An International Vision for Wheat Improvement

An International Vision for Wheat Improvement Wheat Initiative Press Conference Paris May 16, 2013 Press Kit Press release Presenters Wheat Initiative Flyer Wheat Initiative Vision Document

An international vision for wheat improvement Paris, May 16, 2013 By 2050, a 60% increase in wheat production will be needed to meet the demand of a growing population. The Wheat Initiative, an international consortium 1 gathering public institutions and private companies, was created as part of the 2011 action plan of the G20 Agricultural Ministries 2 to coordinate global wheat research and participate to global food security. On May 15, 2013, the Wheat Initiative issues its vision document paving the way for its actions. Wheat is a major staple crop worldwide but its production has not reached demand in 10 of the 15 past years. Wheat yield models indicate that climate change will reduce wheat yield potential in its major producing areas, and that wheat farmers in South Asia and North Africa will be hit hardest. Hence, all countries share an urgent need to increase the rate of wheat genetic progress for yield, nutrient and water use efficiency, adaptation to biotic and abiotic stress, whilst ensuring the production of high quality and safe products. To take full advantage of the genetic potential, improved agronomic practices and development of innovative cropping systems are paramount. These needs are immediate and will most efficiently and rapidly be addressed by ensuring coordination and communication among the international wheat scientific community, establishing common goals, sharing resources and information, enhancing technology delivery to breeders, agronomists, and farmers globally and by improved coordination among public and private research funding organizations. The main objective of the Wheat Initiative is therefore to co ordinate global wheat research so that, through international efforts, the progress needed to increase wheat production, quality and sustainability can be achieved, thus contributing to the global efforts towards food security and safety under changing climate conditions. Hélène Lucas, International Scientific Coordinator of the Wheat Initiative explains: In the last 20 years, wheat has become an orphan crop in terms of research investments considering its importance for global food security. To change this situation, the public and private sectors must address the great challenges facing wheat through substantially increased and coordinated investment in research. This effort will ensure that wheat research and improvement programs are conducted synergistically to increase food security and safety in a changing environment, while taking into account societal demands for sustainable and resilient agricultural production systems. Steve Visscher, BBSRC Deputy Chief Executive and Chair Elect of the Wheat Initiative Institutions Coordination Committee, says: The Wheat Initiative provides a new global framework to establish strategically focused research and organisational priorities for wheat research at the international level. It will bring together both research and funding organisations in the public and private sectors 1 Participants to the Wheat Initiative : CONICET (Argentina), GRDC (Australia), Agriculture and Agri Food (Canada), CAAS (China), INRA (France), Federal Ministry of Food, Agriculture and Consumer Protection (Germany), ICAR (India), MiPAAF (Italy), JIRCAS (Japan), INIA (Spain), GDAR (Turkey), BBSRC (UK), USDA (USA), CIMMYT, ICARDA, Florimond Desprez Veuve & Fils, Syngenta Crop Protection AG, KWS UK LTD, Monsanto Company, RAGT, Dow AgroSciences, Limagrain 2 http://agriculture.gouv.fr/img/pdf/2011 06 23_ _Action_Plan_ _VFinale.pdf

for a new collective effort. It will identify potential synergies and nurture collaborations between research and development programs for wheat improvement, in developed and developing countries. The Wheat Initiative will also develop specific activities to enhance communication and increase access for all to information, resources and technologies. To answer the challenges of wheat research internationally, the Wheat Initiative will: Develop a global strategic agenda for wheat research through the identification of research and outreach priorities and challenges beyond the capacity of single research groups/countries, and that can best be achieved by international coordination and collaboration between researchers, research institutions and funding organizations. Bring together research funding organizations to encourage efficient investment in wheat research based on the capabilities of, and synergies among, national and international programs. Initiate the development of new collaborative programs and coordinated actions across developing and developed countries. Develop and coordinate knowledge sharing amongst the international wheat community. Improve access for all to resources, services and facilities. Support education of students and life long learning of wheat researchers and farmers, Stimulate public/private partnerships. Wheat: the most widely cultivated cereal With more than 215 million hectares planted annually, wheat is the most widely cultivated cereal in the world. It is the most important protein source and provides around 20% of global calories for human consumption. With around 130 million tons, annual global wheat trade is higher than that of maize and rice combined. More than 60% of wheat is produced in emerging and developing countries: China and India together produce nearly twice as much wheat as the USA and Russia combined. In North Africa and West and Central Asia, wheat is the dominant staple crop and provides 40 50% of all calories. Stable and reliable wheat production and the maintenance of prices at an affordable level are therefore paramount for global food security and political stability. Further Information http://www.wheatinitiative.org/ Scientific Contact Hélène Lucas, INRA Wheat Initiative International Scientific Coordinator Wheat.Initiative@versailles.inra.fr Press Relations INRA News Office presse@inra.fr +33 1 42 75 91 69

The Wheat Initiative Vision Hélène Lucas, International Scientific Coordinator of the Wheat Initiative Wheat is the most widely grown staple crop worldwide, the most important protein source and the second most important source of calories after rice. With the demand for wheat expected to increase by 60% by 2050, all producing countries share an urgent need to increase the rate of wheat genetic and agronomic progress for yield, nutrient and water use efficiency, adaptation to biotic and abiotic stress, while ensuring high quality and safe products. To answer this challenge, the Wheat Initiative was proposed by research and funding organisations from several countries, and was endorsed by the G20 Agricultural Ministers who included its creation in their 2011 action plan. The Wheat Initiative s main objective is to coordinate global wheat research efforts so that, through an international commitment, the progress needed to improve wheat productivity, quality and sustainable production can be achieved. The Wheat Initiative launches today its Vision Document, endorsed by its 20 current public and private members. This Vision Document will be translated into a Strategic Agenda by the wheat research community, which will identify and update research priorities and bring them to the knowledge of research funders and providers. It is expected that coordination of public and private research efforts and investments at the international level will add value to national and international initiatives. The importance of wheat for food security in the North and in the South Thomas Adam Lumpkin, Director General, CIMMYT and Co chair of the Wheat Initiative Institutions Coordination Committee Wheat consumption has spread over the entire planet and demand has multiplied by 2.8 times since 1961. From 235 million tons then, it reached 653 million tons in 2010 (UNCTAD FAO). Wheat products are staple foods for humans and cannot be easily substituted. The current rate of wheat production increase will not meet demand. Furthermore, as we know, climate change, depleted groundwater, dietary changes, low reserve stocks, displacement by maize, revolution in the Middle East, etc. are increasing pressure on wheat prices. The challenges for wheat breeders and growers to meet demand are increasing and current global investments in wheat improvements are too meager to address those challenges properly. With demand and the challenges to wheat production increasing rapidly, we urgently need to not only increase funding but also better coordinate wheat research. This will contribute to progress towards a world free from hunger, in keeping with the Rome Principles adopted at the World Summit on Food Security convened in Rome on November 2009. Paris 16 May 2013 Press Conference An International Vision for Wheat Improvement

How can international coordination of wheat research help scientists to answer the challenge of food security? Catherine Feuillet, Member of the Wheat Initiative Scientific Board, INRA, France Wheat improvement requires an integrated approach that combines a better understanding of the genetic and ecophysiological basis of key traits, higher capacities in identifying genes underlying these traits, a better characterization, conservation and use of wheat genetic diversity, faster and more precise breeding methods and better crop management practices. This unique and huge challenge cannot be addressed by a single institute or company. The wheat community has traditionally recognized the need to work in collaboration and several initiatives and large projects have been launched in the past decades. However, most of them are only funded at the national levels and cover only part of the needs. The Wheat Initiative provides, for the first time, the opportunity to bring ongoing projects under the same umbrella and ensure optimal coordination and use of resources as well as the possibility to start new collaborations and projects. Through the Wheat Initiative, scientists and breeders can be informed about ongoing projects and access centralized resources, find and strengthen partnerships, prioritize together the objectives for wheat improvement, join/form expert working groups to define new strategies and projects, organize joint training of young scientists and breeders, and present their priorities in a united manner to funding bodies. Expectations of research and funding organizations Steve Visscher, BBSRC, UK, Deputy Chief Executive & Chief Operating Officer, Chair of the Wheat Initiative Institutions Coordination Committee The Wheat Initiative provides a vital link between wheat scientific leaders and research funders and providers. The aim of the Wheat Initiative is to maximise the collaboration of the international research community through aligning national agendas and connecting organizations such as the BBSRC with both private and public institutions and Ministries of Agriculture. The Wheat Initiative structure is unique within the framework of actors in the food security space and enables funding and research organisations to share progress, difficulties and consider new opportunities arising from new techniques. The Wheat Initiative Vision is a key contribution to providing focus on current research activities and identifying gaps and top priorities that will be best achieved through international coordination of efforts. The Wheat Initiative is a long term commitment that will create synergies through collaboration between its members to achieve sustainable increases in wheat production. Paris 16 May 2013 Press Conference An International Vision for Wheat Improvement

Contact : Hélène Lucas International Scientific Coordinator INRA, 147 rue de l Université 75 338, Paris Cedex 07, France Wheat.Initiative@versailles.inra.fr www.wheatinitiative.org May 2013 layouting : Pascale Inzerillo - Inra pictures provided by Fotolia, Inra and Wheat Initiative An international research initiative for wheat improvement The Wheat Initiative: vision and mission The Wheat Initiative aims to encourage and support the development of a vibrant global wheat public-private research community sharing resources, capabilities, data and ideas to improve wheat productivity, quality and sustainable production around the world. To answer the challenges of wheat research internationally, the Wheat Initiative will: Develop a global strategic agenda for wheat research through the identification of research and outreach priorities and challenges beyond the capacity of single research groups/countries, and that can best be achieved by international coordination and collaboration between researchers, research institutions and funding arrangements, Encourage efficient investment in wheat research based on the capabilities of, and synergies among, national and international programs, Initiate the development of new collaborative programmes and coordinated actions across developing and developed countries, Develop and coordinate knowledge sharing amongst the international wheat community, Improve access of all to resources, services and facilities, Support education of students and life-long learning of wheat researchers and farmers, Stimulate public/private collaborations. www.wheatinitiative.org

The challenge: improving wheat productivity, quality and sustainability Wheat is the most widely grown crop in the world and provides 20% of the daily protein and food calories. It is the second most important food crop in the developing world after rice. In recent years, wheat production levels have not satisfied demand, triggering price instability and hunger riots. With a predicted world population of 9 billion in 2050, the demand for wheat is expected to increase by 60%. To meet this demand, mean annual yield increases must rise from the current level of 1% (2001-2010) to 1.6% (2011-2050). All countries share an urgent need to increase the rate of wheat genetic progress for yield, tolerance to abiotic stresses, pathogens and pests, as well as to improve input use efficiency for a more sustainable wheat production, while ensuring the production of high quality and safe products. To take full advantage of wheat genetic potential, improved agronomic practises and development of innovative cropping systems are paramount. Wheat Initiative The Wheat Initiative provides a framework to establish strategic research and organisation priorities for wheat research at the international level. It identifies potential synergies and nurtures collaborations between research and development programs for wheat improvement, in developed and developing countries. The Wheat Initiative also develops specific activities to enhance communication and increase access of all to information, resources and technologies. The Wheat Initiative fosters communication between the research community, funders and global policy makers at the international level, to help secure efficient and long-term investments and meet wheat research and development goals. The Wheat Initiative actions will lead to the creation of improved wheat varieties and to the dissemination of better agronomic practises worldwide. These new varieties and agronomic practises will allow farmers to improve and stabilise wheat yields in diverse production environments. Coordinating wheat research and contributing to global food security Institutions Coordination Committee Research Committee Scientific Board Expert Working groups National Programmes Transnational Programmes Consortia The success of the Wheat Initiative will depend on the engagement of the global wheat community. It is of great importance that all countries and companies interested in wheat improvement participate and contribute to the development of this international coordination/collaboration platform, in order to improve food security and resolve the urgent challenge of sustainably providing enough safe, nutritious and affordable food for a growing population.

An international vision for wheat improvement May 2013 www.wheatinitiative.org

Introduction Population growth, climate change and unsustainable use of natural resources have already a negative impact on food security in some regions of the world. In the absence of global commitment to build food systems adapted to climate change and ensuring food security while minimizing greenhouse gases emissions and sustaining our natural resource base, this negative impact is likely to increase and lead to global food shortfall and food price rises in the coming decades, resulting in undernourishment and poverty increase in the world s more vulnerable populations. Expanded investments in sustainable agriculture to increase agricultural productivity per land area and to avoid losses in productive capacity, as well as promotion of healthier food diets and food waste reduction, are required to avoid an increasing gap between food supply and demand. Given the time lag between research and development and widespread applications, action is required now, both at national and international levels. With rice and maize, wheat is essential for human civilization. With more than 215 million hectares planted annually, wheat is the most widely cultivated cereal in the world. It is the most important protein source and provides around 20% of global calories for human consumption. With around 130 million tonnes, annual global wheat trade is higher than that of maize and rice combined. More than 60% of wheat is produced in emerging and developing countries: China and India together produce nearly twice as much wheat as the USA and Russia combined. In North Africa and West and Central Asia, wheat is the dominant staple crop and provides 40 50% of all calories. Stable and reliable wheat production and the maintenance of prices at an affordable level are therefore paramount for global food security and political stability. Among the major staples, wheat is the only crop adapted to low temperatures that can be grown during the cool season, giving it a unique position in many important rotations with rice, cotton, soybean or maize. Farmers cultivating millions of hectares in developing and developed countries have no alternative to wheat as winter crop that can be economically efficient and that simultaneously provides a major dietary component. While wheat is originally the most cold and drought tolerant crop among the major staple crops, it is unfortunately also the most sensitive to high night and day temperatures. Wheat yield models indicate that a 1 C temperature increase reduces yield potential of wheat by 10% in some parts of the world and that the wheat producers in South Asia and North Africa will be hit hardest by climate change. Experts from the Intergovernmental Panel on Climate Change (IPCC) report that an average temperature increase of 1.5-6 C by the end of this century is likely and the World Bank estimates that we are barrelling down a path to heat up by 4 C if the problem of climate change is not tackled aggressively now. By 2050, scientists project that the world s leading wheat belts: the U.S. and Canadian Midwest, Europe, Northern China, South Asia, Russia, and Australia could experience, up to every other year, a warmer summer than the warmest one now on record. Wheat yield in 2050 could decline down to 27% compared with 2000 in some regions, reports the International Food Policy Research Institute (IFPRI), unless swift action is taken to limit temperature rise and develop crop varieties that can tolerate a hotter world. Considering that wheat production needs to be increased by around 60% by 2050 to meet the demand of a growing population with a changing diet, the challenges for wheat breeders and growers are tremendous. Current global investments in wheat improvement are too small to address these challenges properly. The main objective of the Wheat Initiative is therefore to co-ordinate global wheat research efforts so that, through international efforts, the progress needed to increase wheat production, quality and sustainability can be achieved, thus contributing to the global efforts towards food security and safety under changing climate conditions. Wheat in the world (source FAOSTAT) 653 million tonnes produced in 2010, 217 million ha planted in 2010, representing 27% of total cereal production making wheat the most widely grown crop 144 million tonnes traded in 2010, more than maize and rice combined 20,4% of total protein supply, making wheat the most important protein source (data 2009) Oceania 3% Americas 17% Africa 3% Asia 45% 18,8% of total energy supply, wheat being second after rice for calories/capita/day (data 2009) Europe 31% 1

The Wheat Initiative: vision and mission The Wheat Initiative 1 aims to encourage and support the development of a vibrant global wheat public-private research community sharing resources, capabilities, data and ideas to improve wheat land productivity, quality and sustainable production around the world. This community comprises public and private researchers, educators and growers from all wheat growing countries who together will have sufficient resources and capabilities to develop strong and dynamic national programs on wheat in their country and, at the international level, through transnational collaborative programs. This community will address wheat research globally on all wheat types (bread wheat, durum wheat, and wild relatives), encompassing research fields from genomics to agronomy. To answer the challenges of wheat research internationally, the Wheat Initiative will: 1 Develop a global strategic agenda for wheat research through the identification of research and outreach priorities and challenges beyond the capacity of single research groups/countries, and that can best be achieved by international coordination and collaboration between researchers, research institutions and funding organisations. 2 Encourage efficient investment in wheat research based on the capabilities of, and synergies among, national and international programs. 3 Initiate the development of new collaborative programs and coordinated actions across developing and developed countries. 4 Develop and coordinate knowledge sharing amongst the international wheat community. 5 Improve access for all to resources, services and facilities. 6 Support education of students and life-long learning of wheat researchers and farmers. 7 Stimulate public/private partnerships. 1 Launched in September 2011, the Wheat Initiative was proposed by research and funding organisations from several countries, and is part of the 2011 action plan of the G20 Agricultural Ministries to contribute to global food security (http://agriculture.gouv.fr/g20-agriculture). 2

An international vision for wheat improvement Inra The Challenge: increasing wheat production, quality and sustainability With a predicted world population of 9.3 billion in 2050, the demand for wheat is expected to increase by 60% compared with 2010 2. To meet this demand, mean annual yield increases must rise from the current level of 1.1% (2001-2010) to 1.6% (2011-2050). A major research effort is needed to increase wheat production and sustainability, while ensuring the production of high quality and safe products, in the face of high food prices, climate change and natural resource depletion. Wheat today Since the beginnings of agriculture some 10,000 years ago, cereals have provided the main source of calories for the human diet. Recognised for their high yields, nutritional value, and ease of transport and storage, a range of different cereals were domesticated by the world s original farmers. Wheat, rice, maize, barley, sorghum, millet and root crops constitute the basis of human nutrition worldwide. Of these, wheat has been particularly important, providing the principle grain stock that founded agriculture in the Middle East and led to its successful spread around the world. Today, wheat is grown throughout temperate, Mediterranean-type and sub-tropical parts of both northern and southern hemispheres, and contributes 27% of total cereal production (Table 1). Wheat is: the most widely grown crop worldwide at over 200 million hectares; the most important protein source and second after rice for food calories. M ha Table 1. Global area, production, yield and contribution to the human diet for major cereal crops 2010 (FAOSTAT) 2009 (FAOSTAT) Area Production Yield Energy supply Protein supply % Total area M tonnes % Total production Tonnes/ha kcal/ capita/day % Total energy g/ capita/day % Total protein Wheat 217 32 651 27 3.0 532 18.8 16.2 20.4 Maize 162 24 844 35 5.2 141 5.0 3.4 4.3 Rice 154 23 672 28 4.4 536 18.9 10.1 12.7 Barley 48 7 123 5 2.6 7 0.2 0.2 0.3 Sorghum 41 6 56 2 1.4 32 1.1 1 1.3 Total 683 100 2.432 100 3.6 1248 44 30.9 38.6 2 Required raise in overall food production estimated to be 70% in 2050 compared with 2005/2007 (FAO), therefore 1045 Mt for wheat. 1045 Mt = 60% increase compared with 2010 global wheat production. 3

Bread wheat represents more than 90% of total wheat production, although durum wheat is prevalent in specific regions. Over the millennia, human selection of wheat plants with superior yield and quality traits has led to significant improvements in cultivated varieties compared to their wild relatives. For example, early selection by the world s first farmers led to the development of varieties that produced grains of larger size that were retained in the ear for longer periods of time. During the 20th century, the introduction of traits for accelerated crop development, semi-dwarf habit, photoperiod insensitivity and enhanced disease resistance, contributed to further dramatic yield improvements (Table 2). Table 2. Evolution of wheat yield over 10-year periods since 1960 (source FAOSTAT) and projected needs for 2050 Period Mean area harvested/yr (ha) Mean production/yr (Mt) Mean production increase/yr Mean Yield (t/ha) Mean Yield increase/yr 1961-1970 213 278 1.3 1971-1980 225 388 3.9% 1.7 3.2% 1981-1990 229 509 3.1% 2.2 2.9% 1991-2000 220 571 1.2% 2.6 1.7% 2001-2010 216 622 0.9% 2.9 1.1% 2050 (target) 220 1045 1.7% 4.75 1.6% An urgent need to increase global wheat sustainable production After a strong rise from 1960 during the green revolution to the early 1990 s, the rate of increase in wheat production has slowed down (Table 2, Figure 1), with large variations of yield among different countries. With changing diets and growing world populations, rising prices for fertilizers and pesticides, increasing competition between food and non-food uses, and the negative effects of high temperature and drought resulting from climate change, world wheat production has not met global demand in 10 of the past 15 years (source USDA). It is estimated that losses due to climate change in some areas of the world will reach 30% by 2050. The volatility and increasing price of wheat is creating havoc in the developing world, where threats to and increasing costs of food supplies are a major source of civil unrest. Figure 1. Total wheat production and area harvested since 1960 (FAOSTAT 2012) and 2010-2050 projections. 1200,00 1000,00 World Wheat Production and Harvested area 1961-2010 2011-2050 800,00 600,00 400,00 200,00 0,00 Production (Mt) Projected demand (Mt, FAO 9 billion) Projected supply (Mt, baseline 2001-2010) Projected supply (Mt, Climate Change scenario: P2039=97,5% P2010) Harvested area (Mha) Projected harvested area (Mha) 1961 1965 1969 1973 1977 1981 1985 1989 1993 1997 2001 2005 2009 2013 2017 2021 2025 2029 2033 2037 2041 2045 2049 Note the strong rise in production from 1960 to the early 1990s and the recent slowdown 4

An international vision for wheat improvement While theoretically more lands could be brought into production, it would alter the long-term sustainability of the global ecosystem. The most direct solution to increase wheat global production is to increase wheat land productivity. However, despite a predicted need for a production increase of 60% by 2050, wheat yield increased globally at only 1.1% p.a. during the last decade (Table 2) and seems to be stagnating in many regions of the world. A necessity to increase international coordination and investment Although specific wheat varieties and/or species adapted to the different production constraints/end products around the world are needed (e.g. spring vs. winter wheat, rain-fed vs. irrigated, bread vs. durum wheat, etc.), all countries share an urgent need to increase the rate of wheat genetic progress for yield, nutrient and water use efficiency, adaptation to biotic and abiotic stress, whilst ensuring the production of high quality and safe products. To take full advantage of the genetic potential, improved agronomic practices and development of innovative cropping systems are paramount. These needs are immediate and will most efficiently and rapidly be addressed by ensuring coordination and communication among the international wheat scientific community, establishing common goals, sharing resources and information, enhancing technology delivery to breeders, agronomists, and farmers globally and by improved coordination among public and private research funding organisations. More efficient use of genetic resources is one of the most important approaches to enhance wheat yield. During the past decade, developments in genomics, molecular genetics and biotechnology have provided new tools for wheat breeding. Together with a better understanding of wheat physiology and development, these technologies can be used to accelerate traditional breeding programs or to artificially insert genes into wheat from related plants or from completely different species. However, a significant and increased investment, both in conventional and molecular-based breeding, is necessary to reduce the time from trait discovery to widespread cultivation of new wheat varieties. Meeting the growing demand for affordable wheat also requires a new strategic research emphasis on crop, soil, and water conserving practices that will significantly increase the sustainability of production while accelerating yield gains. Improvements in water and nutrient-use efficiency are imperative to confront the major trends of declining resources for agriculture, the increasing prices of fossil fuels and the deleterious environmental effects caused by poor fertilizer use practices, including greenhouse gas emissions and ozone damage. At the same time, production methods must lead to reductions in soil erosion and degradation and in decreased use of pesticides and fossil fuels. Achieving the needed improvements in efficiency will require precise and site-specific management techniques that are suited to the needs and capabilities of different types of farmers. These approaches will have to embrace the challenges posed by both seasonal and spatial variability. In the last 20 years, wheat has become an orphan crop in terms of research investments considering its importance for global food security. As of 2010, global investments in maize research, mostly in the US and Europe, were more than four times greater than in wheat research. To change this situation, the public and private sectors must address the great challenges facing wheat through substantially increased and coordinated investment in research 3. As part of the global response to the major food security challenge over the next 40 years, international coordination of wheat research is needed to avoid duplication of efforts, increase economic efficiencies, and add value to the existing national or international public and private initiatives. Coordination is critical to ensure that all countries and groups, particularly in the developing world, have access to technological advances to increase the speed and sophistication of wheat improvement. This effort will ensure that wheat research and improvement programmes are conducted synergistically to increase food security and safety in a changing environment, while taking into account societal demands for sustainable and resilient agricultural production systems. 3 Recognizing the priority for supporting research aiming at global food security, a number of national or international initiatives with the objective of unravelling and using wheat genetic diversity to breed better wheat varieties, while taking advantage of the fast developing genomics technologies have been launched in the past 2 years. Also, many seed companies have re-evaluated their positions and have begun increasing investments in wheat research and development. Several large national research programmes linking public and private partners were launched recently in France (BREEDWHEAT), the UK (WISP), Canada (CTAG), Italy (AGER) and the US (Triticeae-CAP) adding to existing programs in other countries. At the international level, CIMMYT, along with ICARDA, have presented the CGIAR Research Programme called WHEAT detailing ten strategic research initiatives for wheat improvement and innovative production technologies for the developing world. The Borlaug Global Rust Initiative was also launched a few years ago to coordinate research worldwide to combat the new and devastating stem rust race UG99 and other rust pathogens. 5

Wheat Initiative The target: wheat in 2030 and beyond Increasing production and productivity in a sustainable basis in economic, social and environmental terms, while considering the diversity of agricultural conditions, is one of the most important challenges that the world faces today 4. For wheat, a second Green Revolution is needed to increase global wheat production by 60% by 2050. This will be achieved by breeding high-yielding varieties adapted to diverse environments that are accessible to all, delivering high-quality end products, and cultivated under sustainable crop management practises. Strong and continued investment in both fundamental and applied science will facilitate a more rapid route to significant improvements and will ensure that research is targeted at delivering public goods and improving the economics of farming. Although not of direct relevance to the Wheat Initiative s aims, it will also be necessary to improve infrastructures, develop appropriate regulatory frameworks, improve distribution and access to seeds, as well as developing the whole value chain. Through targeted, coordinated and well-funded actions, we believe that it will be possible to: 4 G20 Agriculture vice-ministers/ deputies meeting report, 2012 (http://www.g20.org/en??) Increase the yield potential of wheat cultivars Increasing wheat production without agricultural expansion implies that we must increase wheat production on existing agricultural lands. This could be achieved partly by improving wheat yield genetic potential through a better understanding of the physiological traits involved and their interactions with the environment, and via their complementary introduction into new varieties by breeding and/or genetic manipulation. 6

An international vision for wheat improvement Close the yield gaps on under-performing land and increase the sustainability of cropping systems Due to intensive tillage coupled with indiscriminate use of irrigation water and fertilisers especially nitrogen, soil and water resources have been degraded over time in many locations. Location-specific resource conservation technologies will need to be employed for the long-term sustainability of crop production. While continued improvements in wheat genetics will increase wheat yield potential, better deployment of varieties and improved management will help close the yield gaps seen today in many wheat growing areas and improve end-use quality. Cropping systems for sustainable wheat production, including diversified rotations, will be used in developed and less developed countries and will contribute to the control of pathogens, weeds, and to the reduction of inputs. Knowledge-based decision-making tools and a new generation of precision-agriculture approaches will help farmers decide on the best agronomic practises. Monitor wheat diseases and develop wheat varieties with durable resistance An international system will be established to contain the threat of wheat diseases and pests using several approaches; such as the identification of new resistance genes in genetic resources, the wide use of durable resistance genes in breeding programs, the international monitoring of pests and diseases and the appropriate deployment of resistance genes. These approaches will be based on a better comprehension of plant-pathogen interactions. Increase resource use efficiency and tolerance to abiotic stress Abiotic stresses such as extreme temperatures, low water availability, high light intensity, high salt, and mineral deficiencies or toxicities can severely reduce yield for wheat and other crops. In many cases, several types of abiotic stress challenge plants simultaneously. High temperatures, high irradiance, scarcity of water and nutrient deficiencies are commonly encountered in environments where wheat is grown but are not amenable to management through traditional farm practices. Integration of genetic and phenotypic data, together with the availability of unique populations adapted to specific environments and enduses, will improve the understanding of traits determining yield in water and nutrient limited environments. This will allow the creation of wheat varieties with improved nutrient and water efficiencies as well as altered roots to maximise crop nutrient intake and interactions with beneficial soil microorganisms. Advances in the knowledge of symbiotic signalling will allow progress towards Nitrogen-fixing wheat. Conservation agriculture practises will help address temperature fluctuations and moisture scarcity. Improve the nutritional and processing quality and safety of wheat varieties Wheat is particularly valued for the functionality of its grain to produce a multitude of end-use products. The suitability of wheat for baked, flat and steamed bread, noodles, pasta, biscuits and cookies is determined by breeding and processing technologies. Evolving processing technologies coupled with changes in consumer preferences demand continual modification of the quality attributes of wheat. Future wheat varieties will exhibit defined functionalities coupled with enhanced nutritional quality through elevated levels of key nutrients such as iron and zinc. The level of harmful mycotoxins produced by fungal diseases in wheat grains will be strongly reduced or non-existent. Tailor wheat varieties and types to diverse agro-systems and production systems Merging crop-modelling methods with genomic prediction will bring new levels of efficiency to the identification of genotypes suited to particular climatic conditions, regions and agro-systems. Tailoring phenology and architecture as well as abiotic and biotic tolerance to diverse agro-ecosystems will allow farmers to use varieties well adapted to their growing environment. In 7

addition to the existing selfed varieties of winter, spring, irrigated, rain-fed durum and bread wheat, new wheat types (e.g. GM, hybrid, apomictic) and production systems will be available to the growers. Have all breeders implement modern breeding methods Well characterised genetic resources from wheat and related species will be accessible to the research and breeding community. Wheat breeders will be aware of the function of many genes, the way they are regulated, and of the availability of genetic variants. Conventional breeding will still be used, but will be complemented on a large scale by approaches already available today such as double haploids (DH), Marker-Assisted Selection (MAS), or transgenics. New breeding methods, under development or emerging, such as targeted mutagenesis, Genome-Wide Selection (GWS) to improve the selection of traits under complex genetic control, or the use of hybrids and/or apomixis to accumulate valuable alleles, will be available for implementation by the breeders. Genetic variability from related species will be widely used to introduce new traits/alleles into wheat by interspecific hybridisation. Have access to shared platforms and standards High throughput sequencing and phenotyping as well as statistical genomics and computational efficiencies will revolutionize wheat improvement. A wheat reference genome sequence anchored to genetic and phenotypic maps will be available to all. The sequence of many accessions will provide a virtually unlimited amount of molecular markers for genetic dissection of important traits and will accelerate isolation of the underlying genes. Genomic platforms using standardised protocols to allow genotyping, transcript and metabolomic profiling for metadata analysis will be available to the community. Well instrumented phenotyping platforms using common standards and methods will be used to bridge the gap between the identification of gene function and the development of wheat varieties with improved characteristics, by identifying mechanisms and beneficial traits of roots and shoots, by accelerating the breeding process with novel technologies and concepts in controlled, semi-controlled and field conditions and by integrating all these aspects into physiological models. Benefit from a Wheat Information System providing easy access to data An integrated Wheat Information System will provide the international wheat research community easy access to existing and future genetic, genomic, phenotypic and agronomic data as well as bioinformatics tools and services to visualize, analyse and connect the different types of data. Inra 8

An international vision for wheat improvement Wheat Initiative Institutions Coordination Committee Research Committee Scientific Board Expert Working Groups National Programmes Transnational Programmes Consortia The way forward The Wheat Initiative will provide a framework to establish strategic research and organisation priorities for wheat research at the international level. It will identify potential synergies and will nurture collaborations between research and development programs for wheat improvement, in developed and developing countries. The Wheat Initiative will also develop specific activities to enhance communication and increase access for all to information, resources and technologies. Implementation of a Strategic Agenda An overarching strategy for wheat research and development, with an appropriate balance of short, medium and long-term targets, and with an emphasis on goals necessitating collaboration/coordination at the international level to meet global needs, will be developed and implemented. The priorities will be revised periodically to address new scientific and technological developments. Investment in research and establishment of international cooperation Wheat research funders will have the opportunity to work together and address grand challenges, from science to policy to farm to end-users. It is expected that public and private funders will use the Wheat Initiative Strategic Agenda to direct funding in national and transnational research programmes dedicated to wheat priorities, and that it will enable the development of partnerships, joint programmes, and public-private cooperation. Improved knowledge among the funders, added to the opportunity to work together, will enhance efficient and long term funding of wheat research to increase wheat production and food security. Communication and training The Wheat Initiative will facilitate communication and training among the wheat community by: establishing a biennial International Wheat Congress, organising workshops on specific topics relevant to the strategic priorities identified by the Wheat Initiative, improving information and communication on wheat research and development activities, initiatives and results across the globe via its website, facilitate staff and student exchanges by providing information on training activities. 9

Access to resources, data, facilities and services The Wheat Initiative will advocate the importance of the accessibility of genetic and genomic resources of wheat and their relatives and of the creation of a central site for directing seed orders and requests to the appropriate providers. Common standards and protocols, as well as reference germplasm sets, will be established in the frame of the Wheat Initiative activities to ensure that datasets are comparable over time and space thereby enhancing synergies between programs. The Wheat Initiative will encourage and facilitate the development of open genomics platforms and the establishment of an international phenotyping network in controlled and field conditions, with services available to the global community. It will also promote the development and sharing of precision-agriculture tools and practises. The Wheat Initiative will actively support the establishment of an integrated information system providing access to information on genetic resources, genetic and molecular basis of traits, marker-trait associations, genomic sequences, allelic variation at key loci, phenotypic data in different environments etc., through a framework for linking genomic, genetic, phenotypic and agronomic analysis to practical breeding and crop management. Long-term engagement The Wheat Initiative governance (Figure 2) will be collaborative, transparent, inclusive and engaged. The Research Committee brings together scientists from the public and private sectors and defines priorities for wheat research. Experts Working Groups identify needs and propose strategies in specific areas of research or organisation. The Institutions Coordination Committee comprises high-level representatives from public research/funding organisations who, together, facilitate cross-border collaboration and funding on the priorities identified by the research community. The Scientific Board, elected by the Research Committee, is the executive committee of the Wheat Initiative that translates research priorities into decisions/actions and liaises with the different committees. The success of the Wheat Initiative will be dependent upon engagement of the global wheat community. It will therefore be of great importance that all countries and companies interested in wheat improvement participate and contribute to the development of this unique international coordination/collaboration platform. Through collaboration, we will improve food security and resolve the urgent challenge of sustainably providing enough safe, nutritious and affordable food for a growing population. 10

An international vision for wheat improvement INRA / CIMMYT / Wheat Initiative 11

Public and private research organisations with designated representatives to the Wheat Initiative (April 2013) Public research and funding organisations Consejo Nacional de Investigaciones Cientificas y Técnicas (CONICET) Grains Research and Development Corporation (GRDC) Agriculture and Agri-Food Canada Chinese Academy of Agricultural Sciences (CAAS) National Institute for Agricultural Research (INRA) Federal Ministry of Food, Agriculture and Consumer Protection Indian Council of Agricultural Research (ICAR) Ministero delle politiche Agricole Alimentari e Forestali (MiPAAF) Japan International Research Center for Agricultural Sciences (JIRCAS) Instituto Nacional de Investigacion y Technologia Agraria y Alimentaria (INIA) General Directorate of Agricultural Research and Policy (GDAR) Biotechnology and Biological Sciences Research Council (BBSRC) U.S. Department of Agriculture International Maize and Wheat Improvement Center (CIMMYT) International Center for Agricultural Research in the Dry Areas (ICARDA) Private companies 12

Wheat Initiative Conception and Coordination: Hélène Lucas Design and Layout: Pascale Inzerillo Cover photo: Inra May 2013 An international vision for wheat improvement

www.wheatinitiative.org