Potential of herbicide-resistant rice technologies for sub-Saharan Africa.

Weed-inflicted yield losses in rice equate to half the current rice imports in sub-Saharan Africa (SSA) and African rice farmers have a limited range of effective and affordable weed management technologies. Herbicide-resistance (HR) technologies may have the labor-saving benefits of conventional chemical control without the concomitant phytotoxicity risks. To date, HR rice received only marginal attention in the context of SSA. Here, we review the literature on HR technologies and discuss their potential value for rice ecosystems in Africa. We conclude that HR technologies would provide technically sound solutions for the control of important yield-reducing weeds, such as wild rice in irrigated systems and rainfed lowlands and parasitic weeds in uplands. However, with respect to implementation, these technologies would require effective seed and microcredit systems as much as interested agro-industries. Public-private partnerships and government intervention may provide shortcuts where such conditions are not yet met.

[1]  Lewis H. Ziska,et al.  Future atmospheric carbon dioxide may increase tolerance to glyphosate , 1999, Weed Science.

[2]  J. Rodenburg,et al.  Weed management in rice‐based cropping systems in Africa , 2009 .

[3]  J. Hammerton Environmental Factors and Susceptibility to Herbicides , 1967 .

[4]  Lee A. Segel,et al.  Managing the delay of evolution of herbicide resistance in parasitic weeds , 1996 .

[5]  E. Webster,et al.  Response of Glufosinate-Resistant Rice (Oryza sativa) to Glufosinate Application Timings1 , 2003, Weed Technology.

[6]  H.D.J. van Heemst,et al.  The influence of weed competition on crop yield , 1985 .

[7]  Ying Zhu,et al.  Gene flow from cultivated rice to the wild species Oryza rufipogon under experimental field conditions. , 2003, The New phytologist.

[8]  D. Shaner,et al.  Imidazolinone-tolerant crops: history, current status and future. , 2005, Pest management science.

[9]  D. Johnson,et al.  Cropping intensity effects on upland rice yield and sustainability in West Africa , 2001, Nutrient Cycling in Agroecosystems.

[10]  S. Bailey Climate change and decreasing herbicide persistence. , 2004, Pest management science.

[11]  José Falck Zepeda Coexistence, Genetically Modified Biotechnologies and Biosafety: Implications for Developing Countries , 2006 .

[12]  H. Beckie,et al.  Herbicide-Resistant Weeds: Management Tactics and Practices1 , 2006, Weed Technology.

[13]  S. Duke Taking stock of herbicide-resistant crops ten years after introduction. , 2005, Pest management science.

[14]  M. Devine,et al.  Chlorsulfuron Inhibition of Phloem Translocation in Chlorsulfuron-Resistant and -Susceptible Arabidopsis thaliana , 1993 .

[15]  Stephan M. Haefele,et al.  Timing of weed management and yield losses due to weeds in irrigated rice in the Sahel , 2004 .

[16]  S. Linscombe,et al.  Glufosinate-Resistant, BAR-Transformed Rice (Oryza sativa) and Red Rice (Oryza sativa) Response to Glufosinate Alone and in Mixtures , 1997, Weed Technology.

[17]  L. R. Oliver,et al.  Application Rate and Timing of Acifluorfen, Bentazon, Chlorimuron, and Imazaquin , 1992, Weed Technology.

[18]  E. Webster,et al.  Water Management and Chemical Control of Red Rice (Oryza punctata) in Water-Seeded Imidazolinone-Resistant Rice , 2008, Weed Technology.

[19]  E. Guiderdoni,et al.  A field study of pollen-mediated gene flow from Mediterranean GM rice to conventional rice and the red rice weed , 2004, Molecular Breeding.

[20]  M. Demont,et al.  Agrobiotechnology in Developing Countries , 2004 .

[21]  A. Snow,et al.  Gene Flow from Genetically Modified Rice and Its Environmental Consequences , 2005 .

[22]  J. Rutger,et al.  Gene Flow Between Red Rice (Oryza sativa) and Herbicide-Resistant Rice (O. sativa): Implications for Weed Management1 , 2003, Weed Technology.

[23]  F. Kanampiu,et al.  Appropriateness of biotechnology to African agriculture: Striga and maize as paradigms , 2002, Plant Cell, Tissue and Organ Culture.

[24]  T. Bassett Women's Cotton and the Spaces of Gender Politics in Northern Cote d'Ivoire , 2002 .

[25]  J. Gressel,et al.  Transgenic crops against parasites , 1995, Nature.

[26]  M. Qaim,et al.  On the Adoption of Genetically Modified Seeds in Developing Countries and the Optimal Types of Government Intervention , 2007 .

[27]  Alessandra Giannini,et al.  A global perspective on African climate , 2008 .

[28]  G. Norton,et al.  The potential benefits of herbicide-resistant transgenic rice in Uruguay: Lessons for small developing countries , 2006 .

[29]  D. Pannell Responses to risk in weed control decisions under expected profit maximisation. , 1990 .

[30]  Michele C. Marra,et al.  The Value of Non-Pecuniary Characteristics of Crop Biotechnologies: A New Look at the Evidence , 2006 .

[31]  R. Malik,et al.  Risks of herbicide-resistant rice in India: A review , 2008 .

[32]  J. Thomson The role of biotechnology for agricultural sustainability in Africa , 2008, Philosophical Transactions of the Royal Society B: Biological Sciences.

[33]  R. Kent,et al.  The impact of cropping on weed species composition in rice after fallow across a hydrological gradient in west Africa , 2002 .

[34]  Li Juan Chen,et al.  Gene flow from cultivated rice (Oryza sativa) to its weedy and wild relatives. , 2004, Annals of botany.

[35]  P. Goldsmith,et al.  A Tale of Two Businesses: Intellectual Property Rights and the Marketing of Agricultural Biotechnology , 2003 .

[36]  F. Kanampiu,et al.  Multi-site, multi-season field tests demonstrate that herbicide seed-coating herbicide-resistance maize controls Striga spp. and increases yields in several African countries , 2003 .

[37]  J. Stewart,et al.  Mutations in the red rice ALS gene associated with resistance to imazethapyr , 2005, Weed Science.

[38]  Griselda Arrieta-Espinoza,et al.  A multidisciplinary approach directed towards the commercial release of transgenic herbicide-tolerant rice in Costa Rica , 2007, Transgenic Research.

[39]  S. Duke,et al.  Glyphosate: a once-in-a-century herbicide. , 2008, Pest management science.

[40]  M. Wopereis,et al.  Rice yield gaps in irrigated systems along an agro‐ecological gradient in West Africa , 2003 .

[41]  Endogenous risk in weed control management , 1996 .

[42]  M. Owen,et al.  Herbicide-resistant crops and weed resistance to herbicides. , 2005, Pest management science.

[43]  D. Berner,et al.  Effects of ALS-inhibitor herbicides, crop sequence, and fertilization on natural soil suppressiveness to Striga hermonthica , 2004 .

[44]  H. Groote,et al.  The potential of a herbicide resistant maize technology for Striga control in Africa , 2008 .

[45]  G. Tyler,et al.  Commercial Agriculture in Africa: Lessons from Success and Failure , 2010 .

[46]  R. Froud-Williams,et al.  Effects of oxadiargyl on direct‐seeded rice and Echinochloa crus‐galli under aerobic and anaerobic conditions , 2004 .

[47]  Olivier Sanvido,et al.  Ecological impacts of genetically modified crops: ten years of field research and commercial cultivation. , 2007, Advances in biochemical engineering/biotechnology.

[48]  L. Ziska,et al.  Rising atmospheric carbon dioxide and plant biology: the overlooked paradigm. , 2008, DNA and cell biology.

[49]  D. Berner,et al.  ALS-Inhibiting Herbicide Seed Treatments Control Striga hermonthica in ALS-Modified Corn (Zea mays) , 1997, Weed Technology.

[50]  F. Kanampiu,et al.  Control of parasitic witchweeds (Striga spp.) on corn (Zea mays) resistant to acetolactate synthase inhibitors , 1998, Weed Science.

[51]  M. Anders,et al.  Gene flow between Clearfield™ rice and red rice , 2007 .

[52]  P. Christou,et al.  Production of Transgenic Rice (Oryza Sativa L.) Plants from Agronomically Important Indica and Japonica Varieties via Electric Discharge Particle Acceleration of Exogenous DNA into Immature Zygotic Embryos , 1991, Bio/Technology.

[53]  D. Shaw,et al.  Red Rice (Oryza sativa) Control and Seedhead Reduction with Glyphosate , 1998 .

[54]  D. Johnson Weeds of rice in West Africa. , 1997 .

[55]  H. Groote,et al.  Evaluating the use of herbicide-coated imidazolinone-resistant (IR) maize seeds to control Striga in farmers' fields in Kenya , 2007 .

[56]  M. Owen Weed species shifts in glyphosate-resistant crops. , 2008, Pest management science.

[57]  M. Demont,et al.  Ex ante impact assessment of herbicide resistant rice in the Sahel , 2009 .

[58]  I. Heap International survey of herbicide-resistant weeds , 1997 .

[59]  E. Webster,et al.  Risk assessment of the transfer of imazethapyr herbicide tolerance from Clearfield rice to red rice (Oryza sativa) , 2006, Euphytica.

[60]  E. Webster,et al.  Herbicide Mixtures in Water-Seeded Imidazolinone-Resistant Rice (Oryza sativa)1 , 2003, Weed Technology.

[61]  M. Demont,et al.  Boserup versus Malthus revisited: Evolution of farming systems in northern Côte d’Ivoire , 2007 .

[62]  E. Webster,et al.  Influence of Glufosinate on Seed Weight, Seed Germination, and Seedling Vigor of Glufosinate-Resistant Rice1 , 2003, Weed Technology.

[63]  S. Powles,et al.  Evolved glyphosate-resistant weeds around the world: lessons to be learnt. , 2008, Pest management science.

[64]  H. Ruthenberg Farming systems in the tropics , 1973 .

[65]  S. Linscombe,et al.  Field Evaluation of Imidazolinone-Tolerant Clearfield Rice ( Oryza sativa L.) at Nine Louisiana Locations , 2007 .

[66]  Roger Jones,et al.  Regional climate projections , 2007 .

[67]  K. H. Madsen,et al.  Herbicide resistant rice (Oryza sativa L.): Global implications for weedy rice and weed management* , 2000 .

[68]  F. Kanampiu,et al.  Imazapyr and pyrithiobac movement in soil and from maize seed coats to control Striga in legume intercropping , 2002 .

[69]  Stephan M. Haefele,et al.  Improved soil fertility and weed management is profitable for irrigated rice farmers in Sahelian West Africa , 2000 .

[70]  G. Khush Origin, dispersal, cultivation and variation of rice , 1997, Plant Molecular Biology.

[71]  A. Orr Integrated Pest Management for Resource-Poor African Farmers: Is the Emperor Naked? , 2003 .

[72]  L. Ziska,et al.  Evaluation of the growth response of six invasive species to past, present and future atmospheric carbon dioxide. , 2003, Journal of experimental botany.

[73]  D. Zilberman,et al.  Agricultural biotechnology and poverty reduction in low-income countries , 2006 .

[74]  K. H. Madsen,et al.  Risk Assessment of Herbicide-Resistant Crops: A Latin American Perspective Using Rice (Oryza sativa) as a Model1 , 2002, Weed Technology.

[75]  K. Osakabe,et al.  Molecular breeding of a novel herbicide-tolerant rice by gene targeting. , 2007, The Plant journal : for cell and molecular biology.

[76]  R. Malik,et al.  Role of herbicide-resistant rice in promoting resource conservation technologies in rice–wheat cropping systems of India: A review , 2008 .

[77]  Deborah P Delmer,et al.  Agriculture in the developing world: Connecting innovations in plant research to downstream applications. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[78]  F. Kanampiu,et al.  Imazapyr seed dressings for Striga control on acetolactate synthase target-site resistant maize , 2001 .

[79]  J. Oard,et al.  Evaluation of Glufosinate on Rice (Oryza sativa) Transformed with the BAR Gene and Red Rice (Oryza sativa) , 1997, Weed Technology.

[80]  Q. Qian,et al.  A large-scale field study of transgene flow from cultivated rice (Oryza sativa) to common wild rice (O. rufipogon) and barnyard grass (Echinochloa crusgalli). , 2006, Plant biotechnology journal.

[81]  D. Johnson,et al.  Improved water control and crop management effects on lowland rice productivity in West Africa , 2001, Nutrient Cycling in Agroecosystems.

[82]  Keijiro Otsuka,et al.  Increasing Rice Production in Sub-Saharan Africa: Challenges and Opportunities , 2007 .

[83]  J. Westbrook,et al.  Weeds, Insects, and Diseases , 1999 .

[84]  Scott M. Swinton,et al.  The Value of Pest Information in a Dynamic Setting: The Case of Weed Control , 1992 .

[85]  A. Janvry,et al.  World development report 2008 : agriculture for development , 2008 .

[86]  Xinsheng Zhang,et al.  Dramatic reduction of crop-to-crop gene flow within a short distance from transgenic rice fields. , 2007, The New phytologist.

[87]  Robert L. Zimdahl,et al.  Fundamentals of Weed Science , 1993 .