Dichlorvos

di-klawr-vos

Registered as a U.S. pesticide in 1987. Reregistered in 2006. Currently under registration review.

Overview

Dichlorvos is used in the United States.

Geographic usage data for dichlorvos is not available.

See detailed maps of usage by state and county for other organophosphate pesticides.

Human Health Effects

Even at low levels of exposure, dichlorvos can lead to serious negative health effects.

Cancer

Neurodevelopmental Harm

High Risk Exposure Routes

People are exposed to dichlorvos through food and drinking water, even if they don’t live near areas where pesticides are sprayed. Details.

Food and/or Drinking Water

Pesticide HandlersPeople involved in pesticide application process. Details.

Residential

Naled and trichlorfon (also an organophosphate pesticide) are rapidly metabolized or degraded to dichlorvos (DDVP) in food, drinking water, and the environment. (See figure.)

Additional sources of DDVP from the presence of naled (DDVP + naled), include: Food and/or Drinking Water, Farmworkers, Residential Bystander, Spray Drift, and Wide Area Public Pest Control.

Additional sources of DDVP from the presence of trichlorfon (DDVP + trichlorfon), include: Food and/or Drinking Water, Farmworkers, Residential, Residential Bystander, and Spray Drift.

Percentage of Crops Treated

Dichlorvos is applied on food widely grown and consumed in the United States.

Safflower (75%)

Strawberries (45%)

Registered Uses

Where EPA allows dichlorvos to be used.

Agricultural Sites

Animal Premises

Commercial, Institutional, and Industrial Sites

Food Manufacturing/Processing Plants

Non-Food Areas of Food Handling Establishments

Indoor Residential Use

Livestock

Mushroom Houses

Outdoor Residential Use

Storage Areas for Bulk / Packaged / Bagged Raw and Processed Agricultural Commodities

Additional Information

DDVP, Trichlorfon, and Naled

Figure illustration the degradation of DDVP, trichlorfon, and naled.

The organophosphate pesticides trichlorfon and naled are rapidly metabolized or degraded to dichlorvos (DDVP) in food, drinking water, and the environment.

Therefore, the U.S. Environmental Protection Agency accounted for additional sources of DDVP from the presence of trichlorfon and naled in food and drinking water in its risk evaluation of DDVP.

In this database, we represent these additional sources of DDVP as “DDVP + trichlorfon” and “DDVP + naled.”

EPA did not expect occupational or residential exposures to DDVP from the use of trichlorfon or naled, and excluded these exposure pathways from the DDVP risk evaluation.

U.S. Tolerances Categories & Commodities for Dichlorvos

The U.S. EPA sets maximum residue limits — known as “tolerances” — on the amount of dichlorvos that may remain in and on foods. The tolerance is the residue level that triggers enforcement actions.

Tolerances have been set for dichlorvos for: Agricultural Commodities and Milk Eggs Meat and/or Poultry. Maximum residue limits have been set for dichlorvos by the U.S. EPA for the following commodities:

Cattle
Eggs
Goat
Horse
Milk
Mushroom
Poultry
Sheep
Raw Agricultural Commodities Postharvest

U.S. EPA Human Health Risk Assessments for Dichlorvos

Human Health Risk Assessments are conducted by the U.S. EPA to estimate the nature and probability of harmful health effects in people who may be exposed to pesticide. They are used to make informed decisions about approving new pesticides and new uses of registered pesticides, and during our regular review of existing pesticides. Read the assessment for dichlorvos.