Embed or link this publication
Popular Pages
p. 1
fact sheets on genetically modified organisms no 1 no 2 no 3 no 4 flaws in the eu authorisation process for gmos facts and figures about genetically modified organisms environmental and health impacts of gmos the evidence the social and economic impacts of gmos[close]
p. 2
flaws in the eu authorisation process for gmos there exists a fundamental problem in the process by which gmos are assessed for safety and authorisation in europe scientific opinions provided by a single organisation the european food safety authority efsa are translated into decisions with no broader consideration of societal or economic arguments for and against the introduction of gmo crops and products into europe this situation contravenes eu legal requirements for a broad consideration of a gm product s risks and impacts uncertainty armed with this broader set of data it must take a decision as ec regulation 178/2002 states it is recognised that scientific risk assessment alone cannot in some cases provide all the information on which a risk management decision should be based and that other factors relevant to the matter under consideration should legitimately be taken into account including societal economic traditional ethical and environmental factors and the feasibility of controls 3 there is no evidence to suggest that the european commission currently takes these `other factors into account risk assessment versus risk management efsa s founding regulation articulates the distinction between risk management and risk assessment the commission asked efsa april 2006 ip/06/498 to provide more detailed justification in its opinions on individual applications for not accepting scientific objections raised by the national competent authorities and to address more explicitly potential long-term effects and bio-diversity issues in their risk assessments for the placing on the market of gmos duty to follow predominant position risk assessment is efsa s task it coordinates scientific committees which provide advice to decision-makers1 risk management in contrast is the job of the european commission to make a decision it should consult experts including efsa but also national authorities the european group on ethics in science and new technologies and other stakeholders `risk management means the process distinct from risk assessment of weighing policy alternatives in consultation with interested parties considering risk assessment and other legitimate factors and if need be selecting appropriate prevention and control options 2 the european commission pledged in 1999 to act in such a way as to avoid going against any predominant position which might emerge within the council against the appropriateness of an implementing measure 4 in fact the council has consistently questioned the safety and usefulness of the gm products submitted for authorisation and has voted against the commission s positive proposals never have member states given majority backing to a gmo for marketing or cultivation in europe by approving every gmo application to date the commission has consistently disregarded its pledge to respect a `predominant position within the council at present efsa s decisions form the sole basis for eu authorisations of gmos all positive decisions to date european food safety authority efsa risk assessments efsa must also bear its share of the blame as it too has violated obligations · socio-economic factors must be considered the european commission is obliged under eu law to consider other available scientific evidence socioeconomic implications and scientific over 20 member states criticised efsa for failing to conduct long-term evaluations of gmos and for ignoring member states comments and concerns environment council 9 march 2006 by not requesting that gmo producers submit any data on the long-term effects of gm products for which they seek eu authorisation efsa has failed to identify and evaluate cumulative long-term effects of gmos as[close]
p. 3
figure 1 authorisation process according to eu law · data submitted by applicant company required under directive 2001/18 and regulation 178/20025 despite a legal requirement to consider diverging scientific opinions [reg 178/2002]6 there is no evidence that the efsa has given due consideration to differences between the scientific opinions of member states competent authorities and those of its own gmo panel efsa is supposed to identify areas of scientific uncertainty [comm decision 2002/623 reg 178/2002]7 but in practice efsa does not do so failing to acknowledge that uncertainty exists compromises the ability of risk managers commission and member states to make informed decisions in the public interest pu blic opinion ethical factors ms competent authority opinion efsa opinion independent scientifi c studies socioeconomic impacts · scientifi c uncertainty feasibility of controls precautionary principle european commission risk manager proper assessment of gmos would include a study of direct indirect cumulative and long-term effects of gmos on the environment and on health taking into account various stress conditions and different regional environments council of ministers conclusion final decision efsa was not set up to rubber-stamp gmo applications from agro-chemical firms efsa must respect eu law and strictly follow the prescribed procedures the commission must perform its role as risk manager and consider other available scientific evidence socio-economic implications and scientific uncertainty figure 2 current process data submitted by applicant company references pu blic opinion ethical factors ms competent authority opinion efsa opinion independent scientifi c studies socioeconomic impacts 1 efsa executive director catherine geslain-lanéelle says the role of efsa is to advise european union risk managers on the safety of gmos efsa s experts make an independent scientific assessment of gmo applications it is then up to member states and the european commission to decide whether or not to authorise a specific gmo http www.efsa.europa.eu/efsa/news_pr/pr_gmo_en,0.pdf 2 regulation 178/2002 establishing the european food safety authority article 31 n.12 3 regulation 178/2002 recital 19 4 european commission declarations on council decision 1999/468/ec of 28 june 1999 laying down the procedures for the exercise of implementing powers conferred on the commission 1999/c 203/01 5 see directive 2001/18/ec on the deliberate release of gmos annex ii as well as regulation 178/2002 establishing the european food safety authority article 144 6 regulation 178/2002 article 304 where a substantive divergence over scientific issues has been identified and the body in question is a member state body the authority and the national body shall be obliged to cooperate with a view to either resolving the divergence or preparing a joint document clarifying the contentious scientific issues and identifying the relevant uncertainties in the data this document shall be made public 7 regulation 178/2002 article 71 in specific circumstances where following an assessment of available information the possibility of harmful effects on health is identified but scientific uncertainty persists provisional risk management measures necessary to ensure the high level of health protection chosen in the community may be adopted pending further scientific information for a more comprehensive risk assessment scientifi c uncertainty feasibility of controls precautionary principle european commission risk manager council of ministers final decision efsa opinion april 2008 greenpeace european unit www.greenpeace.eu[close]
p. 4
facts and figures about genetically modified organisms every year an organisation funded by the genetic engineering industry called the international service for the acquisition of agri-biotech applications isaaa publishes new figures and highlights the increase in the acreage of land planted with genetically modified organisms gmos across the world1 these are the facts that the isaaa does not put in its press release 92 of arable land around the world is gmo free only four countries grow almost 90 of the total gm crops 176 out of the 192 countries grow no gmos at all in over 10 years on the market only four gm crops are grown in significant quantity soya maize cotton and oil-seed rape canola these four crops represent 99 of gmos sold virtually 100 of world acreage planted with commercial gm crops have one or both of just two traits herbicide-tolerance and insectresistance monsanto sells more than 90 of all gm seeds worldwide in recent years it has stopped selling or developing gm wheat tomatoes potatoes and bananas it has given up trying to sell gmos direct to the public and now focuses on commodity crops which go straight from farmer to industrial processor a decade after gm maize was first marketed six of the world s top 10 maize producing countries are 100 gm-free even in the us gm maize represents less than half of all maize grown worldwide just 7.5 of farmland is planted with 1 gmos the world map in the isaaa report shows countries where up to 50,000 hectares are planted with gmos failing to indicate that most of these countries plant only a few hundred hectares claims that europe is alone in not planting gm crops are patently inaccurate in europe isaaa stated a 77 increase in cultivation of gmos in 2007 still only 0.119 of agricultural land was planted with such crops this is how a very small increase in acreage can be made to look like enormous progress for comparison in 2006 organic farmland represented 4 of eu agricultural land covering an area larger than 6.8 million hectares managed by over 170,000 farms with these poor results is it any surprise that us government representatives and agro-chemical lobbyists are putting such pressure on europe and developing countries to accept gmos the power of public relations over fact in its heavily promoted reports the isaaa assumes that the entire population of any country where gmos are grown benefits from gm crops it calculates for example that 80 million people in germany the total population benefit from gmo 2 crops even though the 43km of german soil planted with gmos could barely support 8,000 people let alone 80 million claims that gm crops increase yields are similarly exaggerated the gm crops currently commercialised are either tolerant to herbicides or insect resistant herbicide-tolerant crops do not increase yields the four countries that grow 90 of gmos worldwide are the us 53 argentina 18 brazil 11.5 and canada 6.1 almost all gm crops currently released belong to four companies monsanto dupont syngenta and bayer.[close]
p. 5
insect-resistant gm crops may increase yields in years of high infestation by the target pest but this leads pests to develop resistance in the medium and longer term studies in europe found that yield depend on 2 the crop variety rather than on the genetic modification applied studies have also found lower yields from gm insect-resistant maize compared to conventional non-gm maize neither does planting gm crops reduce the use of chemical pesticides on farmland despite what agrobiotechnological companies claim in fact from 1996 to 2004 parallel to increasing cultivation of gm crops in the us there was an observed 55,000 kg increase in 3 pesticide use a 4.1 rise the target pest insects will inevitably develop 4 resistance to the pesticides produced by gm crops this will oblige farmers to apply both greater quantities and additional varieties of insecticide in the coming years the main beneficiaries then become the companies that make pesticides which are often the same companies that make gmos any perceived benefits of gm crops such as increased yields in occasional years and reduced insecticide usage are thus short-lived meanwhile various scientific studies have concluded serious and valid concerns on the effects of these crops on `non-target organisms such as butterflies and predators of the target pests recently the international assessment of agricultural 5 science and technology for development brought together 400 scientists un agencies governments non-governmental organisations industry and farmer associations across the globe for a four-year scientific project this is the equivalent for agriculture as is the ipcc report for climate change the synthesis report endorsed by 60 governments concludes that genetically modified crops are not a solution for poverty hunger or climate change references 1 james clive 2007.global status of commercialized biotech gm crops 2007 isaaa brief no 37.executive summary.isaaa ithaca ny.http www.isaaa.org 2 ma b.l subedi k.d.2005 development yield,grain moisture and nitrogen uptake of bt corn hybrids and their conventional nearisolines field crops research 93:199211 3 benbrook charles m 2004 genetically engineered crops and pesticide use in the united states the first nine years biotech infonet technical paper number 7 october 2004 39-40 4 tabashnik b.e gassmann a.j crowder d.w &carrière y 2008 insect resistance to bt crops evidence versustheory nature biotechnology 26 199-202 5 international assessment of agricultural science andtechnology for development iaastd 2008 synthesis report executive summary.http www.agassessment.org april 2008 greenpeace european unit www.greenpeace.eu[close]
p. 6
environmental and health impacts of gmos the evidence effects on biodiversity the environmental effects of genetically engineered crops designed to resist insect pests and herbicides are well documented they are as follows insect-resistant crops kill specific pests known to threaten the crop in addition to their intended deadly effects they are also · · agricultural wastes from bt maize have been identified entering water courses where the bt 21 toxin might be toxic to certain insects this demonstrates the complexity of interactions in the natural environment and underlines the shortcomings of the risk assessment bt maize is more susceptible to a plant lice aphid than conventional maize caused by changes in sap chemistry these changes have not been described in a single application to market bt maize but have important ecological implications this demonstrates that plant-insect interactions are too complex to be assessed by the risk assessment · toxic effects of herbicides on ecosystems roundup the herbicide sold by monsanto in conjunction with its roundup ready gm crops has been shown to be a potential endocrine disrupter i.e could interfere · toxic to other beneficial insects 22 with hormones it is also toxic gm maize mon810 is intended to genetically engineered bt crops to frog larvaetadpoles23 prevent the need for three adversely affect7 insects that are applications of insecticide yet this important in the natural control · increased weed tolerance to and other bt maize varieties of maize pests such as green herbicide evolution of weed 8 9 10 11 continuously release a toxin into in the eu as lacewings resistance to roundup is now a the environment in quantities 3elsewhere environmental risk serious problem in the us and 5,000 times higher than sprays used assessment for bt crops other places where roundup for non-gm farming considers direct acute toxicity ready crops are grown on a alone and not effects on large scale24 25 26 27 increasing organisms higher up the food chain these effects amounts of herbicide have to be used to control can be important the toxic effects of bt crops on these weeds28 or else additional herbicides have to 29 lacewings were via the prey that they ate the be used to supplement roundup `single-tier risk assessment approach has been widely criticised with scientists suggesting that · loss of weeds and other biodiversity a uk the effects of bt crops need to be studied at government study found there were 24 fewer multiple levels of the food web12 13 14 15 butterflies in the margins of gm oil-seed rape canola fields because there were fewer weed · a threat to soil ecosystems many bt crops secrete flowers and hence nectar for them to feed on30 16 the toxin from the root into the soil residues left in addition there were fewer seeds for birds from 31 32 33 in the field contain the active bt toxin17 18 19 the ht maize only oil-seed rape and sugar beet long-term cumulative effects of growing bt maize compared favourably in terms of impacts on have not been considered in a european context biodiversity to maize treated with the herbicide even though this is required under eu law atrazine which is now banned in the eu 20 directive 2001/18 · reduction in soil bacteria the use of herbicides in addition to the above risk assessments to date have on gm soy leads to reduced amounts of beneficial 34 35 failed to foresee at least two other impacts of bt maize nitrogen-fixing bacteria · toxic to `non-target organisms such as butterflies long-term exposure to pollen from gm maize that expresses the bacillus thuringiensis bt toxin has been found to cause adverse effects on the behaviour1 and survival2 of the monarch butterfly the best-known of all north american butterflies effects on european butterflies are virtually unknown as few studies have been conducted those few do however suggest cause for concern that european butterflies would suffer as a result of insect-resistant gm crop 3 4 5 6 being planted herbicide tolerant ht crops are associated with:[close]
p. 7
effects on health independent studies on the wholesomeness of gm crops for either animals or humans are severely lacking from scientific literature36 37 38 39 almost all gmos commercialised in the world either produce or tolerate pesticides yet while pesticides are tested over two-year periods prior to approval in europe the longest safety tests for gmos are 90 days including pesticide-producing gm plants sir david king the uk government s former chief scientist was forced in december 2007 to admit he had been mistaken to claim that improved crop yields in africa were due to gm plants they weren t the project he described used a sophisticated pest control and crop management technique that involved neither gmos nor pesticides we simply do not know if gm crops are safe for animal or human consumption because long-term studies have seldom been performed this is reflected by the ongoing controversy surrounding their safety assessment the dispute over the pesticide-producing bt maize mon863 for example arose from concerns 40 expressed by independent scientists over observed differences in animal feed trials rather than admitting uncertainty concerning the food safety of mon863 41 and carrying out further research efsa and the 42 biotechnology industry have used their efforts to try to refute the significance of these findings it is ungrounded and misleading to argue that gmos must be harmless to health on the grounds that people living in the us have been consuming them for 10 years and no visible damage has been observed there has not been a study on this specific matter what is not in doubt is that gm crops have the potential to cause allergenic reactions more so than conventional breeding43 44 during a long-term field trial in australia for example gm peas were found to 45 cause allergenic reactions in mice eating the gm peas also made the mice more sensitive to other food allergies 1 prasifka p.l hellmich r.l prasifka j.r lewis l.c 2007 effects of cry1ab-expressing corn anthers on the movement of monarch butterfly larvae environ entomolology 36:228-33 2 dively g.p rose sears m.k hellmich r.l r stanley-horn d.e calvin d.d russo j.m anderson p.l 2004 effects on monarch butterfly larvae lepidoptera danaidae after continuous exposure to cry1ab expressing corn during anthesis environmental entomology 33 1116-1125 3 lang a vojtech e 2006 the effects of pollen consumption of transgenic bt maize on the common swallowtail papilio machaon l lepidoptera papilionidae basic and applied ecology 7 296 306 4 darvas b lauber e polga´r a peregovits l ronkay l juracsek et al 2004 nonl j target effects of dk-440-bty yieldgard bt-corn first hungariantaiwanese entomological symposium 1112 october 2004 budapest hungarian national history museum p 5 5 felke v.m langenbruch,g.a 2003 wirkung von bt-mais-pollen auf raupen des tagpfauenauges im laborversuch effect of bt-maize-pollen on caterpillars of inachis io in a laboratory assay gesunde pflanzen 55 1-7 6 felke m lorenz n langenbruch g-a 2002 laboratorystudies on the effects of pollen from bt-maize on larvae of some butterfly species journal of applied entomology 126 320 325 7 obrist l.b dutton a romeis j bigler f 2006 biological activity cry1ab toxin of expressed by bt maize following ingestion by herbivorous arthropods and exposure of the predator chrysoperla carnea biocontrol 51 31-48 8 andow d.a and a.hilbeck 2004 science-based risk assessment for non-target effects of transgenic crops bioscience 54 637-649 9 obrist l.b dutton a romeis j bigler f 2006 biological activity cry1ab toxin of expressed by bt maize following ingestion by herbivorous arthropods and exposure of the predator chrysoperla carnea biocontrol 51 31-48 10 harwood j.d wallin w.g obrycki j.j 2005 uptake of bt endotoxins by non-target herbivores and higher order arthropod predators molecular evidence from a transgenic corn agroecosystem molecular ecology 14 2815-2823 11 lövei g.l arpaia s 2005.the impact of transgenic plants on natural enemies a critical review of laboratory studies entomologia experimentalis et applicata 114 114 2005 12 andow d.a zwahlen c 2006 assessing environmental risks of transgenic plants ecology letters 9 196-214 13 snow a a andow,d.a gepts p hallerman e power a tiedje j m m references wolfenbarger,l.l 2005 genetically engineered organisms and the environment current status and recommendations ecological applications 15 377404 14 andow d.a a hilbeck 2004 science-based risk assessment for non-target effects of transgenic crops bioscience 54 637-649 15 knols b.g.j and m dicke 2003 crop assessment in the bt netherlands nature biotechnology 21 973-974 16 saxena d flores,s stotzky g.2002 bt toxin is released in root exudates from 12 transgenic corn hybrids representing three transformation events soil biology and biochemistry 34 133-137 17 flores s saxena d stotzky,g 2005 transgenic bt plants decompose less in soil than non-bt plants soil biology and biochemistry 37 1073-1082 18 stotzky g 2004 persistence and biological activity in soil of the insecticidal proteins from bacillus thuringiensis especially from transgenic plants plant and soil 266 77-89 19 zwahlen c hilbeck a gugerli p nentwig w 2003 degradation of the cry1ab protein within transgenic bacillus thuringiensis corn tissue in the field molecular ecology 12 765-775 20 directive 2001/18/ec on the deliberate release into the environment of genetically modified organisms see recital 19 recital 20 and annex ii a general principle for environmental risk assessment is also that an analysis of the .cumulative long-term effects relevant to the release and the placing on the market is to be carried out cumulative long-term effects refers to the accumulated effects of consents on human health and the environment including inter alia flora and fauna soil fertility oil degradation of organic material the feed/food chain biological diversity animal health and resistance problems in relation to antibiotics 21 rosi-marshall e.j tank j.l royer t.v whiles m.r evans-white chambers c m griffiths n.a pokelsek j stephen m.l 2007 toxins intransgenic crop byproducts may affect headwater stream ecosystems proceedings national academy sciences 41 16204 16208 22 richard s moslemi s sipahutar benachour n &seralini g-e 2005.differential h effects of glyphosate and roundup on human placental cells and aromatase environmental health perspectives 113 716720 23 relyea r.a 2005 theimpact of insecticides and herbicides on the biodiversity and productivity of aquatic communities ecological applications 15 618-627 relyea r.a 2005 the lethal impact of roundup on aquatic terrestrial amphibians ecological applications 15 11181124 relyea r.a schoeppner n.m hoverman j.t 2005 pesticides and amphibians the importance of community context ecological applications 15 11251134 24 roy b.a 2004.rounding up the costs and benefits of herbicide use proceedings of the national academy of sciences 101 13974-13975 25 baucom r.s mauricio r 2004 fitness costs and benefis of novel herbicide tolerance t in a noxious weed proceedings of the national academy of sciences 101 1338613390 26 vitta j.i tuesca,d puricelli e 2004 widespread use of glyphosate tolerant soybean and weed community richness in argentina agriculture ecosystems and environment 103 621624 27 nandula v.k reddy k.n duke s.o poston,d.h 2005 glyphosate-resistant weeds current status and future outlook outlooks on pest management august 2005 183-187 28 duke s.o.2005 taking stock of herbicide-resistant cropsten years after introduction pest management science 61 211218 29 http farmindustrynews.com/mag/farming_saving_glyphosate/index.html 30 roy d.b bohan d a haughton a hill m o osborne j l clark s j perry j n j rothery p scott r j brooks d r champion t hawes c heard m s firbank l g g 2003 invertebrates and vegetation of field margins adjacent to crops subject to contrasting herbicide regimes in the farm scale evaluations of genetically modified herbicide-tolerant crops the royal society philosophical transactions b 358 18791898 31 heard m.s et al 2003 weeds in fields with contrasting conventional and genetically modified herbicide-tolerant crops i effects on abundance and diversity philosophical transactions of the royal society london b 358 18191832 32 firbank l.g et al 2006 effects of genetically modified herbicide-tolerant cropping systems on weed seedbanks in two years of following crops biology letters 2 140-143 33 bohan d.a etal 2005 effects on weed and invertebrate abundance anddiversity of herbicide management in genetically modified herbicide-tolerant winter-sown oilseed rape journal proceedings of the royal society b biological sciences 272 doi 10.1098/rspb.2004.3049 34 king c.a purcell l.c vories e.d 2001 plant growth and nitrogenase activity of glyphosate-tolerant soybean in response to foliar glyphosate applications agronomy journal 93 179186 35 zablotowicz r.m reddy k.n.2004 impact of glyphosate on the bradyrhizobium japonicum symbiosis with glyphosate-resistant transgenic soybean a minireview journal of environmental quality 33 825831 36 vain p 2007 trends in gm crop food and feed safety literature nature biotechnology correspondence 25 624-626 37 domingo j.l 2007 toxicity studies of genetically modified plants a review of the published literature critical reviews in food science and nutrition 47:8 721 733 38 pryme i.f &lembcke r 2003 in vivostudies on possible health consequences of genetically modified food and feed with particular regard to ingredients consisting of genetically modified plant materials nutrition and health 17 1-8 39 brown p wilson k.a jonker nickson t.e 2003 glyphosate tolerant canola meal y is equivalent to the parental line in diets fed to rainbow trout journal of agricultural food and chemistry 51 4268-4272 40 séralini g.e cellier d de vendomois j s 2007 new analysis of a rat feeding study with a genetically modified maize reveals signs of hepatorenal toxicity archives of environmental contamination toxicolcology,52 596-602 41 efsa 2007 efsa review of statistical analyses conducted for the assessment of the mon 863 90-day rat feeding study http www.efsa.europa.eu/en/science/scientific_reports/statistical_analyses_mon863.html 42 doull j gaylor d greim h.a lovell d.p lynch b munro i.c 2007 report of an expert panel on the reanalysis by seralini et al 2007 of a 90-day study conducted by monsanto in support of the safety of a genetically modified corn variety mon 863 food and chemical toxicology 45 20732085 43 bernstein j.a et al 2003 clinical and laboratoryinvestigation of allergy to genetically modified foods environmental health perspectives 111:11141121 44 freese w schubert d 2004 safety testing and regulation of genetically engineered foods biotechnology and genetic engineering reviews 21 229-324 45 prescott v.e campbell p.m moore a mattes j rothenberg m.e foster higgins p.s t.j.v hogan s.p 2005.transgenic expression of bean alpha-amylase inhibitor in peas results in altered structure and immunogenicity.journal of agricultural food chemistry 53 90239030 april 2008 greenpeace european unit www.greenpeace.eu[close]
p. 8
the social and economic impacts of gmos companies that develop and sell genetically engineered seeds say that everyone from rich to poor farmer consumer or industrialist benefits from their crops a brief look beyond the hype and promotional brochures would tell a different story 10 lower yield than equivalent conventional 5 varieties meanwhile researchers have been trialling droughttolerant and disease-resistant pearl millet varieties developed through marker-assisted selection6 pearl millet is an important subsistence crop for millions of farmers in agriculturally marginal areas in the 11 years since gm crops entered the market scientists in the philippines are using marker-assisted conventional and organic crops have been repeatedly selection to develop a non-gm rice that can tolerate contaminated with gmos and farmers have paid the several days complete submersion for example during price 7 contaminated crops demand a lower price than flash floods conventional or organic crops in brazil in 2007 scientists say the greatest hope to conventional soya was contaminated 1 develop new crop varieties to with up to 9 gmos but there meet future challenges of was no compensation for the seeking a technological food fix for increased salinity drought and farmers affected practically no world hunger may be the most other problems is expected to be country in the world has a law commercially malevolent wild goose through conventional plant ensuring that gmo producers or chase of the new century breeding and marker-assisted growers are held liable for genetic dr richard horton editor-in-chief selection techniques contamination of the lancet new gm crops do not reduce farmers reliance on pesticides and herbicides ecological systems cannot be fooled if a pest or weed species is removed from the food web another moves in to replace it in india in 2007 the cotton harvest was either not effective against indian cotton pests or devastated by a `secondary pest that was not deterred by the bt toxin in gm cotton planted this meant that farmers who had paid premium prices for the gm bt cotton seeds had if they could afford it to apply extra pesticides to combat this secondary pest in the first nine months of 2007 over 800 cotton farmers in india committed suicide deeply in debt and in despair at not 2 being able to provide for their families no commercially-available gm plant developed to date has increased yield enhanced nutritional qualities can resist drought or is salt tolerant insect-resistant cotton has a poor performance record in many parts of the world particularly during extremes of temperature experienced in china and 3 australia in argentina average cotton yields were higher from 1987-96 the decade before gm cotton 4 was introduced than they have been since studies of roundup ready soya the most widely planted gm crop suggest that it has on average 5farmers are taken to court if they save seeds for replanting monsanto sues several hundred us farmers a year for saving seeds collected from its gm plants in court judgements farmers have been forced to pay monsanto over $21 million a much larger amount of money up $160 million is estimated to have been paid in out-of-court settlements8 gm crops do not solve hunger or poverty soya and cotton the most widely planted gm crops are grown on industrial-scale farms for export to rich countries as animal feed and fibre they do not address rural poverty and hunger either at source or destination on the contrary large scale gm plantations threaten production of staple food crops and local livelihoods9 industrial-scale farming develops at the expense of small farms growing diverse produce for local needs the percentage of the population living in poverty in paraguay which has seen a rapid expansion in the cultivation of gm soya rose from 33.9 to 39.2 10 between 2000 and 2005 soya plantations now cover more than half of cropland and 90 of this is genetically modified up to 100,000 small farmers have been evicted from their lands since the start of the soya boom in paraguay.[close]
p. 9
countries that refrain from planting gm crops are subject to undue pressure after zambia rejected america s surplus gm maize as food aid in 2002 a us ambassador said the country s leaders should be tried for the highest 11 crimes against humanity three years later the drought-stricken country reported record maize harvests with an export surplus no gmos have been grown12 in brazil in october 2007 security guards employed by the agrochemical firm syngenta shot dead a member of the landless rural workers movement mst during a protest at a biotech crops research facility13 growing consolidation threatens choice and pushes up prices in 2006 the top 10 seed firms controlled 20 more of the seed supply 57 than they had done just 10 years earlier14 rising prices due to consolidation combined with reduced variety are cutting choices available to farmers four companies monsanto dupont-pioneer syngenta and bayer sell 41 of commercial seeds globally monsanto has a virtual monopoly its gm traits are found in 86 of biotech crops globally recently the un conducted the international assessment of agricultural science and technology 15 for development this is the equivalent for agriculture as is the ipcc report for climate change the un synthesis report concludes that genetically engineered crops are not a solution for poverty hunger or climate change growing or importing gm crops does not reduce food and animal feed prices it is widely acknowledged including by the united nations food and agriculture organisation fao that a combination of many factors lead to the increase in food and feed prices these factors include overall increased demand poor weather conditions and the rapid expansion of agrofuels also known as biofuels price increases have occurred across the globe even in the us with the most permissive gm regulation the rising prices are unrelated to gm crops references 1 central de associaçoes da agricultura familiar do oeste de parana 2007 coexistencia imposible contaminaçao genética na produçâo de soja no brasil documento enviado a ctnbio e aos ministeros integrantes do conselho nacional de biossegurança 2 kranthi k.r et al 2005 temporal and intra-plant variability of cry1ac expression in bt-cotton and its influence on the survival of the cotton bollworm helicoverpa armigera hübner noctuidae lepidoptera current science 89 291-298 petition to indian prime minister from participants in mass candlelight vigil on october 2nd 2007 to support indian farmers and agriculture http petitions.aidindia.org/october2/demands.php http timesofindia.indiatimes.com/articleshow/2047898.cms 3 chen d ye g yang c chen y wu y 2005 the effectof high temperature on the insecticidal properties of bt cotton environmental and experimental botany 53 333342 olsen k.m daly j.c finnegan e.j mahonr r.j 2005 changes in cry1ac bt transgenic cotton in response to two environmental factors temperature and insect damage journal of economic entomology 98 1382-1390 4 based on data from faostat prodstat and crops,subject yields commodity cotton lint year 1986-2006 last accessed 2 december 2007 5 elmore r.w roeth f w nelson l.a shapiro c.a klein r.n knezevic s.z martin a 2001 glyphosate-resistant soybean cultivar yields compared with sister lines agronomy journal 93 408-412 6 howarth c.j yadav r.s 2002 successful marker assisted selection for drought tolerance and disease resistance in pearl millet iger innovations http www.iger.bbsrc.ac.uk/publications/innovations/in2002/ch3.pdf 7 xu k et al 2006 sub1a is an ethylene-response-factor-like gene that confers submergence tolerance to rice nature 442 705-708 8 center for food safety 2007 `monsanto vs u.s farmers update http www.centerforfoodsafety.org/pubs/monsanto%20november%2020 07%20update.pdf 9 report prepared by coalition of civil society groups mesa de concertación para el desarrollo rural sostenible presented at a un meeting in november 2007 `cumplimiento del pidesc en paraguay 2000-2006 uso indiscriminado de agrotóxicos en paraguay atropello a los derechos económicos sociales y culturales de comunidades campesinas e indígenas www2.ohchr.org/english/bodies/cescr/docs info-ngos/descmesadrs1_sp.doc 10 ibid and la nación 14 november 2007 http www.lanacion.com.py 11 http www.hoover.org/publications/digest/3058141.html 12 ips news `maize production almost a success story 1 feb 2007 by isabel chimangeni http www.ipsnews.net/news.asp?idnews=36398 13 the independent http www.independent.co.uk/news/world/americas/brazilian-landactivist-killed-in-dispute-over-experimental-gm-farm-399021.html 14 etc group `the world s top 10 seed companies http www.etcgroup.org/en/materials/publications.html?pub_id=615 15 international assessment of agricultural science and technology for development iaastd 2008 http www.agassessment.org april 2008 greenpeace european unit www.greenpeace.eu greenpeace campaigns for gm-free crop and food production that is grounded in the principles of sustainability protection of biodiversity and providing all people with access to safe and nutritious food genetic engineering of crops is an unnecessary and unwanted technology that contaminates the environment threatens biodiversity and poses unacceptable risks to health we are not opposed to biotechnology in itself nor to the use of genetic engineering for the development of medicines or in other research processes,however greenpeace opposes the release of genetically engineered crops into the environment.[close]
Tags
Comments
no comments yet