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Pesticide Labeling: Ingredient Statements

Frederick M. Fishel

This guide explains how pesticide ingredient statements are presented on the pesticide label for products' active and inert ingredients. Examples of various types of pesticides are provided.

Introduction

Through backyard neighborly conversation on a warm, spring Saturday morning, one home lawn and garden enthusiast learned that he was missing out on a cost savings by applying his current pesticide product. The enthusiast's neighbor was using a less expensive (by unit amount) product that contained the exact same active ingredient. The only difference, besides the price, was that it was a different brand and sold by a different manufacturer. Learning how to understand ingredient statements on pesticide labels can not only save money, but can also prevent costly mistakes from occurring.

What is Included in an Ingredients Statement

The statement will be clear and prominent, containing the name and percentage of each active ingredient, and the total percentage of all "inert" or "other" ingredients (Figure 1). If arsenic is contained in the product, a statement of the percentages of total and water-soluble arsenic calculated as elemental arsenic must be shown. Total percentage of the entire contents must sum to 100.

  •  

    Figure 1. The product's percentage of ingredients is clearly stated on the label.
    Figure 1.  The product's percentage of ingredients is clearly stated on the label.

     

  • Active ingredient. An active ingredient is any substance that will prevent, destroy, repel, or mitigate any pest. Active ingredients that function as plant regulators, desiccants, or defoliants are also classified and regulated as pesticides. More information may be found in UF/IFAS EDIS Documents PI-101 Defoliants and Desiccants https://edis.ifas.ufl.edu/Pi138, and PI-102 Plant Growth Regulators https://edis.ifas.ufl.edu/Pi139.

  • Inert ingredient. Inert ingredients are any substances other than the active ingredient that are intentionally included in a pesticide product. Some examples of ingredients that may be inert ingredients include: solvents, stabilizers, spreaders, stickers, surfactants, and defoamers. "Inert" and "other" are often used interchangeably in the ingredients statement. More information on inert ingredients may be referred to in UF/IFAS EDIS Document PI-44, What are Inert Ingredients? https://edis.ifas.ufl.edu/pi081.

  • Contents. The name and nominal concentration expressed as a percentage by weight of each pure active ingredient will be placed under the ACTIVE INGREDIENT(S) heading. Liquid pesticides will also have a statement below the percentage amounts that lists the total pounds of active ingredient contained per gallon of formulation. The total percentage by weight of all inert ingredients are placed under the heading, INERT or OTHER INGREDIENT(S).

  • Expanded inert ingredient statements. Occasionally, some manufacturers will disclose on the label the inert/other ingredients in their pesticide product either by chemical name or functional category with a brief explanatory definition. For example, "Purified water, glycerin (to help keep from freezing), or surfactant (to keep the active ingredient dispersed in water).

Where the Ingredients Statement is Found

In most cases, the statement is found on or near the front panel of the label. Some pesticide packages are so small or irregular in shape that placing the statement on the front panel is not practical. If on the front panel, it is usually just below the product's trade name. Manufacturers who have products with outside containers or wrappers through which the ingredients can't be identified will also place the ingredients statement on the outside container or wrapper.

Active Ingredient Chemical and Common Names

With the majority of products, if there is an EPA-accepted common name of the active ingredient, then it will be listed followed by the chemical name (Figure 1). In some instances, chemical names of active ingredients may not be listed if the active ingredients' common names are approved by the American National Standards Institute (ANSI, http://www.ansi.org). On products that display only common names, EPA recommends the inclusion of Chemical Abstracts Service (CAS, https://www.cas.org/products/scifinder) numbers to identify ingredients definitively. If the active ingredient is a microbial agent, it will be identified by genus and species if appropriate, also by subspecies and/or isolate number—see Figure 2. For products that don't have accepted common or chemical names, descriptive names may appear, such as "tobacco dust," "egg solids," or "dried blood."

 

Figure 2. Ingredients statement for a product containing a microbial agent.
Figure 2.  Ingredients statement for a product containing a microbial agent.

 

Substatements (Footnotes)

  • Petroleum distillates. Products containing petroleum distillates, xylene or xylene range aromatic solvents of at least 10% will be shown immediately below the ingredient statement as a footnote (Figure 3).

  • Other ingredients listed in substatements. Ingredients of toxicological concern and products containing more than 0.1% sodium nitrite will be indicated in a footnote. EPA considers the following inerts as a toxicological concern: formaldehyde, isophorone, rhodamine B, phenol, diocytl phthalate, 1,4-benzendiol, and nonylphenol. Although inerts that are not of toxicological concern don't have to be listed, a manufacturer that chooses to list such an inert ingredient in the ingredient statement must list all inert ingredients.

 

Figure 3. Ingredients statement of a product containing petroleum distillates.
Figure 3.  Ingredients statement of a product containing petroleum distillates.

 

Active Ingredients that Degrade

In some cases, active ingredients degrade over time and render the product less effective or completely ineffective. An example is the many currently available products used for sanitizing that contain sodium hypochlorite. Products containing 5.25%–12.5% sodium hypochlorite as the active ingredient will have the following statements listed: "Degrades with age and exposure to sunlight and heat. Use a test kit and increase dosage as necessary to obtain the required level of available chlorine."

Specifically Designated Active Ingredients

  • Some pesticide products, other than microbial agents, contain active ingredients that are specifically designated in their statements for proper clarification and identification. Some examples:

  • Biochemical pesticides. These include products that contain naturally-occurring plant regulators, such as cytokinins, auxins, or gibberellins. Their content would be stated in a recognized bioassay unit, such as "Cytokinin (equivalent to 200 ppm kinetin activity)."

  • Pheromone products. Pheromones are shown in mg per dispenser as a footnote.

  • Insect virus-based insecticides. Pesticide products containing an insect virus as the active ingredient indicate the number of activity units. This is given in terms of polyhedral inclusion bodies for nuclear polyhedrosis viruses or capsules for granulosis viruses per gram (106 PIBS/gm) or percentages (%).

  • Salts, amine, or ester of acids. If the active ingredient is a salt, amine, or ester of an acid, the label will provide a substatement under the ingredient statement the percentage of the acid. This is common with herbicide products containing 2,4-D or paraquat/diquat (Figure 4).

 

Figure 4. Statement of the acid content.
Figure 4.  Statement of the acid content.

 

  • Copper and zinc salts or complexes. Pesticide products for which the active ingredients are copper salts or complexes must declare the chemical name of the copper complex as active ingredient and equivalent metallic copper declared in a substatement (Figure 5).

 

Figure 5. Statement of copper content.
Figure 5.  Statement of copper content.

 

  • Brominated and/or chlorinated compounds. Certain brominated or chlorinated compounds may require a reference in the ingredients statement to the available chlorine or bromine. This amount will be listed as "x% Available Bromine or x% Available Chlorine."

  • Metal ion exchange resins. Any metal, such as silver or copper, used as a pesticide, when bound to an ion exchange resin, must be declared on the label as the percent metallic equivalent with a footnote specifying the identity and amount of the ion exchange resin which was used.

  • Sodium chlorate products. Because sodium chlorate is extremely flammable, all pesticide products containing sodium chlorate must contain a fire retardant in the formulation. Some manufacturers will state this in the vicinity of their trade names; others will state the presence of a fire retardant in the area of the ingredients statement (Figure 6).

 

Figure 6. Statement of fire retardant.
Figure 6.  Statement of fire retardant.

 

  • Arsenic containing products. Pesticide products which contain arsenic in any form must include substatement of the percentages of total arsenic and water-soluble arsenic calculated as elemental arsenic (Figure 7).

 

Figure 7. Statement of arsenic content.
Figure 7.  Statement of arsenic content.

 

  • Fertilizer-pesticide combinations. Pesticides that are formulated in combination with fertilizers must bear an ingredient statement the same as any other pesticides. The fertilizer composition is separate from the pesticide ingredient statement.

  • Complexing agents. In products containing an active ingredient bound with other agents as a complex, the active ingredient must be listed as a footnote with the complex formed (Figure 8).

 

Figure 8. Statement of complexing agent.
Figure 8.  Statement of complexing agent.

 

Additional Information

Fishel, F.M. 2006. Defoliants and Desiccants. PI-101. Gainesville: University of Florida Institute of Food and Agricultural Sciences. https://edis.ifas.ufl.edu/Pi138

Fishel, F.M. 2005. Interpreting Pesticide Label Wording. PI-34. Gainesville: University of Florida Institute of Food and Agricultural Sciences. https://edis.ifas.ufl.edu/Pi071

Fishel, F.M. 2006. Plant Growth Regulators. PI-102. Gainesville: University of Florida Institute of Food and Agricultural Sciences. https://edis.ifas.ufl.edu/Pi139

Fishel, F.M. 2005. What are inert ingredients? PI-44. Gainesville: University of Florida Institute of Food and Agricultural Sciences. https://edis.ifas.ufl.edu/Pi081

Publication #PI-111

Release Date:March 21, 2018

Reviewed At:December 1, 2021

Related Experts

Fishel, Frederick M

University of Florida

Related Topics

  • Critical Issue: Other

The use of trade names in this publication is solely for the purpose of providing specific information. UF/IFAS does not guarantee or warranty the products named, and references to them in this publication do not signify our approval to the exclusion of other products of suitable composition.

Use pesticides safely. Read and follow directions on the manufacturer's label.

Fact Sheet

About this Publication

This document is PI-111, one of a series of the Agronomy Department, UF/IFAS Extension. Original publication date March 2006. Revised February 2018. Visit the EDIS website at https://edis.ifas.ufl.edu for the currently supported version of this publication.

About the Authors

Frederick M. Fishel, professor, Agronomy Department, and director, Pesticide Information Office; UF/IFAS Extension, Gainesville, FL 32611.

Contacts

  • Brett Bultemeier