Monday, July 22, 2024

Use of Neem in Pest Control

Neem can be used against the following pests (clicking on underlined pests takes you to pests’ page): African armyworm, African bollwom, Aphids, Banana weevil, Cabbage looper, Cabbage moth, Cabbage webworm, Coconut mite, Cutworms, Diamondback moth, Giant looper

[ads-pullquote-left]Scientific name: Azadirachta indica[/ads-pullquote-left]

The neem tree has over 100 compounds with pesticidal properties. The best known is azadirachtin. This substance is found in all parts of the tree, but it is much more concentrated in the fruit, especially in the seeds.

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Neem is unique among plants with pesticidal properties since it has so many different effects on pests. It acts as a broad-spectrum repellent, insect growth regulator (it causes deformities in the insects’ offspring) and insect poison. It discourages feeding by making plants unpalatable to insects or suppresses the insect’s appetite (anti-feedant effect); if they still attack, it inhibits their ability to moult and lay eggs. Unlike most botanical insecticides, neem also has a somewhat “systemic” effect. This means that plants can take up neem extracts through their roots and leaves, spreading the material throughout the plant tissues. For this reason neem can help control pests like leafminers, which feed within leaves and are normally not affected by sprays that only cover the outer parts of the plant.

Farmers and scientists have also observed a certain preventive effect of neem oil or seed extract against plant diseases such as mildews and rusts.

Neem products are effective against a wide range of pests; about 400 species of crop pests are known to be affected by neem extracts. In spite of its broad-spectrum action, neem products generally, would not harm natural enemies (like wasps, ladybird beetles, spiders, etc.). This is explained by the special mode of action of neem compounds, and by the feeding behaviour of natural enemies as well as the relatively low contact effect of neem products. The degree of effects on natural enemies is largely dependent on the type of formulation, and time, frequency and methods of applications.

Adults of predatory insects are apparently not affected by dosages of neem products recommended for effective pest control. However, their activity, fecundity and longevity may be negatively affected with high dosages. Hoverflies are one of the most sensitive groups to neem applications. Parasitoids are in general less sensitive to neem products than predators. However, especially in very small species of parasitic wasps, treatment of the developmental stages of the host (for instance eggs or puparia of whiteflies) may have negative effects on the emergence rate, walking ability, searching ability, longevity and fecundity of the natural enemy.

In general, neem products based on neem oil or with high oil content have more or stronger side effects on non-target organisms than oil-free preparations. Thus, their application should be avoided or restricted on crops where natural enemies play an important role in pest control.

Some neem products, especially the ones with high oil content, are phytotoxic to some plants, this means plants may be burned when neem extract is used at a high dosage. Therefore, the extracts should be tested on few plants before going into full scale spraying.

Neem based pesticides are suitable for organic farming and for use in developing countries because leaf or seed extracts can easily be prepared without the use of expensive and complicated equipment. However, neem extracts are rapidly ‘destroyed’ when exposed to sunlight (UV, ultra-violet rays), which means they will loose their efficacy. For this reason, commercial products usually contain a sunscreen, which protects the extract from sunlight, allowing a longer exposition to sunlight.

The effect of neem as a pesticide depends on the concentration of the active principles, on the formulation, on the pest type and on the crop.

Neem pesticides can be prepared from the leaves or from the seeds. The leaves or seeds are crushed and steeped in water, alcohol, or other solvents. For some purposes, the resulting extracts can be used without further refinement. Ground neem seeds or neem kernel powder (before or after oil extraction) is used as a soil amendment, and it is effective for control of nematodes. It is also used for control of stalk borers, and to prepare water extracts, which are then sprayed onto plants. See more information on stemborer datasheets

Neem has also been used to protect stored roots as well as tubers against the potato moth. Small amounts of neem powder are said to extend the storage life of potatoes for 3 months. See more information on the potato datasheet

Neem oil, extracted from the seed kernels, gives effective protection to stored beans, cowpeas, and other legumes.

In recent years, there have been a number of studies conducted to investigate the particular effects of neem extracts on malaria-transmitting mosquitoes. There are indications that the most effective way to use neem is to apply seed extract to breeding sites when population numbers are low, during the dry season, in order to eradicate as many immature mosquitoes as possible and reduce the population available for breeding when conditions become more favourable. Once the rainy season commences, regular applications of seed extract should continue to prevent immature mosquitoes from emerging as adults (Gianotti et al. 2008).

Use as an insecticide: The seeds are the primary source of insecticides. They can be used in the form of simple aqueous extracts or as a basic raw material for formulated pesticides. The leaves are also used as simple aqueous (water) extracts.

Use as a nematicide: The neem cake, a by-product of oil extraction from the seeds, worked into the soil has shown to reduce to a considerable extent the reproduction and population density of numerous plant pathogenic nematode species.

Use as a fungicide: One of the latest discoveries is neem’s potential application in the control of fungi that cause diseases to plants. Neem oil based emulsions have proven to be the most effective.

Use as a molluscicide and acaricide (miticide): These pests are only controlled on to a limited extent with neem. Neem showed deterrent effects on land snails. Alcoholic extracts, in particular, have a negative effect on the reproduction of spider mites.

The susceptibility of different groups of pests to neem products is shown in the table below.

Pests  Level of control Recommended neem formulation
Beetle larvae, butterfly and moth caterpillars excellent aqueous neem extracts
Stalkborers good aqueous neem extracts and neem cake, neem powder 
True bugs, plant- and leaf- hoppers grasshoppers good neem oil, neem kernel extracts
Grasshoppers good neem oil
Adult beetles good/fair aqueous neem extracts, neem cake powder, leaves, neem oil 
Thrips, fruit flies, scale insects, mealybugs fair/poor neem oil, aqueous neem extracts
Mites fair/poor alcoholic extracts 
Aphids and whiteflies good/fair neem oil
Plant parasitic nematodes good neem cake, neem leaves

Standard Procedures for the Preparation and Application of Neem Extracts

Select healthy neem leaves that are free from diseases.
When storing the plant parts for future usage, make sure that they are properly dried and are stored in an airy container (never use plastic container), away from direct sunlight and moisture. Make sure that they are free from moulds before using them.
Use utensils for the extract preparation that are not used for your food preparation drinking and cooking water containers. Clean all the utensils properly before and after use.
Do not have direct contact with the crude extract while in the process of the preparation, and during the application.
Make sure that you place the neem extract out of reach of children and house pets while leaving it overnight.
Harvest all the mature and ripe fruits on the crop to be sprayed before neem application.
Always test the plant extract formulation on a few infested plants first before going into large scale spraying. When adding soap as an emulsifier, use a potash-based one such as gun soap (Kenya).
Wear protective clothing while applying the extract.
Wash your hands after handling the plant extract.

Neem water can be stored and will remain effective for 3 to 6 days if it is kept in the dark.

1. Collect fallen neem fruits from underneath the trees.
2. Remove the flesh from the seeds and wash away any remaining shreds. In some regions in Africa such as the Indian Ocean Coast in Kenya and Tanzania the seeds need not be taken off the tree or pulped when collected, as large colonies of fruit bats pluck the ripe fruit off the tree, during the night, suck off the sweet outer skin and then spit out the seed, which can be found lying under the trees the next morning.
3. Dry the seeds in airy conditions (in sacks or baskets) to avoid formation of mould.
4. When needed, shell the seeds, grate them finely, and soak them overnight in a cloth suspended in a barrel of water. Dosage: 50g of neem powder per litre of water. This solution is then sprayed on infested plants.

Detailed recipe to prepare 10 litres of Neem Seed Kernel Extract (NSKE):

1. Grind 500 grams (g) of neem seed kernels in a mill or pound in a mortar.
2. Mix crushed neem seed with 10 litres of water. It is necessary to use a lot of water because the active ingredients do not dissolve easily. Stir the mixture well.
3. Leave to stand for at least 5 hours in a shady area.
4. Spray the neem water directly onto vegetables using a sprayer or straw brush. Neem water can be stored and will remain effective for 3 to 6 days if it is kept in the dark.

Precautions in using Neem Extracts/Formulations:

1.) Neem is almost non-toxic to mammals and is biodegradable. It is used in India as an ingredient in toothpaste, soap, cosmetics, pharmaceuticals and cattle feed. The leaves are used for tea. See datasheet on neem as a medicinal plant for more information. However, the seeds and extracts of both neem and chinaberry trees are poisonous if consumed. Neem trees are very often confused with the Persian lilac or chinaberry tree a relative of neem, which thrives a in high altitudes, whereas neem thrives at low altitudes (up to 1200 m).
2.) Because neem’s chemical structure is so complex (the tree has many different compounds, many functioning quite differently and on different parts of an insect’s life cycle and physiology), scientists believe it will take a long time for insects to develop resistance to it. However, to minimise the chance of affecting beneficials (natural enemies) and discouraging development of pest resistance, use neem sprays only when absolutely necessary, and only on plants you know are affected by pests.
3.) Neem extracts do not kill insect pests immediately. They change the feeding behaviour and life cycle of the pests until they are no longer able to live or reproduce. Effects are often not visible before 10 days after application. Consequently, severe pest attacks will not be controlled within time. For a reliable and satisfying control, neem extracts must be applied at an early stage of pest attack.
4.) Neem products break down fairly quickly, usually within 5 to 7 days in sunlight and in the soil, so you may need to repeat the application during the growing season to deal with new pests that arrive from outside during this time.
5.) Neem works fastest during hot weather. Heavy rains within a few days of application may wash off the protective cover of neem on plants. Reapply if pests are a problem.
6.) If crops have to be watered, water should be targeted to the soil because water running over the leaves of sprayed plants may wash off the neem water extract.


Ellis, B.W. and Bradley, F.M. (1992). The Organic Gardener’s Handbook of Natural Insect and Disease Control. Rodale Press. ISBN:0-87596-753-1
HDRA. Leaflet The Neem tree, see also online under
Hellpap, C. (1995). Practical results with neem products against insect pests, and probability of development of resistance. Pest of selected field crops. Corn. In The Neem tree- Source of Unique Natural Products for Integrated Pest Management, Medicine, Industry and Other Purposes. Ed. by H. Schmutterer. pp 385-389. ISBN: 3-527-30054-6.
Lemmens, R.H.M.J., Soerianegara, I., Wong, W.C. (1995). Plant resources of Southeast Asia No. 5 (2). Timber trees: minor commercial timbers. Leiden, Netherlands: Backhuys Publishers.
Maundu, M. and Tangnas, B. (2005). Useful trees and shrubs for Kenya. World Agroforestry Center.
Schmutterer, H. (Ed.) (1998). The Neem tree- Source of Unique Natural Products for Integrated Pest Management, Medicine, Industry and Other Purposes. pp 385-389. ISBN: 3-527-30054-6.
Siddiqui, K.M. (1995). Neem, its occurrence, growth and uses. Peshawar, Pakistan: Pakistan Forest Institute.
Tewari D.N. (1992). Monograph on neem (Azadirachta indica A. Juss.). Dehra Dun, India: International Book Distributors.
Gianotti, R. L.; Bomblies, A.; Mustafa Dafalla, M. Issa-Arzika,I., Duchemin, J-B and Eltahir, E. AB. (2008). Efficacy of local neem extracts for sustainable malaria vector control in an African village. Malaria Journal 2008, 7:138 doi:10.1186/1475-2875-7-138. Team Team is a comprehensive online platform dedicated to providing valuable agricultural information and resources in Pakistan. With a focus on promoting sustainable farming practices, enhancing agricultural productivity, and empowering farmers, serves as a one-stop hub for all things related to agriculture in Pakistan. Through its user-friendly interface and a vast array of content, the platform aims to connect farmers, researchers, policymakers, and other stakeholders, facilitating knowledge exchange and driving the transformation of the agricultural sector in Pakistan.

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