below the head as it begins to fill. Mild in bread wheat and the release of three allow farmers to recover grain losses worth winters in Morocco permit up to three gen- new varieties-Massira in 1996 and Arri- US$336 million. A study has shown that erations of Hessian fly per season. Although hane and Aguilal in 1998-to Moroccan the internal rate of return on the investment the biology of this pest had been studied in growers. Several other new lines are in the in the development of resistant varieties is Morocco, no effective control method was breeding pipeline. They include three vari- 39 percent-a high payoff. previously available. eties developed using the doubled haploid The solution for this long-term pest technique. problem is not the use of expensive and Durum wheat presented the scientific environmentally-harmful insecticides. It is teams with a greater challenge. Only one emerging from the successful plant breed- source of Hessian fly resistance has been INTERNATIONAL CENTER FOR AGRICULTURAL RESEARCH IN THE DRY AREAS (ICARDA) X1W2&(#Q!)d01!cpt%8 l,11 10t0P@ %WttE&VS[ t/Aw&ill3 tR: ttu[Lfftcct 1DP['J fV00tC;1 J (6i 0L[%AIr x t A [gD WtFIL LL L-=)D3Lttli tA9W jo 1,ZtIEtD) 11 flal 0(0 [r AlWS iCZ 43 22 CGIAR ANNUAL REPORT 1999 | LEADING WITH THEIR STRENGTHS Communiry-Based Fisheries Management in lBangOadesh More than 100 million people live in rural . About 400 households around Ashurar, Similar management arrangements areas of Bangladesh. A third of the country a largely seasonal beel in the northwest, have been developed through work with is comprised of floodplains and wetlands depend on fishing for part-time incomes. the Bangladesh Rural Advancement Com- where about 80 percent of households In the mid-1990s, the government stocked mittee (BRAC), the largest NGO in catch fish as a source of food or income. the beel with carp, but the local households Bangladesh. Fisheries contribute about 50 percent of were unhappy because the fish escaped ICLARM's experience in Bangladesh the total production, but catches, especially and because they had not been consulted has highlighted some characteristics of of large, higher-value species, have been about the action but were required to pay CBFM: declining due to flood control, drainage, part of its costs. Through the CBFM project, * empowerment of people who depend and overfishing. Caritas, a large NGO, working in partner- on fisheries by formation of local fishery Past government policies have stressed ship with ICLARM and DOF, organized management committees representing key revenue collection rather than sustainable these households into groups represented stakeholders; production from some 12,000 fisheries in a management committee. The commit- * NGO support for fisher organizations, (jalmohals). The system of leasing out fish- tee decided to protect the deepest part of human resource development, and credit ing rights to the highest bidder has favored the beel and to ban fishing in the rest of the for both fishery and additional livelihoods; short-term exploitation and concentration of beel in the early monsoon season. Monitor- * fishery improvements-enhancement, fishery wealth. Since 1987, ICLARM, with ing indicates that total catch was 54 per- restoration, conservation, and access lim- Ford Foundation support, has been con- cent higher in 1998, after these measures its-decided by local stakeholders who ducting experiments and action research had been undertaken, than in 1997. set and comply with rules; to improve fisheries management. Initially, . CBFM can result in enhancements. * government recognition and enforce- it tested a licensing system that recognized The traditional fishing community of some ment of local decisions; and individual fishers' rights. Since late 1995, 90 households around Rajdhala Beel in . local recognition of subsistence fishing the focus has changed to community- northern Bangladesh was forced to work access for households in the community based fisheries management (CBFM). on a share basis for an outsider who leased that do not fish for an income, provided ICLARM, the Bangladeshi Department the local fishery. After initial awareness that they respect sanctuaries and bans. of Fisheries (DOF), and five Bangladeshi raising by Caritas, the community started Through the partnership of ICLARM, NGOs have worked together in 19 water a-non-cooperation movement. After lobby- NGOs and the government, various models bodies: lakes, areas of open floodplain ing by the fishers, NGOs, ICLARM, and of fishery management and institutional (beels), and rivers. Action research focused DOF, the fishers obtained use rights to the arrangements (sets of rules and rights) on development of local management beel. They have continued management by have been assessed. Most importantly, the arrangements, on decisionmaking and annual stocking of carp. The fishers now emphasis of fisheries management has management actions by the fishing com- jointly invest in the stocking of carp (using shifted to property rights recognition and munities, on monitoring to assess impacts, NGO credit) and the guarding of the fish, local decision making. Communities, with and on documentation and comparative and they share equally the returns, which their diverse stakeholders, have shown that institutional assessment. The outcomes were more than three times higher in the they can cooperate to protect and enhance are naturally diverse and are best illus- second year of group management (few fish important economic assets that are a major trated by examples: were left in the first year). source of food for poor and rich alike. INTERNATIONAL CENTER FOR LIVING AQUATIC RESOURCES MANAGEMENT (ICLARM) Q(rF0 M%))t00 tWZDEk%N s0 J /- o 577 @)[%~D 14L C69f()t (iEltEA%8 HOLetLj11MLLLFM ?;f LEADING WITH THEIR STRENGTHS I CGIAR ANNUAL REPORT 1999 23 I C R A F Scientists Discover What's Cholking Lake Victoria Employing remote sensing technology, sci- region is one of the most populated areas Director of Research at ICRAF. "They are entists from ICRAF have detected an in the world. Victoria serves as a source an essential place to start in restoring the important source of nutrients that is killing of employment for some 30 million people. health of the lake and water system. Tree Lake Victoria, the world's second largest The lake has been slowly dying over the planting in strategic places will help stave freshwater lake and the chief reservoir of last decade from the oversupply of nutrients off the death of the lake by preventing the Nile River. These nutrients are feeding and untreated sewage that have led to mas- further sediments runoff." a carpet of water hyacinth that is rapidly sive fish kills, toxic algae blooms, and the Satellite technology is able to identify choking the life out of the lake. The discov- rampant spread of the aggressive floating the source of sediments through an "ana- ery has important implications for pollution weed-water hyacinth. The hyacinth starves lytical spectrometry method," which indi- abatement in other lakes throughout Africa, fish and plankton of oxygen and sunlight cates each soil type's unique signature or Latin America, and Asia. and reduces the diversity of important "fingerprint." Spectral signatures are char- While studying soil types around the aquatic plants. In addition, it blocks water- acterized through a color-coding system. lake, ICRAF scientists discovered a plume way traffic and causes lake water to stag- The color of the plume-greenish-yellow- of sediments causing eutrophication-the nate, making the shoreline a breeding indicates that the sediments are made process by which water becomes enriched ground for malaria and bilharzia. mostly of a soil type, Nitisols, mixed with in dissolved nutrients that stimulate the "These factors have spelled the end another soil type, Acrisols. These soils growth of aquatic plants and weeds. Satel- of the lakeside economy-grounding fisher- come from gulleys caused by soil and lite images revealed that the nutrients were men's boats and depleting fish stocks," water erosion on agricultural land, on the not coming solely from agricultural runoff says Sanchez. "As the economy continues human and livestock paths through those but from low-lying, deforested "riparian" to dry up, men are vacating villages in lands, and in riparian zones where vegeta- zones and other areas surrounding the lake search of jobs, often leaving behind women tion has been removed. that are not in private hands. and children who face severe poverty, A new project funded by the Swedish "We noticed a dramatic plume of nitro- disease, and malnutrition." International Development Agency (SIDA), gen- and phosphorous-rich sediments that ICRAF's research is helping scientists ICRAF, and the Kenyan Ministry of Agricul- are feeding the water hyacinth. This is one to better understand the role of the low- ture will extend the use of satellite imagery of the major causes of Lake Victoria's envi- lying swampy, valley areas or riparian areas to identify other priority watersheds and ronmental demise," says Pedro Sanchez, around the lake. When healthy, these areas local hot spots in Kenya and in the other Director General of ICRAF. "It surprised us serve as a filtering system between the countries bordering Lake Victoria. to be able to apply land technology to lake rivers that flow down from the hillsides and water, and it led us in a new direction in the lake. When these areas are denuded, terms of diagnosing Lake Victoria's environ- water flows right over them-taking with mental problems." it nutrient-enriched sediments and other Extending more than 27,000 square pollution. miles, Lake Victoria is Africa's largest lake "Scientists never suspected that the and second in the world only to North riparian areas played such a key role in America's Lake Superior. Bordered by preventing pollution and the takeover of Kenya, Uganda, and Tanzania, the lake the water hyacinth," says Anne-Marie Izac, INTERNATIONAL CENTRE FOR RESEARCH IN AGROFORESTRY (ICRAF) D 1 ! f Go I CT A I A I7, /c;y, f'$| o %0j ,i I, lr. M| , it, 1c g S(1E ZXI \SAtut 00Q $nr" [N ˘' 5@uu'' 3 . 0 71 7/ I1(,1 111' ! 1 In 1.' v9; (I Cc I v if,0vS 24 CGIAR ANNUAL REPORT 1999 | LEADING WITH THEIR STRENGTHS __ Seed and SoilL: Affordable Options for Small-Scale Farmers If agriculture is to become more profitable, of gifts, barter, and trade within the com- groundnut, beans, and sunflower) were farmers must raise the stakes-they must munity. This system is universally popular sold at almost full cost-no subsidies. invest judiciously in purchased inputs that because it falls within the bounds of the Almost the entire stock was quickly sold, will raise productivity and output. Commer- investment matrix. and response from farmers and retailers cial farmers have done so. But most small- ICRISAT research in Niger and Senegal was so enthusiastic that the scheme is scale farmers have not done so because in West Africa, and several countries in being expanded, first to Mozambique and they operate in an environment character- Southern and Eastern Africa, has shown then to several other countries in Southern ized by uncertain rainfall, severe cash that the seed produced is of reasonable Africa. Small seed packs have proved pop- shortages, and an aversion to risk, and quality and that the system works well for ular because they fall within the invest- therefore make decisions about input traditional landraces and long-established ment capacities of farmers (affordable investment on the basis of criteria different varieties but that it is not very effective packaging and low risk involved in experi- from those of commercial farmers. ICRISAT in disseminating seed of newly released, mentation) as well as those of rural retail- and its partners are helping to find ways improved varieties. Many such varieties are ers (small quantities, small investments, of encouraging input use and technology available, but adoption has been limited and limited risk of unsold stocks). adoption by paying greater attention to by lack of seed. ICRISAT economists are the small-scale farmer's decision-making working with scientists in Kenya, Malawi, Experimenting with fertilizer ICRISAT is criteria. Zambia, Zimbabwe, and the UK's Overseas using the same approach (and lots of com- The cornerstone of this approach is Development Institute (ODI) to study alter- puting power) to encourage the use of fer- the farmer's decision matrix. Rather than native seed supply systems. tilizer. Its studies in Kenya show that most simply aiming to maximize yields or prof- One alternative, typically pursued by new fertilizer users buy less than 10 kg; its, researchers are asking how to improve NGOs in Africa, is village-level seed pro- that is all they can afford. But many exten- returns on the investments that farmers duction. Seed is produced by farmers in sion programs completely ignore this are willing and able to make. We must the community and sold to other farmers investment constraint and instead recom- provide options that are not only techno- or through commercial channels. Unfortu- mend much higher applications of fertilizer logically superior but also affordable and nately, for various reasons, such schemes per hectare. Most smallholders are unable practical. These options must lie within are rarely sustainable. to follow these recommendations and use the bounds of the decision matrix; only A second alternative-small seed little or no fertilizer. But research shows then will farmers invest in new technology. packs-appears to hold promise. ICRISAT that they are willing, given the opportunity, ICRISAT is applying this approach to worked with a private seed company in to experiment with smaller quantities. encourage small-scale farmers to experi- Zimbabwe to demonstrate that farmers can ICRISAT aims to encourage such experi- ment with two key inputs: improved seed be encouraged to buy seed of new varieties mentation. and soil fertility. if it comes in small, more affordable packs. With the aid of computer models many The seed was sold through a wide network technology options can be tested quickly Better seed, better harvests Traditionally, of village retail shops, in packs ranging and cheaply, under various simulated con- farmers grow their own seed, saving part from 500 grams to 5 kg, instead of the ditions. The results are helping to narrow of the harvest for the next season's seed. usual 25 or 50 kg. New varieties of six down thousands of possible options into Shortages are met through a combination crops (sorghum, pearl millet, pigeonpea, a smaller number of "best-bet" options. INTERNATIONAL CROPS RESEARCH INSTITUTE FOR THE SEMI-ARID TROPICS (ICRISAT) (4Q$L c@0gLt˘QL&$8 L RLttLLEItWo iLtLIL2$ LF2&ts$LSo Rttli/ QgESWt LLtELG8 1LLBI lL LEADIMG 1,1ITH THEIR STREN!GTHS I CGIAR ANNUAL REPORT 1999 25 Renewing ICRISAT's Vision tual property, and natural resource endow- and Strategy ments). As a catalyst, ICRISAT takes advantage of its scientific expertise and By William D. Dar, ICRISAT's new global view to convene international part- Director General nerships to tackle major research problems that would have been too difficult and ICRISAT is convening a broad dialogue to costly for any organization to handle alone. update its vision in a rapidly changing envi- As a bridge, broker, and catalyst, ronment, in convergence with the CGIAR's ICRISAT can engage partners to meet the ongoing revisioning and restructuring exer- needs of the poor and marginalized rural cise. ICRISAT's renewed vision is built on peoples of the semi-arid tropics (SAT). the overarching objective of poverty reduc- ICRISAT's work with partners across the tion, with a focus on improving the liveli- research-for-development spectrum does hoods of the poorest of the poor. We use This new approach requires the not mean that it will become an extension the metaphor "science with a human face" involvement of a many more partners. organization. It means that it will become to describe our new focus on reducing the Consequently, we need to clearly define more adept at partnership, creating oppor- suffering of poverty-stricken men, women ICRISAT's role within a large partnership tunities for collective actions resulting in and children of the rural semi-arid tropics. to avoid becoming mired in complexities major new impacts that we all agree are This represents a paradigm shift from and confusion. In defining this role, important. the approach of the CGIAR and ICRISAT ICRISAT is compelled by its new vision of the past, in which scientific opportunities to align itself with its comparative advan- for commodity improvement to help meet tages: its internationality, nonprofit motive, regional and national production targets and apolitical status. reigned supreme. Putting these comparative advantages The new vision is ambitious because into operational terms, we define three key it requires ICRISAT to address not just bio- roles for the Institute: bridge, broker, and physical problems but institutional and catalyst. As a bridge, ICRISAT takes advan- socioeconomic problems as well. Our work tage of its internationality and scientific will no longer sit on the shelf, or stop at the expertise to foster North-South and South- farm gate. It has to engage civil society and South exchanges of technology, informa- attack constraints in any part of the sys- tion, and skills. As a broker, ICRISAT takes tem-albeit through partnerships wherever advantage of its apolitical and nonprofit ori- the required capacities lie beyond our own. entation to engender trust among partners in exchanges of research products that involve tradeoffs (e.g. germplasm, intellec- Science with a human face, the metaphor that describes ICRISAT's new focus, is about increasing the availability of food for the poor a of the semi-arid tropics. 26 CGIAR ANNUAL REPORT 1999 | LEADING WITH THEIR STRENGTHS _Feeding the World in the Next Millennium Nearly 75 million people will be added to In fact, developing countries are likely to * Between the early 1970s and the mid- the world's population every year from now have to import eight times more meat in 1990s, the quantity of meat consumed until 2020. During that time, rising 2020 than they did in 1995. China alone in the developing world grew almost three incomes in the hands of millions of devel- will account for more than 40 percent of times as fast as it did in the developed oping-country people will spur a large this increase in demand for meat products. countries. Demand for meat in the devel- increase in global demand for food. To The report also examines whether oping world is projected to double between close the large gap between food produc- modern biotechnology can help provide 1995 and 2020. tion and demand projected for 2020: food security for all. If focused on solving . Food production is increasing much * The world's farmers must produce developing-country problems, biotechnol- faster in the developing world than in the 40 percent more rice, wheat, and other ogy may help farmers reduce production developed world. By 2020, the developing grains; risks and increase productivity. According world will be producing 59 percent of the * Developing countries must double their to IFPRI's findings, using biotechnology world's cereals and 61 percent of the cereal imports; and in the developing world could make food world's meat. * Sixty percent of the developing world's grains more nutritious and help combat . Cereal production in the developing cereal imports will likely have to come widespread nutrient deficiencies among the world will not keep pace with demand, and from the United States. poor, which lead to diseases and prema- net cereal imports by developing countries To minimize the risk of food shortages, ture deaths for millions of women and chil- will almost double between 1995 and policymakers must begin taking steps dren every year. 2020 to 192 million tons in order to fill the immediately, according to World Food "The bad news is that there will con- gap between production and demand. Net Prospects: Critical Issues for the Early tinue to be a lot of hungry people," said meat imports by developing countries will Twenty-First Century, a 32-page report Dr. Pinstrup-Andersen. "The good news is increase eightfold during this period to published by IFPRI. that if we choose the appropriate technolo- 6.6 million tons. International trade issues are addressed gies and make the right investments, the . About 60 percent of the developing directly in the report. Per Pinstrup-Andersen, world's farmers will be able to satisfy world's net cereal imports in 2020 will IFPRI's Director General and co-author of global food needs." come from the United States. Eastern the report, warns, "poor countries and poor Among the key findings of the report: Europe and the former Soviet Union are people risk losing out on the economic ben- . Almost all of the increase in world food forecast to emerge as major net exporters, efits of more open global trade. International demand will take place in developing coun- and the European Union and Australia are trade liberalization has to go hand-in-hand tries. Developing countries will account projected to increase their net exports. with national policy reforms, investments in for about 85 percent of the increase in the * Food prices will remain steady or fall the agriculture sector, access to developed- global demand for cereals and meat slightly between 1995 and 2020. The country markets, and the elimination of between 1995 and 2020. much slower decrease in food prices is due export subsidies in industrialized countries." . A developing-country person in 2020 to the slowdown in crop yield increases, In addition, a demand-driven "livestock will consume less than half the amount of and strong growth in demand for meat revolution" is underway, according to the cereals consumed by a developed-country in developing countries. report, and demand for meat is projected person and slightly more than one-third to double in the developing world by 2020. of the meat products. INTERNATIONAL FOOD POLICY RESEARCH INSTITUTE (IFPRI) @'Il o LEADING WITH THEIR STRENGTHS I CGIAR ANNUAL REPORT 1999 27 I I TA The Hght to Save Cassava Cassava is the paramount staple food (DANIDA) during 1997-99. IITA scientists stems, enough for more than 2,000 farm- security crop in sub-Saharan Africa, and and their NARS colleagues in the eastern ers to plant. the mainstay of the rural and, increasingly, Africa region monitored the spread of the Multiplication at other locations meant the urban populations. Peak production in disease and were able to forecast the areas that materials reached 7,000-8,000 bene- Uganda was 3.5 million tons in 1989, under threat. Work on the virus itself ficiaries. Six new mosaic-resistant cassava when cassava mosaic diseases (CMD) sud- revealed why the problem was so severe; varieties that had been developed by earlier denly started to become so severe that in several strains of the African cassava projects were released. 10 years cassava production fell by 35- mosaic virus (ACMV) are involved in the Meanwhile, more than 760 people 40 percent. The varieties that farmers were pandemic. Annual cassava losses are esti- have been trained in processing and utiliza- growing were highly susceptible to CMD. mated at US$60 million in Uganda and at tion of resistant varieties and 111,625 kgs When they failed and drought struck as approximately US$100 million in Kenya. of high-quality flour have been produced. well, people starved because they had Faced with the prospect of cassava New market opportunities have been sur- no food reserves. crop failures across the region, an emer- veyed and additional processing machinery By the second half of the 1990s the gency program, which has had remarkable has come to the region where 16 process- situation was grave, and the CMD pan- results, was started in 1998. Rapid fund- ing sites are operating with NGO support. demic, as it was called by then, was ing helped as did the commitment and Plant health aspects of the campaign spreading fast. It swept from Uganda to combined effort of IITA and all the national went well. Pest and disease constraints western Kenya and southward into Tanza- programs. They worked together with have been evaluated at 265 locations, and nia and into Sudan. It has recently been NGOs and two regional networks to ensure monitoring and forecasting efforts have detected in the Republic of Congo. that farmers not only had access to suffi- been linked across the region. Through the For more than two decades, IITA and cient planting materials of resistant vari- CGIAR's systemwide whitefly Integrated the Office of Foreign Disasters Administra- eties but also that they were involved in Pest Management (IPM) project, techni- tion (OFDA) of USAID have been the major multiplying these varieties. Farmers learned cians traveled to the United Kingdom to investors in the fight against CMD. More how to process and market their crops. The learn new diagnostic protocols. Capacity for than US$9 million has been invested. This disease was monitored and mapped and diagnosing the virus has been strengthened sum includes contributions from NGOs NARS technicians learned how to diagnose to include biotechnological techniques to such as CARE, Oxfam, and Sasakawa the viruses. detect both viruses and whiteflies. Global 2000 as well as from the Canadian IITA has a long-term policy of breeding More than 15 institutional stakeholders International Development Research Centre for resistance. Fortunately, varieties held in are now involved in the campaign. Its out- (IDRC) and the Government of Uganda. trust at Ibadan-some of which had origi- standing success is due in no small part The most recent impact figures indicate nated in eastern Africa many years ago- to the stakeholders' dedication to ensuring a return of more than 150 percent on were found to be resistant to all the virus that farmers' crops are saved, that food every dollar spent. strains when tested across the region. security is maintained, and that the region IITA worked on the vector of the cas- Resistant material continues to be needed: becomes self-sufficient in combating and sava mosaic virus, a small whitefly called each country will require 2 million stems containing the CMD menace. Bemesia tabaci, with funding from the a year. In 1999 alone, various institutes in Danish International Development Agency the region sent out nearly 6,000 bags of INTERNATIONAL INSTITUTE OF TROPICAL AGRICULTURE (IITA) ft>B@gtWct$ llf&t AlCfB sv s 28 CGIAR ANNUAL REPORT 1999 | LEADING WITH THEIR STRENGTHS SAVANNA Strives for Balance in Conservation Areas Wildlife numbers continue to decline rap- SAVANNA Model: Providing Solutions for on how change in one area will affect the idly in the game reserves of East Africa. Wildlife Preservation and Human Develop- resources, people, and animals in the oth- But scientists from Colorado State Univer- ment in East Africa and the Western ers," says Michael Coughenour, senior sity (CSU) and the Nairobi-based ILRI have United States, issued jointly by CSU, ILRI, research scientist at the Natural Resource developed a new tool that could reverse and Future Harvest, document the rapid Ecology Laboratory at CSU, who originally these trends. The tool, a computer-based decline of many species of wildlife. Accord- conceived the model and is a co-author of model that took scientists 15 years to ing to the report Kenya's elephant popula- the report. "The model helps us to find a develop, could help save elephants and tion dropped by 85 percent, to approxi- way to save the elephants without driving rhinoceros in East Africa as well as help mately 20,000, between 1975 and 1990; marginalized people further into poverty." balance elk and bison populations in the and the country's rhinoceros population fell SAVANNA is focusing on land use western United States. by 97 percent, to fewer than 500, during issues in areas both inside and around SAVANNA is the world's first ecological the same period. Maasai Mara National Reserve and model that is sufficiently comprehensive to Land use changes resulting from popu- Amboseli National Park in Kenya, and the take into account constant changes across lation growth and poverty, urbanization, Ngorongoro Conservation Area in Tanzania. large regions while at the same time fore- increased tourism, and poaching have con- The same model is being applied in casting the future of an area as small as tributed to these declines, according to the national parks in the United States that a 50-yard wide watering hole. It uses hun- report. The populations of Kenya and Tan- have reached their maximum carrying dreds of variables relating to wildlife, plants, zania have tripled since 1960, and urban- capacity for bison, elk, and wild horses. livestock, soil, climate, and human activity ization is increasing food demand in the According to the report, conservation to make predictions from 5 to 100 years cities. An increasing number of people areas in East Africa carry the greatest large into the future. It forecasts wildlife popula- have taken up both subsistence farming mammal diversity in Africa. But they also tions, the health of ecosystems, and human and commercial crop production. Poaching coincide with the areas of the greatest conditions following human and naturally and insufficiently regulated tourism in East human population increase. Armed with occurring changes in the landscape. Africa are also exerting stress on ecosys- data supplied by ILRI scientists and "There is an urgent need to bring the tems and wildlife. numerous other partners, local NGOs and power of this model to bear on the world's "Given the increasing food needs of the communities will use SAVANNA to create greatest conservation treasures," says peoples living around the wildlife areas and a long-term, land-use planning program Hank Fitzhugh, Director General of ILRI. in the growing urban centers, more of the in the Mara ecosystem. "East Africa is seeing huge increases in fertile lands of East Africa will be tilled," "Most ecological models exclude peo- population combined with reasonable explains Robin Reid, systems ecologist at ple, but SAVANNA can help policymakers expectations by people for a better way of ILRI, one of the model's developers and balance the needs for ecosystem conserva- life. Conservation areas support the great- co-author of the report. We have some tion with the needs of people and food est concentration of large mammals left room to plan for the future. For this, security," says Barbara Rose, Future Har- on Earth. But if we can't manage the needs SAVANNA is the best tool available." vest's executive director. of the people and wildlife on them prop- "SAVANNA's ability to navigate com- erly, we will lose them forever." plex systems-including wildlife, livestock, The authors of the report, The and human-provides concrete information INTERNATIONAL LIVESTOCK RESEARCH INSTITUTE (ILRI) Mx(0!UES)E s ma% MRRADD088%tF2 S %&RR.CALEEs20092 RD s[I.MC119a 8 0&%Z r,'91J&0M6N~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Farmers' knowledge will help to improve understanding of the structure of plant genetic diversity. There are numerous opportunities now to harness the power of synergy between science and public policy. M. S. S,lI'Oail7(lt/(11, uIl 'iun. *,JIcr of il..S 11',,1.1 1w.)od. f,/iz. LEADING WITH THEIR STRENGTHS I CGIAR ANNUAL REPORT 1999 29 I P G R I Linking Scientists and Farmers for Agrobiodiversity Conservation IPGRI's project, "Strengthening the scien- and national and local NGO staff, are being breeding efforts with farmers' needs. tific basis of in situ conservation of agricul- trained in the natural and social sciences The project's impact has already been tural biodiversity," is forging lasting and in participatory methods. substantial. It has been instrumental partnerships between researchers, politi- A national framework was established in putting in situ conservation onto the cians and farmers in nine countries in to enable participatory collection of infor- national policy planning agendas in Nepal, order to strengthen the conservation of mation based on farmers' knowledge, as Burkina Faso, and Morocco. National insti- local crop varieties. well as empirical data on socioeconomic tutions, local communities, and consumers The project seeks to understand genetic factors, natural and environmental selection are becoming sensitized to the value of diversity conservation at the local level and factors, plant population structure, farmer local crop varieties in the participating to frame this knowledge in a coordinated agromorphological selection of traits, seed countries, while the partners are searching global conservation effort. The information supply systems and enhancing the benefits for new market outlets for these varieties. can then be used to support sustainable of local crop resources for farmers. Agricultural extension workers are agriculture and farmer livelihood improve- Researchers are using the empirical being trained on the potential contributions ment. The project's goals are to: data to confirm and validate the informa- of local crop resources to modern variety a link institutes, disciplines, and stake- tion that is based on a farmer's knowledge packages. And there has been a strong holders; of his or her surrounding system and to push to increase gender awareness in * collect and analyze information about augment that knowledge. So far, data have national in situ conservation programs farmers' maintenance of local cultivars; been collected in siK of the nine partner increasing the number of women partici- and countries. pating in decisionmaking, training, and * use information to obtain social, eco- These data link farmer decision- data collection. nomic, ecological and genetic benefits. making on the selection and maintenance This effort is building partnerships of crop landraces to measures of genetic in Burkina Faso, Ethiopia, Hungary, Mex- diversity. The information will help to ico, Morocco, Nepal, Peru, Turkey, and improve our understanding of the structure Vietnam. Each country is situated in a of plant genetic diversity and the forces- region with great diversity of crops of global human and otherwise-that act upon this importance. Each has a national plant diversity. genetic resources program and traditional The data can be used to identify the farming communities that maintain plant best conservation strategies for particular genetic resources, both of which are partic- areas and crops. Analysis of the informa- ularly important to IPGRI's aim to integrate tion will help to identify farming systems on-farm conservation practices with practices in which the use of local crop national systems. resources improves ecosystem health, and The partner countries have established to discover factors limiting the mainte- teams of experts in the disciplines involved nance of local crop diversity on farms. It in on-farm conservation. These experts, will also help breeders to improve varieties who include scientists, extension workers, for marginal environments and to link INTERNATIONAL PLANT GENETIC RESOURCES INSTITUTE (IPGRI) MAfi.)81 lZlM' IM 1g , Cc U 'JA, !i ,' !7 [D [. (' i 11 IYw t C 7, 00 ffl jl-:l ol /A S r o1()31 F U , 17N, r 0 ff7 891 ['7@00 (C lf A ~P 3 A MCif 00 IE( X F(N Q,Sy 1% M OD & !lS4 C 1J Wq%13lFDlEI 7) s11[ KJII,l ,JJ: ~ ~ )~ . f 7[ l( (( ! rLW, 6 30 CGIAR ANNUAL REPORT 1999 | LEADING WITH THEIR STRENGTHS _Improved Management, hncreased Productivity Many poor Asian rice farmers spend large color chart help detect plant nitrogen defi- develop season- and site-specific fertiliza- amounts of money on fertilizers. This is ciencies within a season, allowing for tion strategies. despite the fact that they may know little the adjustment of nitrogen management. In the next few decades, farmers about the nutrients already in the soil or So far, SSNM has been tested on at throughout Asia will need to change their their crops' real needs. In a general sense, least six crops grown on 205 farms in management practices and adopt new, one rice paddy is treated much the same China, India, Indonesia, Thailand, Viet- more knowledge-intensive technologies to as the next. nam, and the Philippines. The results have increase productivity and sustain the soil The reality is that Asia's irrigated rice been encouraging. By applying the same and water resource base. Actual imple- field varies from farm to farm, so much amounts of nitrogen and phosphorus, and mentation of these new technologies will so that much of the fertilizer so freely used slightly more potassium than farmers tradi- depend on NARS and on the support of goes to waste. Soil nutrient supplies,.fertil- tionally have done, SSNM has helped NGOs and private enterprise. IRRI will con- izer efficiency, and productivity vary dra- increase yields by as much as 15 percent. tinue to provide scientific backup, monitor matically even within small districts. Yield increases were as high as 20 percent progress, and train extension workers. Consequently, a successful farm can exist on about a quarter of the 205 farms. alongside farms that are failing. With SSNM, production in many farm- Use of nitrogenous fertilizer often ers' fields is now averaging about 5.5 tons reflects little or no attention to the amount per hectare, which translates to an aver- of nitrogen already existing in the soil and age, increased profit of about US$45 per use of potassium, relative to other fertiliz- hectare. It should be noted that this pro- ers, often does not meet crop require- ductivity was achieved with currently avail- ments. On the basis of these observations able varieties and crop management and three years of on-farm research in five technologies. Hence, it is mainly attributed Asian nations, IRRI, together with its part- to balanced plant nutrition and increased ners from NARS, launched a research proj- recovery efficiency of the applied fertilizer ect in 1997 to develop a new, more nitrogen. This efficiency is particularly site-specific nutrient management (SSNM) encouraging as high nitrogen losses due technology for intensive rice systems. to inadequate fertilization strategies can The SSNM system is tailored to the lead to nitrate pollution of water and emis- site-specific conditions of any selected sions of nitrous oxide, which are of area, whether a field, a valley, a district, or increasing environmental concern. , a plain. One of the SSNM's major innova- The newly developed SSNM concept - tions has been the economically sensible will be disseminated together with a selection of season-specific yield targets. mechanical fertilizer calculator, a pocket Fertilizer requirements are calculated guide for nutrient management, and 'Nutri- on the basis of the plant's nutrient require- ent Decision Support System' software- ments considering the soil's indigenous all of which are planned for release by the nutrient supply. Simple tools such as a leaf end of 2000. These tools can help farmers INTERNATIONAL RICE RESEARCH INSTITUTE (IRRI) %@OU NEM8 2919&g04 X| JO,F%E MNE CJR&18 @t$Y _! LEADING WITH THEIR STRENGTHS I CGIAR ANNUAL REPORT 1999 31 I S N A R Research and Advice on Biotechnology M. S. Swaminathan, CGIAR elder states- Although, much of the international increasing individuals' effectiveness and man, respected agronomist, and co-author debate on biotechnology focuses on the on developing leadership qualities. of a World Bank study on transgenic crops, formulation of national and international "The ISNAR management course has believes that the challenge of increasing legal frameworks and guidelines, ISNAR's helped us to strengthen the link between farm productivity in developing countries research continues to show that the num- industry, universities, and research institu- can be met only by mobilizing frontier sci- ber one constraint facing most developing tions by means of the information we ence. This, he says, will require blending countries today with respect to biotech- shared during the course," said one partici- traditional technologies and ecological pru- nologies is human resources. Therefore, pant. Attendees not only increased their dence with biotechnology, modern informa- one of ISNAR's main activities in 1999 knowledge and improved their managerial tion science, and renewable forms of was developing the skills of the people and leadership skills but also made profes- energy production. in charge of the daily management of bio- sional contacts and new friends. Such Decisions about how best to use technology research. networking enables them to continue devel- biotechnology require careful judgment and With support from the Government of oping their skills. experience. Research managers must weigh Japan, ISNAR developed and conducted a The management course is now offered productivity increases alongside potential management training course to help practi- annually to participants from Indonesia, environmental risks, research priorities, and tioners on the front line of biotechnology India, Malaysia, Thailand, Sri Lanka, the potential returns on investment. Recogniz- management develop their skills. Twenty Philippines, and Vietnam. In these coun- ing the importance of these decisions, participants from the public and private tries, biotechnology is growing rapidly. ISNAR established a biotechnology research sectors followed the sessions, which took Many managers of agricultural research and advisory program in 1992. Over the a hands-on approach to problem solving. systems, therefore, urgently need expertise past seven years, the intermediary biotech- Defining priorities and managing biosafety to help them carry out new responsibilities. nology service has forged partnerships with and intellectual property rights were among ISNAR responds in a number of ways advanced research programs in more than the topics covered. One participant com- to prevent a growing information gap 25 developing countries. mented, "Learning from others' experience between industrialized countries and devel- Recently, even countries that have not and sharing knowledge was most beneficial oping countries in biotechnology-related considered becoming directly involved in and is already paying off in terms of more areas. It established the ISNAR Biotech- biotechnology are having to confront the effective priority setting and time saving." nology Service (IBS), to provide ready complex issues posed by this new technol- About half the course was devoted to access to information on available biotech- ogy. Genetically modified crops arrive daily biotechnology management, the remaining nologies and expertise. The IBS has an in ports and markets around the world. Yet time was spent on management of infor- Internet-based information forum that pro- only a handful of countries have rules or mation technology. Questions about the vides an interactive interface for posing regulatory agencies that can cope with the management of agricultural biotechnology and answering questions about agricultural new products. research were raised, many of which biotechnology. Given the pace of these global develop- stemmed from real-life situations. Managers ments, developing countries must maintain were presented with tools to help them a degree of self-reliance in analyzing the think strategically about their research pro- issues that this new technology raises. grams. Special emphasis was placed on INTERNATIONAL SERVICE FOR NATIONAL AGRICULTURAL RESEARCH (ISNAR) 009ML(CK[31 (i606IECKEL8 %FfLllldl L3UL S()000100 WAAEIP8 fOTH A)U7U 4 tfl)llH @ FX11Lre N( fll1t8f D@@ 32 CGIAR ANNUAL REPORT 1999 | LEADING WITH THEIR STRENGTHS Revealing the Face of Water Scarcity The scenario that nearly one billion people affected governments must take to address by IWMI's research-will be left without may not have access to water by the year their water-scarcity crises. options. If governments in the affected 2025 is now a generally accepted global The message from the water scarcity countries maintain today's "business-as- challenge. A less-known fact is that IWMI's study is clear: Unless the countries that usual" scenario for water use, by 2025 Global Water Scarcity Study has helped will experience water scarcity act today millions of the world's poorest people will define this problem more precisely, provid- to manage their water resources more pro- simply see their water disappear as it is ing a new factual basis for the worldwide ductively, they will face a series of difficult diverted for use by wealthier or politically policy discussion on water management decisions when the crisis hits. The inhabi- connected users. IWMI predicts that eco- and its impact on food security. tants of these regions will have no choice nomic scarcity alone will hit some 348 This research presents a clear picture but to reduce the amount of water they use million people across Africa and Asia if. of the world's water scarcity issues. It proj- in agriculture and transfer it to competing current water consumption patterns con- ects water supply and demand patterns users-in the industrial, domestic, or envi- tinue unchecked. across 118 countries. Most importantly, ronmental sectors. For the poorest coun- Irrigation holds a special place in the it pinpoints countries and entire regions in tries, this shift will be catastrophic. Less water scarcity debate, as it uses more than the developing world where water will no water in the fields means decreased 70 percent of the world's total water sup- longer be available in 2025 or where water domestic food production and increased ply-and up to 90 percent in some devel- resources will not be developed because imports of food at world market prices. oping countries. Any reduction in overall of lack of funds, environmental pressures, The study examines the available eco- water supply means a reduction in irriga- or other constraints. nomic, demographic, and agricultural data tion, which translates into less agricultural IWMI's work picks up where well- from 118 countries over the 1990-2025 production. According to IWMI's research, known water scarcity research, such as period. It concludes that more than 25 per- some policy makers do not view water that conducted by the U.N. Commission cent of the world's population-or 33 per- scarcity as an urgent problem because they on Sustainable Development, ends. It cent of the population in developing think that existing irrigation systems are so considers the importance of the various countries-lives in regions that will experi- inefficient that most, or even all, future competing water users-domestic, agricul- ence severe water scarcity. This research water. needs could be met simply by tural, industrial-and the fact that overall reveals that the groundwater table is falling increasing the system's efficiency and demand for water is continually changing at an alarming rate in the semiarid regions transferring the water saved to domestic, and therefore difficult to predict. It also of the Middle East and in Asia, the home industrial, and environmental uses. How- considers the importance of geographical of some of the world's major breadbaskets. ever, the IWMI research shows that the and seasonal water supply variations These areas will not be able to meet rea- financial and environmental costs of devel- in some regions. sonable water needs for domestic, indus- oping water resources are prohibitive. The strength of the global water trial, and environmental purposes. Scarcity Thus, proportionally more irrigation will be scarcity study is that it documents the of water will create intense competition needed to meet future food demands than scope and severity and highlights the among different users-competition with was needed to meet past food demands. causes of the potential water crisis. When political and national security implications. completed, the study will supply informa- In the struggle for water, the poorest tion to support the policy changes that of the poor-the primary group targeted INTERNATIONAL WATER MANAGEMENT INSTITUTE (IWMI) FOU%0*08 11@% tflflf V i CSRtCgf RI | © LEADING WITH THEIR STRENGTHS I CGIAR ANNUAL REPORT 1999 33 WARDA New Rice Strains Gain Acceptance Rice is grown on 74,000 hectares in Sene- medium-duration performance and there- estimates (25 percent, 10 percent, and gal and 20,000 hectares in Mauritania. fore are targeted for use in the rainy sea- 15 percent for Sahel 108, Sahel 201, and In Senegal, 40 percent of the rice-growing son. Sahel 201 was introduced for its high Sahel 202 in the wet season and 40 per- area is irrigated, whereas in Mauritania yield and moderate tolerance to salinity cent, 5 percent and 5 percent respectively 100 percent of this area is irrigated. The and Sahel 202 for its high yield and good for the same cultivars in the dry season) irrigated sector produces 119,000 tons of grain quality. but are nevertheless high at 118 percent. rice paddy in Senegal-70 percent of total The Sahels yield approximately 10 per- Sahel 108 already occupies 31 percent of rice production-and 67,000 tons of rice cent more rice than the existing varieties the Senegal River Valley in Senegal in the paddy in Mauritania. in the wet season; Sahel 108 yields about wet season and 66 percent of the valley Rice variety Sahel 108 was released 11 percent more rice than IKP in the dry in the dry season, so the IRR estimate has along with two other varieties (Sahel 201 season. Net revenue gains per hectare are already been exceeded. In Mauritania, the and Sahel 202) in Senegal in 1994 and even more impressive. Compared with IKP, three Sahels occupy about 35 percent of in Mauritania in 1996. The three varieties Sahel 108 gives rise to 18 percent more the total area under rice production. had been introduced in nurseries distrib- net revenue in the wet season. Sahel 201 uted by the International Network for provides 21 percent and Sahel 202 pro- Genetic Evaluation of Rice (INGER, then vides 24 percent more net revenue than hosted by IITA under the auspices of IRRI) Jaya in the same season. Sahel 108 and were selected by WARDA in Senegal results in net revenues 23 percent higher and Mauritania. Sahel 108 was an IRRI than those of IKP in the dry season. variety, Sahel 201 came from Sri Lanka, More importantly, Sahel 108 matures and Sahel 202 from IITA. about 15 days earlier than Jaya during the The Sahel varieties were released for wet season. This earlier maturation saves their improved performance over long- 1,000 cubic meters of water per hectare. standing cultivars Jaya (medium duration) On the scale of the whole Senegal River and I Kong Pao (IKP, short duration), both (in Senegal), Sahel saves at least 11 mil- introduced around 1970. Although Jaya lion cubic meters of water per year. Assum- has a high yield potential, it is not tolerant ing an irrigation efficiency of 40 percent, to saline conditions present in the Senegal this amounts to 28 million cubic meters River delta, and its cycle length prohibits of pumped water, or about US$400,000 double-cropping. IKP, on the other hand, in saved fuel. In addition, the short cycle may be grown in any season, but it has opens up new possibilities for double-crop- poor grain quality and lower yield potential ping on a given parcel of land, potentially than Jaya. doubling per-hectare annual output. Sahel 108 was targeted for the dry 10 percent of the cropped area in Senegal season when short-duration performance is now double-cropped. is important for enabling farmers to double- Initial estimates of internal rate of return crop. Sahel 201 and Sahel 202 are of (IRR) are based on conservative adoption WEST AFRICA RICE DEVELOPMENT ASSOCIATION (WARDA) ArA08 W rH8 ., tT riin'[PnE FaCiObH i;0113528 19Mg J5)t@ 3)OW1Hfi TlLC.1t7R CC61rP$ 131S6$ 34 CGIAR ANNUAL REPORT 1999 | LEADING WITH THEIR STRENGTHS Synergies in Science Each CGIAR Center conducts research Genetic Resources at Work for the Poor wide Genetic Resources Programme (SGRP) of the highest quality and applies the More than 70 percent of the poor in devel- was created to help strengthen and focus results to problems of vital concern in oping countries live in rural, marginally the CGIAR's ability to contribute to global developing countries-feeding the poor, productive areas that are largely untouched genetic resources management efforts, reducing hunger, and managing natural by modern technology. They depend for including implementation of the convention. resources wisely. The power of Centers their livelihoods on indigenous genetic The SGRP joins the genetic resources pro- working together was convincingly demon- resources developed and nurtured over grams and activities of all CGIAR Centers strated at ICW99 through hundreds of years. This genetic diversity in partnership to maximize collaboration. * an overview of interCenter collabora- is important for increasing productivity and A 1998 review of the SGRP led to the tion, followed by highlights of collaborative improving the stability of agriculture, articulation of five areas of focus: policy, work in integrated gene management; forestry, and fisheries. It is the basis of new public awareness, information, knowledge * illustrative examples of collaboration products-foods, medicines, fibers-and and technology generation, and capacity in several critical areas related to produc- can contribute to the development of pro- building. In the area of policy, the SGRP tivity, natural resources management, and duction systems that are less dependent has developed material transfer and other institution building; on external inputs. agreements related to genetic resources m a description of systemwide and ecore- Proper management of genetic exchange. As a result of evaluating each gional programs; and resources is fundamental to the CGIAR's Center's capacity to meet commitments * discussion of collaborative approaches mission. Genetic resources are central to under the in-trust agreements, the SGRP to policy issues. the Centers' research on gene management is developing an investment plan to allow The presentations revealed that the and underpin their work on natural Center gene banks to upgrade their stan- CGIAR Centers have been actively pooling resources management. The Centers main- dards of operation. In addition, it is working their resources-especially their intellectual tain-in public trust-the largest collection to raise awareness among policymakers resources-in efforts to of agricultural genetic resources in the and the general public about the loss of * develop effective modes of partnership world (about 600,000 samples). Use of genetic resources, their value to develop- among themselves and with others in the this collection is critical to much of the ment, and the role of CGIAR in their con- global agricultural research system; CGIAR's efforts to eradicate poverty and servation and use. * improve methods for assessing the protect the environment. As noted above, genetic resources impact of their work on poverty alleviation; Since the Convention on Biological are central to the CGIAR's mission to help * harness high-quality science in the Diversity came into force in 1993, national eradicate poverty. The basis of the Sys- continuing struggle against poverty; and access legislation has increasingly restricted tem's work on genetic resources is the a maintain the highest possible scientific the movement of genetic resources. In material that has been developed, selected, standards. 1994, the CGIAR Centers signed agree- nurtured, and conserved by generations Highlights of these presentations, ments with the United Nations Food and of farmers around the world. The work of which have been published by the CGIAR Agriculture Organization (FAO) attesting the SGRP is essential to ensuring that the in Synergies in Science: InterCenter to their status as trustees, not owners, world's rich natural reservoir of genetic Collaboration to Eradicate Hunger and of genetic resources on behalf of the world resources serves the interests of the poor Poverty are provided below. community. Shortly thereafter the System- in the developing world. More than 70 percent of the poor in developing countries live in rural, marginally productive areas that are largely untouched by modern technology. LEADING WITH THEIR STRENGTHS I CGIAR ANNUAL REPORT 1999 35 Crop and Livestock Synergies Most farm- strategy by surveying livestock farming in A Green Revolution for Africa In 1993, ers in the semi-arid tropics practice mixed collaboration with the national agricultural the Inland Valley Consortium, comprising crop-livestock farming systems. To be research systems of six countries. More four CGIAR Centers, three agricultural relevant to these farmers, research must recently it has targeted poverty alleviation research institutes, FAO, programs of 10 explore the interactions of crops and live- in the semi-arid tropics by focusing on fod- West African countries, and NGOs, was stock. In the 1980s, the International Live- der and livestock systems. To advance this established to respond to opportunities and stock Center for Africa (a predecessor of work, ILRI has proposed that it base its address problems through the Systemwide ILRI) and ICRISAT initiated studies at efforts in India, a move welcomed by both Ecoregional Program for Inland Valley ICRISAT's Sahelian Center in Niger to better ICRISAT and the government of India. Development in West and Central Africa. understand the role of livestock in mixed ILRI and ICRISAT are establishing an Phase one of the program is developing the farming systems in the semi-arid tropics of institutional framework for research on the West Africa. IFDC, ICRAF, IPGRI, and IITA use of genetic manipulation to improve the as well as national agricultural research digestibility and the feed value of stover, systems and farmers have joined in these an advance that would greatly assist small .:. - studies, which are now aimed at exploiting farmers. According to a rigorous impact , . crop-livestock synergies in both Africa and assessment carried out in 1997-98, the Asia. Recent collaborations include the net present value of a 1 percent increase '- Desert Margins Program in Africa, sustain- in stover digestibility is estimated to be , able management of vertisols (deep black US$42-208 million, depending on adop- - soils) in Ethiopia, the Systemwide Livestock tion rates. The internal rate of return to this Program led by ILRI, and joint studies research investment was 28 to 43 percent. m based in India on interactions of fodder Through research on crop-livestock quality and livestock in Asia. synergies, CGIAR can help poor farmers K , With the endorsement of the host extract more benefit from their own on- countries, ICRISAT has given ILRI access farm resources. Cooperation between the to its research station facilities in Niger, in Group and farmers has been most effective - the driest part of the semi-arid tropics, and when driven by research opportunities, in India, in the heart of the semi-arid trop- rather than by supply-driven partnerships. ics. This access has allowed ICRISAT and Careful analysis is a disciplined starting capacity of national agricultural research ILRI to more easily pursue their multidisci- point for any new collaborative venture; systems for agroecological characterization, plinary studies. They have investigated it generates partner and donor confidence and technology testing and transfer. Inter- nutrient management for crops, feed man- that the work is relevant and on track. Center collaboration on lowland agriculture agement for animals, and animal traction Participatory planning and execution by is crucial because no single Center can issues, along the way addressing technical, national agricultural research systems, provide sufficient expertise to deal with this economic, institutional, policy, and envi- farmers, local seed suppliers, and village huge land resource. ronmental matters. store owners are crucial to the success The Centers have focused on livestock In 1997, ILRI began planning its Asia of these endeavors. integration (ILRI), diversification of the crop 36 CGIAR ANNUAL REPORT 1999 | LEADING WITH THEIR STRENGTHS portfolio (IITA), and better water manage- Stronger Research Capacity through Train- tural research centers and national agricul- ment (IWMI). Beyond these crop and live- ing and Learning The InterCenter Training tural research systems. stock improvement and natural resources Program (INTG) was established in the INTG first offered research manage- management efforts, the Centers have pro- 1980s. ICRAF, IITA, and WARDA pursued ment training in 1996. In that year, every vided coordination services, through which this initiative to advance training in Sub- participant was supported by the Centers. national and international members have Saharan Africa. By the mid-1990s, the By 1999, about 60 percent of the partici- shared decisionmaking responsibilities, group focused attention on the role of the pants were supported by the national agri- resulting in a strong feeling of ownership national agricultural research systems and cultural research systems and regional among members that has contributed to the regional associations in training and associations, and women made up 30 per- the success of the consortium. In addition, capacity building. cent of course participants. the Centers have coordinated and regional- The aim of INTG is to expand capacity INTG seeks to produce a multiplier ized the consortium's research activities. for the conduct of research that will con- effect in its capacity building. This year the They have strengthened the scientific tribute to poverty reduction. Therefore, the training was delivered by African manage- capacity of consortium members by creat- INTG pays attention to the people conduct- ment training specialists. ing mechanisms for knowledge exchange. ing and managing, and the processes The consortium's characterization of underlying good-quality research. It work in key sites and watersheds is nearly enhances national research and training complete. National teams have been capacity by building capacity (training of trained in survey techniques and are now trainers) in African national agricultural empowered to move into phase two- research systems, developing training mod- technology targeting. ules to support training, and monitoring Although .its objective remains crop and evaluating the training programs that intensification and diversification, the con- are conducted in Africa. It also seeks to sortium moves into phase two with revised coordinate these activities to avoid duplica- priorities. Greater efficiency and coordina- tion of efforts and to mobilize and share tion, a transparent governance structure, resources in training and capacity building. and reduced transaction costs will be Although INTG membership is global, ensured by a sound strategic plan. Several it has grown most rapidly in Sub-Saharan of the 16 key work sites will be promoted Africa. Its 45 members include interna- to benchmark sites through their use in the tional agricultural research centers, donors, Ecoregional Program for the Humid and research institutes, and universities world- Sub-Humid Tropics of Sub-Saharan Africa wide. They collaborate with one another on (EPHTA), another CGIAR program. areas of mutual concern, including partici- A robust new rice and the untapped patory research and gender analysis (with potential of the inland valleys are giving CIAT and ICRAF) and development of train- rise to a green revolution in Africa. ing modules and materials (with IITA and ICRAF). To improve coordination, INTG has collaborated with ICRISAT to develop spe- cialized databases on training modules and materials produced by international agricul- w~~~~ ___. Financial Highlights Top Twelve Contributors to CGIAR in 1999 Australia Norway Sweden Netherlands Canada United Kingdom Denmark Germany Switzerland United States Japan World Bank 0 10 20 30 40 US$ Million - - N. AW "Ait 4 _-v , , : .ff- ' 't. a~~~~~~ ,''t s4 K ,,- *t ,G,,' #. FINANCIAL HIGHLIGHTS I CGIAR ANNUAL REPORT 1999 39 CGIAR RESEARCH AGENDA FINANCIAL HIGHLIGHTS, 1995-1999 (IN US$ MILLION AND PERCENT) 1995 1996 1997 1998 1999 Member Contributions (in $ m) 270 304 320 340 330 Annual change (%) 14% 13% 5% 6% -3% Composition of Membership Support (in $ m) DAC Countries: Europe 107 132 141 148 126 Pacific Rim 39 43 40 44 48 North America 45 45 51 52 52 Developing Countries 5 8 11 13 15 Foundations 4 6 6 7 6 International and Regional Organizations 68 65 64 64 68 Non-CGIAR Donors 1 5 7 12 15 No. of Contributing CGIAR Members 41 44 50 54 55 CGIAR Contributions as % ODA 0.46% 0.55% 0.67% 0.66% 0.65% Composition of CGIAR Investments by Undertakings (%) Increasing Productivity 47% 40% 40% 37% 34% Protecting the Environment 16% 16% 17% 19% 20% Saving Biodiversity 10% 11% 11% 11% 10% Improving Policies 9% 12% 11% 12% 13% Strengthening NARS 18% 21% 21% 21% 23% Center Operating Expenditure (in $ m) 286 325 333 337 347 Distribution by Object of Expenditure (%) Personnel 55% 53% 51% 50% 50% Supplies/Services 31% 34% 36% 37% 38% Travel 7% 7% 7% 7% 7% Depreciation 7% 6% 6% 6% 5% Allocation by Region (%) Sub-Saharan Africa 39% 38% 40% 40% 42% Asia 32% 33% 31% 32% 32% Latin America and the Caribbean (LAC) 17% 17% 17% 18% 17% West Asia and North Africa (WANA) 12% 12% 12% 10% 9% Investment in the CGIAR has been the most effective use of official development assistance, bar none. THE THIRD CGIAR SYSTEM REVIEW 40 CGIAR ANNUAL REPORT 1999 | FINANCIAL HIGHLIGHTS Disbursement Schedule Fgure 3. Funding by Center The disbursement targets set under the program-50 percent of funds disbursed 35- in January and the balance by mid-year- 30 slipped again in 1999. Only 32 percent of commitments were disbursed in the first 25- - _ half compared with 35 percent in 1998. 0 At the end of the third quarter, 45 percent =20 were disbursed compared to 42 percent in 15 - - - 1998. By the end of 1999, 89 percent of funds had been disbursed, compared with 10 88 percent in 1998. Eleven percent of 5 funds had yet to be disbursed at the end of 1999. 0 Allocation of Agenda Support by the Centers The allocation of resources in support increased from 40 percent to 42 percent FiVuva k. Enpendievies by Object of the research agenda is reviewed below of total investment. Asia remained at 32 from four perspectives: by undertaking, percent. Allocations targeted to Latin Amer- by Center, by object of expenditure, and ica and the Caribbean decreased from by region. 18 percent to 17 percent. Investment in Investments in Activities Investments West Asia and North Africa decreased from Supplies! in the five principal CGIAR activities- 10 percent to 9 percent of the total invest- Services Personnel increasing productivity, protecting the envi- ment. Almost all Centers had activities 38% ,. 50% ronment, saving biodiversity, improving aimed at sub-Saharan Africa in 1999. policies, and strengthening NARS-for Six Centers-IITA, ILRI, CIMMYT, ICRAF, 1999 are shown in Figure 2 (on page 38). WARDA and ICRISAT-accounted for more D / "Increasing productivity" continued as the than two-thirds of these activities. The pat- D % Travel primary thrust of CGIAR activities. In terms tern was similar in Asia. A majority of the 7% of production sectors, crops remained the Centers carried out activities in Asia and primary focus, accounting for 71 percent four Centers-IRRI, ICRISAT, CIMMYT, of investments, followed by livestock with and ICLARM-accounted for the majority. 13 percent, forestry with 12 percent, and On the other hand, approximately half of fish with 4 percent of investments. the allocations for WANA continued to be Figure 5. CGIR1 Alkocations Distribution among Centers Figure 3 made by ICARDA. CIAT accounted for by Developing Region shows the distribution of investment in about one-third of the allocations made CGIAR Centers in 1999. in Latin America and the Caribbean. Expenditure by Object The trend of reduced personnel spending continued in Asia 1999. Personnel costs amounted to 50 per- Sub-Saharan 32% cent of the total costs in 1999, compared Africa 42% with an average of 55 percent in the mid 1990's. The total number of staff remained approximately 8,600 of which 1,100 were internationally recruited. Expenditures by object are indicated in Figure 4. Latin America West Asia and and the Caribbean Allocation by Region The 1999 North Africa 17% resource allocation by region is shown in 9% Figure 5. Investment in Sub Saharan Africa FINANCIAL HIGHLIGHTS I CGIAR ANNUAL REPORT 1999 41 CGIAR CONTRIBUTIONS TO THE RESEARCH AGENDA BY CENTER, 1972-19991 (IN US$ MILLION) Centers 1972-76 1977-81 1982-86 1987-91 1992-96 1997 1998 1999 Total CIAT 28.3 65.8 107.0 132.5 138.8 31.7 32.1 28.7 564.8 CIFOR 30.5 10.6 11.3 11.5 63.9 CIMMYT 33.7 72.6 97.2 130.8 130.2 28.6 30.1 33.8 556.9 CIP 10.9 34.8 52.9 83.2 91.4 22.6 22.2 20.0 338.0 ICARDA 1.5 47.2 91.5 92.2 92.2 22.3 25.2 19.5 391.3 ICLARM 30.3 9.0 10.6 14.2 63.5 ICRAF 71.3 21.8 20.4 20.6 134.2 ICRISAT 19.8 59.5 103.2 143.1 134.4 26.9 26.5 21.2 534.5 IFPRI 1.0 9.9 20.5 41.5 51.3 18.2 20.1 20.8 183.3 IITA 37.1 72.4 101.1 107.9 111.3 27.5 29.2 30.7 516.8 ILRI2 13.6 80.8 107.0 155.2 124.6 25.2 24.6 26.6 557.5 IPGRI3 1.4 11.4 20.5 33.6 64.2 18.8 21.2 20.1 191.2 IRRI 30.2 71.3 104.6 137.5 139.1 28.6 34.8 32.5 578.5 ISNAR 3.3 16.8 34.4 36.6 9.9 9.6 8.2 118.8 IWMI 36.0 9.5 9.4 8.8 63.7 WARDA 1.9 9.4 12.6 28.6 34.6 8.6 10.0 10.8 116.3 Subtotal 179.3 538.2 834.9 1120.5 1316.9 319.6 337.1 328.0 4973.1 Reserves/CGIAR Committees 9.1 -16.0 7.0 0.8 2.5 1.5 4.9 Total 179 538 844 1,105 1,324 320 340 330 4,978 1 Figures shown for 1972-1980 are total expenditures (operations/capital) and may be higher or lower than the contributions for that year (due to the accounting convention followed in the 1970s). 2 Formerly ILCA and ILRAD 3 Formerly IBPGR and INIBAP 42 CGIAR ANNUAL REPORT 1999 | FINANCIAL HIGHLIGHTS CGIAR CONTRIBUTIONS TO THE RESEARCH AGENDA (1972-1999) (IN US$ MILLIONS) Members 1972-76 1977-81 1982-86 1987-91 1992-96 1997 1998 1999 Total Austria 1.0 5.0 7.1 1.8 2.3 2.3 19.4 Belgium 3.5 13.7 9.2 14.2 19.9 5.5 6.0 6.8 78.4 Denmark 1.7 4.7 5.9 14.4 45.0 19.1 17.7 14.0 122.4 European Commission 17.4 28.3 59.0 76.6 23.1 24.9 6.0 234.7 Finland 2.1 21.4 3.9 2.1 2.1 1.5 33.1 France 1.1 3.1 6.1 18.3 21.4 4.9 5.9 5.9 66.7 Germany 13.3 39.1 36.6 54.6 76.2 16.6 16.3 15.5 268.2 Ireland 0.4 1.9 1.8 3.0 0.8 1.0 0.9 9.8 Italy 0.1 1.9 29.1 39.8 17.6 4.0 3.0 3.2 98.8 Luxembourg 0.3 1.0 0.7 0.7 0.7 3.4 Netherlands 4.1 11.6 20.5 30.7 55.9 14.5 14.7 11.6 163.6 Norway 3.3 9.3 11.4 20.6 28.4 7.2 8.3 8.9 97.3 Portugal 0.3 0.3 0.5 1.0 Spain 0.5 2.5 2.5 3.9 1.8 1.1 0.9 13.2 Sweden 7.2 14.8 16.5 28.0 39.0 7.1 9.3 10.3 132.3 Switzerland 1.9 9.5 26.6 46.3 63.6 20.9 22.7 22.8 214.3 United Kingdom 9.0 27.5 32.6 55.8 50.8 10.2 11.5 13.8 211.3 Subtotal 45.1 153.3 230.5 412.7 513.4 140.6 147.6 125.8 1767.7 Canada 17.3 36.1 48.6 71.0 75.2 12.9 12.3 12.3 285.8 United States 41.6 128.1 222.0 217.3 183.5 38.3 40.5 39.4 910.5 Subtotal 58.9 164.2 270.6 288.3 258.7 51.2 52.8 51.7 1196.3 Australia 4.0 13.3 20.5 16.7 25.5 6.6 7.8 8.1 102.4 Japan 2.5 25.9 54.7 104.9 166.3 33.5 35.3 39.9 463.2 New Zealand 0.1 0.1 0.1 0.4 0.4 1.3 Subtotal 6.6 39.3 75.3 121.7 191.7 40.0 43.5 48.4 566.9 Bangladesh 0.1 0.1 0.3 0.5 Brazil 1.0 0.2 0.0 0.5 0.7 0.4 2.7 China 1.5 1.5 2.5 0.5 0.5 0.7 7.2 Colombia 4.5 2.6 2.5 2.7 12.2 CMte d'lvoire 0.3 0.2 0.1 0.1 0.7 Egypt 1.0 1.1 1.4 1.4 4.8 India 0.5 2.5 2.5 4.0 0.8 0.8 0.7 11.9 Indonesia 1.2 0.5 0.1 0.4 2.3 (CONT IN UED) Over 55 million hectares in developing countries are planted to CGIAR-related wheat varieties each year. The additional output is valued at more than US$1.8 billion per year. FINANCIAL HIGHLIGHTS I CGIAR ANNUAL REPORT 1999 43 Members (continued) 1972-76 1977-81 1982-86 1987-91 1992-96 1997 1998 1999 Total Iran 2.0 3.0 1.9 1.5 2.0 1.8 12.2 Kenya 0.5 0.4 0.9 Korea 0.5 2.6 0.6 0.9 0.8 5.3 Mexico 1.4 2.0 0.2 0.6 0.5 0.6 1.7 7.0 Nigeria 1.3 5.4 4.2 0.5 0.0 0.1 1.0 1.6 14.0 Pakistan 0.5 0.2 0.0 0.7 Peru 0.4 0.3 0.7 Philippines 0.7 1.6 1.1 1.7 0.4 0.7 0.3 6.5 Russian Federation 0.2 0.2 Saudi Arabia 1.0 1.0 3.0 5.0 South Africa 0.5 0.6 0.5 1.6 Syria 0.5 0.5 Thailand 0.5 0.3 0.1 0.9 Subtotal 4.3 11.9 15.8 6.5 20.6 10.8 13.2 14.7 97.8 Ford Foundation 16.8 6.2 4.9 4.6 12.9 3.2 3.1 2.6 54.4 Kellogg Foundation 1.3 0.6 1.0 0.4 0.3 0.3 0.1 3.9 Rockefeller Foundation 17.1 6.7 3.5 6.3 7.7 2.1 3.4 3.5 50.3 Subtotal 35.2 13.5 9.4 11.0 21.0 5.6 6.8 6.2 108.6 ADB 0.3 1.2 1.0 4.0 1.8 3.8 4.4 16.1 AFDB 0.1 0.6 5.3 5.6 1.0 0.8 2.3 15.8 Arab Fund 1.1 1.4 1.9 5.1 1.0 1.5 1.9 14.0 FAO 0.3 0.6 0.2 1.0 IDB 11.2 32.2 42.6 48.8 25.8 4.5 2.1 1.5 168.6 IDRC 3.9 5.7 6.5 3.4 4.4 2.4 2.4 3.0 31.6 IFAD 11.1 24.9 1.9 4.2 3.1 4.0 6.9 56.2 OPEC Fund 2.0 9.5 1.2 0.8 0.2 0.2 0.2 14.0 UNDP 7.4 21.7 37.0 38.2 38.6 4.5 3.2 2.1 152.7 UNEP 0.9 0.5 0.3 0.1 1.2 0.2 0.1 0.2 3.5 World Bank 16.1 53.3 116.1 162.8 222.5 45.0 45.0 45.0 705.8 Subtotal 39.9 128.9 238.9 264.5 312.3 63.9 63.7 67.7 1179.3 Non-CG Members 0.8 1.1 3.4 6.2 8.2 11.9 15.0 46.7 Total 191 512 844 1,105 1,324 320 340 330 4,963 Scientific capacity in developing countries has been strengthened substantiatly. Some 85,000 developing-country scientists have been trained at CGIAR Centers. 44 CGIAR ANNUAL REPORT 1999 | WHO' S WHO IN THE CGIAR Whao's Who in the CGGRA in n999 CGIAR Members Cosponsors and their Impact Assessment CGIAR 1971-1999 Countries Representatives Evaluation Group CGIAR Chairmen, 1971-1999 Australia, Austria, Bangladesh, Food and Agriculture Organization Hans Gregersen, Chair Ismail Serageldin, 1994- Belgium, Brazil, Canada, China, of the United Nations (Henri Guido Gryseels, Executive V. Rajagopalan, 1991-1993 Colombia, Cote d'lvoire, Denmark, Carsalade); United Nations Devel- Secretary Wilfried Thalwitz, 1990-1991 Egypt, Finland, France, Germany, opment Programme (Roberto L. Cristina C. David W. David Hopper, 1987-1990 India,lndonesia, Iran, Ireland, Italy, Lenton); United Nations Environ- Frans L. Leeuw S. Shahid Hussain, 1984-1987 Japan,Kenya, Korea, Luxembourg, ment Programme (Till Darnhofer); Warren Baum, 1974-1983 Mexico,Netherlands, New Zealand, The World Bank (Alexander F. GenmittRes Richard H. Demuth,1971-1974 Nigeria,Norway, Pakistan, Peru, McCalla) Committee3 PhilippinesPortugal, Romania, M. S. Swaminathan, Chair CGIAR Executive Secretaries, Philippines,Portugal, Romania, Robert Bertram 1972-1999 Russian Federation,South Africa, Standing Committees Ronald P Cantrell Alexander von der Osten, 1989- Spain, Sweden, Switzerland,Syrian CGIAR Oversight Committeel Ronl T E as-Al CriFarrar 1982-1989 Arab Republic, Thailand, Uganda, Andrew J. Bennett, Chair JosC Te Esquinas-Alcazar Curtis Farrar, 1982-1989 United Kingdom United States United KingdomCarmen Felipe-Morales Michael Lejeune, 1975-1982 United Kingdom, United States United Kingdom of America Mervat W. El Badawi, Arab Fund Christine E. Grieder Harold Graves, 1972-1975 Juan L. Restropo, Colombia Geoffrey Hawtin TAC Chairs, 1971-1999 Foundations Gilles Saint-Martin, France Bernard Le Buanec Donald Winkelmann,1994-1999 Ford Foundation ' ~~~~~~~~Marcia de Miranda Santos Dnl iklan 9419 nRuth Haug, Norway Alex McCalla, 1988-1994 Kellogg Foundation Emmy Simmons, USA Godwin Y. Mkamanga Rockefellog Foundation Bongiwe Njobe-Mbuli, South Africa Timothy Reeves Ralph Cummings,1977-1982 International and Regional Carl-Gustaf Thornstrom Sir John Crawford, 1971-1976 Ierganiational and RegionalCGIAR Finance Committee2 Usha Barwale Zehr Organizations African Development Bank; The World Bank, Chair NGO Committee TAC Executive Secretaries, Arab Fund for Economic and (Alex McCalla) Miguel A. Altieri, Chair 1971-1999 Australia (Robert Clements/ Yuexin Du Shellemiah Keya, 1996- Social Development; Asian Devel-YuxnD opment Bank; Commission of the Ian Bevege) Julian Francis Gonsalves Guido Gryseels, 1995-1996 European Community; Food and Brazil (Francisco Reifschneider) Ass6tou Kanout6 John Monyo, 1985-1994 Agriculturopean Corgztin Food t Canada, Chair, effective October Alexander von der Osten, United Nations; Inter-American 1999 (lain C MacGillivray/ Carlos A. Perez 1982-1985 Development Bank; International Bruce Howell) Christian Castellanet Philippe Mahler,1976-1982 Development Research Centre; Egypt (Saad Nassar) Jean Marc von der Weid Peter Oram, 1971-1976 International Fund for Agricultural European Commission (Uwe Dwi R. Muhtaman Development; OPEC Fund for Inter- Werblow/Nikolaos Christoforides) Notes national Development; United Germany (Hans-Jochen De Haas/ Private Sector Committee4 'William D. Dar, Teresa Fogelberg Stephan Krall) R. N. Sam Dryden, Chair and John Van Dusen Lewis left the United Nations Environment IFAD (S. Mathur) Claudio Barriga Oversight Committee in 1999. Programme; World Bank Japan (Hiroaki Isobe/Tetsushi Badrinarayan R. Barwale 2Jurgen Friedrichsen, Abdelmajid Kondo) Wallace D. Beversdorf Slama, Takuji Hanatani, R. S. Paroda, CGIAR Regional Representatives Sweden (Carl-Gustaf Thornstr6m) Robert Horsch and Yasuhiro Mitsui left the Finance Seizo Sumida Committee in 1999. At ICW99, Sri Lanka and Fiji Advisory Committees Barry Thomas Canada was elected to Chair the Hungary and Slovenia Technical Advisory Committee Florence Wambugu Finance Committee. Trinidad and Tobago and Paraguay Donald L. Winkelmann, Chair Science Partnership Committee 3Bo Bengtsson, Jurg Benz, Adel Sudan and Syrian Arab Republic Shellemiah 0. Keya, Executive Werner Arber, Chair El-Beltagy, Norah Olembo, Setijati Sas- Secretary R. James Cook trapradja and Maria Jose de Oliveira Michael Cernea . ames Zimmermann left the GRPC in 1999. The CGIAR. onHaz CGIAR Chairman Elias Fereres Lydia Makhubu 4Assia Bensalah Alaoui, Pramod K. Ismail Serageldin, Vice President, Richard R. Harwood Sudha Nair Agrawal, Carol Mallette Amaratunga, Alain de Janvry Benr .Axnan,MhmdAe Special Programs, The World Bank Satohiko Sasaki Bernard P Auxenfans, Mohamad Adel Magdy A. Madkour JosVargas El-Ghandour, Alejandro Rodriguez- CGIAR Executive Secretary Maria Antonia Fernandez Martinez g Graue, Susan Crisp-Jungklaus, Din- Alexander von der Osten Cyrus G. Ndiritu guri Nick Mwaniki, John M. Preston Lucia de Vaccaro and Alberto U. Rubinstein left the Joachim E von Braun Private Sector Committee in 1999. Usha Barwale Zehr PHOTOGRAPHY: Cover: Trygve Bolstad/Panos Pictures; page 1: Anders Gunnartz/Panos Pictures: page 2: Heldur Netoeny.Panos Pictures; page 2a: M. lannacci/The World Bank Group; page 4: CGIAR: page 7 left: Azirnuths/UNDP; page 7 middle: IRRI; page 7 right: Global Links/The World Bank Group; page 8: Sean Sprague/Panos Pictures; page 12 (book cover): Ram Cabrera/IRRI; page 14: David Kinley UNDP; page 17 bottom: CIAT; Page 19: Curt Carnemark/The World Bank Group; page 22: ICLARM; page 25 bottom: ICRISAT; page 27: IITA; page 30: IRRI; page 32: David Kinley/UNDP; page 35 top: Dave Elsworth/ILRI; page 35 bottom: Curt Carnemark/The World Bank Group; page 36: Curt Carnemark/The World Bank Group; page 37: Crispin Hughes!Panos Pictures DESIGN: Daddona Graphic Design LLC PRINTING: Schmitz Press Printed in soy-based inks on recycled uncoated paper with 50% post-consumer waste and recycled coated paper with 10% re,cycled content. M1J- Consultative Group on International Agricultural Research (CGIAR) CGIAR Secretariat The World Bank 1818 H Street, NW, Washington, DC 20433, USA Phone: 1.202.473.8951 Fax: 1.202.473.8110 Email: cgiar@cgiar.org or cgiar@worldbank.org www.cgiar.org