Transgenic soya beans: economic implications for EU livestock sector
Main Article Content
Keywords
animal nutrition, biotechnology, feed grains, GM crops, regulatory, traceability
Abstract
World oilseed trade consists of many closely substitutable commodities, with canola and cottonseed as possible alternatives to soya beans for many purposes. Transgenic events in all three crops have been widely adopted, particularly in North and South America, for compelling economic or agronomic reasons. Despite the close attention from organizations concerned about the potential consequences of transgenic crop adoption, there appears to be no substantiated evidence of transgenic DNA in meat or milk products when such crops are fed to livestock. The global area of these transgenic crops continues to increase. No transgenic canola, cotton or soya bean crops are permitted for commercial cultivation in Europe, and although transgenic feed resources are permitted for import, importers risk shipments being denied entry if the traces of an unauthorized transgenic crop are detected. These tight controls can mean that livestock farmers in the EU are disadvantaged due to restricted access to cheaper feed or higher feed costs, and they are thus loosing a degree of competitive advantage. This paper reviews the extent to which transgenic soya beans have become the ‘conventional’ method of cultivation elsewhere, and notes implications this has for livestock nutrition, traceability and economics within the EU. The paper concludes with discussion regarding the implications for the EU of delayed acceptance of newly available transgenic traits.
References
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Bertram M.G., Pedersen P. (2004) Adjusting management practices using glyphosate-resistant soybean cultivars. Agronomy,96, 462–468.
Bindraban P.S., Franke A.C., Ferrar D.O., Ghersa C.M., LotzL.A.P., Nepomuceno A., Smulders M.J.M., van der WielC.C.M. (2009).GM-Related Sustainability: Agro-EcologicalImpacts, Risks and Opportunities of Soy Production in Argentina and Brazil. Plant Research Institute, Wageningen, NL. Available at http://gmsoydebate.global-connections.nl/sites/gmsoydebate.global-connections.nl/files/library/2009
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Demont M., Dillen K., Mathijs E., Tollens E. (2007) GM crops in Europe: how much value and for whom?Eurochoices, 6, 46–53.
Devos Y., Reheul D., De Waele D., Van Speybroeck L. (2006) The interplay between societal concerns and the regulatory frame on GM crops in the European Union. Environmental Biosafety Research, 5, 127–149.
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GMO-Compass. (2010b) Coexistence: different agricultural systems working side by side. Available at http://www.gmo-compass.org/eng/regulation/coexistence/
Gryson N., Eeckhout M., Trouillier A., Le Bail M., Soler L-G.(2009) Strategies for coexistence of GM and non-GM soy from import to feed processing. Environmental Biosafety Research,8,153–159.
Guertler P., Paul V., Steinke K., Wiedemann S., Preißinger W., Albrecht C., Spiekers H., Schwarz F., Meyer H. (2010) Long-term feeding of genetically modified corn (MON810) – fate ofcry1Ab DNA and recombinant protein during the metabolism of the dairy cow. Livestock Science,131, 250–259.
ISAAA. (2006) Contribution of GM technology to the livestock sector.ISAAA Pocket K No11. Available at http://www.isaaa.org/resources/publications/pocketk/document/Doc-Pocket%20K11.pdf
James C. (2009).Global Status of Commercialized Biotech/GMCrops: 2009. ISAAA Brief No. 41. ISAAA, Ithaca, NY.
Jennings J., Kolwyck D., Kays S., Whetsell A., Surber J., CromwellG., Lirette R., Glenn K. (2003) Determining whether transgenic and endogenous plant DNA and transgenic protein are detectable in muscle from swine fed Roundup Ready soybean meal. Journal of Animal Science,81, 1447–1455.
Kleter G., Harris C., Stephenson G., Unsworth J. (2008)Comparison of herbicide regimes and the associated potential environmental effects of glyphosate-resistant crops versus what they replace in Europe.Pest Management Science, 64, 479–488.
Konduru S., Kruse J., Kalaitzandonakes N. (2008) Chap 19 global economic impacts of roundup ready soybeans. In: Genetics and Genomics of Soybean (ed Stacey G.), pp 375–395. Springer.
Marmiroli N., Maestri E., Gulli M., Malcevschi A., Peano C., Bordoni R., De Bellis G. (2008) Methods for detection of GMOs in food and feed. Analytical and Bioanalytical Chemistry, 392, 369–384.
Moschini G. (2008) Biotechnology and the development of food markets: retrospect and prospects. European Review of Agricultural Economics, 35, 331–355.
Newell P. (2009) Bio-hegemony: the political economy of agricultural biotechnology in Argentina. Journal of Latin American Studies, 41, 27–57.
Norsworthy J.K. (2003) Use of soybean production surveys to determine weed management needs of South Carolina farmers. Weed Technology,17, 195–201.
Park J.R., McFarlane I., Phipps R.H., Ceddia G. (2011) The role of transgenic crops in sustainable development. Plant Biotechnology Journal, 9, 2–21.
Peisker M. (2009). Manufacturing of Soy Protein Concentrate for Animal Nutrition. CIHEAM International Centre for Advanced Mediterranean Agronomic Studies, Leuven, Belgium. Available at http://ressources.ciheam.org/om/pdf/c54/01600017.pdf
Phipps R.H., Deaville E.R., Maddison D.C. (2003) Detection of transgenic and endogenous plant DNA in Rumen Fluid, Duodenal Digesta, milk, blood, and feces of lactating dairy cows. Journal of Dairy Science,86, 4070–4078.
Piggott N., Marra M. (2008) Biotechnology adoption over time in the presence of non-pecuniary characteristics that directly affect utility: a derived demand approach. AgBioForum,11,58–70.
Plan D., Van den Eede G. (2010) The EU Legislation on GMOs. JRC Scientific and Technical Reports EUR 24279.
Qaim M. (2009) The economics of genetically modified crops. Annals Review of Resource Economics,1, 665–694.
Scursoni J., Forcella F., Gunsolus J., Owen M., Oliver R., SmedaR., Vidrine R. (2006) Weed diversity and soybean yield with glyphosate management along a north–south transect in the United States. Weed Science, 54, 713–719.
Stein A., Rodriguez-Cerezo E. (2009) Global pipeline of new GMcrops implications of asynchronous approval for international trade. JRC Scientific and Technical Reports EUR 23486.
Trigo E.J., Cap E.J. (2003) Impact of the introduction of transgenic crops in Argentinean agriculture. AgBioForum, 6,87–94.
US Board on Agriculture and Natural Resources. (2010) Impact of genetically engineered crops on farm sustainability in theUnited States. Available at http://www.nap.edu/catalog.php?record_id=12804#toc
USDA. (2009) Oilseeds: world markets and trade. USDA Foreign Agricultural Service FOP 11-09. Available at http://www.fas.usda.gov/oilseeds/circular/2009/November/oilseedsfull1109.pdf
USDA. (2010) Oilseeds: world markets and trade.USDA ForeignAgricultural Service FOP 6-10. Available at http://www.fas.usda.gov/oilseeds/circular/2010/June/oilseeds_full06-10.pdf
Van der Hilst F., Dornburg V., Sanders J., Elbersen B., Graves A., Turkenburg W., Elbersen H., van Dama J., Faaij A. (2010)Potential, spatial distribution and economic performance of regional biomass chains: the North of the Netherlands as example. Agri Systems,103, 403–417.
Von Witzke H., Noleppa S. (2010) EU agricultural production and trade: can more efficiency prevent ‘land-grabbing’ outside of Europe? Available at http://www.opera-indicators.eu/assets/files/News/Final_Report_Humboldt_Opera.pdf
Wilcox J.R., Shibles R.M. (2001) Interrelationships among seed quality attributes in soybean.Crop Science,41,11–14.
World Energy Council. (2007) Survey of energy resources. Available at http://www.worldenergy.org/documents/ser2007_final_online_version_1.pdf
Altieri M.A. (2009) Ecological impacts of large-scale agrofuel monoculture production systems in the Americas. Bulletin of Science Technology and Society,29, 236–244.
Aramyan L., van Wagenberg C., Backus G. (2009) EU policy on GM soy: tolerance threshold and asynchronic approval. LEI Wageningen UR Report 2009-052
American Soybean Association (ASA). (2010) Soystats 2010. World Oilseed Production 2009. Available at http://soystats.com/2010/page_29.htm
Bernard J., Pesek J., Fan C. (2004) Performance results and characteristics of adopters of genetically engineered soybeans in Delaware. Agricultural and Resource Economics Review, 33,282–292.
Bertram M.G., Pedersen P. (2004) Adjusting management practices using glyphosate-resistant soybean cultivars. Agronomy,96, 462–468.
Bindraban P.S., Franke A.C., Ferrar D.O., Ghersa C.M., LotzL.A.P., Nepomuceno A., Smulders M.J.M., van der WielC.C.M. (2009).GM-Related Sustainability: Agro-EcologicalImpacts, Risks and Opportunities of Soy Production in Argentina and Brazil. Plant Research Institute, Wageningen, NL. Available at http://gmsoydebate.global-connections.nl/sites/gmsoydebate.global-connections.nl/files/library/2009
Bonny S. (2009) Issues impacts and prospects of the first transgenic crops tolerant to a herbicide: the case of glyphosate-tolerant soyabean in USA. IAAE 27th Conference. Available at http://ageconsearch.umn.edu/handle/51449
Brookes G. (2009). European Arable Crop Profit Margins 2008-09, 6th edition. GBC Ltd, Gloucestershire, UK.
Brookes G., Barfoot P. (2006) Global impact of biotech crops: socio-economic and environmental effects in the first ten years of commercial use. Ag BioForum,9, 139–151.
Demont M., Dillen K., Mathijs E., Tollens E. (2007) GM crops in Europe: how much value and for whom?Eurochoices, 6, 46–53.
Devos Y., Reheul D., De Waele D., Van Speybroeck L. (2006) The interplay between societal concerns and the regulatory frame on GM crops in the European Union. Environmental Biosafety Research, 5, 127–149.
Dilger R., Sands J., Ragland D., Adeola O. (2004) Digestibility of nitrogen and amino acids in soybean meal with added soyhulls. Journal of Animal Science,82, 15–724.
European Coexistence Bureau. (2010) Best Practice Documents for coexistence of genetically modified crops with conventional and organic farming. 1. Maize crop production. Available at http://ecob.jrc.ec.europa.eu/
EFSA. (2007) Guidance document of the scientific panel on genetically modified organisms for the risk assessment of genetically modified plants containing stacked transformation events. EFSA Journal,512, 1–5.
EFSA. (2009) Scientific opinion on applications for the placing on the market of the genetically modified glyphosate tolerant maize NK603 for cultivation, food and feed uses, import and processing and for renewal of the authorisation of maizeNK603 as existing products, both under regulation (EC)No 1829/2003 from Monsanto. EFSA Journal,1137, 1–50.
Eurostat. (2010) Crops products (excluding fruits and vegetables) [apro_cpp_crop]. Available at http://appsso.eurostat.ec.europa.eu/nui/show.do?dataset=apro_cpp_crop&lang=en
FAO. (2007) Information network on post-harvest operations(INPhO) newsletter. Available at http://www.fao.org/inpho
FAO. (2009) State of Agricultural Commodity Markets 2009. Available at ftp://ftp.fao.org/docrep/fao/012/i0854e/i0854e.pdf
FAO. (2010) World crop production statistics. Available at http://faostat.fao.org/site/567/default.aspx#ancor
FEDIOL. (2010) Statistics. EU oil and protein meal industry also known as FEDIOL. Available at http://www.fediol.be/6/index.php
GM-Free Ireland. (2007) European Conference on GM-free Animal Feed. Available at http://www.gmfreeireland.org/feed/documents/GMFI-GM-free-Soya-conf.pdf
GMO-Compass. (2007) GMO labelling of foodstuffs produced from animals – the discussion continues. Available at http://www.gmo compass.org/eng/news/stories/286.gmo_labelling_animal_products_discussion_continues.html
GMO-Compass. (2010a) John Dalli: A ‘‘technical solution’’ for traces of unapproved GMOs. Available at http://www.gmo-compass.org/eng/news/538.john_dalli_technical_solution_traces_unapproved_gmos.html
GMO-Compass. (2010b) Coexistence: different agricultural systems working side by side. Available at http://www.gmo-compass.org/eng/regulation/coexistence/
Gryson N., Eeckhout M., Trouillier A., Le Bail M., Soler L-G.(2009) Strategies for coexistence of GM and non-GM soy from import to feed processing. Environmental Biosafety Research,8,153–159.
Guertler P., Paul V., Steinke K., Wiedemann S., Preißinger W., Albrecht C., Spiekers H., Schwarz F., Meyer H. (2010) Long-term feeding of genetically modified corn (MON810) – fate ofcry1Ab DNA and recombinant protein during the metabolism of the dairy cow. Livestock Science,131, 250–259.
ISAAA. (2006) Contribution of GM technology to the livestock sector.ISAAA Pocket K No11. Available at http://www.isaaa.org/resources/publications/pocketk/document/Doc-Pocket%20K11.pdf
James C. (2009).Global Status of Commercialized Biotech/GMCrops: 2009. ISAAA Brief No. 41. ISAAA, Ithaca, NY.
Jennings J., Kolwyck D., Kays S., Whetsell A., Surber J., CromwellG., Lirette R., Glenn K. (2003) Determining whether transgenic and endogenous plant DNA and transgenic protein are detectable in muscle from swine fed Roundup Ready soybean meal. Journal of Animal Science,81, 1447–1455.
Kleter G., Harris C., Stephenson G., Unsworth J. (2008)Comparison of herbicide regimes and the associated potential environmental effects of glyphosate-resistant crops versus what they replace in Europe.Pest Management Science, 64, 479–488.
Konduru S., Kruse J., Kalaitzandonakes N. (2008) Chap 19 global economic impacts of roundup ready soybeans. In: Genetics and Genomics of Soybean (ed Stacey G.), pp 375–395. Springer.
Marmiroli N., Maestri E., Gulli M., Malcevschi A., Peano C., Bordoni R., De Bellis G. (2008) Methods for detection of GMOs in food and feed. Analytical and Bioanalytical Chemistry, 392, 369–384.
Moschini G. (2008) Biotechnology and the development of food markets: retrospect and prospects. European Review of Agricultural Economics, 35, 331–355.
Newell P. (2009) Bio-hegemony: the political economy of agricultural biotechnology in Argentina. Journal of Latin American Studies, 41, 27–57.
Norsworthy J.K. (2003) Use of soybean production surveys to determine weed management needs of South Carolina farmers. Weed Technology,17, 195–201.
Park J.R., McFarlane I., Phipps R.H., Ceddia G. (2011) The role of transgenic crops in sustainable development. Plant Biotechnology Journal, 9, 2–21.
Peisker M. (2009). Manufacturing of Soy Protein Concentrate for Animal Nutrition. CIHEAM International Centre for Advanced Mediterranean Agronomic Studies, Leuven, Belgium. Available at http://ressources.ciheam.org/om/pdf/c54/01600017.pdf
Phipps R.H., Deaville E.R., Maddison D.C. (2003) Detection of transgenic and endogenous plant DNA in Rumen Fluid, Duodenal Digesta, milk, blood, and feces of lactating dairy cows. Journal of Dairy Science,86, 4070–4078.
Piggott N., Marra M. (2008) Biotechnology adoption over time in the presence of non-pecuniary characteristics that directly affect utility: a derived demand approach. AgBioForum,11,58–70.
Plan D., Van den Eede G. (2010) The EU Legislation on GMOs. JRC Scientific and Technical Reports EUR 24279.
Qaim M. (2009) The economics of genetically modified crops. Annals Review of Resource Economics,1, 665–694.
Scursoni J., Forcella F., Gunsolus J., Owen M., Oliver R., SmedaR., Vidrine R. (2006) Weed diversity and soybean yield with glyphosate management along a north–south transect in the United States. Weed Science, 54, 713–719.
Stein A., Rodriguez-Cerezo E. (2009) Global pipeline of new GMcrops implications of asynchronous approval for international trade. JRC Scientific and Technical Reports EUR 23486.
Trigo E.J., Cap E.J. (2003) Impact of the introduction of transgenic crops in Argentinean agriculture. AgBioForum, 6,87–94.
US Board on Agriculture and Natural Resources. (2010) Impact of genetically engineered crops on farm sustainability in theUnited States. Available at http://www.nap.edu/catalog.php?record_id=12804#toc
USDA. (2009) Oilseeds: world markets and trade. USDA Foreign Agricultural Service FOP 11-09. Available at http://www.fas.usda.gov/oilseeds/circular/2009/November/oilseedsfull1109.pdf
USDA. (2010) Oilseeds: world markets and trade.USDA ForeignAgricultural Service FOP 6-10. Available at http://www.fas.usda.gov/oilseeds/circular/2010/June/oilseeds_full06-10.pdf
Van der Hilst F., Dornburg V., Sanders J., Elbersen B., Graves A., Turkenburg W., Elbersen H., van Dama J., Faaij A. (2010)Potential, spatial distribution and economic performance of regional biomass chains: the North of the Netherlands as example. Agri Systems,103, 403–417.
Von Witzke H., Noleppa S. (2010) EU agricultural production and trade: can more efficiency prevent ‘land-grabbing’ outside of Europe? Available at http://www.opera-indicators.eu/assets/files/News/Final_Report_Humboldt_Opera.pdf
Wilcox J.R., Shibles R.M. (2001) Interrelationships among seed quality attributes in soybean.Crop Science,41,11–14.
World Energy Council. (2007) Survey of energy resources. Available at http://www.worldenergy.org/documents/ser2007_final_online_version_1.pdf
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Dec 29, 2011
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