Abstract
To satisfy the food demand of—and provide purchasing power to—the additional two billion people to be born in the next 30 years, mostly in developing countries, technological innovation, be it biotechnology and/or genetic engineering, is required to improve agricultural productivity. In fact, some technological advanced developing countries are not only applying the diverse range of biotechnology tools in agricultural research but also allowing the cultivation of the controversial genetically modified (GM) crops. There is also increasing evidence that the first generation of GM crops, developed for industrial agriculture, is having positive impacts on smallholders in some developing countries. Most importantly, biotechnology tools allow tremendous progress in tackling major production constraints that conventional means have failed to solve, such as biotic stress caused by diseases and insect pests and abiotic stresses caused by high temperature, salinity, drought, flooding, and problem soils. Preliminary research also indicates that GM technology can help to raise yield potential and produce crops that are more efficient in nutrient uptake, thus reducing not only fertilizer requirements but also food production costs, hence lowering food prices and making food more affordable to more people and contributing to food security and agricultural development.
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References
Africa News Service, 2000, Central Kenya Farmers Embrace Biotech Farming, (November 1, 2000).
Apse, M. P., Aharon, G. S., Snedden, W. A., and Blumwald, E., 1999, Salt tolerance conferred by overexpression of a vacuolar Na+/H+ antiport in Arabidopsis, Sci. 285:1256–1258.
Arntzen, C. J., 1995, Oral immunization with a recombinant bacterial antigen produced in transgenic plants, Sci. 268:714–716.
Arntzen, C. J., 1996, Crop Biotechnology in the Service of Medical and Veterinary Science, NABC, Ithaca, New York.
Atkinson, R. C, Beachy, R. N., Conway, G., Cordova, F. A., Fox, M. A., Holbrook, K. A., Klessig, D. F., McCormick, R. L., McPherson, P. M., Rawlings III, H. R., Rapson, R., Vanderhoef, L. N., Wiley, J. D., and Young, C. E., 2003, Public sector collaboration for agricultural IP management, Sci. 301:174–175.
Bakan, B., Melcion, D., Richard-Molard, D., and Cahagnier, B., 2002, Fungal growth and fusarium mycotoxin content in isogenic traditional maize and genetically modified maize grown in France and Spain, J. Agric. Food Chem. 50:728–731.
Bhattacharya, S., 2003, KwaZulu farmers boosted by GM cotton, New Sci. Online News 16:31-; http://www.newscientist.com/hottopics/gm/gm.jsp?id=ns99993473.
Borroto, C, 2000, Biotechnology seminar: Cuban national program on agricultural biotechnology: Achievements, present and future, seminar held at the Food and Agriculture Organization of the United Nations, Rome, Italy (October 11, 2000).
Brophy, B., Smolenski, G., Wheeler, T., Wells, D., L’Huillier, P., and Laible, G., 2003, Cloned transgenic cattle produce milk with higher levels of beta-casein and kappa-casein, Nat. Biotech. 21(2):157–162.
Carnus, J. M., Parrotta, J., Brockerholl, E. G., Arbez, M., Jactel, H., Kremer, A., Lamb, D., O’Hara, K., and Walters, B., 2003, Planted forests and biodiversity, paper presented at the UNFF Intersessional Experts Meeting on the Role of Planted Forests in Sustainable Forest Management, New Zealand (March, 24–30, 2003).
Chakraborty, S., Chakraborty, N., and Datta, A., 2000, Increased nutritive value of transgenic potato by expressing a nonallergenic seed albumin gene from Amaranthus hypochondriacus, PNAS 97:3724–3729.
Chapman, A. J., Stupka, E., Putnam, N., Chia, J. M., Dehal, P., Christoffels, A., Rash, S., Hoon, S., Smit, A., Gelpke, M. D., Roach, J., Oh, T., Ho, I. Y., Wong, ML, Detter, C, Verhoef, F., Predki, P., Tay, A., Lucas, S., Richardson, P., Smith, S. F., Clark, M. S., Edwards, Y. J., Doggett, N., Zharkikh, A., Tavtigian, S. V., Pruss, D., Barnstead, M., Evans, C, Baden, H., Powell, J., Glusman, G., Rowen, L., Hood, L., Tan, Y. H., Elgar, G., Hawkins, T., Venkatesh, B., Rokhsar, D., and Brenner, S., 2002, Whole-genome shotgun assembly and analysis of the genome of Fugu rubripes, Sci. 297(5585):1283–1285.
Che, D., Meagher, R. B., Heaton, A. C. P., Lima, A., Rugh, C. L., and Merkle, S. A., 2003, Expression of mercuric ion reductase in Eastern cottonwood (Populus deltoides) confers mercuric ion reduction and resistance, Plant Biotech. J. 1(4):311–317.
Chen, L., Marmey, P., Taylor, N. J., Brizard, J. P., Espinoza, C, D’Cruz, P., Huet, H., Zhang, S., de Kochko, A., Beachy, R. N., and Fauquet, C. M., 1998, Expression and inheritance of multiple transgenes in rice, Nature Biotech. 16:1060–1064.
Coghlan, A., 2003, Genetically modified ‘protato’ to feed India’s poor, New Sci. (January, 2003); http://www.newscientist.com/news/news.jsp?id=ns99993219.
Cohen, J., Komen, I., Falck-Zepeda, J., and Zambrano, P., 2003, ISNAR-IBS Next Harvest©, data presented at an Expert Consultation on Biotechnology Next Harvest© —Advancing Biotechnology’s Public Good: Technology Assessment, Regulation and Dissemination (October, 7–9, 2002), ISNAR Headquarters, The Hague.
Dahwan, V., 2002, Personal communication.
Datta, S., 2002, Personal communication.
De la Fuente, J., Ramirez-Rodriguez, M, Cabrera Ponce, J. J., and Herrera-Estrella, L., 1997, Aluminum tolerance in GM plants by alteration of citrate synthesis, Sci. 276:1566–1568.
DellaPenna, D., 1999, Nutritional genomics: Manipulating plant micronutrients to improved human health, Sci. 285:375–379.
Entis, E., 1998, Taste testing at a top Canadian restaurant, Aqua Bounty Farms, 1:1–4.
Entis, E., 2003, Biotech at sea: Innovation required; http://pewagbiotech.org/ events/0131/.
FAO, 1999, Committee on Agriculture, 15th Session, Biotechnology; http://www.fao.org/ unfao/bodies/COAG/COAG 15/X0074E.htm.
FAO, 2002, World Food Summit: Five years later (Draft declaration), Article 25; http://www.fao.org/DOCREP/MEETING/004/Y6948E.HTM.
FAO-BioDec, 2003; http://www.fao.org/biotech/inventory_admin/dep/default.asp (accessed July 11,2003).
Fenning, T. M., and Gershenzon, J., 2002, Where will the wood come from? Plantation forest and the role of biotechnology, Trends in Biotech. 20:291–296.
French, C. E., Rosser, S. J., Davies, G. J., Nicklin, S., and Bruce, N. C, 2001, Biodegradation of explosives by transgenic plants expressing pentaerythritol tetranitrate reductase, Nature Biotech. 19:1168–1172.
Fresco, L. O., 2003, A new social contract on biotechnology; http://www.fao.org/ag/ magazine/0305spl.htm.
Fuglie, K., Zhang, L., Salazar, L. F., and Walker, T., 2001, Economic Impact of Virus-Free Sweet Potato Planting Material in Shandong Province, China, Future Harvest, Washington, D. C.
Garg, A. K., Kim, J. K., Owens, T. G., Ranwala, A. P., Do Choi, Y., Kochian, L. V., and Wu, R. J., 2002, Trehalose accumulation in rice plants confers high tolerance levels to different abiotic stresses, PNAS 99:15898–15903.
Gartland, K. M. A., Kellison, R. C, and Fenning, T. M., 2002, Forest biotechnology and Europe’s forests of the future, paper presented at the Forest Botechnology in Europe: Impending Barriers, Policy, and Implications, Edinburgh.
Goure, W., 2002, Mendel biotechnology’s transcription factors genes and food security in developing countries, paper presented at the Symposium on Plant Biotechnology: Perspective from Developing Countries (November 12–14, 2002), Annual Meetings of the American Society of Agronomy, the Crop Science Society of America and the Soil Science Society of America, Indianapolis, Indiana.
Guillen, I., Berlanga, J., Valenzuela, C. M., Morales, A., Toledo, J., Estrada, M. P., Puentes, P., Hayes, O., and de la Fuente, J., 1999, Safety evaluation of transgenic tilapia with accelerated growth, Marine Biotech. 1:2–14.
Guy, C. L., Irani, T., Gabriel, D., and Fehr, W., 2000, Workshop reports: Workshop C: Food and environmental issues associated with the bio-based economy of the 21st century, NABC News 19:8–11.
Hallerman, E., 2003, Status of development of transgenic aquatic animals, ISB News Report; http://www.isb.vt.edu/news/2003/news03.apr.html#apr0304.
Hamilton, C. M., Frary, A., Lewis, C, and Tanksley, S. D., 1996, Stable transfer of intact high molecular weight DNA into plant chromosomes, PNAS 93:9975–9979.
Hannink, N., Rosser, S. J., French, C. E., Basran, A. J., Murray, A. H., Nicklin, S., and Bruce, N. C., 2001, Phytodetoxification of TNT by transgenic plants expressing a bacterial nitroreductase, Nature Biotech. 10:1038–1168.
Herrera-Estrella, L., 2002, Plant biotechnology in the postgenomic era: Can it benefit developing countries? Paper presented at ISNAR-FAO Expert Workshop on Policy Planning and Decision Support: The Case of Biosafety (May 14–16, 2002), Rome.
Houdebine, L. M., 2002, Transgenesis to improve animal production, Livestock Prod. Sci. 74(3):255–268.
Hu, W. J., Harding, S. A., Lung, J., Popko, J. L., Ralph, J., Stokke, D. D., Tsai, C. J., and Chiang, V. L., 1999, Repression of lignin biosynthesis promotes cellulose accumulation and growth in transgenic trees, Nature Biotech. 17(8):808–812.
Huang, J., and Wang, Q., 2002, Agricultural biotechnology development and policy in China, paper presented at the Symposium on Plant Biotechnology: Perspective from Developing Countries, Annual Meetings of the American Society of Agronomy, the Crop Science Society of America and the Soil Science Society of America, Indianapolis, Indiana (November 12–14, 2002).
Hulata, G., 2001, Israeli aquaculture genetic improvement programs, in: Fish Genetics Research in MemberCountries and Institutions of the International Network on Genetics in Aquaculture, M. V. Gupta and B. O. Acosta, eds., ICLARM Conf. Proc. 64, Penang, Malaysia, pp. 103–108.
IFPRI, 1999, Are we ready for a meat revolution? 20/20 Vision News & Views; http://www.ifpri.org/2020/newslet/nv_0399/nv0399a.htm.
Ismaël, Y., Beyers, L., Lin, L., and Thirtle, C, 2001, Smallholder adoption and economic impacts of Bt cotton in the Makhathini Flats, South Africa, paper presented at the 5th International Conference, Biotechnology, Science and Modern Agriculture: A New Industry at the Dawn of the Century, Ravello (June 15–18, 2001).
Jaglo-Ottosen, K. R., Gilmour, S. J., Zarka, D. G., Schabenberger, O., and Thomashow, M. F., 1998, Arabidopsis CBF1 overexpression induces COR genes and enhances freezing tolerance, Sci. 280:104–106.
James, C, 2001, Global Status of Commercialized Transgenic Crops 2001, ISAAA Briefs No. 24. Preview, ISAAA, Ithaca, New York; http://www.isaaa.org/ publications/briefs/Brief_24.htm.
James, C, 2002, Global Status of Commercialized Transgenic Crops 2002, ISAAA Briefs No. 27, ISAAA, Ithaca, New York.
James, C, 2003, Global Status of Commercialized Transgenic Crops 2003, Preview, ISAAA, Ithaca, New York.
Kirch, H. H., Nair, A., and Bartels, D., 2001, Novel ABA-and dehydration-inducible aldehyde dehydrogenase genes isolated from the resurrection plant Craterostigma plantagineum and Arabidopsis thaliana, Plant J. 28(5):555–567.
Kobayashi, N. T., Yoshiba, M., Sanada, Y., Wada, Y., Tsukaya, K., Kakubari, H., Yamaguchi-Shinozaki, K., and Shinozaki, K., 1999, Improving plant drought, salt, and freezing tolerance by gene transfer of a single stress-inducible transcription factor, Nature Biotech. 17:287–291.
Kong, Q. K., Richter, L., Yang, Y. F., Arntzen, C, Mason, H. S., and Thanavala, Y., 2001, Oral immunization with hepatitis B surface antigen expressed in transgenic plants, Proc. Natl. Acad. Sci. 98:11539–11544.
Ku, M. S. B., Cho, D., Ranade, U., Hsu, T.-P., Li, X., Jiao, D.-M., Ehleringer, J., Miyao, M., and Matsuoka, M., 2000, Photosynthetic performance of transgenic rice plants overexpressing the maize C4 photosynthesis enzymes, in: Redesigning Rice Photosynthesis to Increase Yield, J. Sheehy, P. Mitchell, and B. Hardy, eds., IRRI, Los Baños, Philippines.
Langridge, W. H. R., 2000, Edible vaccines, Scientific Amer. 283:66–71; www.scientific american.com/2000/0900issue/0900langridge.html.
Le, H., 2001, The potential of agricultural biotechnology, in: Farming Systems and Poverty: Improving Farmers’ Livelihoods in a Changing World, J. Dixon, and A. Dixon, with D. Gibbon, eds., FAO and WB, Rome and Washington, D. C., pp. 366–374; http://www.fao.org/docrep/003/y1860e/y1860e12.htm#P147_26118.
Lehman, V., 2000, Cuban agrobiotechnology: Diverse agenda in times of limited food production, Biotech. and Dev. Monitor, 42:18–21.
Li, L., Zhou, Y., Cheng, X., Sun, J., Marita, J. M., Ralph, J., and Chiang, V. L, 2003, Combinatorial modification of multiple lignin traits in trees through multigene cotransformation, PNAS, 100(8):4939–4944.
Lubick, N., 2002, Designing trees, Scientific Amer.; http://www.sciam.com/article.cfm? articleID=0000BA96-AE60-1CDA-B4A8809EC588EEDF&pageNumber=l.
Lucca, P., Hurrell, R., and Potrykus, I., 2002, Fighting iron deficiency anemia with iron-rich rice, J. of the Amer. College of Nutr. 21:184S–190S.
Mackey, M., 2002, The applications of biotechnology to nutrition: An overview, J. of the Amer. College of Nutr. 21:157S–160S.
Mazur, B., Krebbers, E., and Tingley, S., 1999, Gene discovery and product development for grain quality traits, Sci. 285:372–375.
McLean, M. A., Frederick, R. J., Traynor, P., Cohen, J. I., and Komen, J., 2002, A Conceptual Framework for Implementing Biosafety: Linking Policy, Capacity and Regulation, Briefing Paper No. 47, 12 pp.
Meilan, R., 2001, Personal communication.
Mesfin, T. S., Temple, J., Allan, D. L., Vance, C. P., and Samac, D. A., 2001, Overexpression of malate dehydrogenase in transgenic alfalfa enhances organic acid synthesis and confers tolerance to aluminum, Plant Physiol. 127:1836–1844.
Mouse Genome Sequencing Consortium, 2002, Initial sequencing and comparative analysis of the mouse genome, Nature, 420:520–562.
Muchhal, U. S., and Raghothama, K. G., 1999, Transcriptional regulation of plant phosphate transporters, PNAS, 96(10):5868–5872.
Mukatira, U. T., Liu, C, Varadarajan, D. K., and Raghothama, K. G., 2001, Negative regulation of phosphate starvation-induced genes, Plant Physiol. 127:1854–1862.
Nambiar, E. K. S., 1999, Pursuit of sustainable plantation forestry, S. Afr. For. J. 184:45–62.
NAS (National Academy of Sciences), 2002, Animal Biotechnology: Science-Based Concerns, NAS, USA.
NAS, 2000, Transgenic Plants and World Agriculture; http://www.nap.edu/html/ transgenic/.
Natural Resource Canada, 2003, http://www.nrcan-rncan.gc.ca/cfs-scf/science/ biotechnology /treeim_e.html).
Orf, J. H., Diers, B. W., and Boerma, H. R., 2004, Genetic improvement: Conventional and molecular-based strategies, in: Soybeans: Improvement, Production, and Uses, H. R. Boerma, and J. E. Specht, eds., ASA-CSSA-SSSA, 3rd ed., Madison, Wisconsin, pp. 417–450.
Potrykus, I., 2001, Potrykus responds to Greenpeace criticism of ‘Golden Rice’, Agbioworld, 9 February; http://www.agbioworld.org/biotech_info/topics/goldenrice/ criticism.html.
Pray, C. E., Ma, D., Huang, J., and Qiao, F., 2001, Impact of Bt-cotton in China, World Dev. 29:813–825.
Pursel, V. G., Wall, R. J., Solomon, M. B., Bolt, D. J., Murray, J. D., and Ward, K. A., 1997, Transfer of an ovine metallothionein-oveine growth hormone fusion gene into swine, J. of Animal Sci. 75:2208–2214.
Pursel, V. G., Coleman, M. E., and Wall, R. J., 1996, Regulatory avian skeleton-acting directs expression of insuline-like growth factor-1 to skeletal muscle of transgenic pigs, Theriogen. 35:348.
Qaim, M., 2000, A prospective evaluation of biotechnology in semi-subsistence agriculture, paper presented at the XXIV Conference of the International Association of Agricultural Economists, Berlin.
Qu, S., Coaker, G., Francis, D., Zhou, B., and Wang, G. L., 2003, Development of a new transformation-competent artificial (TAC) vector and construction of tomato and rice TAC libraries, Mol. Breed. New Strat. in Plant Improv. 12(4):297–308.
Ragot, M., 2003, Personal communication.
Sang, H., 2003, Genetically modified livestock and poultry and their potential effects on human health and nutrition, Trends in Food Sci. and Tech. 14(5–8):253–263.
Sayre, R., 2000, Cyanogen reduction in GM cassava: Generation of a safer product for subsistence farmers, ISB News Report (August, 2000).
Smith, T., 2003, Brazil to lift ban on crops with genetic modification, The New York Times, September 27, 2003.
Somerville, C, and Somerville, S., 1999, Plant functional genomics, Sci. 285:380–383.
Strauss, S. H., DiFazio, S. P., and Meilan, R., 2001, Genetically modified poplars in context, For. Chron. 77(2):271–279.
Tabashnik, B. E, Carriere, Y., Dennehy, T. J., Morina, S., Sisterson, M. S., Roush, R. T., Shelton, A. M., and Zhao, J. Z., 2003, Insect resistance to Bt Crops: Lessons from the first seven years, ISB News Report, Virginia Tech., Blacksburg, VA (November, 2003); http://www.isb.vt.edu/news/2003/nov03.pdf.
Tabashnik, B., Patin, A. L., Dennehy, T. J., Liu, Y. B., Carriere, Y., Sims, M. A., and Antilla, L., 2000, Frequency of resistance to Bacillus thuringiensis in field populations of pink bollworm, Proc. Natl Acad. Sci. 97(24): 12980–12984.
Takahashi, M, Nakanishi, H., Kawasaki, S., Nishizawa, N. K., and Mori, S., 2001, Enhanced tolerance of rice to low iron availability in alkaline soils using barley nicotianamine aminotransferase genes, Nature Biotech. 19(5):466–469.
Terry, E., Monyo, J., and Matlon, P., 2002, A technology transfer model for smallholder farmers in sub-Saharan Africa, Paper presented at the Symposium on Plant Biotechnology: Perspective from Developing Countries, Annual Meetings of the American Society of Agronomy, the Crop Science Society of America and the Soil Science Society of America, Indianapolis, Indiana (November, 12–14, 2002).
The International Genome Sequencing Consortium, 2001, Initial sequencing and analysis of the human genome, Nature, 409:860–921.
Thompson, J., 2001, Appropriate technology for sustainable food security, Modern Technology for African Agriculture, IFPRI 20/20 Focus 7; http://www.ifpri.org/2020/focus/focus07/focus07_05.htm.
Tian, L., and DellaPenna, D., 2001, The Promise of Agricultural Biotechnology for Human Health, Meeting report on the Keystone Symposium “Plant Foods for Human Health: Manipulating “Plant Metabolism to Enhance Nutritional Quality,” Breckenridge, CO (April 6–11, 2001); http://scope.educ.washington.edu/gmfood/member/commentary/show.php?author=Tian.
Traxler, G., Godoy-Avila, S., Falck-Zepeda, J., and Espinoza-Arellano, D. J., 2001, Transgenic cotton in Mexico: Economic and environmental impacts, Paper presented at the 5th ICABR International Conference, Biotechnology, Science and Modern Agriculture: A New Industry at the Dawn of the Century, Ravello (June 15–19, 2001).
Ward, R., 2003, Personal communication.
Webster, J., 2000, Enabling biotechnology in Africa: Current situation and future needs, Seminar presented December 8, 2000, FAO, Rome.
Zhang, H. X., and Blumwald, E., 2001, Transgenic salt-tolerant tomato plants accumulate salt in foliage but not in fruit, Nature Biotech. 19(8):765–768.
Zhang, H. X., Hodson, J. N., Williams, J. P., and Blumwald, E., 2001, Engineering salt-tolerant Brassica plants: Characterization of yield and seed oil quality in transgenic plants with increased vacuolar sodium accumulation, Proc. Natl. Acad. Sci. 98:12832–12836.
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Le, H.T. (2005). The Potential of Biotechnology to Promote Agricultural Development and Food Security. In: Cooper, J., Lipper, L.M., Zilberman, D. (eds) Agricultural Biodiversity and Biotechnology in Economic Development. Natural Resource Management and Policy, vol 27. Springer, Boston, MA. https://doi.org/10.1007/0-387-25409-9_13
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