Information about Roundup
| Roundup | |
|---|---|
) | |
) | |
| Other names | Glyphosate |
| Identifiers | |
| CAS number | |
| Properties | |
| Molecular formula | C3H8NO5P |
| Except where noted otherwise, data are given for materials in their standard state (at 25 C, 100 kPa) | |
Monsanto developed and patented the glyphosate molecule in the 1970s, and marketed Roundup from 1973. It retained exclusive rights in the US until its US patent expired in September, 2000, and maintained a predominant marketshare in countries where the patent expired earlier.
The active ingredient of Roundup is the isopropylamine salt of glyphosate. Glyphosate's mode of action is to inhibit an enzyme involved in the synthesis of the amino acids tyrosine, tryptophan and phenylalanine. It is absorbed through foliage and translocated to growing points. Weeds and grass will generally re-emerge within one to two months after usage. Because of this mode of action, it is only effective on actively growing plants; it is not effective as a pre-emergence herbicide. Monsanto also produces seeds which grow into plants genetically engineered to be tolerant to glyphosate which are known as Roundup Ready crops. The genes contained in these seeds are patented. Such crops allow farmers to use glyphosate as a post-emergence pesticide against both broadleaf and cereal weeds. Soy was the first Roundup Ready crop and was produced at Monsanto's Agracetus Campus located in Middleton, Wisconsin. Current Roundup Ready crops include maize (corn), sorghum, cotton, soy, canola and alfalfa. In May 2007, a federal court decision barred new plantings of Roundup Ready alfalfa and the resale of seeds, due to the failure of regulators to complete an environmental impact statement examining the potential that genetically-modified alfalfa would contaminate non-GM alfalfa crops, encourage new weeds tolerant to herbicides and limit export markets.
The largest single user of Roundup reportedly is the U.S. Government, which sprays huge quantities of the herbicide over the northern countries of South America in an effort to discourage cultivation of the coca plant. (See article Plan Colombia).
Chemistry
Glyphosate is an aminophosphonic analogue of the natural amino acid glycine and the name is a contraction of glycine, phospho- and -ate. It was first discovered to have herbicidal activity in 1970 by John Franz, a scientist that worked for the Monsanto company. Franz received the National Medal of Technology in 1987 from Ronald Reagan for his discoveries[2] and in 1990 received the Perkin Medal for Applied Chemistry.[3]Biochemistry
Glyphosate kills plants by inhibiting the enzyme 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS), which catalyzes the reaction of shikimate-3-phosphate (S3P) and phosphoenolpyruvate to form 5-enolpyruvyl-shikimate-3-phosphate (ESP). ESP is subsequently dephosphorylated to chorismate an essential precursor in plants for the aromatic amino acids: phenylalanine, tyrosine and tryptophan.[4][5] These amino acids are used as building blocks in peptides and to produce secondary metabolites such as folates, ubiquinones and naphthoquinone. X-ray crystallographic studies of Glyphosate and EPSPS shows that glyphosate functions by occupying the binding site of the phosphoenol pyruvate, mimicking an intermediate state of the ternary enzyme substrates complex.[6] The shikimate pathway is not present in animals, which obtain aromatic amino acids from their diet. Glyphosate has also been shown to inhibit other plant enzymes[7][8] and also has been found to affect animal enzymes.[9]Health, ecological concerns and controversy
Toxicity and ecological impact
Glyphosate is classed as a moderately toxic herbicide and in EPA toxicity class III. A 2000 review of the available literature concluded that "under present and expected conditions of new use, there is no potential for Roundup herbicide to pose a health risk to humans".[10] The Northwest Coalition for Alternatives to Pesticides disputes this classification.[11]Scientific fraud and false advertising
On two occasions the American EPA has caught scientists deliberately falsifying test results at research laboratories hired by Monsanto to study glyphosate.[12][13][14] In the first incident involving "Industrial Biotest Laboratories", a reviewer stated after finding "routine falsification of data" that it was "hard to believe the scientific integrity of the studies when they said they took specimens of the uterus from male rabbits".[15][16][17] In the second incident of falsifying test results in 1991, the owner of the lab (Craven Labs), and three employees were indicted on 20 felony counts, the owner was sentenced to 5 years in prison and fined 50,000 dollars, the lab was fined 15.5 million dollars and ordered to pay 3.7 million in restitution.[18][19][20] Craven laboratories performed studies for 262 pesticide companies including Monsanto. Monsanto has been accused of false and misleading advertising of glyphosate products, prompting a law suit by the New York State attorney general.[21] Monsanto has also been accused of the false advertising of roundup in Europe where it is currently appealing a law suit on the issue.[22]Human and mammalian toxicity
Glyphosate is practically nontoxic by ingestion or by skin contact. It showed no toxic effects when feed to animals for 2 years and only produced rare cases of reproductive effects when feed in extremely large doses to rodents and dogs. It does not cause cancer and is poorly absorbed in the digestive track with most of the chemical passing threw the system without entering the blood stream and does not accumulate with in the body.[23][24] Outside its intended use, glyphosate can be lethal. For example, with intentional poisonings (e.g. suicide), there is approximately a 10% mortality for those ingesting Roundup, compared to 70% for those ingesting paraquat.[25]A review of the toxicological data on Roundup shows that there are at least 58 studies of the effects of Roundup itself on a range of organisms.[26] This review concluded that "for terrestrial uses of Roundup minimal acute and chronic risk was predicted for potentially exposed nontarget organisms". It also concluded that there were some risks to aquatic organisms exposed to Roundup in shallow water. More recent research indicates glyphosate induces a variety of functional abnormalities in fetuses and pregnant rats.[27] Also in recent mammalian research, glyphosate has been found to interfere with an enzyme involved testosterone production in mouse cell culture[28] and to interfere with an estrogen biosynthesis enzyme in cultures of Human Placental cells.[29]
In controlled residue studies the WHO found "significant residues" on wheat with residues not lost during baking.[30]
Concerns have been raised abouts Roundup's effect on flora, mammals and birds brought about through habitat destruction.[31]
The United States Environmental Protection Agency,[32] the EC Health and Consumer Protection Directorate, and the UN World Health Organization have all concluded that pure glyphosate is not carcinogenic. Opponents of glyphosate claim that Roundup has been found to cause genetic damage, citing Peluso et al.[33] The authors concluded that the damage was "not related to the active ingredient, but to another component of the herbicide mixture.
Aquatic effects
Fish and aquatic invertebrates are more sensitive to roundup than terrestrial organisms.<ref name="Giesy2000" /> Glyphosate is generally less persistent in water than in soil, with 12 to 60 day persistence observed in Canadian pond water, yet persistence of over a year have been observed in the sediments of ponds in Michigan and Oregon.[33]Roundup is not registered for aquatic uses[34] and studies of its effects on amphibians indicates it is toxic to them.[35] Glyphosate formulations that are registered for aquatic use have been found to have negligible adverse effects on sensitive amphibians.[36]
Environmental degradation and effects
When glyphosate comes into contact with the soil it can be rapidly bound to soil particles and be inactivated.[33] Unbound glyphosate can be degraded by bacteria.[38] Low activity because of binding to soil particles suggests that glyphosate's effects on soil flora will be limited. Low glyphosate concentrations can be found in many creeks and rivers in U.S. and Europe, and in the US glyphosate has been called "relatively persistent" by its EPA.[33]In soils, half lives vary from as little as 3 days at a site in Texas, 141 days at a site in Iowa, to between 1 - 3 years in Swedish forest soils.[39] It appears that more northern sites have the longest soil persistences such as in Canada and Scandinavia.
However, the binding of glyphosate to particulates can be an advantage. Treatment of industrial wastewater using immobilized bacteria showed complete conversion of glyphosate to nontoxic aminomethylphosphonic acid.[40]
The US EPA concluded that many endangered species of plants, as well as the Houston toad, may be at risk from glyphosate use. One study has shown an effect on growth and survival of earthworms.[41] The results of this study are in conflict with other data and has been criticized on methodological grounds.[26] In other studies nitrogen fixing bacteria have been impaired, and also crop plant susceptibility to disease has been increased.[43][44][45][46][47][48] Monsanto firmly denies any negative impact on anything, including wildlife, and has many studies it has funded to back up its position. They would also be quick to point out that any possible negative impact on earthworms and nitrogen fixing bacteria, etc., would be offset by greater yields as of the elimination of weeds, and also would point to soil benefits from less mechanical cultivation of weeds by using Roundup and similar products.
Reproductive health concerns and EDC activity
There are concerns about the effects of glyphosate (and Roundup) on possible human reproductive dysfunction.Endocrine disruptor debate
In-vitro studies[48] have shown glyphosate to have an effect on progesterone production in mammalian cells and can affect mortality of placental cells in-vitro.<ref name="Aromatase" /> Whether these studies classify glyphosate as an endocrine disruptor is a matter of debate.Some feel that in-vitro studies are insufficient, and are waiting to see if animal studies show a change in endocrine activity, since a change in a single cell line may not occur in an entire organism. Additionally, current in-vitro studies expose cell lines to concentrations orders of magnitude greater than would be found in real conditions, and through pathways that would not be experienced in real organism.
Others feel that in-vitro studies, particularly ones identifying not only an effect, but a chemical pathway, are sufficient evidence to classify glyphosate as an endocrine disruptor, on the basis that even small changes in endocrine activity can have lasting effects on an entire organism that may be difficult to detect through whole organism studies alone. Further research on the topic has been planned.
Glyphosate resistance in weeds and microorganisms
The first documented cases of weed resistance to glyphosate were found in Australia, involving rigid ryegrass near Orange, New South Wales.[49] Some farmers in the United States have expressed concern that weeds are now developing with glyphosate resistance, with 13 states now reporting resistance, and this poses a problem to many farmers, including cotton farmers, that are now heavily dependent on glyphosate to control weeds.[50][51] Farmers associations are now reporting 103 biotypes of weeds within 63 weed species with herbicide resistance, and this will continue to grow as a problem.[52][53]Some microorganisms have a version of 5-enolpyruvoyl-shikimate-3-phosphate synthetase (EPSPS) that is resistant to glyphosate inhibition. The version used in genetically modified crops was isolated from Agrobacterium strain CP4 (CP4 EPSPS) that was resisitant to glyphosate.[54][55] The CP4 EPSPS gene was cloned and inserted into soybeans. The CP4 EPSPS gene was engineered for plant expression by fusing the 5' end of the gene to a chloroplast transit peptide derived from the petunia EPSPS. This transit peptide was used because it had shown previously an ability to deliver bacterial EPSPS to the chloroplasts of other plants. The plasmid used to move the gene into soybeans was PV-GMGTO4. It contained three bacterial genes, two PC4 EPSPS genes, and a gene encoding beta-glucuronidase (GUS) from Escherichia coli as a marker. The DNA was injected into the soybeans using the particle acceleration method. Soybean cultivar A54O3 was used for the transformation. The expression of the GUS gene was used as the initial evidence of transformation. GUS expression was detected by a staining method in which the GUS enzyme converts a substrate into a blue precipitate. Those plants that showed GUS expression were then taken and sprayed with glyphosate and their tolerance was tested over many generations.
Genetically modified crops
In 1996, genetically modified soybeans were available commercially [1]. This greatly improved conventional farmers' ability to control weeds in soybean fields since glyphosate could be sprayed on fields without hurting the crop. As of 2005, 87% of U.S. soybean fields were planted to glyphosate resistant varieties.[56][57]Tradenames
It was first sold by Monsanto under the tradename Roundup, and the Roundup trademark is registered with the US Patent Office and still extant. However, the chemical formulation is not patented, so similar products are available from other maufacturers and marketed under various names (for example TOP UP48 in Thailand).Other uses
Glyphosate is one of a number of herbicides used by the United States government to spray Colombian coca fields through Plan Colombia. Its health effects, effects on legal crops, and effectiveness in fighting the war on drugs have been widely disputed. Widespread application of glyphosate in attempts to destroy coca crops in South America have resulted in the development of glyphosate-resistant strains of coca which have been selectively bred to be both "Roundup ready" and also larger and higher yielding than the original strains of the plant. [2][58]External links
- Graphic network of Business and political connections for Monsanto http://www.politicalfriendster.com/showPerson.php?id=238&name=Monsanto
- Roundup website (Monsanto)
- Roundup website (French Website)
- EPA's Integrated Risk Information System entry for Roundup
- EPA's ground & drinking water consumer factsheet for glyphosate
- Greenpeace: A Critique of Monsanto's Risk Evaluation
- Monsanto and the Roundup Ready Controversy
- Greenpeace: Why Consumers and Farmers Should Avoid Monsanto's GE Soybeans
- Greenpeace: Glyphosate and Your Food
- http://www.gene.ch/genet/1999/Jun/msg00012.html
- University of Pittsburgh professor finds herbicide kills frogs (an article from 2005)
- Fact Sheet on Glyphosate, includes 14 references, by the Sierra Club of Canada
- NPR News 2007/08/20 - Farmers Switch Course in Battle Against Weeds
References
1. ^ US EPA 2000-2001 Pesticide Market Estimates Agriculture, Home and Garden
2. ^ Technology Administration Agency, US Department of Commerce [3]
3. ^ Colby Stong, The Scientist 1990, 4(10):28 [4]
4. ^ Purdue University, Department of Horticulture and Landscape Architecture, Metabolic Plant Physiology Lecture notes, Aromatic amino acid biosynthesis, The shikimate pathway - synthesis of chorismate.[5]
5. ^ Saccharomyces Genome Database - S. cerevisiae Pathway: chorismate biosynthesis [6]
6. ^ E. Schönbrunn et al, Interaction of the herbicide glyphosate with its target enzyme 5-enolpyruvylshikimate 3-phosphate synthase in atomic detail, PNAS 2001,98:1376-1380 [7]
7. ^ (Su , L.Y. et al. 1992. The relationship of glyphosate treatment to sugar metabolism in sugarcane: New physiological insights. J. Plant Physiol. 140:168-173.)
8. ^ (Lamb, D.C. et al. 1998. Glyphosate is an inhibitor of plant cytochrome P450: Functional expression of Thlaspi arvensae cytochrome P45071B1/ reductase fusion protein in Escherichia coli. Biochem. Biophys. Res. Comm. 244:110114.)
9. ^ (Hietanen, E., K. Linnainmaa, and H. Vainio. 1983. Effects of phenoxy herbicides and glyphosate on the hepatic and intestinal biotransformation activities in the rat. Acta Pharma. et Toxicol. 53:103-112.)
10. ^ Williams GM, Kroes R, Munro IC. (2000) Safety evaluation and risk assessment of the herbicide Roundup and its active ingredient, glyphosate, for humans. Regulatory Toxicology and Pharmacology, 31 (2): 117-165. PMID 10854122.
11. ^ Carolyn Cox, Northwest Coalition for Alternatives to Pesticides[8]
12. ^ (US EPA Communications and Public Affairs 1991 Note to correspondents Washington DC Mar 1)
13. ^ (US EPA Communications and Public Affairs 1991 Press Advisory. EPA lists crops associated with pesticides for which residue and environmental fate studies were allegedly manipulated. Washington DC Mar 29)
14. ^ (U.S. Congress. House of Representatives. Com. on Gov. Oper. 1984. Problems palgue the EPA pesticide registration activities. House Report 98-1147)
15. ^ (U.S. EPA 1978 Data validation. Memo from K LOcke, Toxicology Branch, to R Taylor, Registration Branch. Washington DC Aug 9)
16. ^ (U.S. EPA Office of pesticides and Toxic Substances 1983, Summary of the IBT review program. Washington D.C. July)
17. ^ Schneider, K. 1983. Faking it: The case against Industrial Bio-Test Laboratories. The Amicus Journal (Spring):14-26. Reproduced at Planetwaves
18. ^ (US Dept. of Justice. United States Attorney. Western District of Texas 1992. Texas laboratory, its president, 3 employees indicted on 20 felony counts in connection with pesticide testing. Austin TX Sept 29)
19. ^ (US EPA Communications, Education, And Public Affairs 1994 Press Advisory. Craven Laboratories, owner, and 14 employees sentenced for falsifying pesticide tests. Washington DC Mar 4)
20. ^ [9]
21. ^ [10]
22. ^ [11]]
23. ^ [12]
24. ^ [13]
25. ^ Nagami et al. (2005). Hospital-based survey of pesticide poisoning in Japan, 1998--2002. Int J Occup Environ Health, 11(2):180-4.PMID 15875894
26. ^ JP Giesy, KR Solomon, S Dobson (2000). "Ecotoxicological Risk Assessment for Roundup Herbicide". Reviews of Environmental Contamination and Toxicology 167: 35-120
27. ^ [14]
28. ^ Walsh et al Roundup inhibits steroidogenesis by disrupting steroidogenic acute regulatory (StAR) protein expression. Environ Health Perspect. 2000 108: 769–776.[15]
29. ^ Richard et al, Differential Effects of Glyphosate and Roundup on Human Placental Cells and Aromatase, Environmental Health Perspectives Vol. 113, No.6, 716-720[16]
30. ^ WHO Environmental health criteria # 159 [17]
31. ^ [18]
32. ^ US EPA Reregistration Eligibility Decision - Glyphosate[19]
33. ^ Peluso M, Munnia A, Bolognesi C, Parodi S. Environ Mol Mutagen. 1998 31:55-9 PMID 9464316
34. ^ Monsanto Backgrounder 2005 Response to "The impact of insecticides and herbicides on the biodiversity and productivity of aquatic communities" [20]
35. ^ Rick A. Relyea 2005 The impact of insecticides and herbicides on the biodiversity and productivity of aquatic communities Ecological Applications 15:618–627
36. ^ Wojtaszek et al Effects of vision herbicide on mortality, avoidance response, and growth of amphibian larvae in two forest wetlands Environmental Toxicology and Chemistry 23:832–842 2004 [21]
37. ^ US EPA Reregistration Eligibility Decision - Glyphosate - (EPA-738-F-93-011) 1993 [22]
38. ^ Balthazor, Terry M and Laurence Hallas (1986) Glyphosate-degrading microorganisms in industrial waste treatment biosystems. Appl. Environ. Microbiol. 51:432-34.[23]
39. ^ [24]
40. ^ Adams, William, Laurence Hallas, and Michael Heitkamp. 1994. Microbes and their use to degrade N-phosphonomethylglycine in waste streams. United States Patent 5288635 [25]
41. ^ (Springett & Gray 1992, Soil Biol. Biochem. 24 (12):1739-1744) [26]
42. ^ JP Giesy, KR Solomon, S Dobson (2000). "Ecotoxicological Risk Assessment for Roundup Herbicide". Reviews of Environmental Contamination and Toxicology 167: 35-120
43. ^ (Santos & Flores 1995, Lett. Appl. Microbiol. 20:349-352)
44. ^ (Brammel & Higgins 1988, Can. J. Bot 66:1547-1555)
45. ^ (Johal & Rahe 1988, Molec. Plant Pathol. 32:267-281)
46. ^ (Mekwatanakarn & Sivassithamparam 1987, Biol. Fertil. Soils 5:175-180)
47. ^ (Kawate et al. 1997, Weed Sci. 45:739-743)
48. ^ (Bergvinson & Borden 1992, Can J. For. Res. 22:206-209)
49. ^ [27]
50. ^ [28]
51. ^ [29]
52. ^ [30]
53. ^ [31]
54. ^ Development and Characterization of a CP4 EPSPS-Based, Glyphosate-Tolerant Corn Event,G. R. Heck et al Crop Sci. 45:329-339 (2005).[32]
55. ^ Molecular basis for the herbicide resistance of Roundup Ready crops, T. Funke et al, PNAS 2006 103:13010-13015 [33]
56. ^ USDA/APHIS Environmental Assessment - In response to Monsanto Petition 06-178-01p seeking a Determination of Non-regulated Status for + Roundup RReady2Yield Soybean MON 89788, OECD Unique Identifier MON-89788-1, U.S. Department of Agriculture Animal and Plant Health Inspection Service + Biotechnology Regulatory Services page 13[34]
57. ^ National Agriculture Statistics Service (2005) in Acreage eds. Johanns, M. & Wiyatt, S. D. 6 30, (U.S. Dept. of Agriculture, Washington, DC). +
58. ^ New Super Strain of Coca Plant Stuns Anti-Drug Officials. Jeremy McDermott. The Scotsman (Scotland) 27 August 2004
2. ^ Technology Administration Agency, US Department of Commerce [3]
3. ^ Colby Stong, The Scientist 1990, 4(10):28 [4]
4. ^ Purdue University, Department of Horticulture and Landscape Architecture, Metabolic Plant Physiology Lecture notes, Aromatic amino acid biosynthesis, The shikimate pathway - synthesis of chorismate.[5]
5. ^ Saccharomyces Genome Database - S. cerevisiae Pathway: chorismate biosynthesis [6]
6. ^ E. Schönbrunn et al, Interaction of the herbicide glyphosate with its target enzyme 5-enolpyruvylshikimate 3-phosphate synthase in atomic detail, PNAS 2001,98:1376-1380 [7]
7. ^ (Su , L.Y. et al. 1992. The relationship of glyphosate treatment to sugar metabolism in sugarcane: New physiological insights. J. Plant Physiol. 140:168-173.)
8. ^ (Lamb, D.C. et al. 1998. Glyphosate is an inhibitor of plant cytochrome P450: Functional expression of Thlaspi arvensae cytochrome P45071B1/ reductase fusion protein in Escherichia coli. Biochem. Biophys. Res. Comm. 244:110114.)
9. ^ (Hietanen, E., K. Linnainmaa, and H. Vainio. 1983. Effects of phenoxy herbicides and glyphosate on the hepatic and intestinal biotransformation activities in the rat. Acta Pharma. et Toxicol. 53:103-112.)
10. ^ Williams GM, Kroes R, Munro IC. (2000) Safety evaluation and risk assessment of the herbicide Roundup and its active ingredient, glyphosate, for humans. Regulatory Toxicology and Pharmacology, 31 (2): 117-165. PMID 10854122.
11. ^ Carolyn Cox, Northwest Coalition for Alternatives to Pesticides[8]
12. ^ (US EPA Communications and Public Affairs 1991 Note to correspondents Washington DC Mar 1)
13. ^ (US EPA Communications and Public Affairs 1991 Press Advisory. EPA lists crops associated with pesticides for which residue and environmental fate studies were allegedly manipulated. Washington DC Mar 29)
14. ^ (U.S. Congress. House of Representatives. Com. on Gov. Oper. 1984. Problems palgue the EPA pesticide registration activities. House Report 98-1147)
15. ^ (U.S. EPA 1978 Data validation. Memo from K LOcke, Toxicology Branch, to R Taylor, Registration Branch. Washington DC Aug 9)
16. ^ (U.S. EPA Office of pesticides and Toxic Substances 1983, Summary of the IBT review program. Washington D.C. July)
17. ^ Schneider, K. 1983. Faking it: The case against Industrial Bio-Test Laboratories. The Amicus Journal (Spring):14-26. Reproduced at Planetwaves
18. ^ (US Dept. of Justice. United States Attorney. Western District of Texas 1992. Texas laboratory, its president, 3 employees indicted on 20 felony counts in connection with pesticide testing. Austin TX Sept 29)
19. ^ (US EPA Communications, Education, And Public Affairs 1994 Press Advisory. Craven Laboratories, owner, and 14 employees sentenced for falsifying pesticide tests. Washington DC Mar 4)
20. ^ [9]
21. ^ [10]
22. ^ [11]]
23. ^ [12]
24. ^ [13]
25. ^ Nagami et al. (2005). Hospital-based survey of pesticide poisoning in Japan, 1998--2002. Int J Occup Environ Health, 11(2):180-4.PMID 15875894
26. ^ JP Giesy, KR Solomon, S Dobson (2000). "Ecotoxicological Risk Assessment for Roundup Herbicide". Reviews of Environmental Contamination and Toxicology 167: 35-120
27. ^ [14]
28. ^ Walsh et al Roundup inhibits steroidogenesis by disrupting steroidogenic acute regulatory (StAR) protein expression. Environ Health Perspect. 2000 108: 769–776.[15]
29. ^ Richard et al, Differential Effects of Glyphosate and Roundup on Human Placental Cells and Aromatase, Environmental Health Perspectives Vol. 113, No.6, 716-720[16]
30. ^ WHO Environmental health criteria # 159 [17]
31. ^ [18]
32. ^ US EPA Reregistration Eligibility Decision - Glyphosate[19]
33. ^ Peluso M, Munnia A, Bolognesi C, Parodi S. Environ Mol Mutagen. 1998 31:55-9 PMID 9464316
34. ^ Monsanto Backgrounder 2005 Response to "The impact of insecticides and herbicides on the biodiversity and productivity of aquatic communities" [20]
35. ^ Rick A. Relyea 2005 The impact of insecticides and herbicides on the biodiversity and productivity of aquatic communities Ecological Applications 15:618–627
36. ^ Wojtaszek et al Effects of vision herbicide on mortality, avoidance response, and growth of amphibian larvae in two forest wetlands Environmental Toxicology and Chemistry 23:832–842 2004 [21]
37. ^ US EPA Reregistration Eligibility Decision - Glyphosate - (EPA-738-F-93-011) 1993 [22]
38. ^ Balthazor, Terry M and Laurence Hallas (1986) Glyphosate-degrading microorganisms in industrial waste treatment biosystems. Appl. Environ. Microbiol. 51:432-34.[23]
39. ^ [24]
40. ^ Adams, William, Laurence Hallas, and Michael Heitkamp. 1994. Microbes and their use to degrade N-phosphonomethylglycine in waste streams. United States Patent 5288635 [25]
41. ^ (Springett & Gray 1992, Soil Biol. Biochem. 24 (12):1739-1744) [26]
42. ^ JP Giesy, KR Solomon, S Dobson (2000). "Ecotoxicological Risk Assessment for Roundup Herbicide". Reviews of Environmental Contamination and Toxicology 167: 35-120
43. ^ (Santos & Flores 1995, Lett. Appl. Microbiol. 20:349-352)
44. ^ (Brammel & Higgins 1988, Can. J. Bot 66:1547-1555)
45. ^ (Johal & Rahe 1988, Molec. Plant Pathol. 32:267-281)
46. ^ (Mekwatanakarn & Sivassithamparam 1987, Biol. Fertil. Soils 5:175-180)
47. ^ (Kawate et al. 1997, Weed Sci. 45:739-743)
48. ^ (Bergvinson & Borden 1992, Can J. For. Res. 22:206-209)
49. ^ [27]
50. ^ [28]
51. ^ [29]
52. ^ [30]
53. ^ [31]
54. ^ Development and Characterization of a CP4 EPSPS-Based, Glyphosate-Tolerant Corn Event,G. R. Heck et al Crop Sci. 45:329-339 (2005).[32]
55. ^ Molecular basis for the herbicide resistance of Roundup Ready crops, T. Funke et al, PNAS 2006 103:13010-13015 [33]
56. ^ USDA/APHIS Environmental Assessment - In response to Monsanto Petition 06-178-01p seeking a Determination of Non-regulated Status for + Roundup RReady2Yield Soybean MON 89788, OECD Unique Identifier MON-89788-1, U.S. Department of Agriculture Animal and Plant Health Inspection Service + Biotechnology Regulatory Services page 13[34]
57. ^ National Agriculture Statistics Service (2005) in Acreage eds. Johanns, M. & Wiyatt, S. D. 6 30, (U.S. Dept. of Agriculture, Washington, DC). +
58. ^ New Super Strain of Coca Plant Stuns Anti-Drug Officials. Jeremy McDermott. The Scotsman (Scotland) 27 August 2004
- Baccara, Mariagiovanna, et al. Monsanto's Roundup, NYU Stern School of Business: August 2001, Revised July 14, 2003.
- Pease W S et al. (1993) Preventing pesticide-related illness in California agriculture: Strategies and priorities. Environmental Health Policy Program Report. Berkeley, CA: University of California. School of Public Health. California Policy Seminar.
- Wang Y, Jaw C and Chen Y (1994) Accumulation of 2,4-D and glyphosate in fish and water hyacinth. Water Air Soil Pollute. 74:397-403
CAS registry numbers are unique numerical identifiers for chemical compounds, polymers, biological sequences, mixtures and alloys. They are also referred to as CAS numbers, CAS RNs or CAS #s.
..... Read more.
..... Read more.
A chemical formula is a concise way of expressing information about the atoms that constitute a particular chemical compound. A chemical formula is also a short way of showing how a chemical reaction occurs.
..... Read more.
..... Read more.
standard state of a material is its state at 1 bar (100 kilopascals exactly). This pressure was changed from 1 atm (101.325 kilopascals) by IUPAC in 1990.[1] The standard state of a material can be defined at any given temperature, most commonly 25 degrees Celsius,
..... Read more.
..... Read more.
A herbicide is used to kill unwanted plants. Selective herbicides kill specific targets while leaving the desired crop relatively unharmed. Some of these act by interfering with the growth of the weed and are often based on plant hormones.
..... Read more.
..... Read more.
Motto
"In God We Trust" (since 1956)
"E Pluribus Unum" ("From Many, One"; Latin, traditional)
Anthem
..... Read more.
"In God We Trust" (since 1956)
"E Pluribus Unum" ("From Many, One"; Latin, traditional)
Anthem
..... Read more.
Monsanto Company
Agriculture/Public (NYSE: MON )
Founded St. Louis, Missouri (1901)
Headquarters St. Louis, Missouri, USA
Key people John Francis Queeny (1859–1933), Founder
Hugh Grant, Chairman, President, & CEO
Terrell K.
..... Read more.
Agriculture/Public (NYSE: MON )
Founded St. Louis, Missouri (1901)
Headquarters St. Louis, Missouri, USA
Key people John Francis Queeny (1859–1933), Founder
Hugh Grant, Chairman, President, & CEO
Terrell K.
..... Read more.
Glyphosate (N-(phosphonomethyl) glycine is a non-selective systemic herbicide, absorbed through the leaves, used to kill weeds, especially perennials. Some crops have been genetically engineered to be resistant to it.
..... Read more.
..... Read more.
Agrichemical (or agrochemical), a contraction of agricultural chemical, is a generic term for the various chemical products used in agriculture.
..... Read more.
..... Read more.
patent is a set of exclusive rights granted by a state to a patentee for a fixed period of time in exchange for a disclosure of an invention.
The procedure for granting patents, the requirements placed on the patentee and the extent of the exclusive rights vary widely
..... Read more.
The procedure for granting patents, the requirements placed on the patentee and the extent of the exclusive rights vary widely
..... Read more.
Centuries: 19th century - 20th century - 21st century
1940s 1950s 1960s - 1970s - 1980s 1990s 2000s
1970 1971 1972 1973 1974
1975 1976 1977 1978 1979
- -
- The 1970s decade refers to the years from 1970 to 1979, also called
..... Read more.
1940s 1950s 1960s - 1970s - 1980s 1990s 2000s
1970 1971 1972 1973 1974
1975 1976 1977 1978 1979
- -
- The 1970s decade refers to the years from 1970 to 1979, also called
..... Read more.
An active ingredient, also active pharmaceutical ingredient (or API), is the substance in a drug that is pharmaceutically active. Some medications may contain more than one active ingredient.
..... Read more.
..... Read more.
Isopropylamine, also called 2-aminopropane, 2-propanamine, monoisopropylamine, and MIPA, is an organic compound, an amine.
..... Read more.
..... Read more.
Salt is a mineral essential for animal life, composed primarily of sodium chloride. Salt for human consumption is produced in different forms: unrefined salt (such as sea salt), refined salt (table salt), and iodized salt.
..... Read more.
..... Read more.
Enzymes are proteins that catalyze (i.e. accelerate) chemical reactions.[1] In enzymatic reactions, the molecules at the beginning of the process are called substrates, and the enzyme converts them into different molecules, the products.
..... Read more.
..... Read more.
amino acid is a molecule that contains both amine and carboxyl functional groups. In biochemistry, this term refers to alpha-amino acids with the general formula H2NCHRCOOH, where R is an organic substituent.
..... Read more.
..... Read more.
Tyrosine (abbreviated as Tyr or Y)[1] or 4-hydroxyphenylalanine, is one of the 20 amino acids that are used by cells to synthesize proteins. It is a non-essential amino acid and it is found in large quantities in casein.
..... Read more.
..... Read more.
Tryptophan (abbreviated as Trp or W)[1] is an essential amino acid involved in human nutrition. It is one of the 20 amino acids encoded by the genetic code (as codon UGG).
..... Read more.
..... Read more.
- Phe redirects here. For the BitTorrent feature, see PHE. For the constellation, see Phoenix (constellation).
Phenylalanine (abbreviated as Phe or F)[1] is an α-amino acid with the formula HO2
..... Read more.
Preemergent herbicides prevent the germination of seeds by inhibiting a key enzyme. Preemergent herbicides are used to prevent crabgrass from appearing in the summer by application during the late spring.
..... Read more.
..... Read more.
Genetic engineering, recombinant DNA technology, genetic modification/manipulation (GM) and gene splicing are terms that are applied to the direct manipulation of an organisms genes.
..... Read more.
..... Read more.
Roundup is the brand name of a systemic, broad-spectrum herbicide produced by the U.S. company Monsanto and contains the active ingredient glyphosate. Glyphosate is the most used herbicide in the USA[1] and is the most-sold agrichemical of all time.
..... Read more.
..... Read more.
The Agracetus Campus of Monsanto is the largest soybean transformation laboratory in the world. The first successful genetically engineered crop ever produced for the commercial market was the Roundup Ready
..... Read more.
..... Read more.
Z. mays
Binomial name
Zea mays
L.
Maize (IPA: /ˈmeɪz/) (Zea mays L. ssp.
..... Read more.
Binomial name
Zea mays
L.
Maize (IPA: /ˈmeɪz/) (Zea mays L. ssp.
..... Read more.
Sorghum
L.
Species
About 30 species, see text
Sorghum is a genus of numerous species of grasses, some of which are raised for grain and many of which are utilised as fodder plants either cultivated or as part of pasture.
..... Read more.
L.
Species
About 30 species, see text
Sorghum is a genus of numerous species of grasses, some of which are raised for grain and many of which are utilised as fodder plants either cultivated or as part of pasture.
..... Read more.
Cotton is a soft fibre that grows around the seeds of the cotton plant (Gossypium sp.), a shrub native to tropical and subtropical regions around the world, including the Americas, India, and Africa.
..... Read more.
..... Read more.
G. max
Binomial name
Glycine max
(L.) Merr.
The soybean (U.S.) or soya bean (UK) (Glycine max) is a species of legume native to East Asia.
..... Read more.
Binomial name
Glycine max
(L.) Merr.
The soybean (U.S.) or soya bean (UK) (Glycine max) is a species of legume native to East Asia.
..... Read more.
canola is a trademarked quality description of a group of cultivars of rapeseed variants from which low erucic acid rapeseed oil and low glucosinolate meal are obtained. Also known as "LEAR" oil (for Low Erucic Acid Rapeseed
..... Read more.
..... Read more.
M. sativa
Binomial name
Medicago sativa
L.
Subspecies
Medicago sativa subsp. ambigua (Trautv.) Tutin
Medicago sativa subsp.
..... Read more.
Binomial name
Medicago sativa
L.
Subspecies
Medicago sativa subsp. ambigua (Trautv.) Tutin
Medicago sativa subsp.
..... Read more.
Environmental Impact Statement (EIS).
..... Read more.
Layout
An EIS typically has four sections:- * An Introduction including a statement of the Purpose and Need of the Proposed Action.
- * A description of the Affected Environment.
..... Read more.
United States of America
This article is part of the series:
Politics and government of
the United States
Federal government
Constitution
Taxation
President Vice President
Cabinet
Congress
Senate
..... Read more.
This article is part of the series:
Politics and government of
the United States
Federal government
Constitution
Taxation
President Vice President
Cabinet
Congress
Senate
..... Read more.