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  • UPL Lancer Gold Insecticide Crops UPL Lancer Gold Insecticide

    UPL UPL Lancer Gold Insecticide

    UPL Lancer Gold is designed to help vegetable famers control multiple insect pest cost effectively. It is a combination of two systemic insecticide from different class FEATURES Lancer gold offers a hassle-free premix solution for the management of multiple pests including thrips The active ingredients in Lancer gold Insecticide (acephate and imidacloprid) are water-soluble and readily absorbed by plant roots and foliage to give systemic control of feeding insects. Insect pests are generally controlled more effectively through ingestion than by contact. This insecticide is used to kill both chewing and sucking insects CROPS : Tomato, Potato, Cotton, Brinjal, Cucurbits, Plantation crops, Fruit crops, and Field Crops. INSECTS : Fruit borers, Caterpillars, Weevils, Aphids, Thrips, White Flies, Mealybugs. DOSAGE : 2g/litre of water

    Rs. 260.00 - Rs. 890.00

  • Phoskill Application Phoskill Usage

    UPL UPL Phoskil Insecticide (Monocrotophos 36% SL) - 1 LT

    UPL Phoskill Insecticide is a highly effective solution for controlling and managing sucking and chewing insects, and pests that can cause significant damage to crops. Technical Content: Monocrotophos 36% SL MODE OF ACTION - Systemic and Contact Benefits  Phoskill Provides Broad-spectrum control Quick knockdown Target Insect: BPH, GLH, Leaf Folder, Yellow Stem borer, Pod Borer, Bollworms, Aphid, Jassids, Thrips, Whitefly, Pink Bollworms Crops: Vegetable crops, Fruit crops, Pulses, Cereals, Cotton Recommended dose: Dissolve 350-500 ml of Phoskill for Per acre Application Mode Of Formulation - Emulsifiable Physical Condition - Liquid Application Method  - Foliar Spray Packing Available - 100ml, 250ml, 500ml, 1lt, 5lt Recommendation Crops Target Pests Dose/per acre Black Gram Pod borer 250 ml Cotton Aphids, Jassids, Thrips,Whitefly,Bollworm,Grey weevil 175 ml,150 ml,450 - 900 ml, 500 ml Citrus Black aphid,Mite 600 - 800 ml,375 - 500 ml Coffee Green bug 625 ml Cardamom Thrips 375 ml Green gram Pod borer 175 ml Maize Shoot fly 250 ml Mango Bug mite, Gall maker, Hopper, Mealy bug, Shoot borer 600 - 800 ml Paddy GLH, Leaf roller,BPH, Yellow stem borer 250 ml, 500 ml Pea Leaf miner 400 ml Red gram Pod fly, Plume moth,Pod borer 500 ml Sugarcane Shoot borer, Stalk borer 600 - 900 ml        

    Rs. 655.00

  • UPL Ulala Insecticide

    UPL UPL Ulala Insecticide

    Ulala Insecticide is a systemic insecticide that contains 50% Flonicamid in a Water Dispersible Granule (WG) formulation. It is specifically intended to target and control a wide variety of sucking insect pests prevalent in a variety of crops. Active ingredient: Flonicamid, is a pyridinecarboxamide chemical that has been shown to be effective against aphids, whiteflies, thrips, and other pests. This insecticide works systemically, allowing it to be delivered efficiently throughout the plant's vascular system. This provides long-lasting control of pests, even after the initial application has dried. Ulala Insecticide is registered for use on a variety of crops, including cotton, vegetables, fruits, and ornamentals. It is also registered for use in greenhouses and nurseries. Mode of Formulation:  Wettable Powders Manufacturing Or Marketing Company : UPL Limited Application Method Direction Of Use: Foliage Spraying BENEFITS Ulala provides long duration protection from sucking pests It has 2 hours rain fast. This insecticide is Soft on beneficial bugs and pests Dosage: The recommended application rate for Ulala Insecticide varies depending on the crop and the pest being targeted. However, the general application rate is 0.05% to 0.1%. This means that you would mix 5 to 10 grams of Ulala Insecticide per liter of water. Ulala Insecticide is a relatively safe insecticide to use. However, it is important to follow the label directions carefully to avoid any potential risks. Crop Pest Dosage (grams/acre) Cotton Brown Planthopper (BPH), Green Leafhopper (GLH), Whitebacked Planthopper (WBPH), Aphids 60-80 Vegetables Aphids, Whiteflies, Thrips 40-60 Fruits Aphids, Mealybugs, Scales 40-60 Ornamentals Aphids, Whiteflies, Thrips 40-60 Greenhouse crops Aphids, Whiteflies, Thrips 40-60 Nurseries Aphids, Whiteflies, Thrips 40-60 Benefits It is effective against a wide range of sucking insect pests. It has a long-lasting control. It is systemic, so it can be delivered efficiently throughout the plant. It is relatively safe to use.

    Rs. 270.00 - Rs. 1,650.00

Insecticides - Agriplex

Here are some High-Quality Insecticides or Pesticides to Control Insects or Pests. Buy the Best Quality and 100% genuine Insecticides online at Agriplex for the management of Insects.

Insecticides are pesticides used to kill insects. They include ovicides and larvicides used against insect eggs and larvae, respectively. Insecticides are used in agriculture, medicine, industry, and by consumers.

The mode of action describes how the pesticide kills or inactivates a pest. It provides another way of classifying insecticides. Mode of action can be important in understanding whether an insecticide will be toxic to unrelated species, such as fish, birds, and mammals.

Insecticides may be repellent or non-repellent. Social insects such as ants cannot detect non-repellents and readily crawl through them. As they return to the nest they take insecticide with them and transfer it to their nestmates. Over time, this eliminates all of the ants including the queen.

Types of insecticides

There are three different types of insecticides. They are

Systemic insecticides
 Systemic insecticides, after uptake, are distributed systemically throughout the whole plant. When insects feed on the plant, they ingest the insecticide. Systemic insecticides produced by transgenic
plants are called plant-incorporated protectants (PIPs). For instance, a gene that codes for a specific Bacillus thuringensis biocidal protein was introduced into corn and other species.

Contact insecticides
Contact insecticides are toxic to insects upon direct contact. These can be inorganic insecticides, which are metals and include the commonly used sulfur, and the less commonly used arsenates, copper, and fluorine compounds. Contact insecticides can also be organic insecticides, i.e. organic chemical compounds, synthetically produced, and comprising the largest numbers of pesticides used today. Or they can be natural compounds like pyrethrum, neem oil, etc.

Insecticides in Agriculture: A Double-Edged Sword

Insecticides are a crucial tool in a farmer's arsenal, protecting crops from destructive insects that can devastate yields. Their use has played a significant role in increasing agricultural productivity, but it's not without drawbacks.

Classification of insecticides based on chemical nature

Based on their chemical nature, insecticides are classified into four groups:

        1. Organic insecticides
        2. Synthetic insecticides
        3. Inorganic insecticides
        4. Miscellaneous compounds

Benefits:

  • Protecting Crops: Insecticides effectively control insect pests that damage crops. This can be anything from aphids munching on leaves to beetles burrowing into fruits. By eliminating these pests, farmers can ensure they harvest a healthy crop.
  • Increased Yields: Reduced insect damage translates to a greater quantity of crops being brought to market. This is particularly important in feeding the growing global population.
  • Disease Prevention: Some insects transmit diseases to plants. Insecticides can help prevent these diseases, further protecting crops.

Drawbacks:

  • Environmental Impact: Insecticides can harm non-target organisms like beneficial insects, pollinators (bees, butterflies), and predators that naturally keep pest populations in check. This disrupts the ecosystem and can lead to unintended consequences.
  • Water and Soil Contamination: Insecticide runoff can contaminate water sources and harm aquatic life. Residues can also linger in the soil, affecting future crops.
  • Pest Resistance: Overuse of insecticides can lead to insects developing resistance, rendering the insecticide ineffective. This necessitates using stronger chemicals or finding alternative pest control methods.

The Future of Insecticides:

The use of insecticides in agriculture is a complex issue. While they provide undeniable benefits, their potential downsides cannot be ignored. The focus is now on Integrated Pest Management (IPM) which combines various methods to control pests, minimizing reliance on chemical insecticides. This includes:

    • Promoting beneficial insects that prey on pests.
    • Planting pest-resistant crop varieties.
    • Using targeted application methods to minimize environmental impact.

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