Difference between revisions of "How to Control Termite without Chemicals"
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=Termite Control without Chemicals= | =Termite Control without Chemicals= | ||
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After „Termite Control without Chemicals“ produced by '''HDRA - the organic organisation''' | After „Termite Control without Chemicals“ produced by '''HDRA - the organic organisation''' | ||
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==Termites: what are they?== | ==Termites: what are they?== | ||
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Termites are a group of insects (''Isoptera'') consisting of 2,500 species of which 300 are considered pests. Termites are one of the most damaging pests in the tropics and can cause considerable problems in agriculture, forestry and housing. | Termites are a group of insects (''Isoptera'') consisting of 2,500 species of which 300 are considered pests. Termites are one of the most damaging pests in the tropics and can cause considerable problems in agriculture, forestry and housing. | ||
There are several families and sub-families. Some have nests underground, others in wood, for example hollow trees, and some build mounds. | There are several families and sub-families. Some have nests underground, others in wood, for example hollow trees, and some build mounds. | ||
+ | [[Image:Termite-undergrd.png]] | ||
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Before control methods can be adopted a basic identification of the pest species or family is needed. This can be done by observing pest behaviour and the damage pattern on the tree or crop. | Before control methods can be adopted a basic identification of the pest species or family is needed. This can be done by observing pest behaviour and the damage pattern on the tree or crop. | ||
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Harvester termites are found in dry and semi-desert areas. They build underground nests which can be difficult to locate. They collect live green plant material and cause damage to living grasses, crops and seedlings. They will attack weak plants that are wilting or damaged. | Harvester termites are found in dry and semi-desert areas. They build underground nests which can be difficult to locate. They collect live green plant material and cause damage to living grasses, crops and seedlings. They will attack weak plants that are wilting or damaged. | ||
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==Benefits provided by termites?== | ==Benefits provided by termites?== | ||
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Although usually considered pests, termites can also provide many benefits. Therefore before control measures are used an assessment should be made of the following benefits against the loss of termites from the ecosystem. | Although usually considered pests, termites can also provide many benefits. Therefore before control measures are used an assessment should be made of the following benefits against the loss of termites from the ecosystem. | ||
− | Benefits include: | + | Benefits include: |
− | + | * Aeration of the soil due to termite burrowing activities. | |
− | + | * The breakdown and release of organic matter as termites eat and digest soil. | |
− | + | * Improved soil fertility when termite mounds, which are rich in minerals, are crushed down and incorporated into the soil. | |
− | + | * A source of minerals for cattle who lick the mounds. | |
− | + | * A source of protein rich food for many organisms including ants, guinea fowl and other mammals including humans. | |
− | + | * In some countries, the clay of the mounds is being used to make more resistant sun dried bricks. | |
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==Chemical control== | ==Chemical control== | ||
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The generally accepted method of termite control over the years has been chemical pesticides. However chemicals are expensive and have many harmful effects. | The generally accepted method of termite control over the years has been chemical pesticides. However chemicals are expensive and have many harmful effects. | ||
Line 61: | Line 47: | ||
There are a number of harmful effects that chemical pesticides can have on the environment.<br /> | There are a number of harmful effects that chemical pesticides can have on the environment.<br /> | ||
− | + | *Artificial pesticide can kill useful insects which eat pests. Just one spray can upset the balance between pests and the useful predators which eat them. | |
− | + | *Artificial chemicals can stay in the environment and in the bodies of animals causing problems for many years. | |
− | + | *Pests become resistant to pesticides so more powerful chemicals are needed. | |
− | + | <br/> | |
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− | </ | ||
− | + | '''Cost''' | |
Using natural pest and disease control is often cheaper than applying chemical pesticides because products and materials which are already in the home and around the farm are most often used. | Using natural pest and disease control is often cheaper than applying chemical pesticides because products and materials which are already in the home and around the farm are most often used. | ||
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<blockquote> | <blockquote> | ||
− | + | *Organic control methods do not pollute the environment and are not harmful to beneficial insects and animals, or to the people using them. | |
− | + | *Organic methods aim to use locally available materials and do not rely on importing expensive materials from elsewhere. | |
− | + | *Organic methods are cheap and easy to use. | |
− | + | *Organic methods preserve genetic diversity within the farming system which helps provide *Organic methods '''regulate''' termite numbers rather than eliminate them so that the benefits provided by termites are not lost. | |
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<br /> The level of control depends on the knowledge of pest species, the tree or crop species, climatic conditions and other environmental factors such as soil type and local vegetation cover. Methods of control are more effective if used in conjunction with each other, with maximum use of local knowledge and resources. | <br /> The level of control depends on the knowledge of pest species, the tree or crop species, climatic conditions and other environmental factors such as soil type and local vegetation cover. Methods of control are more effective if used in conjunction with each other, with maximum use of local knowledge and resources. | ||
Termite control methods are described in this booklet. Some of them come from individual research studies and have not been widely tested. | Termite control methods are described in this booklet. Some of them come from individual research studies and have not been widely tested. | ||
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==Adding organic material to the soil== | ==Adding organic material to the soil== | ||
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Fungus-growing termites prefer to eat dead plant material. Their attacks are thought to be related to soils with low organic matter content. This is because such soils do not contain enough food for termites to live and they resort to feeding on living plant material. Adding compost or well-rotted manure to the soil and sowing green manures helps to increase the organic matter in the soil. | Fungus-growing termites prefer to eat dead plant material. Their attacks are thought to be related to soils with low organic matter content. This is because such soils do not contain enough food for termites to live and they resort to feeding on living plant material. Adding compost or well-rotted manure to the soil and sowing green manures helps to increase the organic matter in the soil. | ||
Line 107: | Line 76: | ||
<center> | <center> | ||
− | [[Image: | + | [[Image:addorganicmat.gif]]<br />''Digging compost into the soil to increase organic matter content'' |
</center> | </center> | ||
Line 113: | Line 82: | ||
==Encouraging predators== | ==Encouraging predators== | ||
− | + | Termites have many predators, including spiders, beetles, flies, wasps and especially ants. Other predators including frogs, reptiles, birds and mammals such as aardvarks, pangolins, bats, monkeys and humans. Encouraging this kind of wildlife will help to reduce the number of termites. Bushes and trees are a home for many of these useful creatures. These areas of natural habitat can be left around fields where crops are grown. If these areas are destroyed then there is an imbalance between the populations of predator and pest. | |
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− | Termites have many predators | ||
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==Substitute food sources== | ==Substitute food sources== | ||
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Damage from termites which feed on dead plant material can be reduced by adding organic material to the soil. The farmer should avoid having bare, dry soil around crops. | Damage from termites which feed on dead plant material can be reduced by adding organic material to the soil. The farmer should avoid having bare, dry soil around crops. | ||
Line 133: | Line 97: | ||
==Crop rotation== | ==Crop rotation== | ||
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Planting the same crop on the same land year after year reduces soil fertility and structure. Crops growing in such conditions will be weaker and susceptible to termites. Crop rotation can play an important role in reducing termite attack. | Planting the same crop on the same land year after year reduces soil fertility and structure. Crops growing in such conditions will be weaker and susceptible to termites. Crop rotation can play an important role in reducing termite attack. | ||
Line 143: | Line 106: | ||
==Healthy plants for transplanting== | ==Healthy plants for transplanting== | ||
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− | + | *Plants which are suffering from disease or lack of water are generally more susceptible to termites than healthy plants. It is therefore important that plants are kept healthy and watered. | |
+ | *In dry areas it is recommended that seeds should be sown at the beginning of the wet season to give the plants a chance to establish themselves and remain healthy in the field. | ||
+ | *Only healthy plants should be transplanted into the field. Great care should be taken during transplanting and pruning (leaves and roots) as termites may enter plants through scar tissues. | ||
+ | *If there is a bag around the root of a tree seedling, it is recommended that it should not be completely removed when transplanting as it can act as a barrier against termites. However it is important that the bag does not prevent the plant/roots from growing. It should still allow the plants roots to grow into the soil. Banana fibre pots are very ineffective as termites will eat them. | ||
+ | *Adding organic composts and manure to the planting area is recommended as this will produce healthier trees and crops. Whereas, inorganic fertilisers encourage fast growing soft tissue which is more likely to be attacked by termites. | ||
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==Magnets== | ==Magnets== | ||
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Placing strongbar magnets in the soil next to a new termite mound can prevent a mound from growing. This disturbs those species of termite which build their mounds in a north-south direction along magnetic lines. | Placing strongbar magnets in the soil next to a new termite mound can prevent a mound from growing. This disturbs those species of termite which build their mounds in a north-south direction along magnetic lines. | ||
Line 167: | Line 124: | ||
==Breaking up mounds and queen removal== | ==Breaking up mounds and queen removal== | ||
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On deep cracking soils, the regular disturbance through cracking prevents termites from building extensive mounds. On other soils artificial breaking up of mounds and galleries can have the same effect. Repeated digging and ploughing of the soil may reduce termite damage. Manual and explosive destruction of nests followed by the removal of the queen is also effective. | On deep cracking soils, the regular disturbance through cracking prevents termites from building extensive mounds. On other soils artificial breaking up of mounds and galleries can have the same effect. Repeated digging and ploughing of the soil may reduce termite damage. Manual and explosive destruction of nests followed by the removal of the queen is also effective. | ||
Line 175: | Line 131: | ||
==Physical barriers== | ==Physical barriers== | ||
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Building barriers around buildings and nurseries can prevent attack from subterranean species. Barriers should be partially above and below ground and should be composed of a material that is impenetrable to termites such as basalt, sand or crushed volcanic cinders. Particle size of the material is critical, they should not be too large for the termites to carry away, and not so small that termites can pack the particles to create a continuous passage through which they can move. | Building barriers around buildings and nurseries can prevent attack from subterranean species. Barriers should be partially above and below ground and should be composed of a material that is impenetrable to termites such as basalt, sand or crushed volcanic cinders. Particle size of the material is critical, they should not be too large for the termites to carry away, and not so small that termites can pack the particles to create a continuous passage through which they can move. | ||
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==Plants with termite resistance== | ==Plants with termite resistance== | ||
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'''Crops''' | '''Crops''' | ||
Line 367: | Line 321: | ||
− | There are many other species with termicidal properties including: ''Acacia catechu (''catechu, khair''), Acacia mearnsii (''black wattle''), Acacia melanoxylon (''Australian blackwood''), Albizia saman (''saman''), Afzelia cuanzensis (''pod mahogany''), Balanites aegyptiaca (''desert date''), Bridelia micrantha (''mitserie''), Cassia brewsteeri (''Brewsters cassia)'', Casuarina cunninghammiana'' (river she-oak)'', Eucalyptus camaldulensis'' (red gum)'', Gliricidia sepium'' (mother of cocoa), ''Grevillea glauca'' (East African mahogany), ''Leucaena leucocephala''(ipil ipil). | + | There are many other species with termicidal properties including: |
+ | *''Acacia catechu (''catechu, khair''), | ||
+ | *Acacia mearnsii (''black wattle''), | ||
+ | *Acacia melanoxylon (''Australian blackwood''), | ||
+ | *Albizia saman (''saman''), | ||
+ | *Afzelia cuanzensis (''pod mahogany''), | ||
+ | *Balanites aegyptiaca (''desert date''), | ||
+ | *Bridelia micrantha (''mitserie''), | ||
+ | *Cassia brewsteeri (''Brewsters cassia)'', | ||
+ | *Casuarina cunninghammiana'' (river she-oak)'', | ||
+ | *Eucalyptus camaldulensis'' (red gum)'', | ||
+ | *Gliricidia sepium'' (mother of cocoa), | ||
+ | *''Grevillea glauca'' (East African mahogany), | ||
+ | *''Leucaena leucocephala''(ipil ipil). | ||
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<center> | <center> | ||
− | [[Image: | + | [[Image:grinding.gif]]<br />''Grinding up plant parts to make a natural preparation for termite control'' |
</center> | </center> | ||
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|- valign="top" | |- valign="top" | ||
| valign="top" | | | valign="top" | | ||
− | ''Boswellia | + | ''Boswellia dalzielii'' |
| | | | ||
| valign="top" | | | valign="top" | | ||
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|- valign="top" | |- valign="top" | ||
| valign="top" | | | valign="top" | | ||
− | '' | + | ''Chenopodium ambrosioides'' |
| valign="top" | | | valign="top" | | ||
wormseed | wormseed | ||
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Wood/pulp | Wood/pulp | ||
|} | |} | ||
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==Reference list== | ==Reference list== | ||
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‘'''Natural Pest and Disease Control’''' (1996) Gaby Stoll, published by Magraf Verlag, PO Box 105 97985 Weikersheim, Germany | ‘'''Natural Pest and Disease Control’''' (1996) Gaby Stoll, published by Magraf Verlag, PO Box 105 97985 Weikersheim, Germany | ||
− | + | ==Related Articles== | |
+ | - [[How to Build the ARTI Compact Biogas Digestor]]<br> | ||
+ | - [[How to Use Neem as a Natural Pesticide]]<br> | ||
+ | - [[How to Control Termite without Chemicals]]<br> | ||
+ | - [[How to Process Oilseed on a Small Scale]]<br> | ||
+ | - [[How to Use Garlic as a Natural Pesticide]]<br> | ||
+ | - [[How to Use Chillies as a Natural Pesticide]]<br> | ||
==Notes== | ==Notes== | ||
Line 758: | Line 729: | ||
'''HDRA - the organic organisation'''<br /> Ryton Organic Gardens<br /> COVENTRY CV8 3LG<br /> United Kingdom<br /> Tel: +44 (0) 24 7630 3517 Fax: +44 (0) 24 7663 9229<br /> Website: http://www.hdra.org.uk | '''HDRA - the organic organisation'''<br /> Ryton Organic Gardens<br /> COVENTRY CV8 3LG<br /> United Kingdom<br /> Tel: +44 (0) 24 7630 3517 Fax: +44 (0) 24 7663 9229<br /> Website: http://www.hdra.org.uk | ||
+ | |||
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+ | ==Categories== | ||
+ | |||
+ | [[Category:Agriculture]] [[Category:Ideas]] [[Category:Pest control]] [[Category:Pollution]] [[Category:Prevention]] [[Category:Resource Management]] [[Category:Soil]] [[Category:Waste]] [[Category:Biodiversity]] | ||
+ | [[Category:Easy to Medium]] | ||
+ | |||
+ | [[Category:Global Technology]] [[Category:Arid Climate]] [[Category:Forest Environment]] [[Category:Global]] [[Category:Mediterranean Climate]] [[Category:Monsoon Climate]] [[Category:Montaneous Environment]] [[Category:Coastal Area]] [[Category:Rural Environment]] [[Category:Temperate Climate]] [[Category:Tropical Climate]] [[Category:Urban Environment]] | ||
+ | |||
+ | [[Category:Less than 50 US$]] [[Category:Biogas]] [[Category:Bricks]] | ||
+ | [[Category:Clay]] [[Category:Tea]] [[Category:Compost]] [[Category:Garlic]] [[Category:Seeds]] [[Category:Seedlings]] [[Category:Straw]] [[Category:Termites]] [[Category:Sand]] [[Category:Vetiver]] [[Category:Wood]] [[Category:One Person and more]] | ||
+ | |||
+ | [[Category:Household]] [[Category:Village]][[Category:Neighbourhood]] | ||
+ | |||
+ | [[Category:Application]] [[Category:Howtopedia requested drawings]] [[Category:Howtopedia requested images]] | ||
+ | |||
+ | |||
+ | [[Category:Requested translation to Spanish]] | ||
+ | [[Category:Requested translation to Bangla]] | ||
+ | [[Category:Requested translation to Javanese]] | ||
+ | [[Category:Requested translation to Madarin]] | ||
+ | [[Category:Requested translation to Russian]] | ||
+ | [[Category:Requested translation to Swahili]] | ||
+ | [[Category:Requested translation to Tamil]] | ||
+ | |||
+ | [[ar:كيفية مكافحة النمل الأبيض دون كيماويات]] | ||
+ | [[en:How to Control Termite without Chemicals]] | ||
+ | [[fr:Comment contrôler les termites des champs sans produit chimique]] | ||
+ | [[hi:रसायेनिक के बिना नियंत्रण के लिए कैसे दीमक]] | ||
+ | [[pt:Como controlar cupins sem produtos químicos]] |
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Contents
- 1 Termite Control without Chemicals
- 1.1 Termites: what are they?
- 1.2 Benefits provided by termites?
- 1.3 Chemical control
- 1.4 Adding organic material to the soil
- 1.5 Encouraging predators
- 1.6 Substitute food sources
- 1.7 Crop rotation
- 1.8 Healthy plants for transplanting
- 1.9 Magnets
- 1.10 Breaking up mounds and queen removal
- 1.11 Physical barriers
- 1.12 Plants with termite resistance
- 1.13 Plant preparations
- 1.14 Reference list
- 1.15 Related Articles
- 1.16 Notes
- 1.17 Contacts
- 1.18 Categories
Termite Control without Chemicals
After „Termite Control without Chemicals“ produced by HDRA - the organic organisation
Termites: what are they?
Termites are a group of insects (Isoptera) consisting of 2,500 species of which 300 are considered pests. Termites are one of the most damaging pests in the tropics and can cause considerable problems in agriculture, forestry and housing.
There are several families and sub-families. Some have nests underground, others in wood, for example hollow trees, and some build mounds.
Before control methods can be adopted a basic identification of the pest species or family is needed. This can be done by observing pest behaviour and the damage pattern on the tree or crop.
The most troublesome type of termites in agriculture are the fungus-growing termites. They feed on dead organic material such as crop residues, mulches and soil organic matter (humus). However when this type of food is not available they will eat live plant material including crops such as groundnuts, millets and maize.
Harvester termites are found in dry and semi-desert areas. They build underground nests which can be difficult to locate. They collect live green plant material and cause damage to living grasses, crops and seedlings. They will attack weak plants that are wilting or damaged.
Benefits provided by termites?
Although usually considered pests, termites can also provide many benefits. Therefore before control measures are used an assessment should be made of the following benefits against the loss of termites from the ecosystem.
Benefits include:
- Aeration of the soil due to termite burrowing activities.
- The breakdown and release of organic matter as termites eat and digest soil.
- Improved soil fertility when termite mounds, which are rich in minerals, are crushed down and incorporated into the soil.
- A source of minerals for cattle who lick the mounds.
- A source of protein rich food for many organisms including ants, guinea fowl and other mammals including humans.
- In some countries, the clay of the mounds is being used to make more resistant sun dried bricks.
Chemical control
The generally accepted method of termite control over the years has been chemical pesticides. However chemicals are expensive and have many harmful effects.
Safety for people
Artificial pesticides can quickly find their way into food chains and water courses. This creates health hazards for humans. There is also much concern for people using chemical pesticides. The products may be misused because the instructions are not written in the language understood by the person using them. This has led to many accidents and deaths.
Safety for the environment
There are a number of harmful effects that chemical pesticides can have on the environment.
- Artificial pesticide can kill useful insects which eat pests. Just one spray can upset the balance between pests and the useful predators which eat them.
- Artificial chemicals can stay in the environment and in the bodies of animals causing problems for many years.
- Pests become resistant to pesticides so more powerful chemicals are needed.
Cost
Using natural pest and disease control is often cheaper than applying chemical pesticides because products and materials which are already in the home and around the farm are most often used.
Organic control methods
There are a number of alternatives to using chemical pesticides for termite control. These methods work within the natural system and help promote natural pest control mechanisms.
- Organic control methods do not pollute the environment and are not harmful to beneficial insects and animals, or to the people using them.
- Organic methods aim to use locally available materials and do not rely on importing expensive materials from elsewhere.
- Organic methods are cheap and easy to use.
- Organic methods preserve genetic diversity within the farming system which helps provide *Organic methods regulate termite numbers rather than eliminate them so that the benefits provided by termites are not lost.
The level of control depends on the knowledge of pest species, the tree or crop species, climatic conditions and other environmental factors such as soil type and local vegetation cover. Methods of control are more effective if used in conjunction with each other, with maximum use of local knowledge and resources.Termite control methods are described in this booklet. Some of them come from individual research studies and have not been widely tested.
Adding organic material to the soil
Fungus-growing termites prefer to eat dead plant material. Their attacks are thought to be related to soils with low organic matter content. This is because such soils do not contain enough food for termites to live and they resort to feeding on living plant material. Adding compost or well-rotted manure to the soil and sowing green manures helps to increase the organic matter in the soil.
Digging compost into the soil to increase organic matter contentEncouraging predators
Termites have many predators, including spiders, beetles, flies, wasps and especially ants. Other predators including frogs, reptiles, birds and mammals such as aardvarks, pangolins, bats, monkeys and humans. Encouraging this kind of wildlife will help to reduce the number of termites. Bushes and trees are a home for many of these useful creatures. These areas of natural habitat can be left around fields where crops are grown. If these areas are destroyed then there is an imbalance between the populations of predator and pest.
Substitute food sources
Damage from termites which feed on dead plant material can be reduced by adding organic material to the soil. The farmer should avoid having bare, dry soil around crops.
However, there is also a short term solution which involves providing termites with an alternative source of food. This can be done by using mulch around the base of plants. Mulching with items such as hay, manure, wood shavings, wood ash or threshed maize cobs has been shown (in South Africa and Uganda), to dramatically decrease termite attacks. Termites are attracted to the mulch rather than the crop. Vetiver grass leaf mulch has been shown to prevent termite attack around the base of trees.
However, offering substitute food may also attract termites to the area and increase the overall damage done to trees and crops. Each case is likely to be different and dependent on termite species and tree/crop species.
Crop rotation
Planting the same crop on the same land year after year reduces soil fertility and structure. Crops growing in such conditions will be weaker and susceptible to termites. Crop rotation can play an important role in reducing termite attack.
Crop rotation means that crops are grown on a different piece of land each year. This can prevent pest and disease build up and also help the soil to recover nutrients.
Healthy plants for transplanting
- Plants which are suffering from disease or lack of water are generally more susceptible to termites than healthy plants. It is therefore important that plants are kept healthy and watered.
- In dry areas it is recommended that seeds should be sown at the beginning of the wet season to give the plants a chance to establish themselves and remain healthy in the field.
- Only healthy plants should be transplanted into the field. Great care should be taken during transplanting and pruning (leaves and roots) as termites may enter plants through scar tissues.
- If there is a bag around the root of a tree seedling, it is recommended that it should not be completely removed when transplanting as it can act as a barrier against termites. However it is important that the bag does not prevent the plant/roots from growing. It should still allow the plants roots to grow into the soil. Banana fibre pots are very ineffective as termites will eat them.
- Adding organic composts and manure to the planting area is recommended as this will produce healthier trees and crops. Whereas, inorganic fertilisers encourage fast growing soft tissue which is more likely to be attacked by termites.
Magnets
Placing strongbar magnets in the soil next to a new termite mound can prevent a mound from growing. This disturbs those species of termite which build their mounds in a north-south direction along magnetic lines.
Breaking up mounds and queen removal
On deep cracking soils, the regular disturbance through cracking prevents termites from building extensive mounds. On other soils artificial breaking up of mounds and galleries can have the same effect. Repeated digging and ploughing of the soil may reduce termite damage. Manual and explosive destruction of nests followed by the removal of the queen is also effective.
Physical barriers
Building barriers around buildings and nurseries can prevent attack from subterranean species. Barriers should be partially above and below ground and should be composed of a material that is impenetrable to termites such as basalt, sand or crushed volcanic cinders. Particle size of the material is critical, they should not be too large for the termites to carry away, and not so small that termites can pack the particles to create a continuous passage through which they can move.
Plants with termite resistance
Crops
There is little knowledge about crop resistance to termite attack. However, in general indigenous crops are more resistant to termites than exotic crops. For instance, in Africa, sorghum and millet are more resistant to termites than maize and cowpea, and bambara nuts are not attacked while groundnuts suffer serious damage. Annual crops are attacked towards harvest time while perennial crops are attacked most destructively during dry seasons or in early stages of growth. It may be advisable to establish small plantations in the field prior to larger scale plantations in order to discover if the crop or tree is resistant to local termites in local conditions.
Trees
The degree of resistance depends on the tree species, the origin of the tree seed, the age and condition of the tree, the termite species and where the tree is growing (region/country). However as with crops, indigenous species are more resistant than exotics. The following table gives a number of trees and shrubs that have shown to be termite resistant.
Trees and shrubs with termite resistance
Species
Common name
Termite resistant part
Comments
Acacia polyacantha
hook thorn
More resistant that most
Acacias due to high number of resinsAfrormosia laxiflora
Wood/pulp
Albizia odoratissima
tes shade tree
Wood/pulp
Albizia zygia
Termite durable but not resistant
Azadirachta indica
neem, nim
Borassus aethiopum
African fan palm
The fibrous wood is highly resistant
Brachylaena hutchinsii
muhugu oil tree
Highly resistant, almost impenetrable to termites
Capparis aphylla
Wood/pulp
Termite resistant shrub
Catalpa bignonioides
common catawpa
Resistant to Reticulitermes flavipes
Cedrus deodora
himalayan cedar
Wood/pulp
Daniellia oliveri
Gum/resin
Detarium senegalense
Wood/pulp
Oral poison
Dodonaea viscosa
purple hop bush
Wood/pulp
Termite resistant shrub
Erythropleum suaveolens
Wood/pulp
Oral poison
Eucalyptus microcorys
More resistant than other Eucalyptus
Grevillea robusta
silky oak, silver oak
Termite tolerant in Tanzania
Juniperus procera
E. African pencil cedar
Highly resistant
Melia azedarach
white cedar
Wood/pulp, leaves, seeds, oil
Oral poison
Strychnos nux-vomica
Leaves
Oral poison
Zanthoxylum xanthoxyloides
Wood/pulp
There are many other species with termicidal properties including:
- Acacia catechu (catechu, khair),
- Acacia mearnsii (black wattle),
- Acacia melanoxylon (Australian blackwood),
- Albizia saman (saman),
- Afzelia cuanzensis (pod mahogany),
- Balanites aegyptiaca (desert date),
- Bridelia micrantha (mitserie),
- Cassia brewsteeri (Brewsters cassia),
- Casuarina cunninghammiana (river she-oak),
- Eucalyptus camaldulensis (red gum),
- Gliricidia sepium (mother of cocoa),
- Grevillea glauca (East African mahogany),
- Leucaena leucocephala(ipil ipil).
Plant preparations
Plant parts and plant extracts can be used effectively. These can be removed from the plant and used as a natural insecticide by grinding up the relevant parts, placing in boiling water, stirring and leaving to soak. The mixture is then sprayed onto the pest infested crop. Alternatively the plant part, such as toxic fruit juices, pulps or shavings can be applied directly.
Grinding up plant parts to make a natural preparation for termite controlPlants with termite control properties
Species
Common name
Termite control property
Parts used
Acacia nilotica
Egyptian thorn
Anti-insect
Wood/pulp
Agave americana
American aloe
Repellent, insecticidal
Whole plant
Allium sativum
garlic
Anti-feedant, bacterial, fungicidal, repellent
Bulbs
Anacardium occidentale
cashew
Anti-insect, repellent
Seeds, oil
Argemone mexicana
Mexican poppy
Insecticidal, repellent
Whole plant
Azadirachta indica
neem, nim
Termiticidal, anti-feedant
Leaves, seeds
Bidens pilosa
blackjack
Anti-feedant, insecticidal, repellent
Whole plant, mature seeds
Boswellia dalzielii
Repellent
Gum/resin
Calatropis gigantea
Anti-insect
Leaves, sap/latex/juice
Calatropis procera
Termiticidal
Latex
Carya ovata
shagbark hickory
Termiticidal
Bark
Camellia sinensis
tea
Anti-feedant, insectidical
Leaves and fruit
Carica papaya
pawpaw
Insecticidal
Fruit, fresh leaves and roots
Cassia siamea
yellow cassia, kassof tree
Repellent
Used as a leaf mulch
Cedrela odorata
West Indian cedar
Termiticidal
Wood
Chenopodium ambrosioides
wormseed
Anti-feedant, insecticidal, repellant
Whole plant
Cleistanthus collinus
Repellent
Bark
Commiphora africana
Termiticidal
Gum/resin
Consolida regalis
blue cloud
Termiticidal
Seeds
Diospyros ebenum
ebony
Anti-insect
Roots
Hardwickia mannii
Termiticidal
Stem/branches
Hyptis spicigera
labiatae
Repellent
Aerial parts
Juniperus virginiana
eastern red cedar
Anti-insect
Leucaena leucocephala
ipil ipil
Repellent
Used as a leaf mulch
Melia azedarach
chinaberry, persian lilac
Anti-feedant, contact poison, repellant
Bark, branches, leaves, fruit, oil
Mesna ferrea
Anti-insect
Ocimum basilicum
sweet basil
Insecticidal, repellent
Whole plant
Ocimum canum
wild basil
Insecticidal, repellent
Whole plant
Ocimum urticifolium
basil
Water-based extracts
Pinus strobus
Termiticidal
Bark
Prosopis africana
Anti-insect
Roots
Quassia indica
Termiticidal
Leaves
Quercus prinus
chestnut oak
Termiticidal
Bark
Samadera indica
Termiticidal
Leaves
Santalum album
sandalwood
Anti-insect
Sassafras albidium
Termiticidal
Bark
Semecarpus anacardium
Anti-insect
Seeds
Swartziamadagascariensis
Repellent
Fruit
Tagetes minuta
Mexican marigold
Water-based extracts
Tectona grandis
teak
Repellent
Wood/pulp
Reference list
‘Organic Termite Control’ (1994) P Forshaw. HDRA undergraduate report.
‘Natural Pest and Disease Control’ (undated) H Elwell and A Mass, published by the Natural Farming Network, PO Box 8515, Causeway, Harare, Zimbabwe.
‘Natural Pest and Disease Control’ (1996) Gaby Stoll, published by Magraf Verlag, PO Box 105 97985 Weikersheim, Germany
Related Articles
- How to Build the ARTI Compact Biogas Digestor
- How to Use Neem as a Natural Pesticide
- How to Control Termite without Chemicals
- How to Process Oilseed on a Small Scale
- How to Use Garlic as a Natural Pesticide
- How to Use Chillies as a Natural Pesticide
Notes
Contacts
Further information on termite control and on organic farming can be obtained from HDRA. Publications include booklets covering composting, green manures, weed control and the neem tree, as well as single information sheets about crop pests and diseases and their control, natural pesticides and green manures. Please write to:
HDRA - the organic organisation
Ryton Organic Gardens
COVENTRY CV8 3LG
United Kingdom
Tel: +44 (0) 24 7630 3517 Fax: +44 (0) 24 7663 9229
Website: http://www.hdra.org.uk
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