[Ngo-sanrm] Fw: 2, 4-D Leads the Way in New Wave of Herbicide-Resistant Crops

Sustainable Agriculture and Natural Resources Management Working Group ngo-sanrm at ngocentre.org.vn
Wed Mar 5 00:54:04 GMT 2014



 
===============================
Chuck Palazzo
Agent Orange Action Group
http://aoag.org/
Chapter 160, Hoa Binh, Veterans For Peace
http://vfp-vn.ning.com/

chuck_pal at yahoo.com
================================




On Tuesday, March 4, 2014 9:29 AM, TWN Biosafety Info <news at biosafety-info.net> wrote:
 
Title : 2,4-D Leads the Way in New Wave of Herbicide-Resistant Crops
Date : 03 March 2014

Contents: 

THIRD WORLD NETWORK BIOSAFETY INFORMATION SERVICE
 
Dear Friends and Colleagues 
Re: 2,4-D Leads the Way in New Wave of Herbicide-Resistant Crops
As a result of over a decade of the widespread spraying of glyphosate (or Roundup) accompanying the cultivation of crops genetically engineered to resist the herbicide, ‘superweeds’ with the same resistance are now a huge problem in North America. 
In a bid to address this, Dow AgroSciences has applied to the US Department of Agriculture to approve soybeans and corn genetically engineered to resist other herbicides such as 2,4-D which was one of the main ingredients in Agent Orange, used in the Vietnam War. If approved, these crops will increase the use of 2,4-D substantially, with resulting risks to human health and the environment. 
Testbiotech has released a detailed report on “The risks of the herbicide 2,4-D” citing scientific studies.  It raises grave concerns over the level of highly toxic dioxins and furans that will be in the 2,4-D mixtures sold. These are known human carcinogens and endocrine disruptors which persist in the environment and accumulate in the food chain. The report makes several demands starting with the cessation of the expansion of herbicide-resistant GE crops.
The Publishers’ Foreword and Summary are reproduced below while the full report can be downloaded from: www.testbiotech.org/sites/.../Risks%20of%20herbicide%202_4-D_0.pdf‎
 
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THE RISKS OF THE HERBICIDE 2,4-D
Publishers´ Foreword
This is a detailed report on the herbicide 2,4-D. The background of this report is a steady increase of applications for genetically engineered herbicide resistant (also known as herbicide tolerant) plants for import into the EU that mirrors an increased interest in the cultivation of plants with resistance against the herbicide 2,4-D and others in regions as such the US, Brazil and Argentina. More than ten years into the large-scale cultivation of genetically engineered plants that are mostly resistant to glyphosate, we are seeing a strong increase in herbicide resistant plants1 as well as in usage of glyphosate2. There are in addition strong indications of an increase in residues from spraying in the plants3. 
Looking at applications for genetically engineered plants currently pending in the EU4 and other parts of the world, it shows that plants are being engineered to be resistant to more and more herbicides. Many of the plants are engineered to be resistant to glyphosate, but we are also seeing applications for plants that are being made resistant to eight other herbicides or groups of herbicides such as glufosinate, AOPPs (also known as FOPs), dicamba, ALS inhibitors, imidazolinone, isoxaflutole, mesotrione and 2,4-D. Some of these herbicides are known to be toxic, for instance, glufosinate, quizalofop (group of AOPPs) and isoxaflutole. Some plants have been engineered to be resistant to several herbicides at once. 
As a result, we will see an increase in the load of residues in the food chain. The usage of dicamba in genetically engineered plants, for instance, requires higher maximum residue levels in the plants5 and will also increase the load of carcinogenic substances like formaldehyde6 which is one of the metabolites of dicamba. 
2,4-D is known from its use as an compound (together with 2,4,5-T) Agent Orange in the Vietnam War. At that time, the most visible detrimental effects on human health were caused by dioxin, which is a highly toxic byproduct.  Dioxin was classified a human carcinogen in 1997 by IARC after a long campaign by industry to stop the classification7. It is also capable of causing reproductive problems and damaging the immune system. As this report shows, high levels of dioxin can still be found in some 2,4-D mixtures. 
Furthermore, independent research is creating concerns about the risks of the active ingredient of 2,4- D for causing adverse effects in embryo development8, birth defects9 and endocrine disruption10, 11. The EU approval of 2,4-D is currently being revised and the food authority, EFSA, is carrying out a peer- review of the summary dossier prepared by German authorities. The DG SANCO standing committee will then decide on an extended approval.
There are particular concerns for users (such as farmers), rural communities and ecology in those regions where these plants are grown and sprayed with 2,4-D:
•        Currently the use of 2,4-D is restricted to certain applications. In future, much larger areas will be sprayed with this herbicide, especially if 2,4-D herbicide resistant plants are grown. It is known that 2,4-D (as well as dicamba) are highly volatile and will drift by wind to other fields.12 
•        There are many mixtures of 2,4-D that can be applied, but only some of these mixtures were investigated for risks to the environment and human health. There are strong indications that the risks of several formulations have been underestimated. 
•        Dermal absorption after direct contact with 2,4-D (such as sprayers) is a matter of serious concern, being underestimated so far.
•        Despite relevant findings, there is insufficient investigation into the effects of 2,4-D salts and esters on the potential endocrine effect on aquatic insects and the potential negative effects on human male fertility. 
•        Adverse effects for users (such as farmers) and the environment caused by contamination with dioxin cannot be excluded. 
In the light of these findings, we demand: 
·         Stop extending the use of herbicide resistant plants in agriculture. Existing applications must be thoroughly reassessed for their impact on sustainable agriculture, environment and food production. 
·         Reject applications for commercial large-scale cultivation of plants resistant to 2,4-D because these plants will strongly increase the use of 2,4 D and therefore increase risks for farmers, rural communities and the environment.
·         Suspension of 2,4-D, specifically 2,4-DMA products, until there has been a re-assessment of dermal absorption and exposure under realistic worst case scenarios (like backpack sprayer)
·         A legal requirement that all pesticides should be dioxin-free (below the limits of detections, LOD). A representative number of products from all production facilities must be checked and information made available about where the samples were taken. All results must be publicly available.
·         Evaluation of all 2,4-D salts and esters regarding potential endocrine effects on aquatic insects.
·         Evaluation of potential negative effects on human male fertility using suitable methods.
·         In depth investigation of risks of 2,4-D for embryo development, birth defects and endocrine disruption in humans. 
·         Obligatory and defined crop rotation for arable cropping systems to reduce weed and pest pressure.
·         A shift from agricultural subsidies for unsustainable conventional agriculture to more organic agriculture and promotion of non-chemical weed control methods.
 
Endnotes
1 Benbrook, CM (2012): Impacts of genetically engineered crops on pesticide use in the U.S. -- the first sixteen years. Environmental Sciences Europe 24(1):1-13. 
2   See above 
3   http://www.testbiotech.de/en/node/926   
4   http://registerofquestions.efsa.europa.eu/roqFrontend/questionsListLoader?unit=GMO   
5 EFSA PPR Panel (2013): Reasoned opinion on the modification of the MRL for dicamba in genetically modified soybean. EFSA Journal 2013;11(10):3440, 38 pp.  
6 EFSA GMO Panel (2013a): Scientific Opinion on application EFSA-GMO-NL-2011-93 for the placing on the market of the herbicide-tolerant genetically modified soybean MON 87708 for food and feed uses, import and processing under Regulation (EC) No 1829/2003 from Monsanto. EFSA Journal 2013;11(10):3355, 30 pp. doi:10.2903/j.efsa.2013.3355 
7 Hardell L (2008): Pesticides, soft-tissue sarcoma and non-Hodgkin lymphoma - historical aspects on the precautionary principle in cancer prevention. Acta Oncologica 47: 347-354.
8 Greenlee AR, Ellis, TM, Berg RL (2004): Low-dose agrochemicals and lawn-care pesticides induce developmental toxicity in murine preimplantation embryos. Environmental health perspectives 112(6):703-709. 
9 Schreinemachers DM (2003): Birth malformations and other adverse perinatal outcomes in four US Wheat-producing states. Environmental Health Perspectives 111(9):1259-1264. 
10 LaChapelle AM, Ruygrok ML, Toomer M, Oost JJ, Monnie ML, Swenson JA, Compton AA Stebbins-Boaz B (2007): The hormonal herbicide, 2, 4-dichlorophenoxyacetic acid, inhibits Xenopus oocyte maturation by targeting translational and post- translational mechanisms. Reproductive toxicology 23(1):20-31.
11 Stürtz N, Jahn GA, Deis RP, Rettori V, Duffard RO, Evangelista de Duffard AM (2010): Effect of 2, 4- dichlorophenoxyacetic acid on milk transfer to the litter and prolactin release in lactating rats. Toxicology 271(1):13-20.
12 Mortensen D.A., Egan J.T., Maxwell B.D., Ryan M.R., Smith R.G. (2012) Navigating a critical juncture for sustainable weed management. BioScience 2012, 62:75–84
 
Summary
The herbicide 2,4-D is one of the oldest synthetic pesticides. It was placed on the market in the 1940ies and became infamous as part of the defoliation chemical ‘Agent Orange’ in the Vietnam War. It is still widely used all over the world. 
In 2011, the US Department of Agriculture received a proposal from one of the main 2,4-D producers, Dow AgroSciences for soybeans and corn which has been genetically engineered to tolerate 2,4-D and other herbicides. The modified plants are suggested as a solution against so called superweeds which have become resistant against the herbicide glyphosate. 
The proposed use, especially in soybeans may increase the use of 2,4-D tremendously, and consequently adverse effects on human health and the environment may increase. This report identifies numerous gaps in the current (and ongoing) assessment of 2,4-D:
·         It is not clear if, and to what extent 2,4-D products contain impurities of highly toxic dioxins and furans. 
·         The dermal absorption is largely underestimated and unknown for widely used esters and this leads
·         To a underestimation of the exposure of 2,4-D users.
These gaps are of serious concern. Dioxins and furans are human carcinogens and endocrine disruptors, persist in the environment and accumulate in the food chain. There is also evidence that dioxin concentration may multiply under sunlight. 
Some studies have shown that human skin can absorb up to 80% of 2,4-D, but the risk assessment authorities consider a much lower absorption in their risk assessment. But even when a low dermal adsorption of up to 4% is considered, workers not properly protected may experience exposure above the safety levels. Especially workers using manual spraying equipment may be affected. Measurements of urinary excretion have shown large exposure of these workers, which cannot be explained by low dermal absorption. 
This report is not exhaustive, there are thousands of studies on 2,4-D, and many are written by the manufacturers’ scientists or are sponsored by the manufacturers of 2,4-D. This leads to large confusion, because it can be assumed that financial interest leads to a bias towards publications which show no negative effects. In consequence, the organized confusion makes it impossible to judge the carcinogenic properties of 2,4-D, if, however products containing 2,4-D still contain dioxin impurities, these products must be considered at least as ‘possible carcinogens’ and also as endocrine disruptors, with potential effects on reproduction.
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