The majority of insects captured in light traps inside a food warehouse or food plant are not structural infesting pests. We can find stored product pests and filth flies, but in most facilities, these are the smallest percentage of the total insect count. The majority of captures are light-attracted insects which have made their way into the building through an open door or vent. They are often attracted to the building for the same reason that they end up in the trap, the lights. They may breed in water, feed on vegetation or be predacious on other insects and will not survive or reproduce in a food facility. However, they may contribute to consumer complaints. As an entomologist for a pest management firm, the highest percentage of insects I identify which are associated with consumer complaints are not food-infesting pests. Exterior light management and exclusion are the keys to reducing indoor problems with these insects.
What are some of the common invading insects?
Non-biting midges are medium-sized, slender flies which are often mistaken for mosquitoes. They do not have long, pointed mouth parts adapted for blood feeding, like mosquitoes. The males will have feathery antennae. They can range in color, but most are black or brown. They can breed in similar environments to mosquitoes but can also be terrestrial in nature. Facilities near ponds or lakes will more commonly see midges of various types in their light traps. These insects may be attracted to structures in large numbers, particularly in the spring.
Leafhoppers are herbivores and feed on the juices of a variety of plants. They can be green, yellow, brown or a mixture of colors. The body is wedge-shaped and less than ¼ inch in size. They may be found feeding on the underside of host plants outdoors. It is very common to find these insects in light traps.
The ground beetles comprise one of the largest groups of beetles in North America. They are typically black in color, with ridges on their wings. However, color can vary. One common species is bright green metallic and black in color. They are active at night and will often fly to lights. Most are predacious on insects, and for this reason, considered beneficial in nature.
Thrips are extremely small insects, less than 1/20"; most are plant feeders. They can range in color from white to pale yellow to brown and are slender insects with fringes along their wings. Although they are considered poor fliers, some will float on air currents and travel long distances.
There are a variety of stink bugs which may be found in insect light traps. The green stink bug and the brown marmorated stink bug are two of the more common species. The brown marmorated stink bug will intentionally enter structures in the fall for an overwintering harborage. All stink bugs will have a triangular or shield-like body shape and may be ½" or larger in size. Most are pests of plants, feeding on plant juices with their sucking mouth parts. They can be serious agricultural pests, causing damage in the millions of dollars to crops. They are called stink bugs because of their ability to excrete offensive odors as a defense mechanism.
Night Flying Moths
There are several different species of night flying moths that may enter a building. Most are agricultural or turf pests which leave the field and are attracted to the lights of structures. They are drab in color, with very little coloration on wings or wing patterns. Examples of these moths include cutworms and army worms in the insect family, Noctuidae.
How Are They Controlled?
Although these insects are accidental invaders and will not reproduce indoors, they can contaminate products and packaging materials. Preventing their entry and reduction of their numbers indoors is important. Reducing the attraction to the structure is the first step, by managing exterior lighting. The second step is reducing pest entry points through proper exclusion methods of keeping doors closed and other openings sealed or screened.
Insects use light in navigation and are attracted to lights for this reason. The warmth generated by light may provide secondary attraction. Not all lighting is created equally when it comes to the level of attraction. Reducing the highly attractive lights, those in the bluer end of the light spectrum (450 to 500 nm range), is advised. The most common type of lights in this range are mercury vapor lights. Use less attractive lighting, in the 575-600 nm range, on buildings. Examples of commercial lighting in this range are high-pressure sodium vapor lights. It is estimated that mercury vapor lighting is 112 times more attractive to insects than sodium vapor lighting, which can provide major differences in the numbers of insects attracted to the building. The mercury lights can be identified as having a stronger, whitish-blue light versus the sodium vapor lights, which appear more yellow in tone or color.
Mercury vapor lights can be used as part of a push-pull strategy. Mercury lights placed one hundred or more feet away can be used to pull insects away from structures. Since these lights can be more desirable from a visibility standpoint, they are still utilized, but in a manner that is less apt to cause insect entry.
LED lighting for exterior lights is becoming more popular. The range of LED lights can vary considerably, and before purchasing, the food plant should determine what range of light is emitted. Avoid using LED lights in the same range as mercury vapor lighting (450-500 nm) for fixtures which will be mounted directly on the structure.
As mentioned previously, exclusion is another important element of managing these insects. Food plant staff should be educated in the importance of keeping doors closed. Timers and alarms can assist in insuring compliance. Some facilities will also provide garage door-type openers for forklift drivers to help increase compliance. With these automatic opener devices, forklift drivers do not have to leave their forklifts to open and close doors, which can facilitate the practice.
Strategically placed insect light traps can be used as another line of defense in protecting food from light-attracted insects. Light traps utilize the same attraction that brought the insects into the building in controlling them. Light trap bulbs emit light in the range of 365 nm.
There are a large number of different insect light trap manufacturers and models available to the food industry. Most manufacturers will offer glue trap models and electrical grid models, sometimes referred to as zappers. The electrical grid models will deliver an electrical charge to the insect as it passes through a grid in the trap. Dead insects fall into a tray for later disposal. The glue board-based traps use the same light to attract insects, but rather than kill the insects with an electrical charge, the insects are captured on a glue-coated cardboard insert.
Glue Or Grid?
Which is better, glue or grid? It depends on the sensitivity of the area, pest pressures and desired need for pest identification. Grid type traps tend to have a slight advantage in ability to capture larger quantities of insects due to overall size of the trap. These are often used in warehouse areas where dock doors and delivery activities could present heavy insect pressures. On the other hand, counting and identifying insects for tracking and trending purposes can be easier with a glue board based traps. The insects are confined to the glue, and there is less risk of insect parts or dead insects being carried out of the trap via air movement or trap disturbance. Glue board based traps are more commonly used in food preparation areas.
The majority of insects will be attracted to a light trap from a distance of 100 feet. House flies have a slightly shorter range of 20-25'. That doesn't mean we should place traps at 25-foot or 100-foot intervals. Instead, we need to look at the potential entry points and strategize to find the best interception points. Think about the potential path of the insect coming through an open personnel door or dock door, and where is the best location for capture. Vestibules can be one of the best areas to install traps for invaders coming through personnel doors. At the same time, we want to make sure that our traps are not visible from the outside via windows or doors. Traps facing outwards, towards a bank of windows, can be responsible for bringing insects to the building.
The height that a trap is placed from the floor can be important in capturing different groups or species. House flies tend to fly low to the ground. Placing the trap at a level around 4 feet from the floor is ideal. Some of the night flying insects can be found flying closer to the ceiling. Determine your targets, and place traps accordingly.
Some third-party auditors and the FDA's Retail Food Code will have specific guidelines for installing traps a certain distance away from open food product. When specified, these distances can range from 8 feet to 30 feet. For example, the American Institute of Baking states that traps should be installed at least ten feet away from food contact surfaces. FDA's Retail Food Code indicates that insect light traps cannot be located over food preparation areas. Some standards have two different guidelines, based on whether the trap is located near exposed product versus packaged product. Regardless of the audit standards or code, it is not a good practice to place a trap in an area where it may draw insects to or over exposed food or food contact surfaces. It has been shown that pathogens can be shed from insects, like filth flies, during flight. To reduce the potential of pest contamination and pathogens, place lights with these risks in mind.
This article was written by Patricia Hottel from Food Manufacturing and was legally licensed through the NewsCred publisher network. Please direct all licensing questions to email@example.com.