The pgr for plant from SHIJIAZHUANG POMAIS TECHNOLOGY CO.,LTD is made integrating state-of-the-art techniques and humanity design aesthetics. To ensure the reliable characteristics and long-lasting performance, our staff carefully choose each material. Its production process is strict and its quality reaches the international standard, which helps it withstand the test of the time. Besides, it has the property of appealing appearance.
The POMAIS products have been well received, winning multiple awards in the domestic market. As we continue to promote our brand to the foreign market, the products are sure to attract more customers. With efforts invested in the product innovation, the reputation rank is improved. The products are expected to have a stable customer base and show more influences on the market.
Thanks to those distinguished features above, POMAIS’s products have attracted more and more eyes. At POMAIS, there are a collection of related products that can be offered for satisfying customized needs. What's more, our products have a wide range of promising applications, which not only contributes to their expanding market share in the domestic, but also increasing their volume of exports to many overseas regions, winning the unanimous recognition and praise of domestic and foreign customers. Ask!
Are your pesticides losing effectiveness? Struggling with pest, weed, or disease resistance? Look no further! POMAIS offers professional pesticide formulation design services for major agricultural markets worldwide. As a leading company in the industry, we understand the importance of developing effective pesticide formulations to combat pests and diseases while ensuring environmental sustainability.
1. Understanding the Basics of Pesticide Formulation Design
Pesticide formulation design involves the development of a product that combines active ingredients with other components to enhance its efficacy and safety. It is essential to consider factors such as the target pest, application method, environmental conditions, and regulatory standards when designing a pesticide formulation. At POMAIS, our team of experts has years of experience in formulating innovative solutions that meet the needs of our clients and exceed industry standards.
2. Customized Formulations for Specific Pests and Crops
One of the key advantages of working with POMAIS is our ability to customize pesticide formulations to target specific pests and crops. By tailoring the formulation to the unique characteristics of the pest or disease, we can maximize the effectiveness of the product while minimizing the impact on beneficial organisms and the environment. Our tailored formulations are designed to provide long-lasting control and protect crop yields, ensuring a healthy and sustainable agriculture system.
3. Combating Resistance with Innovative Solutions
Pesticide resistance is a growing concern in the agriculture industry, leading to reduced effectiveness of conventional products. At POMAIS, we are committed to developing innovative solutions to overcome resistance issues and enhance the efficacy of pesticides. Our team utilizes cutting-edge technologies and research to design formulations that target resistant pests and maximize control, providing growers with sustainable and long-term solutions.
4. Environmental Sustainability and Safety
As a responsible company, POMAIS places a strong emphasis on environmental sustainability and safety in pesticide formulation design. We adhere to strict regulatory standards and employ best practices to ensure our products are safe for humans, animals, and the environment. Our formulations are designed to minimize the risk of environmental contamination and promote sustainable agriculture practices, helping growers protect their crops while preserving the ecosystem.
5. Collaboration with Industry Partners
POMAIS collaborates with industry partners, including growers, researchers, and regulatory agencies, to develop cutting-edge pesticide formulations that address the evolving needs of the agriculture sector. By working closely with our partners, we can gather valuable insights and feedback to continuously improve our products and services. Our collaborative approach enables us to stay ahead of the competition and provide growers with the most effective solutions for pest and disease management.
6. Conclusion
In conclusion, POMAIS is your trusted partner for professional pesticide formulation design services. With our expertise, dedication to sustainability, and commitment to innovation, we can help you overcome pest, weed, and disease challenges and achieve optimal crop protection. Contact us today to learn more about our tailored formulations and how we can support your agricultural needs. Trust POMAIS for effective and sustainable pesticide solutions.
Reasonable concentration
Whether it is a liquid or a wettable powder, it is necessary to dilute the water before spraying. Different bactericides are required to use the concentration. Therefore, the ratio should be strictly in accordance with the instructions. The reasonable concentration of the bactericide is more conducive to the effectiveness of the bactericide. If the ratio is arbitrarily matched, the concentration will be too high to cause phytotoxicity to the crop; if the concentration is too low, the control requirements will not be met.
Suitable spraying time
The time of spraying the bactericide is directly related to the control effect. Spraying too early will cause waste of the drug and reduce the control effect; the late pathogen has already caused damage to the crop. Therefore, it is necessary to timely use drugs according to the laws, predictions and specific conditions of different diseases. In general, the time of administration of the bactericide can be selected before or during the onset of the disease.
Improve the quality of medication
The quality of the bactericide used includes the amount of the drug, the number of times of administration, and the quality of the spray. The amount of medicine should be appropriate. Too much medicine will increase the cost and cause phytotoxicity. If it is too little, it will not achieve the control effect. Therefore, it will increase or decrease according to the specific conditions. The number of medications may depend on the residual period of the drug and the weather conditions. Generally, it is sprayed once every 10-15 days, and sprayed 2-3 times. If it is raining after application, it needs to be refilled. The method of improving the quality of the drug is that the spray point is evenly and finely sprayed, and the stems and leaves of the plant are sprayed.
Strictly prevent phytotoxicity
There are many reasons for fungicides causing phytotoxicity. The agents themselves, crop sensitivity, crop growth stages and climatic conditions all have an impact. In general, drugs with strong water solubility and crops have a high probability of causing phytotoxicity in the seedling stage and the flowering stage of the booting stage, high temperature and drought, fog and high humidity, and therefore need to be handled with caution.
Abamectin is a powerful insecticide that belongs to the avermectin family and is known for its efficacy in controlling a wide range of pests. While it is more commonly recognized for its use against mites, thrips, and caterpillars, abamectin can also be an effective tool for managing ant infestations when used correctly. In this article, we’ll explore what abamectin is, how it works against ants, and provide detailed, step-by-step instructions on how to use it safely and effectively.
Abamectin is a naturally derived insecticide produced by the soil bacterium Streptomyces avermitilis. It works by interfering with the nerve and muscle functions of pests, ultimately causing paralysis and death. While abamectin is predominantly used for agricultural purposes, it is also suitable for targeted ant control in various settings such as gardens, lawns, and storage facilities.
Abamectin targets the nervous system of insects. When ants come into contact with or ingest the substance, it binds to specific receptors in their nerve cells. This binding disrupts the normal nerve impulses, leading to:
Because abamectin is highly potent, even small quantities can be effective in reducing ant populations.
Using abamectin for ant control can be an effective way to manage persistent ant infestations when applied correctly. By following the proper dilution, targeted application, and safety guidelines, you can reduce ant populations and prevent re-infestations. As always, adherence to label instructions and consulting with pest management professionals are key to ensuring safe and successful use.
Can abamectin be used for all types of ants?
Is abamectin safe for use around pets?
How soon will I see results after using abamectin for ants?
Do I need professional help to use abamectin for ant control?
How do I prevent ant reinfestation after treatment?
Abamectin is used to control mites and insects such as leafminers, thrips, psyllids, and aphids in a wide range of agricultural and horticultural crops.
It is also applied in turf management, forestry, and occasionally in public health or animal treatments under specific formulations.
Abamectin is widely used in agriculture due to its strong activity against:
Mites (e.g., two-spotted spider mites, rust mites)
Leafminers
Thrips
Aphids
Whiteflies
Psyllids
These pests are common across various crops and can cause both direct feeding damage and indirect viral transmission.
Vegetables: Tomatoes, cucumbers, peppers, beans, lettuce
Fruits: Apples, citrus, grapes, strawberries
Field Crops: Cotton, soybeans, peanuts, corn
Tea and Tobacco: For leaf quality preservation
Abamectin is typically applied as a foliar spray during early infestation stages and is highly valued for its translaminar movement—it penetrates leaf tissue, offering protection even to pests feeding on the undersides of leaves.
Abamectin is frequently used in protected cultivation systems like greenhouses and nurseries. Its effectiveness against leaf-feeding and cell-sucking pests makes it ideal for:
Ornamental plants
Herbs
Seedlings
It is compatible with IPM (Integrated Pest Management) programs due to its selective pest spectrum and low mammalian toxicity when used properly.
In turfgrass management and landscaping, abamectin is occasionally used for:
Mite suppression
Control of turf-damaging insects (limited)
Its use is more specialized here but can be important in golf courses, sports fields, and high-value landscape areas.
Although not the primary focus for agricultural abamectin products, the active ingredient is also:
Used in livestock dewormers (oral or injectable forms)
Studied or applied in mosquito larvicide or housefly control
Note: These uses require specific regulatory approvals and formulations distinct from agricultural-grade abamectin.
Abamectin acts as a neurotoxic agent, targeting the glutamate-gated chloride channels in invertebrates, causing paralysis and death.
Because it has a unique mode of action:
It is often used in rotation programs to delay resistance.
It shows limited cross-resistance with other insecticide groups.
However, resistance can develop in high-use areas, especially in greenhouses—responsible rotation is critical.
Application Type: Foliar spray (most common), sometimes drip irrigation
Target Timing: Early-stage infestation
Re-entry Interval (REI): Typically 12–24 hours, depending on the formulation
Pre-Harvest Interval (PHI): Varies by crop; always follow local regulations
Always ensure uniform spray coverage, especially on leaf undersides.
Abamectin is used primarily as a miticide and insecticide in crops, greenhouses, and specialty applications.
It delivers reliable control of difficult pests like mites, leafminers, and thrips, while supporting resistance management programs and IPM strategies. Its translaminar activity and broad utility make it a popular choice for growers across multiple sectors.
Emamectin benzoate has become one of the most effective insecticides used in modern rice production. Designed for high-value crops like paddy, it offers powerful control against major lepidopteran pests—especially stem borers and leaf folders—that significantly reduce yield and grain quality. Unlike conventional contact insecticides, emamectin benzoate works with a unique dual mode of action: ingestion and limited translaminar activity, ensuring that pests feeding on treated plants are quickly paralyzed and killed.
For distributors, growers, and farm input suppliers working in rice-dominant regions, understanding how emamectin benzoate works in paddy fields is key to maximizing returns, protecting yields, and offering cost-effective protection during critical crop stages. This article provides a full overview of its target pests, application strategies, advantages, and safety notes—tailored to real-world agricultural conditions.
Emamectin benzoate is highly effective against some of the most damaging rice pests, particularly those that feed internally or are difficult to reach with standard insecticides. Its primary targets in paddy cultivation include:
One of the most notorious rice pests, the yellow stem borer damages the crop by boring into the stem, leading to deadhearts during the vegetative stage and whiteheads during the reproductive stage. Emamectin benzoate provides excellent control by targeting larvae before they bore deep into the plant.
These pests fold and web the rice leaves, feeding inside the fold and reducing the plant’s photosynthetic area. Emamectin benzoate, with its translaminar movement, penetrates the leaf surface and effectively reaches the larvae inside, ensuring quick knockdown and minimal re-infestation.
Though less prevalent, rice skippers and other lepidopteran larvae can cause significant defoliation. Emamectin benzoate’s ingestion-based mode of action is particularly lethal to feeding caterpillars, stopping damage within hours of exposure.
In some areas, Spodoptera spp. and cutworms also infest rice during early stages. Emamectin benzoate remains a viable option for early intervention due to its fast action and low resistance risk.
By disrupting the neural transmission of target pests, emamectin benzoate ensures prolonged control and minimizes the need for repeat applications, making it ideal for integrated pest management in rice ecosystems.
To achieve optimal pest control and protect yield, proper application timing and technique are crucial when using emamectin benzoate in paddy fields. Here is a practical guide based on rice growth stages and pest biology:
Yellow Stem Borer: Apply emamectin benzoate during the early vegetative stage when moth activity and egg-laying begin. Targeting young larvae before they enter the stem ensures higher control.
Leaf Folder: Best results are achieved during the early to mid-tillering stage, just as larvae start folding leaves. Early detection and timely spraying prevent significant leaf damage.
Other Caterpillars: Monitor for chewing damage or frass during late tillering to panicle initiation, and spray as soon as early instar larvae are observed.
Foliar Spray: Emamectin benzoate should be applied as a fine mist using a knapsack sprayer or boom sprayer. Ensure thorough coverage, particularly of lower leaves where larvae may hide.
Dosage: Follow the labeled recommendation, typically in the range of 10–20 g active ingredient per hectare, depending on pest pressure and formulation strength (e.g., 5% SG or 1.9% EC).
Water Volume: Use 500–600 L/ha for adequate plant coverage. Using a spreader-sticker or non-ionic surfactant can improve leaf adhesion and translaminar penetration.
Application Frequency: Usually one well-timed application is sufficient, but if pest resurgence occurs, a second round can be scheduled after 10–14 days.
Combine emamectin benzoate application with light traps, pheromone traps, and scouting reports to track pest thresholds. Early intervention, before economic injury levels are reached, maximizes ROI and limits crop loss.
Emamectin benzoate is widely used in rice production due to its strong pest control and relatively favorable environmental profile. However, understanding its behavior in paddy ecosystems is essential to ensure safe use and compliance with food safety standards.
Emamectin exhibits low toxicity to mammals and birds, making it a safer choice for food crop applications.
It is considered moderately to highly toxic to aquatic invertebrates and fish, which is a key concern in flooded paddy fields. Therefore, avoid direct contamination of irrigation water or drains.
It has low impact on beneficial arthropods like parasitoids and predators when used at recommended doses, which supports IPM compatibility.
In flooded rice fields, emamectin degrades primarily via photolysis (sunlight exposure) and microbial activity, leading to a relatively short half-life of 1–5 days in water and soil.
Due to its strong adsorption to soil particles, emamectin tends to remain in the upper soil layer, minimizing leaching and runoff risk when properly managed.
Emamectin is subject to Maximum Residue Limits (MRLs) set by many countries for rice grains. Compliance requires adherence to:
Pre-harvest intervals (PHI) – typically 14–21 days depending on local regulations and application rates.
Good Agricultural Practices (GAP) – including correct dosage, timing, and equipment calibration.
Studies show that when applied according to label directions, residues in harvested grain are well below established MRLs, ensuring food safety and export compliance.
Avoid overspray into waterways or drainage canals.
Do not apply before or during heavy rainfall to prevent runoff.
Store and dispose of containers safely to prevent environmental contamination.
Integrated Pest Management (IPM) in rice cultivation demands precise, selective, and environmentally responsible solutions. Emamectin benzoate aligns well with these goals due to its targeted activity, favorable environmental profile, and minimal impact on beneficial organisms when used properly.
Emamectin benzoate is highly effective against rice stem borers, leaf folders, and armyworms—major insect threats in paddy ecosystems.
Its ingestion-based mode of action ensures that it targets only feeding larvae, making it less disruptive to natural predators and parasitoids.
Belonging to the avermectin group, emamectin benzoate offers a unique mode of action different from many conventional insecticides, making it ideal for rotation in resistance management programs.
It is compatible with insect growth regulators, pyrethroids, and neonicotinoids in alternating or tank mix strategies.
With PHIs typically between 14–21 days, emamectin allows flexibility in late-season treatments while maintaining compliance with food safety standards.
Emamectin shows low toxicity to natural enemies such as spiders, predatory beetles, and parasitoid wasps, helping maintain a healthy ecological balance in rice paddies.
It can be used alongside biological agents and pheromone traps without disrupting their effectiveness.
Whether applied via motorized sprayers, drones, or aerial equipment, emamectin’s low-dose, high-efficacy profile makes it practical for both small-scale farmers and large-scale operations.
At POMAIS, we specialize in supplying premium-grade Emamectin Benzoate formulations tailored for the demands of modern rice production. Whether you are an importer, distributor, or agrochemical brand seeking reliable and effective pest control solutions for paddy fields, POMAIS offers the technical expertise, manufacturing capacity, and flexible service to meet your needs.
Consistent Formulations: We produce Emamectin Benzoate in high-purity concentrations (e.g., 5% WDG, 1.9% EC) with uniform particle size and superior dispersion, ideal for drone or manual spraying.
OEM/ODM Services: Custom packaging, labeling, and ingredient ratios for private brands or national registration support.
Regulatory Assistance: We provide dossiers, COAs, MSDS, TDS, and support for ICAMA or local market registration.
Timely Delivery: With advanced logistics and supply chain integration, we ensure on-time global shipments even during peak seasons.
Our Emamectin Benzoate solutions are trusted by partners across Asia, Africa, the Middle East, and Latin America, especially in regions with intensive rice farming systems.
Start your partnership with POMAIS today—and bring high-performance, IPM-compatible Emamectin Benzoate solutions to your rice-growing clients.