Herbicide Injury to Garden Plants

 Need to Know

  • Herbicide damage has a wide range of symptoms.  Often symptoms include leaf cupping, petiole twisting, epinasty, blotches, change of color, severe tissue distortion/deformation (especially on new growth), low vigor, and/or plant death.
  • Symptoms may develop within a few days, to more than a week after the application depending on the herbicide used, sensitivity of the plant, and environmental conditions.
  • Herbicide damage can be the result of many things including drift from a nearby application, a misapplication or accidental spraying, and herbicide carryover in contaminated soil, manure, mulch, and compost.
  • Damage from herbicides can be easily confused with diseases caused by pathogens (viruses, bacteria, and fungi).
  • There is little that can be done to "cure" a plant with unintentional herbicide exposure other than to provide good care to ornamental plants and hope they will recover.  Edible plants exposed to herbicides should be removed and replaced.

Not all plant injuries are caused by a biotic factor, like bacteria or fungi; some symptoms are caused by abiotic (non-living or environmental) factors, including herbicides. Herbicide damage can be challenging to diagnose because many of the symptoms can look like those caused by biotic factors.
Learn more about biotic and abiotic symptoms in this article: Biotic vs. Abiotic - Distinguishing Disease Problems


How Plants are Damaged | Symptoms | Management | More Information 


Various species showing symptoms of chemical exposure in the landscape (Euonymous-Left, Locust- Right)
Various species showing symptoms of chemical exposure in the landscape (Euonymous-Left, Locust- Right)

How Plants are Damaged by Off-Target Herbicides

Plants may be unintentionally exposed to herbicides through the following ways:

  • Drift or accidental applications from herbicides applied to nearby lawns, landscapes, fields, or other areas
  • Residue or carryover in materials such as grass/pasture clippings, wood chips, mulch, animal manure, soil, or compost carried to the affected plants from herbicide-treated areas or animals feeding on treated areas
  • Improper use of a product or using the product for a use not listed on the label

Drift and Accidental Applications

Off-target movement of herbicides (often referred to as drift) happens in different ways influenced by many environmental factors.  Drift can be the movement of spray particles or droplets during or after an application influenced by wind or sprayer set-up/equipment.  It can also come from vapors of the herbicide forming and moving to other areas influenced by herbicide formulation, temperature, relative humidity, wind, and inversions. Depending on how the drift happens, it can affect plants only within the immediate area or plants in excess of a mile away.

Accidental applications can happen if a sprayer or other application equipment was not well rinsed and contaminated the contents of the sprayer for a subsequent application. For example, a poorly rinsed sprayer with herbicide residue is used to apply a fungicide and all plants sprayed with the fungicide are now damaged. 
Accidental applications also occur when applicators are careless or distracted and apply herbicides to a plant they did not intend to spray.

A common warning on herbicides labeled for pasture use.
A common warning on herbicides labeled for pasture use. Hay from treated fields should not be incorporated in compost or used as mulch when growing vegetables. Photo credit: Dow AgroSciences; forage herbicide label.

Herbicide Carryover

Some herbicides can persist in the environment at harmful concentrations for relatively long periods of time.  If plants are planted in an area that still has herbicide residue in the soil or if contaminated soil, mulch, compost, or manure are added to garden areas, those plants may show herbicide injury symptoms. 

Grass clippings could be contaminated with herbicide if the lawn or pasture was treated.  Likewise, trees that have been treated with chemicals and chipped into woodchips can contain herbicides. 

Animal manure can be contaminated with herbicides as well. Animals that feed on plants treated with some herbicides can pass that herbicide through in their manure.  When that manure is used as an amendment, it causes herbicide injury symptoms in the plants.  Herbicide-contaminated grass clippings, animal bedding, or wood chips added to compost can contaminate the compost.  Depending on the product the herbicide may be very slow to break down, even when composted. 

It is possible for herbicide residues to remain in the soil, plant material, manure, and compost for up to a year or longer.  There are significant differences among herbicides in how long they will remain active in soil and other materials. The herbicide label provides information on its persistence in the environment.

Improper Use

When herbicides are not used according to label directions, unintentional injury can occur. Always confirm that the desirable plants within or near the herbicide application are not listed on the label as plants that it will kill. Herbicides should not be used on crops, in landscape settings (such as the lawn or vegetable garden), or on plant species not listed on the label.  Damage can also result from applying the herbicide with inappropriate equipment or during unfavorable weather conditions as well as not adhering to reentry, waiting intervals, or use guidelines printed on the label.  


Symptoms of Herbicide Injury

Symptoms of herbicide damage are varied and depend on the type, formulation, concentration, mode of action, source, and amount of herbicide as well as the species of the plant affected, application method, equipment used, and weather conditions during and after application.

Typical Herbicide Injury Symptoms

Symptoms of herbicides injury are varied but in general, include:

  • Distorted or irregular growth (especially at growing points)
  • Cupping or curling of leaves
  • Deformed, twisted, and/or irregular leaf growth
  • Epinasty (bending or twisting of plant parts, especially stems, downward and outward)
  • Petiole twisting
  • Thickening or callusing of stems
  • Blotches or spots in a droplet or spray pattern
  • Yellowing of leaves and/or stems
  • Die-back of leaves and/or stems
  • Reduced vigor or growth rate
  • Weak emergence and seedling establishment
  • Plant death

Pattern of Symptoms

Herbicide injury typically affects all or most plants in an area, regardless of species.  For example, distorted and weak growth with yellowing in the leaves is observed on tomatoes, beans, broccoli, and peppers in the same garden area. Or tomatoes, peppers, and beans at one end of the garden all show symptoms and the same species at the other end (further from the herbicide application) do not.  Depending on the active ingredient, symptoms may only be on certain types of plants.  For example, all the broadleaf plants in the area show symptoms, but none of the grassy plants have issues.  While damage from herbicides will cause similar symptoms in multiple species in the same area, insect or disease issues rarely affect multiple un-related plant species in the same way. 

Sensitivity

Some plant species are more sensitive to certain types or formulations of herbicides than others. For example, plants like tomato, grape, pepper, apple, maple, peach, strawberry, elm, redbud, geranium, petunia, and coleus show much more sensitivity to off-target applications of 2,4-D or Dicamba than plants like hosta, daylily, zinnia, marigold, and vinca. Sensitive species will show more extensive damage than non-sensitive species.  Those plant species that are more sensitive are also more likely to show damage at distances further from the herbicide application than those that are less sensitive.

Time for Symptoms to Appear

Herbicide injury symptoms may develop within a few hours, a few days, to more than a week after the application depending on the product used. Herbicide residue or carryover in mulch, manure, compost, and soil can cause injury symptoms in the days or weeks following the application of the mulch, soil, or compost product.

Knowledge of Nearby Application

If you know a herbicide application was made in the area prior to the appearance of symptoms, that can further confirm herbicide injury as the cause of the issues.  Remember, just because a herbicide was applied nearby does not mean the symptoms observed are caused by herbicide drift or misapplication.  But when symptoms or patterns are indicative of herbicide injury and it's known an application was made nearby, it can help further confirm the cause of the issue.

Additionally, when the type and formulation of a nearby herbicide application are known, the specific symptoms of that active ingredient can be used to confirm herbicide drift or misapplication.

Herbicide injury symptoms observed on plants are specific to the herbicide chemical class and its mode of action. For example, injury symptoms from an off-target application of glyphosate look different from dicamba. Below are several classes of herbicides commonly used in home landscapes with their potential symptoms of injury.

Herbicide Injury Symptoms for Select Classes

Herbicide chemical class

WSSA Group

Potential symptoms of injury

Herbicide 

Growth regulator (synthetic auxins)

4

Epinasty (bending or twisting of plant parts downward and outward), tissue deformation, broadleaf plants affected

2,4-D, Dicamba, Triclopyr, MCPA, Picloram, Quinclorac

Pigment inhibitor

13, 27

Chlorosis (yellowing), white, bleached appearance

Bixlozone, Mesotrione

ALS inhibitor

2

Symptoms appear on new growth, chlorosis (yellow), red veins, distorted leaves

Imazapyr, Penoxsulam, Halosulfuron, Imazaquin, Imazapic, Imazethapyr

PPO inhibitor

14

Necrotic (dark brown or black, dead plant tissue) lesions on leaves contacted by herbicide, broadleaves more sensitive than grasses

Carfentrazone, Sulfentrazone

EPSPS inhibitor

9

Symptoms appear on foliage that develops following exposure, chlorosis (yellowing), distorted leaves

Glyphosate

ACCase inhibitor

1

Necrotic (dead) growing point within the stem of  grasses, chlorosis (yellowing)

Fenoxaprop, Fluazifop, Clethodim, Sethoxydim

Photosynthesis Inhibitors (Photosytem II inhibitors)

5, 6

Chlorosis (yellowing) between leaf viens and along margins, necrosis (death), symptoms develop from the bottom up

Atrazine, Bentazon

Photosynthesis Inhibitors (Photosytem I inhibitors)

22

Necrosis (browning), spotting, water-soaked areas which later turn yellow or brown, symptoms appear within hours of application

Diquat, Paraquat

Cellulose inhibitor

29

Mottled or puckered leaves, chlorosis (yellowing), stem girdling, abnormal shoot tips

Isoxaben, Indaziflam

Mitosis inhibitors

3

Distrupted germination

Pendimethalin, Prodiamine, Benfluralin, Oryzalin, Trifluralin

Tomatoes exposed to 3 different herbicide wssa groups. A) WSSA group 16. B) Group 9. C)  Group 4.
Tomatoes exposed to 3 different herbicide WSSA groups. A) WSSA group 6. B) Group 9. C)  Group 4. Photo by Dr Nair, ISU Dpt of Horticulture.


Management of Herbicide Damaged Plants

If plants are damaged by herbicide, they may or may not recover, depending on the severity of the damage. All that can be done is to wait and see what happens while providing good care for the plant.  Preventing other stresses from harming the plant is the best way to minimize herbicide injury. This includes watering during hot and dry periods, fertilizing if the soil is deficient, and scouting for other diseases and insect pests.
When herbicide injury is observed, there are no chemical sprays or nutrient/fertilizer applications that can reverse the damage.

New growth may be unaffected and long-term damage may not occur. This depends on the plant species, its overall health, and the product it was exposed to.

Suspected herbicide damage on Fir
Suspected herbicide damage on Fir

Management of Edible Plants with Herbicide Injury

Whether a crop is safe to eat after accidental exposure to a chemical depends on many factors including the product used, active ingredient(s), concentration, its mode of action, and many others. The safest course of action is to not consume any part of a plant that has been exposed to a known or unknown herbicide and to remove and replace the plantsFor perennial edible plants, like fruit trees, fruit should not be consumed as long as the herbicide is present in the soil or surrounding environment.  Once the herbicide is gone from the environment, the length of time before you can consume the crop varies depending on the product and growing conditions and is typically at least one growing season.  Check the product label or website for the pre-harvest interval and/or length of time the product is persistent in the soil to know how long you have to wait before harvest.

Even if you know the product used, the label will not typically provide safety information for use on fruits and vegetables since they are not intended to be used on these plants.

Depending on the time of year and source of contamination, it may be possible to replant the crop.  Some vegetables will not be able to be replaced and have enough time to mature and harvest. However, there may still be some alternative crops you can replant. 
Count the number of days from the anticipated replanting date to your average first frost date.  Locate the days to maturity printed on the label or seed packet.  As long as the days to maturity are fewer than the days left until frost, it’s worth attempting to replant. 
Additionally, many garden centers have large, established vegetables in containers that could be purchased to replace damaged plants and farmer's markets can be a good source of locally grown vegetables and fruits.

Prevention is Important

When herbicide damage occurs, there is nothing that can be done other than wait and see and continue normal practices that maintain plant health. Because of this, preventing herbicide damage is essential.  

Follow Label Directions
Always apply pesticides as directed on the label.  Pay close attention to the instructions on the label and follow them precisely,  Only apply herbicides when the environmental factors, such as wind direction, wind speed, and temperature, are appropriate.  Align and follow all other factors outlined on the label such as personal protective equipment (PPE), re-entry interval (REI), and pre-harvest interval (PHI). Equipment used for mixing and spraying must be cleaned thoroughly after the application of a chemical to prevent contamination. More information on reading herbicide labels can be found in these resources: 

Be Aware of Nearby Applications
Scout often and be aware of spraying that occurs in your landscape or in surrounding fields, yards, and gardens, and watch your plants for symptoms of damage in the following days. Knowledge of the herbicides applied in the area can help identify the potential cause of the symptoms.

Avoid Using Amendments Suspected of Herbicide Contamination
If you suspect mulch or manure could be contaminated with a herbicide, avoid using it. For example, do not use grass clippings from recently treated lawns as mulch in a vegetable garden.  Mulch or wood chips from trees, stumps, or brush treated with herbicide can have herbicide residue that can injure ornamental plants.  Manure from animals grazing on herbicide-treated plants and compost made from herbicide-treated plant materials can contain herbicide residue even after composting depending on the amount of time and type of herbicide used.  Carryover in mulch and soil amendments can be avoided by reading the label for information, following reentry and waiting intervals, and applying the appropriate labeled rate.

Testing Soil and Amendments at Home
Suspected herbicide-contaminated compost, soil, and other amendments can be tested at home.  In early spring, take a representative sample of the compost or soil by collecting samples from the pile or top 4 to 6 inches of soil in different areas and mixing thoroughly. Transplant healthy tomato seedlings into the sample mix and evaluate the development of the plants for at least four weeks. Tomato is a species particularly sensitive to many commonly used herbicides. If plants remain healthy, the soil, amendment, or location is safe to use.  If they show symptoms of herbicide injury, do not plant.

Testing Plant Material for Herbicide Residue

An analysis of plant material for herbicide residue can be done, but they do not always provide conclusive results. Additionally, there is little known about acceptable thresholds for many herbicides on most vegetables, trees, shrubs, and other garden plants.  So even if you conduct a herbicide residue test and now know the concentration of herbicide found in the leaves or other parts of the plant, it still does not give any guidance on what to do with the plant since the acceptable threshold of damage is not known. 

If you are still interested in testing the plant material for residue, Iowa State University does not provide this service. The Iowa Department of Agriculture and Land Stewardship (IDALS) provides a list of private labs that can perform a pesticide residue test. IDALS Pesticide Labs List
Information on costs and how to collect the sample are found on the websites of each respective laboratory.

Reporting and Enforcing Herbicide Drift

The IDALS Pesticide Bureau provides enforcement of the Iowa Pesticide Act, which governs pesticide use in Iowa. This would include herbicide injury situations that involve misapplication, drift, or negligence on the part of the applicator. More information on pesticide use investigations and enforcement can be found on their website: IDALS Pesticide Bureau

Information on how to file an "Incident Report" with the IDALS Pesticide Bureau to report any pesticide complaints (drift, misapplication, etc.) can be found here: Pesticide Investigation & Enforcement


More Information

Herbicide injury to the foliage of a birch tree.
Herbicide injury to the foliage of a birch tree.

Suspected herbicide damage on Amur Maple
Suspected herbicide damage on Amur Maple

Authors: 

Lina Rodriguez Salamanca Extension Plant Pathologist and Diagnostician

Dr. Lina Rodriguez-Salamanca is a diagnostician and extension plant pathologist with the Iowa State University Plant and Insect Diagnostic Clinic  (clinic.ipm.iastate.edu), a member of the National Plant Diagnostic Network (NPDN, ...

Last Reviewed: 
September, 2022

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