Genetically modified organism containment and escape
Since the advent of genetic engineering in the 1970s, concerns have been raised about the dangers of the technology. Laws, regulations, and treaties were created in the years following to contain genetically modified organisms and prevent their escape.
Nonentheless, there are several examples of failure to keep GM crops separate from conventional ones.
History of regulation
The development of a regulatory framework concerning genetic engineering began in 1975, at Asilomar, California. The first use of Recombinant DNA (rDNA) technology had just been successfully accomplished by Stanley Cohen and Herbert Boyer two years previously and the scientific community recognized that as well as benefits this technology could also pose some risks.[1] The Asilomar meeting recommended a set of guidelines regarding the cautious use of recombinant technology and any products resulting from that technology.[2] The Asilomar recommendations were voluntary, but in 1976 the US National Institute of Health (NIH) formed a rDNA advisory committee.[3] This was followed by other regulatory offices (the United States Department of Agriculture (USDA), Environmental Protection Agency (EPA) and Food and Drug Administration (FDA)), effectively making all rDNA research tightly regulated in the USA.[4] In 1982 the Organization for Economic Co-operation and Development (OECD) released a report into the potential hazards of releasing genetically modified organisms into the environment as the first transgenic plants were being developed.[5] As the technology improved and genetically organisms moved from model organisms to potential commercial products the USA established a committee at the Office of Science and Technology (OSTP) to develop mechanisms to regulate the developing technology.[4] In 1986 the OSTP assigned regulatory approval of genetically modified plants in the US to the USDA, FDA and EPA.[6]
The Cartagena Protocol on Biosafety was adopted on 29 January 2000 and entered into force on 11 September 2003.[7] It is an international treaty that governs the transfer, handling, and use of genetically modified (GM) organisms. It is focussed on movement of GMOs between countries and has been called a de facto trade agreement.[8] One hundred and fifty-seven countries are members of the Protocol and many use it as a reference point for their own regulations.[9]
Co-existence
In the context of agriculture and food and feed production, co-existence means using cropping systems with and without genetically modified crops in parallel. In some countries, such as the US, co-existence is not governed by any single law but instead is managed by regulatory agencies and tort law. In other regions, such as Europe, regulations require that the separation and the identity of the respective food and feed products must be maintained at all stages of the production process.
Rationale
Many consumers are critical of genetically modified plants and their products, while, conversely, most experts in charge of GMO approvals do not perceive concrete threats to health or the environment. The compromise chosen by some countries - notably the European Union - has been to implement regulations specifically governing co-existence and traceability. Traceability has become commonplace in the food and feed supply chains of most countries in the world, but the traceability of GMOs is made more challenging by the addition of very strict legal thresholds for unwanted mixing. Within the European Union, since 2001, conventional and organic food and feedstuffs can contain up to 0.9% of authorised GM material without being labelled GM[10] (any trace of non-authorised GM products and would cause shipments to be rejected.[10][11]).
In the US there is no legislation governing the co-existence of neighboring farms growing organic and GM crops; instead the US relies on a "complex but relaxed" combination of three federal agencies (FDA, EPA, and USDA/APHIS) and the common law tort system, governed by state law, to manage risks of co-existence.[12]:44 In the face of continuing concerns about the economic losses that might be suffered by organic farmers by unintended intermixing, the US Secretary of Agriculture convened an Advisory Committee on Biotechnology and 21st Century Agriculture (AC21) to study the issue and make recommendations as to whether to address these concerns and if so, how. economic losses to farmers caused by unintended presence of genetically engineered materials, as well as how such mechanisms might work. The members of AC21 included representatives of the biotechnology industry, the organic food industry, farming communities, the seed industry, food manufacturers, State government, consumer and community development groups, the medical profession, and academic researchers. The AC21 recommended that a study should be conducted to answer the question of whether and to what extent there are any economic losses to US organic farmers; recommended that if the losses are serious, that a crop insurance program for organic farmers be put in place, and that an education program should be undertaken to ensure that organic farmers are putting appropriate contracts in place for their crops and that neighboring GM crop farmers are taking appropriate containment measures. Overall the report supported a diverse agriculture system in which many different farming systems could co-exist.[13][14]
Measures for ensuring co-existence
To limit mixing in the first stages of production, researchers and politicians are developing codes of good agricultural practice for GM crops. In addition to the thorough cleaning of machinery, recommended measures include the establishment of "isolation distances" and "pollen barriers". Isolation distances are the minimum distances required between GM and non-GM cultivations for most of the GM pollen to fall to the ground before reaching non-GM plants. Pollen barriers attempt actively catch pollen, and can consist of hedges and trees which physically hinder pollen movement. Pollen barriers consisting of conventional crops of the same species as the GM crop have a special advantage, as the conventional plants not only physically limit the GM pollen flow, but also produce competitive, conventional pollen. During harvest, the buffer strip of conventional crops is considered part of the GM crop yield.
Biological approaches to aid co-existence
In addition to agricultural measures, there may be also biological tools to prevent the genetically modified crop from fertilising conventional fields. Researchers are investigating methods either to prevent GM crops from producing pollen at all (for example male-sterile plants), or to develop GM crops with pollen that nonetheless does not contain the additional, genetically engineered material. In an example of the latter, transplastomic plants can be generated in which the genetic modification has been integrated in the DNA of chloroplasts - the cell nucleus contains no transgenes and thus the pollen contains no chloroplasts and thus no transgenes. Two important research projects on co-existence are and Co-Extra. With the end of the de facto moratorium on genetically modified plants in Europe, several research programmes (e.g. SIGMEA, Co-Extra, and Transcontainer) have begun investigating biological containment strategies for GMOs.
Another approach, developed recently, is the generation of transplastomic plants. As the chloroplasts of plants are maternally inherited, the transgenes are not spread by pollen thus achieving biological containment.
Research on co-existence
While SIGMEA was focused on co-existence at the farm level, Co-Extra studies co-existence along the whole production chain, and has a second focus on the traceability of GMOs, since co-existence cannot work without traceability. To be able to monitor and enforce compliance with co-existence regulations, authorities require the ability to trace, detect and identify GMOs.
Compensation for failure to maintain separation
Since GM-free products yield higher prices in many countries, some governments have introduced limits for the mixing of both production systems, with compensation for non-GM farmers for economic losses in cases where mixing inadvertently occurred.[15] One tool for compensation is a liability fund, to which all GM farmers, and sometimes GM seed producers, contribute.[15]:88–91
Escapes
Mixing can occur already at the agricultural stage. Fundamentally, two reasons exist for the presence of GMOs in the harvest of a non-GM cultivation: first, that the seed has been contaminated already or, secondly, that the plants in the non-GM field have received pollen from neighbouring GM fields. Mixing may also occur post-harvest, anywhere in the production chain.[16][17]
- 1990s
In 1997, Percy Schmeiser discovered that canola growing on his farm was genetically modified to be resistant to Roundup although he had not planted GM seed. He had initially discovered that some canola growing by a roadside along one of his fields was Roundup resistant when he was killing weeds along the road; this led him to spray a 3- to 4‑acre section of his adjacent field and 60% of the canola survived. Schmeiser harvested the seed from the surviving, Roundup resistant plants, and planted the seed in 1998. Monsanto sued Schmeiser for patent infringement for the 1998 planting. Schmeiser claimed that because the 1997 plants grew from seed that was blown into his field from neighboring fields, that he owned the harvest and was entitled to do with it whatever he wished, including saving the seeds from the 1997 harvest and planting them in 1998. The case went to the Supreme Court which took the case and held for Monsanto by a 5‑4 vote in late May 2004.[18] The case is widely cited or referenced by the anti-GM community in the context of a fear of a company claiming ownership of a farmer’s crop based on the inadvertent presence of GM pollen grain or seed.[19][20] "The court record shows, however, that it was not just a few seeds from a passing truck, but that Mr Schmeiser was growing a crop of 95–98% pure Roundup Ready plants, a commercial level of purity far higher than one would expect from inadvertent or accidental presence. The judge could not account for how a few wayward seeds or pollen grains could come to dominate hundreds of acres without Mr Schmeiser’s active participation, saying ‘. . .none of the suggested sources could reasonably explain the concentration or extent of Roundup Ready canola of a commercial quality evident from the results of tests on Schmeiser’s crop’" – in other words, the original presence of Monsanto seed on his land in 1997 was indeed inadvertent, but the crop in 1998 was entirely purposeful.[21]
In 1999 scientists in Thailand claimed they discovered glyphosate-resistant genetically modified wheat that was not yet approved for release in a grain shipment from the Pacific Northwest of the United States, even though transgenic wheat had never been approved for sale and was only ever grown in test plots. No one could explain how the transgenic wheat got into the food supply.[22]
- 2000s
In 2000, Aventis StarLink corn, which had been approved only as animal feed due to concerns about possible allergic reactions in humans, was found contaminating corn products in U.S. supermarkets and restaurants. This corn became the subject of a widely publicized recall, when Taco Bell taco shells were found to contain the corn, eventually resulting in the recall of over 300 products.[23][24] It was the first-ever recall of a genetically modified food. The registration for the Starlink varieties was voluntarily withdrawn by Aventis in October 2000.[25]
In 2005, scientists at the UK Centre for Ecology and Hydrology reported the first evidence of horizontal gene transfer of pesticide resistance to weeds, in a few plants from a single season; they found no evidence that any of the hybrids had survived in subsequent seasons.[26]
In 2006, American exports of rice to Europe were interrupted when the U.S. crop was contaminated with rice containing the LibertyLink modification, which had not been approved for release.[27] An investigation by the USDA’s Animal and Plant Health Inspection Service (APHIS) was unable to determine the cause of the contamination.[28]
In 2007, the U.S. Department of Agriculture fined Scotts Miracle-Gro $500,000 when modified genetic material from creeping bentgrass, a new golf-course grass Scotts had been testing, was found within close relatives of the same genus (Agrostis)[29] as well as in native grasses up to 21 km (13 mi) away from the test sites, released when freshly cut grass was blown by the wind.[30]
In 2009 the government of Mexico created a regulatory pathway for approval of genetically modified maize,[31] but because Mexico is the center of diversity for maize, concerns have been raised about the effect that genetically modified maize could have on local strains.[32][33] A 2001 report in Nature presented evidence that Bt maize was cross-breeding with unmodified maize in Mexico,[34] although the data in this paper was later described as originating from an artifact and Nature stated that "the evidence available is not sufficient to justify the publication of the original paper".[35] A subsequent large-scale study, in 2005, failed to find any evidence of contamination in Oaxaca.[36] However, other authors have stated that they also found evidence of cross-breeding between natural maize and transgenic maize.[37]
- 2010s
A study published in 2010 by scientists at the University of Arkansas, North Dakota State University, California State University and the US Environmental Protection Agency showed that about 83 percent of wild or weedy canola tested contained genetically modified herbicide resistance genes.[38][39][40] According to the researchers, the lack of reports in the US suggests inadequate oversight and monitoring protocols are in place in the US.[41] The development of weeds resistant to glyphosate, the most commonly applied herbicide, could mean that farmers must return to more labour-intensive methods to control weeds, use more dangerous herbicides or till the soil (so increasing then risk of erosion).[42] A 2010 report by the National Academy of Sciences stated that the advent of glyphosate-herbicide resistant weeds could cause the genetically engineered crops to lose their effectiveness unless farmers also use other established weed management strategies.[43][44] In Australia, some of a 2010 planting of Monsanto's Roundup-Ready (RR) canola blew across a neighboring organic farm.[45] The organic farm lost its organic certification and the organic farmer sued the GM farmer - so far without success.[45] The certifier called it "contamination" and in the 2014 judgement the judge called it an "incursion" and rejected claims for nuisance, negligence and damages.[45]
In 2013, glyphosate-resistant genetically modified wheat that was not yet approved for release, but which had been declared safe for consumption in the USA,[46] was discovered in a farm in Oregon, growing as a weed or "volunteer plant". The wheat had been created by Monsanto, and was a strain that was field-tested from 1998 to 2005 and was in the American regulatory approval process before Monsanto withdrew it based on concern that importers would avoid the crop. The last field test in Oregon had occurred in 2001. Volunteer wheat from a field two miles away owned by the same farmer and planted with the same seed was tested and it was not found to be glyphosate-resistant. Monsanto was liable for fines of up to $1 million, if violations of the Plant Protection Act were found.[47][48] According to Monsanto it was "mystified" by its appearance, having destroyed all the material it held after completing trials in 2004 and because they did not think that seed left in the ground or pollen transfer could account for it.[46] Later in the month, Monsanto suggested that the presence of the wheat was likely an act of "sabotage".[49] The discovery could have threatened U.S. wheat exports, which totaled $8.1 billion in 2012; the US is the world's largest wheat exporter.[48][50] New Scientist reported that the variety of wheat was rarely imported into Europe and doubted that the discovery of the wheat would affect Europe, but more likely destined for Asia. As a result of the discovery of the unapproved strain, Japan and South Korea halted wheat orders from the United States, leaving wheat growers in neighboring communities unable to decide what to plant next season. The crop growing when the genetically modified wheat was discovered had already been sold or insured.[51][52] On June 14, 2013, the USDA announced: "As of today, USDA has neither found nor been informed of anything that would indicate that this incident amounts to more than a single isolated incident in a single field on a single farm. All information collected so far shows no indication of the presence of GE wheat in commerce."[53] As of August 30, while the source of the GM wheat remained unknown, Japan, South Korea and Taiwan had all resumed placing orders, and the export market resumed. The Oregon wheat commissioner, Blake Rowe, said that "the overall economic impact has been minimal".[54]
Controversy
Critics have objected to use of genetic engineering per se on several grounds, including ethical concerns, ecological concerns, and economic concerns raised by the fact GM techniques and GM organisms are subject to intellectual property law. GMOs also are involved in controversies over GM food with respect to whether food produced from GM crops is safe, whether it should be labeled, whether GM crops are needed to address the world's food needs, and the risks of the incursion of GMO material onto neighboring organic farms. These controversies have led to litigation,[55] international trade disputes, and protests, and to restrictive regulation of commercial products in most countries.
References
- ↑ Berg P, Baltimore D, Boyer HW, Cohen SN, Davis RW, Hogness DS, Nathans D, Roblin R, Watson JD, Weissman S, Zinder ND (1974). "Letter: Potential biohazards of recombinant DNA molecules" (PDF). Science. 185 (4148): 303. Bibcode:1974Sci...185..303B. doi:10.1126/science.185.4148.303. PMID 4600381.
- ↑ Berg, P., Baltimore, D., Brenner, S., Roblin, R. O., and Singer, M. F. (1975). "Summary Statement of the Asilomar Conference on Recombinant DNA Molecules". Proc. Natl. Acad. Sci. USA. 72 (6): 1981–1984. Bibcode:1975PNAS...72.1981B. doi:10.1073/pnas.72.6.1981. PMC 432675. PMID 806076.
- ↑ Hutt, P.B. (1978). "Research on recombinant DNA molecules: the regulatory issues". South Calif Law Rev. 51 (6): 1435–50. PMID 11661661.
- 1 2 McHughen A, Smyth S (2008). "US regulatory system for genetically modified [genetically modified organism (GMO), rDNA or transgenic] crop cultivars". Plant biotechnology journal. 6 (1): 2–12. doi:10.1111/j.1467-7652.2007.00300.x. PMID 17956539.
- ↑ Bull, A.T., Holt, G. and Lilly, M.D. (1982). Biotechnology : international trends and perspectives (PDF). Paris: Organisation for Economic Co-operation and Development.
- ↑ U.S. Office of Science and Technology Policy (1986). "Coordinated framework for regulation of biotechnology" (PDF). Fed Regist. 51 (123): 23302–50. PMID 11655807.
- ↑ "About the Protocol". Convention on Biological Diversity. Retrieved 2016-01-05.
- ↑ Redick, T.P. (2007). "The Cartagena Protocol on biosafety: Precautionary priority in biotech crop approvals and containment of commodities shipments, 2007". Colorado Journal of International Environmental Law and Policy. 18: 51–116.
- ↑ Virginia Kimani, Guillaume Gruère (2010). "Implications of Import Regulations and Information Requirements under the Cartagena Protocol on Biosafety for GM Commodities in Kenya". AgBioForum. 13 (3): 222–241. Retrieved 2016-01-05.
- 1 2 Czarnak-Klos, Marta et al (2010) Best Practice documents for coexistence of Genetically Modified Crops with Conventional and Organic Crops JRC, European Commission, Retrieved 13 October 2012
- ↑ EU caught in quandary over GMO animal feed imports The Guardian 7 December 2007 Archived December 8, 2007, at the Wayback Machine.
- ↑ Michael Baram. "Governance of GM Crop and Food Safety in the United States" pp 15-56 in Governing Risk in GM Agriculture, eds. Michael Baram, Mathilde Bourrier. Cambridge University Press 2011.
- ↑ Flynn, Dan (November 12, 2012). "AC21 Wants USDA to Investigate Crop Insurance for Genetic Harm To Organic Crops". Food Safety News.
- ↑ USDA Advisory Committee on Biotechnology and 21st Century Agriculture (AC21). November 19, 2012 ) Enhancing Coexistence: A Report of the AC21 to the Secretary of Agriculture
- 1 2 Bernhard A. Koch (ed.) [Liability and Compensation Schemes for Damage Resulting from the Presence of Genetically Modified Organisms in Non-GM Crops http://ec.europa.eu/agriculture/analysis/external/liability_gmo/full_text_en.pdf] April 2007, produced under contract from the European Commission.
- ↑ Jim Riddle, University of Minnesota Outreach Service. GMO Contamination Prevention: What Does It Take?
- ↑ Marta Czarnak-Kłos, Emilio Rodríguez-Cerezo, 2010. European Coexistence Bureau (ECoB) Best Practice Documents for coexistence of genetically modified crops with conventional and organic farming. 1. Maize crop production
- ↑ Canadian Supreme Court ruling. Scc.lexum.org.
- ↑ CT NOFA is the Connecticut Chapter of the Northeast Organic Farming Association Suing Monsanto: Intellectual Property, Genetic Contamination, and Farmers' Rights – Notice of 2011 talk being given
- ↑ Susan Audrey for Occupy Monsanto. February 10, 2012 Percy Schmeiser, The farmer who stood up to Monsanto
- ↑ McHughen A, Wager R. (2010) Popular misconceptions: agricultural biotechnology. N Biotechnol. 27(6):724-8. Epub 2010 Mar 30. Full Text
- ↑ Hannelore Sudermann for the Spokesman Review (Spokane, WA). October 14, 1999 Genetically Altered Wheat Flagged – Thailand Detects Shipment Not Cleared for Commercial Sales
- ↑ King D, Gordon A. Contaminant found in Taco Bell taco shells. Food safety coalition demands recall (press release), vol 2001. Washington, DC: Friends of the Earth, 2000. Available: http://www.foe.org/act/getacobellpr.html. 3 November 2001.
- ↑ Fulmer, Melinda (23 September 2000). "Taco Bell Recalls Shells That Used Bioengineered Corn". Los Angeles Times.
- ↑ Agricultural Biotechnology: Updated Benefit Estimates, Janet E. Carpenter and Leonard P. Gianessi 2001, National Center for Food and Agricultural Policy
- ↑ "Scientists play down 'superweed'" BBC, 25 July 2005 (source report)
- ↑ Marc Gunther for Fortune Magazine. July 2, 2007. Attack of the mutant rice
- ↑ "APHIS Report of LibertyLink Rice Incidents" (PDF). Retrieved 2013-05-30.
- ↑ Watrud LS, Lee EH, Fairbrother A, Burdick C, Reichman JR, Bollman M, Storm M, King G, Van de Water PK (October 2004). "Evidence for landscape-level, pollen-mediated gene flow from genetically modified creeping bentgrass with CP4 EPSPS as a marker". Proc. Natl. Acad. Sci. U.S.A. 101 (40): 14533–8. Bibcode:2004PNAS..10114533W. doi:10.1073/pnas.0405154101. PMC 521937. PMID 15448206.
- ↑ Hamer, Ed; Anslow, Mark (1 March 2008). "10 reasons why organic can feed the world". Ecologist.
- ↑ GMO Compass. 5 June 2009 Mexico: controlled cultivation of genetically modified maize
- ↑ Mike Shanahan for Science and Development Network, 10 November 2004. Warning issued on GM maize imported to Mexico - SciDev.Net
- ↑ Katie Mantell for Science and Development Network, 30 November 2001 GM maize found ‘contaminating’ wild strains - SciDev.Net
- ↑ Quist D, Chapela IH (November 2001). "Transgenic DNA introgressed into traditional maize landraces in Oaxaca, Mexico". Nature. 414 (6863): 541–3. Bibcode:2001Natur.414..541Q. doi:10.1038/35107068. PMID 11734853.
- ↑ Kaplinsky N, Braun D, Lisch D, Hay A, Hake S, Freeling M (April 2002). "Biodiversity (Communications arising): maize transgene results in Mexico are artefacts". Nature. 416 (6881): 601–2; discussion 600, 602. Bibcode:2002Natur.416..601K. doi:10.1038/nature739. PMID 11935145.
- ↑ Ortiz-Garcia, S. (2005). "Absence of detectable transgenes in local landraces of maize in Oaxaca, Mexico (2003-2004)". Proceedings of the National Academy of Sciences. 102 (35): 12338–43. Bibcode:2005PNAS..10212338O. doi:10.1073/pnas.0503356102. PMC 1184035. PMID 16093316.
- ↑ Piñeyro-Nelson A, Van Heerwaarden J, Perales HR, Serratos-Hernández JA, Rangel A, Hufford MB, Gepts P, Garay-Arroyo A, Rivera-Bustamante R, Alvarez-Buylla ER (February 2009). "Transgenes in Mexican maize: molecular evidence and methodological considerations for GMO detection in landrace populations". Mol. Ecol. 18 (4): 750–61. doi:10.1111/j.1365-294X.2008.03993.x. PMC 3001031. PMID 19143938.
- ↑ "First Wild Canola Plants With Modified Genes Found in United States". Arkansas Newswire. University of Arkansas. 6 August 2010. Retrieved 10 October 2012.
- ↑ Genetically Modified Canola 'Escapes' Farm Fields. NPR. Retrieved 8 February 2011.
- ↑ Black, Richard. (2010-08-06) BBC News – GM plants 'established in the wild'. Bbc.co.uk. Retrieved 8 February 2011.
- ↑ Eisberg, Neil GM crops are on the move Chemistry and Industry Ten Alps Publishing 7 November 2011 HighBeam Research accessed 7 July 2012
- ↑ William Neuman; Andrew Pollack (May 3, 2010). "Farmers Cope With Roundup-Resistant Weeds". New York times.
- ↑ Report by the US National Academies "Genetically Engineered Crops Benefit Many Farmers, but the Technology Needs proper Management to Remain Effective" – press release on the report "The Impact of Genetically Engineered Crops on Farm Sustainability in the United States" Office of News and Public Information, News from the Academies, 13 April 2010. Retrieved 11 October 2010.
- ↑ "Biotech Crops Are Good For Earth, Report Finds". Npr.org. 2010-04-13. Retrieved 2013-05-30.
- 1 2 3 Paull, John (2015) GMOs and organic agriculture: Six lessons from Australia, Agriculture & Forestry, 61(1): 7-14.
- 1 2 Andy Coghlan (June 3, 2013). "Monsanto modified wheat mystery deepens in Oregon". New Scientist.
- ↑ Alan Bjerga (May 29, 2013). "Monsanto Modified Wheat Not Approved by USDA Found in Field". Bloomberg News.
- 1 2 Andrew Pollack (May 29, 2013). "Modified Wheat Is Discovered in Oregon". New York Times.(subscription required)
- ↑ Ian Berry (June 21, 2013). "Monsanto Says Sabotage Is Likely in Wheat Case". Wall Street Journal. Retrieved June 23, 2013.
- ↑ Reuters (May 29, 2013). "Unapproved Monsanto GMO Wheat Found in Oregon". CNBC. Retrieved May 30, 2013.
- ↑ Melissa Allison (June 20, 2013). "Wheat scare leaves farmers in limbo". Seattle Times.
- ↑ Melissa Allison (June 1, 2013). "Japan's wheat-import suspension worries state growers". Seattle Times. Retrieved June 5, 2013.
- ↑ Staff (June 17, 2013). "GMO Wheat Found in Oregon Was Isolated Incident, Says USDA". Food Safety News.
- ↑ Associated Press (August 30, 2013). "Source of GMO wheat in Oregon remains mystery".
- ↑ Paull, John (2015) The threat of genetically modified organisms (GMOs) to organic agriculture: A case study update, Agriculture & Food, 3: 56-63.
External links
- Co-Extra – EU research programme on co-existence and traceability along the whole production chain
- SIGMEA – EU research programme on co-existence in agriculture
- Transcontainer – EU research programme on biological containment systems for genetically modified plants
- GMO-Compass – facts, numbers, and news about GM crops in Europe
- Research projects: Biological confinement of new genes - methods for containing the spread of genetically modified plants