Abstract
Rice is the second most widely grown cereal crop and the staple food for more than half the world's population. More than 3 billion people consume more than 100 kg of rice per year. Rice is cultivated on 155.5 million ha with an average growth rate of 0.39% a year, in the last 30 years. In the near future, the possibility for expanding areas under rice-based systems will remain very limited because of the scarcity of global water resources for agriculture, the expansion of urban and industrial sectors in Asia where land is already limited and the high costs of developing new lands that are suited for rice production in Sub-Saharan Africa and Latin America. The average growth rate of rice yield was 3.68% per year in the early 1980s, but it has decreased to 0.74% per year in the late 1990s. Several factors may contribute to the decline of the area under cultivation and in yield growth. The most important of these factors are: limited returns as we approach the yield potential of the high yielding varieties, declining productivity in intensive rice production systems, pressures from abiotic and biotic stresses, low returns in developing countries, increasing production costs in industrialized countries, and increasing public concern for the protection of environmental resources. One of the most effective means of addressing the issues in rice cultivation and raising the average yields at the farm level is through research and subsequent dissemination of the resulting data. Rice science has made considerable progress. In the area of rice varietal improvement, recent advances in hybrid rice and the new rice for Africa (NERICA) are just two examples of the successful contributions of science to the development of rice. Research could also help reduce the gap between the potential yield obtained on experimental stations and the actual yield obtained in the fields. This could be possible by developing and promoting rice integrated crop management (RICM) systems for improving productivity and reducing the production cost per unit of output. The need for a sustainable increase in rice production affects everyone. The International Year of Rice provide us with a chance to improve food security, alleviate poverty and preserve the environment for the billions of people for whom Rice is Life.
Nguu Van Nguyen About the Author. Nguu Van Nguyen earned his PhD in Agronomy in 1976 from the University of the Philippines at Los Banos (UPLB). He has been serving for 2 years as Post-Doctoral Fellow, at the International Rice Research Institute and for other two as Assistant Professor at UPLB University. He has been working from 1980 to 1993 as agronomist at IITA (International Institute of Tropical Agriculture) and at Philippine Rice Research Institute. In 1991, he began his professional career at FAO, initially as rice agronomist, in West Africa, then as agricultural officer at Crop and Grassland Service. Since 2004 he is serving as Executive Secretary, International Rice Commission.
Aldo Ferrero About the Author. Aldo Ferrero is at present Professor of “Weed Science”, “Agronomy” and “Crop Science” and head of the “Department of Agronomy, Forest and Land Management, University of Turin (Italy). He is coordinator of the rice FAO network “Medrice”, for Europe, Mediterranean, and Middle East countries. He possesses a wide experience in the field of the weed eco-biology and weed control in rice systems. He has been co-ordinator of European research projects funded by the European Union. He currently co-ordinates the project “EU-India Rice districts network promotion through agro-economical, cross cultural, and technical actions” (RICE-NET) aimed at studying agro-economical, cultural, and historical traits of the rice cultivation in the European and Indian rice districts, in order to improve socio-economical relationships between the two geographical areas. He is referee and member of the editorial board of several international journals.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Aguilar MD, Grau M, Contreras JM (1997) Effect of pre-seeding nitrogen fertilization on rice yield components under water high salinity conditions in Southern Spain. In: Paper presented at the international sympossium on rice quality. Nottinghan, UK, 24–27 November 1997
Balal MS (1996) Overview of rice production and research in Egypt. In: Proceedings of the 18th session of the international rice commission, Rome, Italy, 5–9 September 1994. FAO, Rome, Italy, pp 225–231
Brar DS, Khush GS (1997) Wide hybridization for rice improvements: alien gene transfer and molecular characterization of introgression. In: Jones MP, dingkhun M, Johnson DE, Fagade SO (eds) Interspecific hybridization: progress and prospect WARDA, 01BP2551, Bouake, Côte d’Ivoire, pp 21–29
Brookes G, Barfoot P (2003) GM Rice: will this lead the way for global acceptance of GM crop technology? Brief No. 28. ISAAA, Los Baños, Philippines
Calpe C (2003) Status of the world rice market in 2002. In: Proceedings of the 20th session of the international rice commission, 23–26 July 2002, Bangkok, Thailand. FAO, Rome, Italy, pp 35–40
Català M (1995) Chemical and cultural practices for red rice control in rice fields in Ebro Delta, Spain. Crop Prot 5:405–408
Chataigner J, Salmon C (1996) Performances comparéees de la riziculture européeenne. Cahiers Options Meditéerran’eenes. 15(2):103–114
Clampett WS, Tran DV, Nguyen VN (2003) The development and use of integrated crop management for rice production. In: Proceedings of the 20th session of the international rice commission, 23–26 July 2002, Bangkok, Thailand. FAO, Rome, Italy, pp 135–144
Datta SK, Torrizo L, Tu J, Oliva N, Datta K (1997) Production and molecular evaluation of transgenic rice plants. In: IRRI. discussion paper series no. 21. International Rice Research Institute. P. O. Box 933, Manila, Philippines
FAOSTAT http://faostat.external.fao.org/faostat
Ferrero A, Vidotto F, Gennari M, Nègre M (2001) Behaviour of cinosulfuron in paddy surface water and ground water. J Environ Qual 30:131–140
Ferrero A, Tabacchi M, Vidotto F (2002) Italian rice field weeds and their control. In: Hill JE, Hardy B (eds) Second temperate rice conference. Proceedings of the second temperate rice conference, 13–17 June 1999, Sacramento, California, USA. International Rice Research Institute, Los Baňos, Philippines, pp 535–544
Ferrero A (2003) Weedy rice, biological features and control. In: Labrada R (ed) Weed management for developing countries. Addendum 1. FAO Plant Production and Protection Paper, Rome, Italy, pp 89–109
Ferrero A, Nguyen VN (2004) Constraints and opportunities for the sustainable development of rice-based production systems in Europe. In: Paper presented at the international conference on sustainable rice systems, FAO, Rome, Italy
Garg AK, Kim JK, Owens TG, Ranwala AP, Choi YD, Kochian LV, Wu RJ (2002) Trehalose accumulation in rice plants confers high tolerance levels to different abiotic stresses. Proc. Natl. Acad. Sci. U.S.A. 10.1073/pnas 252637799
Goto F, Yoshida T, Shigemoto N, Toki S, Takaiwa F (1999) Iron fortification of rice by soybean ferritin gene. Nat Biotechnol 17:282–286
Kennedy G, Burlingame B, Nguyen VN (2003) Nutritional contribution of rice and impact of biotechnology and biodiversity in rice-consuming countries. In: Proceedings of the 20th session of the international rice commission, 23–26 July 2002, Bangkok, Thailand. FAO, Rome, Italy, pp 59–70
Khush GS (2004) Harnessing science and technology for sustainable rice-based production system. In: Keynotes presented at the international conference on sustainable rice systems, FAO, Rome, Italy
Kushibuchi K (1997) Historical changes in rice cultivars. In: Science of the rice plant, vol III: Genetics. Japanese Ministry of Agriculture, Forestry, and Fishery, Tokyo, Japan pp 837–875
Lacy J, Clampett WS, Lewin L, Reinke R, Batten G, Williams R, Beale P, McCaffery D, Lattimore M, Schipp A, Salvestro R, Nagy J (1993) The 1993 Ricecheck recommendations (Booklet). NSW Agriculture and Rice Research and Development Committee, Australia, 16 p
McDonald DJ (1994) Temperate rice technology for the 21st century-the New South Wales example. In: Proceedings of the first temperate rice conference, Yanco, Australia, pp 1–12
McKenzie KS, Johnson CW, Tseng ST, Oster JJ, Brandon DM (1994) Breeding improved rice cultivars for California. In: Proceedings of the temperate rice-achievements and potential. vol 1, pp 13–24
Matsuoka M, Fukayama H, Ku MBS, Miyao M (2001) High level expression of C4 photosynthetic genes in transgenic rice. In: Khush, GS, Brar DS, Hardy B (eds) Rice genetics IV., International Rice Research Institute, Los Banos, Laguna, Philippines, pp. 439–447
Nguyen VN, Tran DV, Bautista RC, Maiga M, Weerapat P (1994) “Thriving with rice” technologies for small farmers in irrigated systems in sub-Sahara Africa. IRC Newslett 43:33–39
Nguyen VN (2000) Issues and opportunities of wide adoption of hybrid rice outside china, with emphasis on South and Southeast Asia. In: Paper presented at the workshop of middle level managers and policy makers from Bangladesh, India, Indonesia, Philippines, Sri Lanka, and Vietnam. Bangalore, Karnataka, India
Nguyen VN (2003) Recent development in rice production in Sub-Sahara Africa and the dissemination of NERICA. In: Paper presented at the FAO-Japanese Nihon University symposium on Food Security in Africa, Nihon University, Fujisawa, Japan
Pingali PL, Hossain M, Gerpacio RV (1997) Asian rice bowl: the returning crisis? CAB International, UK
Pingali PL, Rosegrant MW (1996) Confronting the environmental consequences of the Green Revolution. In: Proceedings of the 18th session of the international rice commission. 7–9 September 1994. Rome, Italy, pp. 59–69
Potrykus I (2003) Golden rice. In: Proceedings of the 20th session of the international rice commission, 23–26 July 2002, Bangkok, Thailand. FAO, Rome, Italy, pp 71–74
Pulver EL, Nguyen VN (1999) Sustainable rice production issues for the third millennium. In: Proceedings of the 19th session of the international rice commission held from 7–9 September 1998 in Cairo, Egypt, pp 32–44
Romero CC (1996) Analyse comparéee de la compéetivitée des exploitations rizicoles de deux regions europeennnes. Cahiers Options Meditéerranéeenes 15(2):115–129
Sanint LR, Zeigler RS (1994) Application of rice production cost analysis for technology design and transfer in Latin America and the Caribbean. In: Proceedings of the 17th session of the international rice commission, 4–9 February 1990. Goiais, Brazil. FAO, Rome, Italy, pp 97–107
Terres AL, Ribeiro AS, Machado MO, Martins JF (1994) Progress in breeding for cold-tolerant semi-dwarf rice in Rio Grande do Sul Brazil. In: Procedings of the temperate rice-achievements and potential. vol 1, pp 43–50
Tran DV (1994) Major issues in japonica rice production. In: Procedings of the temperate rice-achievements and potential. vol 1, pp 65–70
WARDA (2000) Participatory varietal selection: The spark that lit a flame. WARDA, Cote D’Ivoire 2000, 32 p
Wopereis MCS, Hafele SM, Kebbeh M, Miezan K, Diack BS (2001) Improving the productivity and profitability of irrigated rice production in Sahelian West Africa. In: Yield gap and productivity decline in rice productionproceedings of the expert consultation held in Rome, 5–7 September 2000; FAO, Rome, Italy, pp 117–142
Xiao J, Grandillo S, Ahn SN, McCouch SR, Tanksley SD (1996) Genes from wild rice improve yield. Nature 384:1223–1224
Xu D, Xue Q, McElroy D, Mawal Y, Hilder VA, Wu R (1996) Constitutve expression of a cowpea trypsin inhibitor gene cpti in transgenic rice plants confers resistance to two major rice insect pests. Mol Breeding 2:167–173
Yuan LP (2004) Hybrid rice technology for food security in the world. In: Keynotes presented at the international conference on sustainable rice systems, FAO, Rome, Italy
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Van Nguyen, N., Ferrero, A. Meeting the challenges of global rice production. Paddy Water Environ 4, 1–9 (2006). https://doi.org/10.1007/s10333-005-0031-5
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10333-005-0031-5