Difference between revisions of "Bentazon"
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| − | Bentazon is expected to enter surface water by run of from application sites. It has a moderate water solubility of 500 mg/l and a low tendency to [[adsorption|adsorb]] to soils and sediments. In water it can be rapidly broken down by sun light (photodegradation). Its environmental [[half- | + | Bentazon is expected to enter surface water by run of from application sites. It has a moderate water solubility of 500 mg/l and a low tendency to [[adsorption|adsorb]] to soils and sediments. In water it can be rapidly broken down by sun light (photodegradation). Its environmental [[half-life]] varies between 24 hours and 4 months, depending on the environmental conditions. It can also be biodegraded. <ref>[http://extoxnet.orst.edu/pips/bentazon.htm www.extoxnet.orst.edu 20 August 2009]</ref> <ref>[http://www.epa.gov/oppsrrd1/REDs/0182.pdf Epa 1995 Reregistration Eligibility Decision Bentazon]</ref> |
It has a very low a tendency to [[bioaccumulation|bioaccumulate]]. | It has a very low a tendency to [[bioaccumulation|bioaccumulate]]. | ||
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== Environmental standards and legislation == | == Environmental standards and legislation == | ||
Revision as of 09:58, 27 August 2009
Definition of bentazon:
Bentazon is a herbicide used in agriculture for selective post-emergence control of many broad leaf weeds in soybeans, rice, corn, peanut, mint, dry bean, dry peas and succulent lima bean plantations. [1]
This is the common definition for bentazon, other definitions can be discussed in the article
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Notes
| Bentazon |
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| Formula |
| C9H12N203S |
Bentazon is expected to enter surface water by run of from application sites. It has a moderate water solubility of 500 mg/l and a low tendency to adsorb to soils and sediments. In water it can be rapidly broken down by sun light (photodegradation). Its environmental half-life varies between 24 hours and 4 months, depending on the environmental conditions. It can also be biodegraded. [2] [3]
It has a very low a tendency to bioaccumulate.
Bentazon has a low toxicity to most aquatic animals. Concentrations above 100 mg/l are necessary to cause acute toxicity to fishes. Invertebrates are most vulnerable; mussels die at concentrations above 20 mg/l. Concentrations above 5 mg/l might affect phytoplankton. [4]
Environmental standards and legislation
Included in the water framework list of priority substances
