Pesticide residue: Difference between revisions
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Pesticide tolerances are set by [[Ministry of Health, Labour and Welfare (Japan)|Ministry of Health, Labour and Welfare]] through the Drug and Food Safety Committee (薬事・食品衛生審議会). Unlisted residue amounts are restricted to 0.01ppm.<ref>{{Cite press release |date=2005-11 |title=平成17年厚生労働省告示第497号 食品衛生法第11条第3項の規定により人の健康を損なうおそれのない量として厚生労働大臣が定める量を定める件 |publisher=[[厚生労働省]] 医薬食品局 食品安全部 |url=http://www.mhlw.go.jp/houdou/2005/11/h1129-2.html}}</ref> |
Pesticide tolerances are set by [[Ministry of Health, Labour and Welfare (Japan)|Ministry of Health, Labour and Welfare]] through the Drug and Food Safety Committee (薬事・食品衛生審議会). Unlisted residue amounts are restricted to 0.01ppm.<ref>{{Cite press release |date=2005-11 |title=平成17年厚生労働省告示第497号 食品衛生法第11条第3項の規定により人の健康を損なうおそれのない量として厚生労働大臣が定める量を定める件 |publisher=[[厚生労働省]] 医薬食品局 食品安全部 |url=http://www.mhlw.go.jp/houdou/2005/11/h1129-2.html}}</ref> |
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=== China === |
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In China, [[Ministry of Health of the People's Republic of China|Ministry of Health (China)]] and [[Ministry of Agriculture of the People's Republic of China|Ministry of Agriculture (China)]] have jointly established mechanisms and working procedures relating to maximum residue limit standards and are updating them continuously, according to the [[Food safety in the People's Republic of China|Food safety Law]] and regulations issued by the [[State Council of the People's Republic of China|State Council]].<ref>{{cite web|title=Ministry of Health and Ministry of Agriculture Released MRLS tandards|url=http://www.chinapesticide.gov.cn/doc10/10122912.html|work=China Pesticide Information Network|publisher=Press Office of the Ministry of Agriculture|accessdate=16 November 2012}}</ref><ref>{{cite web|title=China released 85 kinds of food pesticide maximum residue limits|url=http://cn.agropages.com/News/NewsDetail---2978---NewsCn.htm|publisher=World agricultural network Chinese network|accessdate=16 November 2012}}</ref> From '''GB25193-2010'''<ref>{{cite web|title=Maxium Residue Limits for 12 Pesticides|url=http://down.foodmate.net/standard/sort/3/25573.html|accessdate=16 November 2012|archiveurl=GB 25193-2010 食品中百菌清等12种农药最大残留限量 http://down.foodmate.net/standard/sort/3/25573.html|archivedate=29 July 2010|language=Chinese}}</ref> to '''GB28260-2011'''<ref>{{cite web|title=Maximum Residue Limits for 85 Pesticides|url=http://down.foodmate.net/standard/sort/3/28878.html|accessdate=16 November 2012|archiveurl=GB 28260-2011 食品安全国家标准 食品中阿维菌素等85种农药最大残留限量 http://down.foodmate.net/standard/sort/3/28878.html|archivedate=16 February 2012}}</ref> , from Maximum Residue Limits for 12 Pesticides to 85 pesticides, they have improved the standards in response to Chinese national needs. |
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== Health Impacts == |
== Health Impacts == |
Revision as of 06:56, 16 November 2012
Pesticide residue refers to the pesticides that may remain on or in food after they are applied to food crops.[1] The levels of these residues in foods is often stipulated by regulatory bodies in many countries. Exposure of the general population to these residues most commonly occurs through consumption of treated food sources, or being in close contact to areas treated with pesticides such as farms or lawns around houses.[2]
Many of these chemical residues, especially derivatives of chlorinated pesticides, exhibit bioaccumulation which could build up to harmful levels in the body as well as in the environment.[3] Persistent chemicals can be magnified through the food chain, and have been detected in products ranging from meat, poultry, and fish, to vegetable oils, nuts, and various fruits and vegetables.[4]
Definition
Pesticide is a substance or a mixture of substances used for killing pests, organisms dangerous to cultivated plants or to animals. The term applies to various pesticides such as insecticide, fungicide, herbicide and nematocide.[5] Those applications of pesticide to crops and animals may leave residues in or on food when it is sold, and those specified derivatives are considered to be toxicological significance.[6]
Background
From post-World War II era, chemical pesticides have become the most important form of pest control. There are two categories of pesticides, the first generation pesticides and the second generation pesticide.The first generation pesticides, which were used prior to 1940, consisted of compounds such as arsenic, mercury, and lead. These were soon abandoned because they were highly toxic and ineffective. The second generation pesticides were composed of synthetic organic compounds. The growth in this pesticides accelerate in late 1940s after Paul Müller discovered DDT in 1939. The effects of pesticides such as aldrin,dieldrin, endrin, chlordane, parathion, captan and 2,4-D were also found at this time.[7][8] Those pesticides were widely used due to its effective pest control. However, in 1946, people start to resist to the widespread use of pesticide, especially DDT since it harms non-target plants and animals. People become aware of problems with residues and its potential health risks.[9]
Regulations
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Each country adopt their own agricultural policies and Maximum Residue Limits (MRL) and Acceptable Daily Intake (ADI). The level of a food additive usage vary by country because forms of agriculture are different in regions according to their geographical or climatical factors.
International
Some countries use the International Maximum Residue Limits -Codex Alimentarius to define the residue limits. It was established by Food and Agriculture Organization of the United Nations (FAO) and World Health Organization (WHO) in 1963 to develop international food standards, guidelines codes of practices, and recommendation for food safety. Currently the CODEX has 185 Member Countries and 1 member organization (EU).[10]
The following is the list of maximum residue limits (MRLs) for spices adopted by the commission.[11]
Pesticide | Group or Sub-Group of Spices | MRL (mg/kg) |
---|---|---|
Acephate | Entire Group 028 | 0.2 |
Azinphos-methyl | Entire Group 028 | 0.5 |
Chlorpyrifos | Seeds Fruits or berries Roots or rhizomes |
5 1 1 |
Chlorpyrifos-methyl | Seeds Fruits or berries Roots or rhizomes |
1 0.3 5 |
Cypermethrin | Fruits or berries Roots or rhizomes |
0.1 0.2 |
Diazinon | Seeds Fruits Roots or rhizomes |
5 0.1 0.5 |
Dichlorvos | Entire Group 028 | 0.1 |
Dicofol | Seeds Fruits or berries Roots or rhizomes |
0.05 0.1 0.1 |
Dimethoate | Seeds Fruits or berries Roots or rhizomes |
5 0.5 0.1 |
Disulfoton | Entire Group 028 | 0.05 |
Endosulfan | Seeds Fruits or berries Roots or rhizomes |
1 5 0.5 |
Ethion | Seeds Fruits or berries Roots or rhizomes |
3 5 0.3 |
Fenitrothion | Seeds Fruits or berries Roots or rhizomes |
7 1 0.1 |
Iprodione | Seeds Fruits or berries Roots or rhizomes |
7 1 0.1 |
Malathion | Seeds Fruits or berries Roots or rhizomes |
2 1 0.5 |
Metalaxyl | Seeds | 5 |
Methamidophos | Entire Group 028 | 0.1 |
Parathion | Seeds Fruits or berries Roots or rhizomes |
0.1 0.2 0.2 |
Parathion-methyl | Seeds Fruits or berries Roots or rhizomes |
5 5 0.3 |
Permethrin | Entire Group 028 | 0.05 |
Phenthoate | Seeds | 7 |
Phorate | Seeds Fruits or berries Roots or rhizomes |
0.5 0.1 0.1 |
Phosalone | Seeds Fruits or berries Roots or rhizomes |
2 2 3 |
Pirimicarb | Seeds | 5 |
Pirimiphos-methyl | Seeds sub group Fruits sub group |
3 0.5 |
Quintozene | Seeds sub group Fruits or berries Roots or rhizomes |
0.1 0.02 2 |
Vinclozolin | Entire spice group | 0.05 |
European Union
In September 2008, the European Union issued new and revised Maximum Residue Limits (MRLs) for the roughly 1,100 pesticides ever used in the world. The revision was intended to simplify the previous system, under which certain pesticide residues were regulated by the Commission, others were regulated by Member States, and others were not regulated at all.[12]
New Zealand
Food Standards Australia New Zealand develops the standards for levels of pesticide residues in foods through a consultation process. The New Zealand Food Safety Authority publishes the maximum limits of pesticide residues for foods produced in New Zealand.[13]
United Kingdom
Monitoring of pesticide residues in the UK began in the 1950s. From 1977 to 2000 the work was carried out by the Working Party on Pesticide Residues (WPPR), until in 2000 the work was taken over by the Pesticide Residue Committee (PRC). The PRC advise the government through the Pesticides Safety Directorate and the Food Standards Agency (FSA).[14]
United States
In the US, tolerances for the amount of pesticide residue that may remain on food are set by the EPA, and measures are taken to keep pesticide residues below the tolerances. The US EPA has a web page for the allowable tolerances.[15] In the US, the Food and Drug Administration (FDA) and USDA also routinely check food for the actual levels of pesticide residues.
Japan
In Japan, pesticide residues are regulated by Food Safety Act.
Pesticide tolerances are set by Ministry of Health, Labour and Welfare through the Drug and Food Safety Committee (薬事・食品衛生審議会). Unlisted residue amounts are restricted to 0.01ppm.[16]
China
In China, Ministry of Health (China) and Ministry of Agriculture (China) have jointly established mechanisms and working procedures relating to maximum residue limit standards and are updating them continuously, according to the Food safety Law and regulations issued by the State Council.[17][18] From GB25193-2010[19] to GB28260-2011[20] , from Maximum Residue Limits for 12 Pesticides to 85 pesticides, they have improved the standards in response to Chinese national needs.
Health Impacts
Pesticide exposures can produce two distinct types of adverse health effects – acute (short-term) effects and chronic long-term effects. The severity of adverse health effects are determined by following factors: the dose, the route of exposure, an individual’s genetic vulnerability, age at the time of exposure and general health condition; the length of exposure, environmental factors and intakes with other chemicals through other factors.[21]
Chronic Impacts
Possible symptoms of Long term pesticide exposure are listed as follows.
- Increased risk of cancer
- Neurological impairment (e.g Parkinson’s disease)
- Developmental effects
- Reproductive effects
- Organ damage
- Intrusion with the human hormone system[22]
Many pesticides achieve their intended use of killing pests, by disrupting the nervous system. Due to similarities in brain biochemistry among many different organisms, there is much speculation that these chemicals can have a negative impact on humans as well.[23] There are also studies that show positive correlations between exposure to pesticides through occupational hazard, which tends to be significantly higher than that ingested by the general population through food, and the occurrence of certain cancers.[24] Even though the majority of the general population may not come in direct contact with large quantities of pesticides, many of the pesticide residues that are ingested tend to be lipophilic and can bioaccumulate in the body.[3] Concerns have been raised about the possible role of continuous low-dosage exposure in causing certain cancers. On the other hand, pesticide use has proven to be a valuable tool in combatting disease vectors that spread illness to millions of children and adults each year. They are used in many developing countries to prevent the spread of malaria, leishmaniasis, dengue, and Japanese encephalitis which have an enormous economical burden on society.[4]
Acute Impacts
Some health effects from pesticide exposure may occur right away, as you are being exposed. Symptoms of immediate body reaction against pesticide are as follows.
- Eyes: tearing, irritation, conjunctivitis
- Skin: rash, blistering, burns, sweating, contact dermatitis, jaundice
- Nervous system: headache, dizziness, mood disturbances, depression, stupor, muscle twitching, lack of coordination, seizures, paralysis, loss of consciousness, coma
- Respiratory system: throat pain, rhinorrhea, cough, pulmonary edema, difficulty in breathing, respiratory failure
- Cardiovascular system: cardiac arrhythmias
- Gastrointestinal tract: nausea, vomiting, diarrhea, abdominal pain
Acute poisoning can happen in various situations; by consuming food containing pesticide residue, including the accidental ingestion in the home, garden, farm or forest. Children are the most vulnerable to poisoning since they have not built up antibodies to certain toxicities. [25]
Pesticide poisoning
In August 1994, a serious incident of pesticide poisoning happened with sweet potato in Shandong province,China. Because local farmers were not competence for the use of insecticides, they used highly toxic pesticide named parathion instead of trichlorphon. It resulted in over 300 cases of poisoning and 3 deaths. Also, there was a case large number of students poisoned and 23 of them were hospitalized because their eating vegetables contained pesticide residues. [26]
Child neurodevelopment
Children are thought to be especially vulnerable to exposure to pesticide residues, especially if exposure occurs at critical windows of development. Due to the greater intake of food relative to bodyweight in children, bioaccumulation effects can prove to be especially harmful.[27] Neurotoxins, and other chemicals that originate from pesticides pose the biggest threat to the developing human brain and nervous system. Since precise spacial and temporal information must be communicated between cells for the proper development of the human CNS, disruptions in the form of miscommunication or damage to neurons can result in permanent and irreversible damages. Presence of pesticide metabolites in urine samples have been implicated in disorders such as: attention deficit hyperactivity disorder (ADHD), autism, behavioral and emotional problems, and delays in development. There is a lack of evidence of a direct cause and effect relationship between long-term, low-dose exposure to pesticide residues and neurological disease, partly because manufacturers are not always legally required to examine potential long-term threats.Cite error: The <ref>
tag has too many names (see the help page).[28]
- Dirty Dozen
- celery
- peaches
- strawberries
- apples
- domestic blueberries
- nectarines
- sweet bell peppers
- spinach, kale and collard greens
- cherries
- potatoes
- imported grapes
- lettuce
- Clean Fifteen
- onions
- avocados
- sweet corn
- pineapples
- mango
- sweet peas
- asparagus
- kiwi fruit
- cabbage
- eggplant
- cantaloupe
- watermelon
- grapefruit
- sweet potatoes
- sweet onions
Organic vs Non-organic
Even though some organic foods contain significantly less amounts of pesticides than non-organically produced products, they still contain certain amounts of residue levels that are persistent in the environment. The methods of organic farming prohibit the use of many pesticides, however certain chemicals could be persistent in the soil, reach the organic produce via pesticide drift from nearby farms, or contaminate produce during transportation to the consumer. It was found that produce grown using organic methods had one third the amount of pesticide residue that was available in non-organic produced food. Also, in comparison to food that was grown using Integrated pest management techniques, organic produce showed about 50% less residue.[citation needed] Organic produce has also been shown to generally have a greater level of iron, magnesium, vitamin C, phosphorus, and antioxidant phytochemicals. [29]
Minimizing exposure to pesticide residues
In addition to choosing to buy organic produce, there are certain measures that can be taken to minimize exposure to harmful residues: vegetables washes may help remove chemical residues, peeling fruits and vegetables that have known high levels of pesticide residues, and growing your own essential produce.[30]
See also
- Pesticide poisoning
- Food safety
- Environmental effects of pesticides
- Environmental issues with agriculture
- List of environmental issues
References
- ^ IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version: (2006–) "pesticide residue". doi:10.1351/goldbook.P04520
- ^ "Pesticide Residue". Environmental Protection Agency.
- ^ a b Walter J Crinnion. (2009). "Chlorinated Pesticides: Threats to Health and Importance of Detection". Environmental Medicine. 14(4): 347–59. PMID 20030461.
- ^ a b Stephen W.C. Chung, Benedict L.S. Chen. (2011). "Determination of organochlorine pesticide residues in fatty foods: A critical review on the analytical methods and their testing capabilities". Journal of Chromatography A. 1218(33): 5555–5567. PMID 21742333.
- ^ US Environmental (July 24, 2007), What is a pesticide? epa.gov. Retrieved on October 24, 2012.
- ^ IPCS INCHEM (1975),[1] Retrieved on October 24, 2012.
- ^ Pesticide Usage in the United States: History, Benefits, Risks, and Trends; Bulletin 1121, November 2000, K.S. Delaplane, Cooperative Extension Service, The University of Georgia College of Agricultural and Environmental Sciences http://pubs.caes.uga.edu/caespubs/pubs/PDF/B1121.pdf
- ^ A history of pesticide use, Patricia Muir at Oregon State University. Last updated Oct. 22, 2012, http://people.oregonstate.edu/~muirp/pesthist.htm
- ^ Pesticide Usage in the United States: History, Benefits, Risks, and Trends; Bulletin 1121, November 2000, K.S. Delaplane, Cooperative Extension Service, The University of Georgia College of Agricultural and Environmental Sciences http://pubs.caes.uga.edu/caespubs/pubs/PDF/B1121.pdf
- ^ CODEX International Food Standards (Oct 23, 2012)[2] Retrieved on October 28, 2012
- ^ CODEX International Food Standards, Maximum Residue Limits for Spices (Oct 23, 2012)[3] Retrieved on October 28, 2012
- ^ European Commission. (2008). Plant Protection - Pesticide Residues. Fact Sheet.
- ^ "Food Standards". New Zealand Food Safety Authority. Retrieved 2009-02-20.
- ^ [4]
- ^ [5]
- ^ "平成17年厚生労働省告示第497号 食品衛生法第11条第3項の規定により人の健康を損なうおそれのない量として厚生労働大臣が定める量を定める件" (Press release). 厚生労働省 医薬食品局 食品安全部. 2005-11.
{{cite press release}}
: Check date values in:|date=
(help) - ^ "Ministry of Health and Ministry of Agriculture Released MRLS tandards". China Pesticide Information Network. Press Office of the Ministry of Agriculture. Retrieved 16 November 2012.
- ^ "China released 85 kinds of food pesticide maximum residue limits". World agricultural network Chinese network. Retrieved 16 November 2012.
- ^ [GB 25193-2010 食品中百菌清等12种农药最大残留限量 http://down.foodmate.net/standard/sort/3/25573.html "Maxium Residue Limits for 12 Pesticides"] (in Chinese). Archived from the original on 29 July 2010. Retrieved 16 November 2012.
{{cite web}}
: Check|archiveurl=
value (help) - ^ [GB 28260-2011 食品安全国家标准 食品中阿维菌素等85种农药最大残留限量 http://down.foodmate.net/standard/sort/3/28878.html "Maximum Residue Limits for 85 Pesticides"]. Archived from the original on 16 February 2012. Retrieved 16 November 2012.
{{cite web}}
: Check|archiveurl=
value (help) - ^ David Suzuki Foundation, 2007 [6] Retrieved on November.12 2012.
- ^ David Suzuki Foundation, 2007 [7] Retrieved on November.12 2012.
- ^ Marina Bjørling-Poulsen, Helle Raun Andersen and Philippe Grandjean. (2008). "Potential developmental neurotoxicity of pesticides used in Europe". Environmental Health. 7:50. PMID 18945337.
- ^ ChristosA. Damalas, and IliasG. Eleftherohorinos. (2011). "Pesticide Exposure, Safety Issues, and Risk Assessment Indicators". International Journal of Environmental Research and Public Health. 8(5): 1402–19. PMID 21655127.
{{cite journal}}
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at position 25 (help) - ^ David Suzuki Foundation, 2007 [8] Retrieved on November.12 2012.
- ^ Environmental Pesticide Pollution and Its Countermeasures in China Xu Hui, Qian Yi, Peng Bu-zhuo, Jiang Xiliu and Hua Xiao-mei Ambio Vol. 32, No. 1 (Feb., 2003), pp. 78-80 Published by: Springer Article Stable URL: http://www.jstor.org/stable/4315337
- ^ Bernard Weiss, Sherlita Amler and Robert W. Amler. (2004). "Pesticides". Pediatrics. 113(4): 1030–6. PMID 15060196.
- ^ "The dirty dozen and clean 15 of produce".
- ^ Walter J. Crinnion. (2010). "Organic Foods Contain Higher Levels of Certain Nutrients, Lower Levels of Pesticides, and May Provide Health Benefits for the Consumer". Environmental Medicine. 15(1): 4–12. PMID 20359265.
- ^ "What Types of Produce Have the Highest and Lowest Levels of Pesticide Residues?". Organic Consumers Association.