Experts Warn of Increased Termite Activity Due to Climate Change, Urging Vigilance and Control Measures

Termites may have a bad reputation, but they do an important job in the ecosystem.

Several treatment methods are available to eliminate or prevent them. A physical barrier such as steel mesh can be effective. Other treatments are based on baiting or soil-applied liquids. Many companies offer warranties to back their work. Check out this website at for more information.

Liquid Pesticides

pest control

Termite infestations are devastating for homeowners and businesses because of the extensive damage that they cause. A single colony of subterranean termites can destroy a house in as little as 6 months, making it crucial that you take action as soon as you notice any signs of these pests.

Several different methods are used to treat and control termite infestations, including liquid pesticides, baiting stations, physical barriers, and fumigation. Liquid pesticides are insecticides designed specifically for termite control, and they can be applied to the soil around a building to prevent any foraging termites from entering. This is a common and effective method of preconstruction termite treatment, and some of these products can provide residual control for up to 12 years.

In-ground baiting stations are another popular method of termite pest control, and they are particularly useful in providing long-term preventive control. These stations are set up in the ground at regular intervals around a structure, and they contain woody debris impregnated with a slow-acting insecticide. Foraging termites discover the bait stations and feed on them, carrying the poison back to their colonies. Over time, this poisoning can eventually eradicate entire termite colonies.

Foam termiticide treatments are also sometimes used to supplement other types of termite treatment, and they are injected into wall voids and other confined areas to provide termite control that is hard to achieve with other treatment methods. These foams have a consistency similar to shaving cream, and they are able to penetrate into crevices where other insecticides might not be able to reach.

For severe termite infestations, professional exterminators may recommend fumigant treatments such as gas fumigation or heat treatment. In fumigation, a home is sealed off inside a tent and pumped full of toxic gases that completely destroy the termite colony. Heat treatment works similarly, except that structural wood is heated to temperatures of 120 degrees Fahrenheit to kill the termites.

Termites can be difficult to detect without professional help, and even then it may be months or even years before the extent of damage is known. However, there are many steps that you can take to protect your property from these destructive pests, including regularly getting termite inspections and removing dead trees and stumps from your yard. You can also have your firewood stored above ground and inspected before bringing it into your house, and you should always keep wooden beams and decking well maintained and sealed against the elements.


Termites are tenacious invaders that can destroy the foundation of your home. DIY methods aren’t always effective, but professional pest control offers the right equipment, products, and knowledge to halt these invasive creatures at the source.

A professional inspection is the first step. Then, depending on the results of that inspection and the type of termites identified, one of several treatment options is recommended. For drywood termites, liquid or foam applications make the most sense because they penetrate and kill the insects on contact. These preventative treatments can be applied to the soil around your structure, effectively creating a barrier that stops termites from ever entering in the first place.

For subterranean termites, bait systems offer a more effective solution. The Sentricon system directly targets these wood-eating insects. It uses a monitoring station to identify areas of high activity. After the active area is identified, a bait station is then placed in the area. The bait stations contain slow-acting chemicals that workers ingest and then carry back to their colonies. This ensures that multiple generations within a colony are exposed to the toxic material.

This method is particularly effective for treating drywood and subterranean termites that can’t be targeted using soil treatment methods. It’s also ideal for cases in which soil treatment has failed to completely eradicate a termite infestation.

Another preventative treatment option is wood treatment. This involves coating wood surfaces with a special formula that makes it impossible for termites to digest the material. As a result, the termites will die upon ingestion. This method can be used to treat existing wood in your home, as well as to treat any new wood that enters the property.

Termites have a number of natural instincts that help them to work together, defend their colony, and protect the queen. If these instincts aren’t taken into account when applying pest control, it’s likely that the treatment will fail. A professional will understand the biology of these insects and the intricacies of their behavior to develop a plan that’s most effective. In addition, they will know what to look for in order to spot an infestation early on, such as mud tubes or other signs of termites.


A popular termite treatment is fumigation, which uses restricted-use gases to treat large areas of a structure. This method is also known as “tenting” and can be very effective in treating severe infestations. Tenting can cost $1 to $3 per square foot or $10 to $20 per linear foot, depending on the size of a house and how extensive the infestation is.

This method is often used for drywood termite infestations, which are more difficult to eradicate than subterranean termites. When used properly, fumigation can destroy a whole colony and prevent future outbreaks. However, the process is lengthy and requires occupants to vacate their home for several days. In addition, it uses highly toxic chemicals that may be harmful to people and pets.

For this reason, it’s important to work with a pest control professional who has experience using fumigation and can accurately determine the severity of your termite infestation. They will also ensure that your home is safe for re-entry once the fumigation has been completed.

It’s possible to prevent a termite infestation in the first place by installing termite-resistant wood and sealing as many cracks as possible. It’s also essential to keep landscaping materials away from the foundation, support posts and steps, and to regularly inspect exposed wood. In addition, a well-maintained termite baiting system can be a highly effective preventative measure.

In addition to these prevention measures, it’s important to be able to recognize the signs of a termite infestation. Termite droppings, which are small granular pellets that look like dust and appear around door frames and baseboards, are one of the most common indicators. Other signs include swarmers, which are winged reproductive termites that resemble flying ants. These insects are commonly seen in spring, when they emerge from their nests to find mates.

If you’re unsure whether your property is affected by a termite problem, contact All County Pest Control for a free inspection. Our experts will use all the tools at their disposal to design an effective preventative plan for your New York home or business and can provide information about available treatment options.


The most effective termite pest control is regular inspections by a professional. A pest control technician can determine the type of termites, how severe an infestation is and whether or not a home is at risk for future infestations.

This includes examining wood piles, soil around the foundation, basement or crawl spaces, a visible cellulose-based mud wall, and any other signs of termite activity. A pest control company may also recommend homeowner assistance, such as diverting rainwater away from the house, repairing leaks and addressing moisture issues, which can all contribute to a termite problem.

Termite control professionals may also employ monitoring stations, which are placed within the soil of areas with suspected termite activity. These stations contain slow-acting baits that worker termites carry back to their colonies, where they feed and distribute the bait throughout the colony. Eventually, the entire colony dies, which eliminates the threat without requiring any direct contact with liquid pesticides.

For homes with a large termite infestation, it is usually necessary to use conventional liquid pesticides. After a thorough inspection, the pest control technician will dig a trench around the foundation and drill holes into slab areas where termiticide is then applied directly to the soil. In addition, they may install a series of above-ground and in-ground termite bait stations around the property.

A pest control technician will then follow up with an annual inspection to ensure that the termite treatment remains effective. Many companies offer a range of packages for different levels of protection, including options that provide coverage for up to 13 years.

When hiring a provider for termite treatment, look at customer reviews and compare prices. Consider a company that offers online chat support, has a money-back guarantee and is licensed and insured in your area. Also, check the credentials of the pest control technicians. For example, Orkin requires that its employees complete 160 hours of training during their first year and trains them in drilling, liquid and foam application for termite prevention.

Although DIY treatments are an option, the savviest homeowners know that it’s best to call a pest control company before a termite infestation causes major damage to their home. Inexperienced DIY treatments may result in unreliable results, and can even lead to further damage if chemicals are not properly applied. In addition, the products sold at most hardware stores are not as effective as professional-grade solutions.

Sustainable Solutions: The Rise of Bio-Based Pest Control Materials

Pests can cause damage to buildings and sites, spread diseases, and contaminate food. Monitoring helps you identify the type and number of pests, enabling you to decide whether Colonial Pest Control is necessary.

Nematodes use naturally occurring soil microorganisms to suppress insect populations. However, they have a short shelf life and require specific conditions to work.


pest control

Dusters are aerosol cans that deliver a pressurized blast to dislodge dust and dirt. They are a convenient replacement for compressed air lines on a production line, or a way to blow out biscuit crumbs from a computer keyboard or clean critical optical apertures in a PCB assembly or repair operation. Retail duster cans typically contain propane or butane (the same stuff as in your Bic lighter), while industrial brands use HFC-152a, which is safer and cleaner.
Pest control dusters are essential tools used in various pest management applications, offering efficient and targeted application of pesticides, dusts, and other control agents. These devices come in different shapes, sizes, and designs, but they all serve the common purpose of dispersing pest control substances effectively. One of the primary advantages of pest control dusters is their ability to reach inaccessible areas where pests may hide, such as cracks, crevices, voids, and other tight spaces. This ensures thorough coverage and maximizes the effectiveness of pest control treatments.

The versatility of pest control dusters makes them suitable for both indoor and outdoor pest management tasks. Whether it’s controlling crawling insects like ants and cockroaches in residential buildings or targeting pests in agricultural fields and industrial facilities, dusters offer precision application with minimal waste and environmental impact. Furthermore, some dusters are designed for specific types of pest control applications, such as dusting powders for bee and wasp nest treatments or diatomaceous earth for bed bug control.

Pest control dusters vary in their operation mechanisms, with options ranging from manual dusters to powered dusters. Manual dusters typically rely on hand-operated pumps or squeeze bulbs to dispense control agents, making them suitable for smaller-scale applications and spot treatments. On the other hand, powered dusters utilize compressed air, battery, or electric motors to deliver controlled doses of pesticides or dusts over larger areas quickly and efficiently. These powered dusters are often preferred for commercial and agricultural pest control operations due to their speed and productivity.

Proper calibration and maintenance of pest control dusters are crucial for ensuring accurate application rates and optimal performance. Regular cleaning and inspection of duster components, such as nozzles, hoses, and reservoirs, help prevent clogs, leaks, and malfunctions that can compromise treatment efficacy. Additionally, calibration tests should be conducted periodically to verify the consistency and accuracy of pesticide delivery, especially when using powered dusters. By following manufacturer guidelines and best practices, pest control professionals can maximize the effectiveness of dusters and achieve superior results in pest management efforts.

Foaming Equipment

Foaming equipment uses air, water and chemical concentrate to create a wet, clinging foam that can be used for cleaning and firefighting. The foam helps the chemical solution soak into and cling to surfaces for longer, improving wetting and removal of caked-on grit. It also helps users more clearly see which areas have already been treated to prevent over-application and potential contamination. Foam can also be projected at lower pressures than liquid spray, allowing it to be used on more sensitive surfaces.

The type of foaming equipment needed depends on the cleaning objectives and chemical properties. Foam cleaning systems are available in a range of sizes and configurations, including portable units and wall-mounted systems. These systems use an air-operated diaphragm pump that draws and pressurizes pre-diluted chemical solution from a tank integrated into the cart or a customer-supplied stationary tank. The system then dispenses the foam by way of a hose, wand and nozzle to any surface up to 15 feet away.

Class A foaming agents are a biodegradable mixture that when mixed correctly with water can change the wetting and spreading characteristics of the water. This increases the penetration into and clinging to of the cleaning chemical, reducing the time required for cleaning. Foaming agents also reduce the amount of residual solvent left behind, extending the time it takes for the contaminant to evaporate.

Foam can be used to clean a wide range of surfaces, and it is particularly effective in removing oil, grease and fats from equipment. It can be applied to hard-to-reach corners and crevices, where it creeps along the surface, soaking into dirt and oil until it is washed away with the rest of the wash solution.

In a firefighting application, foam is used to extinguish hydrocarbon fuels by blocking the oxygen supply to the fire and creating a thick blanket that engulfs the flames and cools them down. Foam is available in a number of densities, and the type of nozzle used to apply the foam will determine its effectiveness against different fuel types. For example, high-density foam is better suited for fuels that tend to burn hotter, while low-density foam can be used for lighter fuels.


The most specialized piece of personal protective equipment is the respirator. When working with pesticides, they are required when a risk of exposure cannot be eliminated by engineering controls (for example changing the chemical or using less hazardous pesticide) or administrative controls (for example requiring that workers wear PPE and follow other work practices to prevent exposure). Respirators protect from breathing in air contaminated by the pesticide and can save lives and reduce medical expenses. The type of respirator needed will depend on the specific product formulation, toxicity and application. Details of which types are appropriate for specific chemicals will be provided on the pesticide label.

The respirator must be selected and fitted properly to ensure that it is worn correctly, thereby offering the desired protection. Whenever possible, the user should be trained to use and maintain the respirator properly.

Those who must use a respirator should also be familiar with the pesticide label and its supplemental information on personal protective equipment. The supplemental information will explain the type of respirator that is required and the level of protection offered. This information will help users determine whether a mask is suitable for the specific task and provide guidance on how to select and use it properly.

For instance, the label will describe if a mask is required for mixing or loading, and what types of PPE are necessary for each of these activities. Similarly, the label will also usually list different PPE requirements for spraying overhead and at ground level. The PPE requirements that are listed on a pesticide label are the legal requirement to be followed by pesticide applicators.

The PPE required for spraying overhead will include a chemical-resistant hat or hood, as well as a face shield. A wide-brimmed hat is preferred because it provides more coverage and may help reduce spray drift and the amount of pesticide that gets into the eyes, ears and nose. If a face shield is required, it should be easy to adjust and should offer anti-fog and scratch-resistant coatings. In addition, it should be lightweight, provide UV protection and cover the entire head.

Specialized Equipment

Specialized equipment is defined as machinery or equipment used for a unique service or to produce a specific good. It is usually a one-time purchase and cannot be reimbursable on an annual basis. The cost of specialized equipment can be reduced by using a contracted provider or by buying it directly. Do “special” and “specialized” mean the same thing? If not, what is the difference?

Please ask your case manager for a list of approved specialized equipment providers.

Exploring Effective Pest Control Solutions: A Comprehensive Guide

Pest infestations can wreak havoc on homes, businesses, and agriculture, posing threats to health, property, and the environment. Effective pest control solutions are crucial for managing and preventing these nuisances.

This comprehensive guide delves into various Pest Control OKC methods, from traditional to modern, exploring their effectiveness, benefits, and environmental impact.

Chemical Pest Control:

pest control

Chemical pest control methods have been widely used for decades to combat pest infestations in agricultural, residential, and industrial settings. These methods typically involve the application of chemical pesticides, which target pests’ nervous systems, respiratory systems, or other physiological functions, leading to their elimination. Chemical pesticides come in various forms, including sprays, baits, and fumigants, offering flexibility in application and effectiveness against a wide range of pests, from insects to rodents.

One of the key advantages of chemical pest control is its rapid and often potent efficacy in eradicating pest populations. Chemical pesticides can deliver quick results, effectively reducing pest numbers and minimizing damage to crops, structures, or stored goods. Moreover, chemical control methods can be tailored to target specific pests, allowing for precision in pest management strategies. This targeted approach helps minimize collateral damage to non-target organisms and reduces the overall environmental impact of pest control efforts.

However, despite their effectiveness, chemical pest control methods raise concerns about potential adverse effects on human health, wildlife, and the environment. Improper use or over-reliance on chemical pesticides can lead to pesticide residues in soil, water, and food sources, posing risks to human health and ecosystem integrity. Moreover, some pests can resist chemical pesticides over time, necessitating higher doses or more toxic compounds, exacerbating environmental concerns. To mitigate these risks, integrated pest management (IPM) approaches emphasize judicious pesticide use, combined with other pest control methods, to achieve sustainable pest management outcomes while minimizing chemical exposure and environmental harm.

Biological Pest Control:

Biological pest control offers a natural and sustainable approach to managing pest populations by harnessing the power of living organisms to control pest species. This method relies on natural predators, parasites, or pathogens that prey on or infect pests, effectively regulating their populations without the need for chemical interventions. By leveraging ecological interactions and predator-prey relationships, biological pest control can provide long-term pest suppression while minimizing environmental impact and preserving ecosystem balance.

One of the key benefits of biological pest control is its compatibility with organic and eco-friendly farming practices. Unlike chemical pesticides, biological control agents do not leave harmful residues in the environment or pose risks to human health and non-target organisms. Instead, they work in harmony with natural ecosystems, targeting pests while minimizing disruption to beneficial insects, pollinators, and other wildlife. Additionally, biological control agents often exhibit self-regulating behavior, adjusting their populations in response to changes in pest abundance, ensuring sustainable pest management outcomes over time.

Biological pest control methods encompass a diverse array of strategies and organisms, including predators like ladybugs, lacewings, and predatory mites, parasitoids such as wasps and flies, and microbial agents like bacteria, fungi, and viruses. These biological control agents can be introduced into pest-infested areas or encouraged through habitat manipulation and conservation practices. By promoting biodiversity and enhancing natural enemies’ presence, biological pest control offers an effective, environmentally friendly alternative to chemical pesticides, contributing to sustainable agriculture and pest management practices worldwide.

Mechanical Pest Control:

Mechanical pest control methods rely on physical barriers, traps, or devices to prevent or eliminate pest infestations. Unlike chemical or biological approaches, mechanical control does not involve the use of pesticides or living organisms to combat pests. Instead, it utilizes simple yet effective mechanisms to physically exclude, capture, or deter pests from infesting homes, gardens, or agricultural fields. Mechanical pest control methods are favored for their safety, eco-friendliness, and minimal environmental impact.

One common mechanical pest control technique is the use of barriers to block pests’ access to desired areas. This may include sealing cracks and crevices in buildings to prevent insect entry, installing screens on windows and doors to keep out flies and mosquitoes, or using netting or fencing to protect crops from birds, rodents, and other pests. By creating physical barriers, mechanical control methods effectively deny pests entry or restrict their movement, reducing the likelihood of infestation and damage.

Traps are another essential component of mechanical pest control strategies, designed to capture or kill pests without the use of toxic chemicals. Various types of traps are available, including snap traps for rodents, sticky traps for insects, and live traps for larger pests like raccoons and opossums. Traps can be baited with food or pheromones to attract target pests, increasing their effectiveness. Once captured, pests can be disposed of humanely or relocated to remote areas, minimizing harm to both pests and the environment. Mechanical traps offer a safe and targeted approach to pest control, providing an alternative to chemical pesticides and reducing reliance on harmful substances.

Cultural Pest Control:

Cultural pest control involves modifying the environment or human behavior to discourage pest infestations, emphasizing proactive measures to prevent and manage pest problems. Unlike chemical or mechanical approaches, cultural control strategies focus on altering conditions that favor pest proliferation, disrupting their lifecycle, and reducing opportunities for infestation. This approach recognizes that pest management is not just about eliminating pests but also about creating unfavorable conditions for their survival and reproduction.

One fundamental aspect of cultural pest control is promoting good sanitation practices to remove or reduce pest attractants and breeding sites. Proper waste management, including timely disposal of organic matter and elimination of standing water, helps deprive pests of essential resources and breeding opportunities. Additionally, maintaining clean and clutter-free environments indoors and outdoors reduces hiding places and food sources for pests, making it less conducive for infestations to occur. By addressing sanitation issues, cultural control measures can significantly reduce pest populations and minimize reliance on chemical pesticides.

Crop rotation and diversification are also integral components of cultural pest control in agriculture, aimed at disrupting pests’ host plant preferences and reducing pest pressure on specific crops. Rotating crops within a field or alternating between different crop types can help break pest lifecycles, prevent buildup of pest populations, and improve soil health. Furthermore, intercropping or planting companion crops with natural pest-repellent properties can deter pests and promote biodiversity, creating a more resilient and balanced ecosystem. Cultural pest control practices emphasize sustainable farming methods that work in harmony with nature, reducing reliance on external inputs and fostering long-term pest management solutions.

Integrated Pest Management (IPM):

Integrated Pest Management (IPM) is a holistic approach that combines multiple pest control methods to achieve long-term pest suppression while minimizing environmental impact. IPM strategies involve monitoring pest populations, implementing preventive measures, and deploying interventions only when necessary. By integrating biological, cultural, mechanical, and chemical control tactics, IPM provides a comprehensive and sustainable solution to pest management challenges.

Eco-Friendly Pest Control Products:

In recent years, there has been a growing demand for eco-friendly pest control products that are safe for humans, pets, and the environment. These products utilize natural ingredients or low-toxicity compounds to target pests effectively while minimizing collateral damage. Examples include botanical insecticides derived from plant extracts, microbial insecticides, and insecticidal soaps. Eco-friendly pest control products offer viable alternatives to conventional chemical pesticides, catering to consumers’ increasing awareness of environmental concerns.

Organic Pest Control in Agriculture:

Organic farming practices prioritize sustainability and environmental stewardship, including pest management strategies that minimize reliance on synthetic chemicals. Organic pest control methods emphasize soil health, biodiversity, and natural predator-prey relationships to maintain ecological balance. Techniques such as companion planting, crop diversification, and the use of organic pesticides derived from natural sources contribute to effective pest control in organic agriculture.

Effective pest control is essential for safeguarding public health, protecting property, and ensuring food security. While chemical pesticides have traditionally dominated pest management efforts, there is a growing recognition of the need for sustainable and eco-friendly alternatives. Biological, mechanical, cultural, and integrated pest management approaches offer diverse strategies for controlling pests while minimizing environmental harm. By embracing innovative solutions and adopting environmentally responsible practices, we can effectively manage pest infestations while preserving the health and integrity of our ecosystems.