School Science Lessons
School food gardens for tropical regions
2012-02-05
Please send comments to: J.Elfick@uq.edu.au
Preface
Before teaching this project, discuss the content of the lessons with a
field officer of the Ministry of Agriculture and get advice on planting material,
planting distances, site for planting, approved mulch, composting, and control
of pests and diseases. Use only the procedures, agricultural chemicals and
insecticides recommended by the local field officer of the Ministry of Agriculture.
Table of contents
16.13.5 Acaricides
16.13.6.0 Fungicides
16.13.7.0 Herbicides
16.13.8.2 Nematode pests
16.13.0 Pesticides
16.13.6.0
Fungicides
16.13.6 Benomyl
16.13.6.2 Bordeaux mixture
16.13.6.3 Captan
16.13.6.4 Copper oxychloride
16.13.6.5 Chlorothalonil
16.13.60 Lime sulfur
16.13.6.7 Metam
16.13.6.8 Quintozene
16.13.6.9 Sulfur
16.13.10 Zineb
16.13.7.0 Herbicides
16.13.7.0 Herbicides (weedicides)
16.13.7.6 2,4-D, 2,4-dichlorophenoxyacetic acid,
2,4-D, C8H6Cl2O3
16.13.11 2,4,5-T, 2,4,5-trichlorophenoxyacetic
acid, banned synthetic auxin herbicide, dioxin contamination
16.13.7.1 Bifenox
16.13.7.2 Dalapon
16.13.7.3 Glyphosate
16.13.7.5 MCPA
16.13.7.4 Paraquat
16.13.3.0 Organochlorine insecticides
16.13.3.0 Organochlorine insecticides, organochlorides,
chlorinated hydrocarbons
16.13.4 Chlordane, aldrin, dieldrin, heptachlor
16.13.3.1 DDT
16.13.3 Lindane, gammexane, BHC (benzene hexachloride)
16.13.3.2 Methoxychlor
16.13.3.2.1 Piperonyl butoxide
16.13.4.0 Organophosphate and carbamate insecticides
16.13.4.0 Organophosphate and carbamate insecticides
16.13.4.1 Acephate
16.13.7 Carbamates, Carbaryl, Bendiocarb
16.13.4.8 Carbamates, Methiocarb
16.13.4.2 Dimethoate
16.13.2 Malathion, Maldison
16.13.4.4 Naled
16.13.4.5 Tetrachlorvinphos
16.13.4.6 Trichlorophon
16.13.0 Pesticides
16.13.8.5 Chemical pesticides, poisons
16.13.8.4 Integrated pest management (IPM)
16.13.2.0 Inorganic chemical insecticides
5.20 Insect pests of plants
16.13.8 Insect repellents
16.13.3.0 Organochlorine insecticides
16.13.4.0 Organophosphate and carbamate insecticides
16.13.1.0 Plant extract insecticides, home-made
insecticides, white oils
16.13.1.0
Plant extract insecticides
16.13.1 Pyrethrin, Plant extract insecticide
16.13.1.2 Rotenone
16.13.0 Pesticides
and herbicides
See 16.13.1.0:
Plant extracts | See also 6.9.18.0:
Prepare pesticides
Insecticides can be divided into stomach poisons that require ingestion,
contact poisons that are absorbed through the cuticle and fumigant gases that
must be breathed in.
Pesticides used in schools
1. The contents below are for information only and do not constitute advice
on how any particular agricultural chemical should be used in any school garden.
Before using any agricultural chemical in a school garden the supervisor should
obtain advice from a Field Officer of the Department of Agriculture and should
obtain permission from the school principal.
2. The following pesticides are too dangerous for use in school food gardens
1. organochlorine compounds: DDT, benzene hexachloride (Lindane, gammexane
BHC) aldrin (chlordane, dieldrin, heptachlor epoxide, endrin) 2. organophosphorus
insecticides: chlorpyrifos, parathion, malathion, dimethoate, dichlorvos,
mevinphos
16.13.1.0 Plant extract insecticides, home-made
insecticides, white oils
1. Chilli spray contain an organic compound which repels insects. Grind
chillies, but be careful not to put it in your eyes, and add soapy water or
detergent as a sticker. Spray on leafy vegetables. Repeat the spray regularly.
2. Soak garlic and onion in hot water. Garlic oil may be effective against
the larvae of mosquitoes and houseflies.
3. Nicotine
See diagram 16.13.1.0 3.: Nicotine
Tobacco water, cigarette butt water, colour of brown tea, kills underground
pests Nicotine is an organic compound obtained from the leaf of the tobacco
plant. It can be made by putting non-filter cigarette butts in hot water.
This poison is a stomach poison for many insects. Nicotine chemical is too
dangerous for use in schools.
4. White cabbage moth deterrent
Boil lettuce leaves and use the solution on cabbages, cauliflower, Brussels
sprout.
5. Sooty mould
Add 5 mL of cooking oil + 5 mL household detergent + 500 mL of water. Use
solution as a spray.
6. Aphid, slug, beetle deterrent
Mix 3 cloves of macerated garlic + 5 mL of household detergent + 500 mL
of water. Use solution as a spray.
7. Black spot on roses
Mix 4 mL of sunflower oil + 10 cc sodium bicarbonate + 1 drop household
detergent + 1 litre of water. Use solution as a spray.
8.1 Use 1 teaspoon liquid dishwashing detergent (as a wetting agent), 1
cup vegetable oil, 1 quart tap water all purpose spray for mites, aphids,
contact insecticide, test first on small leaves because it may cause leaf
tip burn. Some people prefer soap suds, using soft potassium soap, instead
of dishwashing detergent. Also some people add ammonia or vinegar to attack
scale insects.
8.2 Use 160 mL dishwashing liquid + 15 mL glycerine in 4 L water
8.3 rubbing alcohol + half cup of hot water + particles of pepper, filter
off particles
8.4 lime sulfur, (it may stain paint),
8.5 sabadilla lily for stink bugs
8.7 crushed tomato leaves contain solanine, fungicide, hot water + corn
starch + 2 cups tomato leaf puree + 5 pints of water
8.8 rotenone form derris dust, kills aphids, thrips, chewing insects, toxic
to fish, birds
8.9 talcum powder for corn ear worm
8.10 rhubarb leaves chopped into quart boiling water
8.11 garlic and red pepper spray
8.12 spearmint leaves spray
8.13 white oil for scale, aphids, smooth skinned caterpillars, mites, young
grasshoppers, citrus leaf miner. Small insects suffocate when bodies covered
2 cups vegetable oil + 1/4 cup of dishwashing detergent in blender to form
the concentrate use 1 tablespoon to 1 litre of water. spray both sides of
leaves until all leaves are dripping wet
8.14 45 mL sodium bicarbonate + 35 ml white oil + 4.5 litres of water,
spray weekly, saturate the leaves until runoff, for aphids, black spot,
powdery mildew
8.15 Sprays using nettle, eucalyptus, nicotine, basil leaves against aphids
8.16 mature compost soaked in water, then filter water and use as spray
water
8.17 wipe off leaves with rag soaked in detergent
8.18 Commercial white oil for aphids, mealybugs, mites on roses, ornamentals,
citrus, fruit trees, contain petroleum distillates oil in dewaxed light
paraffin emulsifiers, need to repeat every 4 weeks, store not above 35oC,
do not use on citrus late autumn/ winter and use not later than 1 day before
edible harvest.
8.19 Use 4 parts vegetable oil, e.g. canola + 1 part dish-washing detergent,
blend in electric blender until homogeneous, dilute 1:50 with water, spray
from above and below
8.20 Use 750 mL canola oil + 45 mL detergent, e.g. "Sill" + 1250 mL water
8.21 Use 300 mL canola white oil + 300 mL vinegar + 300 mL water 4 + "Alginox"
to kill algae, Spray during overcast weather or in the evening.
16.13.1 Pyrethrins
See diagram 16.13.1: Pyrethrin
Pyrethrins are two almost identical organic compounds extracted from the pyrethrum flower Chrysanthemum cinerariaefolium. Pyrethrins
have an immediate “knock down” effect on flying insects, but a second poison
may be needed to kill them. They have low toxicity to mammals. Allethrin insecticide
is an organic compound which is the same as pyrethrin but made in a factory.
Permethrin is an organic compound which is similar to Pyrethrin but is made
in a factory. Chilli, pyrethrin and permethrin are stomach poisons and contact
insecticides. They are safe to use, but some people are made sick by them.
They are not persistent and there is no withholding period. These poisons
kill most pests quickly and so are called knockdown sprays. They also repel
insects, stopping them from coming near plants.
16.13.1.2 Rotenone,
derris
See diagram 16.13.1.2: Rotenone
Rotenone is an organic compound obtained from roots of the legume Derris and other local bean plants. This
chemical is a contact and stomach poison. Rotenone can be used to repel insects
and as an acaracide. It is often used to kill fish. It can also affect pigs.
It is effective for short periods only because it is broken down by oxygen
and sunlight. It is not persistent and must be sprayed every three days.
It does not store well. This is a good insecticide but repeated applications
are needed. If applied as "derris dust" the plant leaves must not be too shaded.
Insects are never resistant to this poison. It can control beetles, weevils,
slugs, looper caterpillars, thrips, flies. Rotenone is also used to poison
fish.
Rotenoids are natural substances, with a cis-fused tetrahydrochromeno
[3,4-b] chromene nucleus, e.g. rotenone insecticide from Derris sp.
16.13.2.0 Inorganic
chemical insecticides
These chemicals are persistent stomach poisons that kill chewing insects,
e.g. caterpillars but not sucking insects, e.g. aphids, mosquitoes. Other
inorganic chemicals are used as attractants, repellents and synergists. Inorganic
insecticides are usually heavy metal compounds, particularly of lead, mercury,
arsenic and antimony. Also, some are fluoride salts, e.g. NaF, sulfur, polysulfides
and borax.
1. Borax (Na2B4O7) is used as a cockroach
and ant poison and is harmful to mammals.
2. Copper chrome arsenate (CCA) is used to preserve fence posts and garden
furniture giving a green colour. Such treated timber is safe for normal use
but the sawdust and smoke from burning may contain dangerous levels of arsenic.
The white powder seen on some newly purchased timber is probably harmless
sodium sulfate.
3. Copper (II) sulfate and lime is used in Bordeaux mixture. Copper (II)
sulfate can causes vomiting.
4. Lead arsenate (PbHAsO4) is a heavy metal compound that is
insoluble in water and so not readily absorbed by plants on contact. It is
effective only by ingestion. The lead blocks essential sites on enzymes and
so it is nonspecific. It is toxic to all living systems and extremely persistent.
Sodium arsenite is no longer used as a cattle dip against ticks.
5. Sodium fluoride (NaF) and cryolite (Na3AlF6) liberates
fluoride ions to precipitate Mg2+ as fluorophosphate thus affecting
magnesium dependent enzymes. It is nonspecific and toxic to animals.
6. Sulfur as elemental sulfur, S, and the soluble lime sulfur (CaS) experiences
aerial oxidation to SO2, to act as a safe fungicide and acaricide.
It has some use as an insecticide.
7. Petroleum oils, petroleum oil spray (PSO) are also "white oil", and
"summer oil", and "winter oil". These chemicals are poisonous to some scale
insects. They are fairly safe to use. There should be a 1 day withholding
period before harvest of the sprayed crop. their classification is based
on the temperature at which 5% of the constituents boil, e.g. C21, C23, C24
oils. The latter has less phytotoxicity. The oil droplets on the plant must
all join together to kill all the insect pests. These oils are used in 2
ways: 1. They can control scale insects on citrus trees. 2. They can be mixed
with other insecticides such as Carbaryl to spread them better on plants.
Concentrations: 0.25% = 250 mL oil in 100 L water, 2% = 2 L oil in 100 L
water.
16.13.3.0 Organochlorine
compounds, organochlorides (chlorinated hydrocarbons)
See also 13.4.0: Chlorine
The following organochlorine compounds
have been banned in Australia and must not be used in schools: Aldrin. BHC, Chlordane, DDT, Dieldrin,
Endrin, Heptachlor, Hexachlorophene,
Isodrin, Lindane, Pentachlorophenol,
2,4,5-T.
Organochlorines are composed only of carbon, hydrogen and chlorine. They
are biologically very active but not easy to breakdown, hence persistent.
They have one or more chlorine atoms attached to the carbon atoms, replacing
hydrogen. The term organochlorine refers to a wide range of organic chemicals,
which contain chlorine and sometimes several other elements that have been
used in Australia as herbicides, insecticides, fungicides and industrial chemicals,
e.g. polychlorinated biphenyls (PCBs). They are very stable compounds that
can be distributed in the environment where they persist long after their
original use. They degrade slowly and being fat soluble, accumulate in the
food chain, eventually ending up in the fat of your body. Key properties of
organochlorines which cause concerns are persistence and toxicity. While organochlorine
pesticides were manufactured for their toxicity, the fact that they were
also persistent had advantages in that they remained effective against target
pests for prolonged periods. used to protect crops, livestock, buildings
and households from the damaging effects of insects. Commonly used OCP insecticides
were DDT, Lindane, chlordane, dieldrin, aldrin and heptachlor. Fungicides
included hexachlorobenzene (HCB) and chlorinated phenols such as pentachlorophenol.
Herbicide 2, 4, 5 -T was also used. Hexachlorobenzene (HCB) used in the past
as a fungicide (seed disinfectant, seed paint) but now banned in Australia,
appears as a widespread contaminant in many environments. It was deregistered
for general use between 1985 and 1987. Chlorinated phenols such as pentachlorophenol
(PCP) have been widely used in Australia to protect softwood timber from
decay. 2, 4, 5-T was used in the past as a herbicide against broad leaf
woody plants, as a defoliant. The use of almost all the chemicals mentioned
above is now banned in Australia.
16.13.3.1 DDT
The new chemical name is 1,1-bis(4-chlorophenyl)-2,2,2-trichloroethane.
The old name was dichlorodiphenyltrichloroethane, hence "DDT". DDT is a organochlorine
contact insecticide that kills by acting as a nerve poison is a highly effective
insecticide, both by contact and by ingestion, and is of very low toxicity
to mammals. It is odourless and tasteless, has a high persistence, and is
chemically stable. However, insects can develop resistance to DDT by natural
selection of surviving members with enzymes that can detoxify it. DDT and
its metabolic breakdown product can accumulate in the fat of birds and fish,
and even people, at the end of the food chain. It may cause birds to produce
thin shell eggs that break easily. So the advantage of it being chemically
stable is now seen as a major disadvantage. It was also used in large quantities
in the control of mosquitoes which caused malaria in tropical countries. There
has been a total ban on the use of DDT in Australia since 1987. the technical
product "DDT" which is a mixture of isomers, principally p,p'-DDT, with lesser
amounts of o,p'-DDT (isomers are chemicals with the same molecular make-up,
but with differing three-dimensional structure). Small amounts of the breakdown
products DDD and DDE can also be found in the formulation. Once stored in
fatty tissue, DDT residues are sequestrated and stabilized unless they are
mobilized either through lactation or significant weight loss, which burns
fat DDT, DDD and DDE are all strongly suspected of being environmental endocrine
disrupters (chemicals that affect the hormonal system).
16.13.3.2 Methoxychlor
See diagram 16.2.2: Methoxychlor
It is an organic compound, containing chlorine. It is a contact and stomach
poison, very safe to use, and has long persistence. Methoxychlor is pale yellow
powder and has a fruity or musty odour. It is used to kill flies, mosquitoes,
cockroaches, chiggers and others. Methoxychlor is a general insecticide for
food crops, household pests, farm animals, pets and grain storage. Available
as W.P., E.C., dusts and in aerosol cans. Methoxychlor is a biodegradable
analogue of DDT. While non-polar compounds, e.g. DDT, stay dissolved in
the fat of the body, polar substances, e.g. methoxychlor, are water soluble
and can be excreted to be further attacked by other organisms. DDT and pyrethrins
keep open the sodium channel of the insect nerve cell, but not the mammal
nerve cell, so sodium ions to leak in causing continuous transmission of nerve
impulses and the insect dies of exhaustion. You can observe the frantic activity
of house flies sprayed with DDT. When DDT sprays were introduced an advertisement
stated “They fly outside to die”. Methoxychlor can enter your body when
you breathe contaminated air, eat contaminated food, get it on your skin
and use gardening products or pet sprays. High doses of methoxychlor could
cause damage to the nervous system but low levels of methoxychlor will leave
the body so quickly that this type of damage is not likely. The U.S. Environmental
Protection Agency (EPA) has set a reference dose (RfD) for methoxychlor at
0.005 milligrams per day.
16.13.3.2.1
Piperonyl butoxide
See diagram 16.2.2: Piperonyl butoxide
DDT, methoxychlor, and pyrethrins are more efficient if piperonyl butoxide
is added to the insecticide to give a synergistic effect. This additive is
not itself an insecticide but deactivates enzymes for detoxification of the
pesticide in the insect.
16.13.3 Lindane,
gammexane, BHC, benzene hexachloride
See diagram 16.3.3.3: Benzene hexachloride
Lindane, gammexane, BHC (benzene hexachloride) is an insecticide with different
names made by the addition of chlorine to benzene in light. The 7-isomer
is the insecticide of the nine isomers formed. Detoxification is by elimination
of HCl. Lindane has been used to treat lice in children. The insecticide
Lindane is more than 5-20 times more toxic to insects than DDT. It was mainly
used against plant eating insects, but had various medical and veterinary
applications in treating skin parasites. More specifically, it was used in
the control of insect pests in stored seed to control white grubs in pineapples,
against ectoparasites on food, and head lice in humans. It was deregistered
for general use in 1985. Lindane is a chemical that kills insects, including
head lice. was the active ingredient in lice shampoo, which is no longer
sold. Generic Lindane is still available by prescription for head lice. Shampoo
with Lindane can be dangerous if swallowed, especially for children. It appears
that Lindane is not as effective against lice as it once was. One of the
safest and most effective methods for controlling head lice is by combing
hair with a good lice comb with 3 or 4 rows of closely-spaced metal teeth.
16.13.4 Chlordane,
aldrin, dieldrin, heptachlor
See diagram 16.13.4: Chlordane, aldrin, dieldrin,
heptachlor, endosulfan
Aldrin, chlordane, dieldrin. heptachlor, and endrin are a closely related
group made by the Diels-Alder reaction with alkenes from hexachloro-cyclopentadiene.
They are broad spectrum insecticides, highly toxic to insects and mammals,
and with high persistence. They also accumulate in body fats and act on the
central nervous system. The compound may itself be non-toxic but is converted
to a toxic form in the body. They remain in the mammal body, measured as a
half residence time, to be detoxified in the liver and excreted by the kidneys
but leaving some stored in body fat to be released during illness, stress
and lactation, maternal milk. Aldrin and dieldrin have not been produced in
the United States since 1974.
Aldrin was manufactured by the Diels-Alder condensation of hexachlorocyclopentadiene
with bicyclo[2.2.1]-2,5-heptadiene.
Dieldrin was manufactured by the epoxidation of aldrin by reacting it either
with a peracid to produce dieldrin and an acid by-product, or with hydrogen
peroxide and a tungstic oxide catalyst to produce dieldrin and water. Aldrin
and dieldrin are active against insects by contact or ingestion. Their primary
use was for the control of termites around buildings, corn pests by application
to soil and in the citrus industry, termite proofing of plastic and rubber
coverings of electrical and telecommunication. In 1970, the U.S. Department
of Agriculture cancelled all uses of aldrin and dieldrin based on the concern
that these chemicals could cause severe aquatic environmental change and are
potentially carcinogenic. Aldrin and dieldrin are classified as hazardous
wastes. That should be incinerated
Chlordane, dieldrin, aldrin and heptachlor, a related group of chlorinated
organic compounds, were marketed to complement DDT. Chlordane was used for
instance to control termites, various types of ants, borers, lawn beetles,
curl grubs, cut worms and black beetles. Dieldrin was widely used against
locusts and argentine ants, in the protection of electricity and telephone
cable, soil treatment in farm and industrial premises for control of termites,
and control of termites in buildings, fences and similar structures. Aldrin
was used as a soil treatment, usually pre-planting, for crops such as sugar
cane, it was used in ant control as well as subterranean termite control,
the protection of power poles from termites, farm, industrial and domestic
control of fleas, flies, lice and mites. Heptachlor, a persistent organic
pollutant, was used similarly to chlordane. It was also commonly used in
soil treatment in crops for control of funnel ants and grubs of the grey-black
beetle in cane growing areas, and banana beetle borer in banana plantations.
In some countries it has a limited use to control fire ants.
16.13.4.0 Organophosphate
and carbamate insecticides
See diagram 16.13.2: Organophosphorus insecticides
High persistence chlorinated pesticides are being replaced by the organophosphorus
group that has a range of activity, persistence, specificity and function.
Their general formula is (RR'X) P = 0, where R and R' are short chain groups
and X is a leaving group that it is easily removed from the molecule either
after a reaction in the body so persistence is reduced, e.g. Carbaryl
16.13.4.1 Acephate
See diagram 16.13.4.1: Acephate
Acephate is a contact poison which is also systemic in some plants. It
is fairly safe to use. There should be a 7 days withholding period before
harvest of the sprayed crop. It persists for some time. It may burn young
leaves. Acephate can be used to control many insect pests and some people
say it is the best general purpose insecticide for use in the tropics. It
can control aphids and thrips, caterpillars, leaf miners, rice hoppers, diamond-backed
moth on cabbages, cutworms, and many other insects. Acephate is usually available
as a wettable powder. It is also available as a dust.
16.13.4.2 Dimethoate
See diagram 16.13.4.2: Dimethoate
Dimethoate is a systemic poison that is dangerous if the mist is breathed
in or swallowed. There should be a 7 days withholding period before harvest
of the sprayed crop. It may damage some fruit trees. Dimethoate can be used
to control aphids and all sucking insects but it will not control chewing
insects such as grasshoppers. It can control leaf miner in hibiscus cabbage
(aibika) cabbages, okra, and sweet potato, aphids and thrips on plants of
the pumpkin family, cabbages, spring onions, tomato and bean, Heliothis corn ear worm on bean and plants
of the tomato family, mites and red spider on plants of the tomato family,
taro, banana, bean and cassava, bean fly, vegetable bugs, pod borer on bean,
and fruit fly. When insects are first seen spray a solution of 5 mL of concentrate
in 5 litres of water. Make sure that the whole plant is sprayed. Dimethoate
is usually available as emulsifiable concentrate (E.C.). It is also available
as dusts, wettable powder (W.P.) and granules.
16.13.2 Malathion,
Maldison
See diagram 16.13.2: Malathion
Malathion, maldison, is a contact poison which is also weakly systemic
in some plants. It is fairly safe to use but the concentrate is dangerous
if swallowed, breathed in, or allowed to remain on the skin. There should
be a 7 days' withholding period before harvest of the sprayed crop. It persists
for some time. Malathion can be used to control many different insect pests
which eat leaves and stems but some insects have become resistant to it. It
can control aphids, mole crickets, grasshoppers, cutworms, scale insects on
citrus trees, bugs on plants of the pumpkin family, bean and eggplant, taro
leaf hopper, spider mites. When the insects are first seen spray a solution
of 10 mL of "Malathion 50" in 4 litres of water, and repeat the spray when
necessary. Malathion is usually available as a concentrate. It is also available
as aerosols, granules and dusts. For control of scale insects mix with white
oil, e.g. Albarol, and water. For control of pests of stored products use
as a dust.
16.13.4.4 Naled
See diagram 16.13.4.4: Naled
It is a contact and stomach poison. It is dangerous to use. Naled can be
used just before harvest. It can control caterpillars, cutworms, bugs on eggplants,
red spider mite on cassava and other crops. Naled is available as an emulsifiable
concentrate (E.C.) and a dust.
16.13.4.5 Tetrachlorvinphos
See diagram 16.13.5: Tetrachlorvinphos
Tetrachlorvinphos is a contact and stomach poison. It is fairly safe to
use. This chemical is not allowed to be used on crops in the U.S.A. Tetrachlorvinphos
can be used to control caterpillars and other pests of leafy vegetables but
other insecticides are better for this purpose. It can be used to kill parasites
of animals and to kill pests in agricultural buildings. Tetrachlorvinphos
is usually available as emulsifiable concentrate (E.C.) oil solution and dusts.
16.13.4.6 Trichlorophon
See diagram 16.13.5: Trichlorophon
Trichlorphon is a stomach poison and contact insecticide for certain insects.
It also is used to kill flies and cockroaches. It is dangerous to use. There
should be a 2 days withholding period before harvest of the sprayed crop.
Trichlorphon can be used to control cutworm of cabbage and other crops, white
fly on taro, corn ear worm, bean fly, bugs, leaf hoppers, banana scale moth.
Not effective for control of diamond backed moth. Trichlorphon is available
as wettable powder (W.P.) emulsifiable concentrate (E.C.) and dusts.
16.13.7 Carbamates,
Carbaryl, Bendiocarb
See diagram 16.13.4.7: Carbaryl, 1-napthyl methylcarbamate, "Sevin",
"Carbamine", "Dicamba", "Bugmaster", C12H11NO2
It is a contact poison which is also weakly systemic in some plants. It
is fairly safe to use but the concentrate is dangerous if it is swallowed,
breathed in or allowed to remain on the skin. There should be a 7 days withholding
period before harvest of the sprayed crop. It has a short persistence. It
may burn young leaves. Carbaryl can be used to control many different insect
pests which eat leaves and stems but you may need a following spray of another
insecticide to kill all the insect pests. It can control leaf miner on hibiscus
cabbage (aibika) okra, tomato and sweet potato, caterpillar on cabbage and
other leafy vegetables, 28-spotted ladybird on plants of the pumpkin family,
tomato leaf miner, pod borers in bean, bugs on bean and eggplant, green looper
caterpillars on bean and tomato, diamond backed moth on cabbages, taro leaf
hopper, white fly on taro and other crops, army worm, pumpkin beetle, moths
on fruit trees, potato moths. When the insects are first seen spray a solution
of 5 grammes of Carbaryl in 4 litres of water, and repeat the spray when necessary.
Carbaryl is usually available as a wettable powder. It is also available
as granules and dusts. For control of scale insects mix with white oil (petroleum
oil).
16.13.4.8 Carbamates,
Methiocarb
See diagram 16.13.4.8: Methiocarb, mercaptodimethur,
4 methyl thio-3,5-xylyl methylcarbamate
It is a contact and stomach poison insecticide, acaracide and molluscicide.
Also it is a bird repellent. It is dangerous with long residual activity but
as no systemic action. Methiocarb is used mainly as snail bait and repellent
for snails and slugs. It also controls grasshoppers, mites and many insects.
16.13.5 Acaricides
These chemicals are used to kill red spider, mites and other 8-legged pests.
See diagram 16.13.5: Dicofol
1. Dicofol, C14H9Cl5O, contains chlorine.
It is a contact poison of mites only with long residual action, does not harm
insects, is fairly safe, is not systemic, but may burn eggplant (Aubergine)
and other fruit. There is a 7 days withholding period. Dicofol can control
mites on citrus trees and red spider mite on passion fruit, banana, cassava
and other crops, but Dimethoate is better. Highly inflammable, do not smoke
near it. Dicofol is available usually as E.C., it is also available as W.P.
and dusts.
2. Formaldehyde (formalin) can be used as a soil drench which prevents
damping off disease of seedlings. It will irritate eyes and nose.
3. Naled, see Insecticides
4. Dimethoate, see Insecticides
5. Sulfur, Wettable sulfur see Fungicides
6. Benomyl. see Fungicides
7. Methiocarb. see Insecticides
16.13.6 Benomyl
See diagram: 16.13.6: Benomyl
Benomyl, C14H18N4O3,
is a carbamate. A systemic poison, very safe to use on fruit, vegetables
and field crops but it may irritate the eyes and skin, good residual activity
in soil, 5 days withholding period. It can control powdery mildew on plants
in the pumpkin family, fungus diseases of tomato and pineapples, and is used
as an oil and water emulsion to control black leaf streak and other leaf spots
of banana. Sugarcane, pineapple and other planting material can be dipped
in it to control many different fungi. Benomyl can control many leaf spots,
vegetable rots and white mould diseases. However, there are some fungus diseases
it cannot control such as downy mildew and some fungi have developed resistance
to it so it should not be used too much. It will control mite eggs but not
adult mites and can kill some nematodes. It kills fish. It can stop fungi
reproducing. It can be made more active by adding surfactant. It should be
stored in a dry place. The container must be kept tightly closed especially
in tropical countries. Benomyl is available as a wettable powder (W.P.).
16.13.6.2 Bordeaux
mixture, CuSO4.3Cu(OH)2.3CaSO4
Bordeaux mixture is a mixture of copper (II) sulfate, calcium hydroxide,
or slaked lime. It is sometimes called "Bordo Mixture". It is a protective
fungicide which is safe unless eaten. The two chemicals are often bought separately
and mixed in a plastic bucket and used immediately. It may burn leaves and
metal and is hard to use properly. Bordeaux mixture can control rots, downy
mildew, leaf spots. It repels many insects. It can kill the eggs of mites.
copper (II) sulfate may be used by itself to control leaf spots and other
diseases.
16.13.6.3 Captan
See diagram: 16.13.6.3
Captan is ethanethiol or ethyl mecaptan. Captan contains chlorine and sulfur.
A protective fungicide, safe to use but may irritate the skin, used mainly
as a dust on seeds to prevent damping off disease, also used on vegetables
and other crops and as a dip for stored products, 1 day withholding period.
It is a good all purpose fungicide for controlling mildew and leaf spots and
damping off fungus on seeds. Captan can control root and stem rot of bean,
fungus diseases in carrots, peanut and sorghum, and leaf spot of yams. It
kills fish. Seed which has been dusted with it should not be eaten. Captan
is available as dusts and W.P. and in special soil fungicidal products. In
1989 Captan was phased out of general usage as a pesticide in USA.
16.13.6.4 Copper
oxychloride, ClCu2H3O3
Copper oxychloride is made from copper and chlorine. It is a protective
fungicide. It is safe to use. There should be a 1 day withholding period
before harvest. Copper oxychloride is a good fungicide for leaf diseases.
It can control downy mildew, leaf spots, leaf rot and other fungus diseases.
Copper oxychloride is available as wettable powder (W.P.) and dusts.
16.13.6.5 Chlorothalonil
See diagram 16.13.6.5: Chlorothalonil
Chlorothalonil, C8Cl4N2, contains chlorine.
It is a protective fungicide. It is safe but it makes some people sick. Its
effect lasts a long time. This is the best fungicide for fungus diseases of
tomato. Chlorothalonil can control leaf spots, powdery mildew, downy mildew
and other fungi on plants. It does not kill all soil fungi. It can kill fish.
Chlorothalonil is available as wettable powder (W.P.) and tablets.
16.13.10 Zineb
See diagram 16.13.10: Zineb
Zineb, C4H6N2S4Zn, contains
zinc. It is a protective fungicide. It is safe to use but it may cause skin
irritation. It may damage young seedlings. There should be a 7 days withholding
period before harvest of the sprayed crop. This is the best general purpose
fungicide. Zineb can control many vegetable fungus diseases including downy
mildew on plants of the pumpkin family, leaf spots and rust diseases. It
is available as a wettable powder (W.P.) and as dusts.
16.13.6.7 Metam
See diagram 16.13.10: Metam
Metam-Sodium is a carbamate salt containing sodium. It is used to kill
fungi, insects, nematode worms and weeds in the soil. It is fairly safe to
use but may irritate eyes and mouth.
16.13.6.8 Quintozene
See diagram 16.13.5: Quintozene
Quintozene, C6Cl5NO2, is a protective
fungicide for seed and soil. It is safe to use but may cause skin irritation.
It may burn young leaves. This can be used as a soil drench after planting
to control various fungus diseases such as damping off fungus and rots. It
is applied to soil before sowing or after sowing to treat both seeds and
soil. It can be used to treat soil at transplanting and treat seeds of cabbages.
Seeds that have been treated with it must not be eaten. It does not kill
many kinds of fungi. It cannot be used to control bacterial wilt. It is available
as dusts, granules, and pastes.
16.13.6.9 Sulfur
It is a non-metallic element and is used as "Wettable sulfur". It is a
fungicide and acaricide. It is very safe to use but it irritates the eyes
and skin. It may damage leaves of plants in the pumpkin family. There is
no withholding period. It can control mites on capsicums, citrus hibiscus
cabbage and tomato. Also it can control powdery mildew, downy mildew and
some rust diseases, but it is not effective for other fungus diseases. sulfur
is available as a dust, wettable powder and sulfur paste.
16.13.60 Lime
sulfur, CaSx
It contains calcium and sulfur. It is a fungicide, acaracide and insecticide
which is sprayed or dusted on plants. It can be dangerous to use and causes
skin irritation. It may burn leaves and metal. It can control many fungus
diseases such as leaf spots and powdery mildew and it can control red spider
and mite and scale insects. This is a hard spray to use properly. It may damage
plants in the pumpkin family. Lime sulfur is available as a solution or a
powder.
16.13.7.0 Herbicides, weedicides, pesticides
Always store keep these chemicals in their original containers! In many
countries it is against the law to decant them into bottles or other containers
that originally contained other substances, e.g. food or drink.
A herbicide is a substance used to destroy plants or to slow down their
growth. The formulation is the form in which the pesticide is supplied by
the manufacturer for use. The half-life is the time required for half the
amount of substance to be reduced by natural processes. The LC50 is the concentration
in air, water, or food which will kill 50% of the subjects, usually laboratory
rats. Mutagenicity is the ability to cause genetic changes. Non-target animals
or plants other than those that the pesticide is intended to kill. Persistence
is the tendency of a pesticide to remain active after it is applied. Residual
activity is the remaining amount of activity as a pesticide. Bees gathering
nectar and pollen may be directly exposed to pesticides or they may carry
contaminated pollen back to nests and hives and expose other bees to it. copper
(II) sulfate solution, dilute sulfuric acid and dinitro-o-cresol can each
kill some weeds without causing injury to crops.
S7 Poisons: Nemacur, Bifenthrin
S6 Poisons: Bromoxynil, Metaldehyde (100%), Hortico blackberry and tree
killer, Warfarin, Pindone, Propoxur, Diazinon, Dichlorvos
S5 Poisons: Ametryn, Dicamba, Pyrethrum, Pyrethrins, Baysol snail and slug bait, Yates Blitzem snail bait, Boric acid,
Unscheduled chemicals: White oil, Lime sulfur spray fungicide, Dipel HG bioinsecticide
16.13.7.1 Bifenox
See diagram 16.13.5: Bifenox
Bifenox, C14H9Cl2NO5, contains
chlorine. It is a contact poison. It is fairly safe but irritates the eyes.
It remains a long time in the soil.
16.13.7.2 Dalapon,
2,2-dichloropropionic acid, "Dowpon"
See diagram: 16.13.7.2: Dalapon
Dalapon Na is a selective poison which is taken in by the plant and moves
through it to kill all parts including the roots. It acts slowly over 2-3
weeks. It is safe to use but causes irritation to the eyes and skin of some
people. Dalapon can control most annual and perennial grasses. It will kill
every plant it touches. Dalapon is available as a water soluble powder.
16.13.7.3 Glyphosate
weed spray, N-(phosphonomethyl) glycine, “Roundup”, “Rodeo”, “Accord”, "Zero", S5 poison
See diagram: 16.13.7.3: Glyphosate
Commercial glyphosate products may contain inert ingredients, i.e. anything
added to the product other than an active ingredient, e.g. glyphosate 41%,
polyethoxylated tallow amine surfactant 15% and water 44%. It may contain
the contaminant N-nitrosoglyphosate (NNG). The registered use status is "General
Use". It can control many difficult weeds, e.g. nut grass, couch grass, Johnson
grass, paspalum, Kikuyu, blady grass,
Guinea grass and purslane. It is used in forestry and noxious weed control
to control grasses, herbaceous plants but not all broadleaf woody plants.
It is absorbed by leaves and prevents production of an essential amino acid
and inhibits plant growth. It is broken down by some plants to mainly aminomethylphosphonic
acid. Do not allow spray drift to contact desirable plants! It is safe to
operators and has no residual activity in the soil because glyphosate and
the surfactants used in commercial formulations are strongly adsorbed by the
soil. However it remains unchanged in the soil depending on soil texture and
organic matter content until soil micro-organisms break it down. Glyphosate
and the surfactant are not absorbed from the soil by plants. It may be harmful
to fish but it does not build up, bioaccumulate, in fish. It is usually non-toxic
to birds, mammals and bees. In tests in male and female rats, the acute oral
LD50 was 4320 mg / kg. It does not cause genetic damage or birth defects,
and no noticeable effect on fertility, reproduction, or development.
16.13.7.4 Paraquat
See diagram: 16.13.7.4: Paraquat
Paraquat is the trade name for N,N'-dimethyl-4,4'-bipyridinium chloride,
so it contains chlorine. It is a contact fast action poison.
PARAQUAT IS A VERY DANGEROUS CHEMICAL!
It can kill people if swallowed. It is not poisonous after touching the
clay in soils. There is no persistence in soil. There should be a 9 day withholding
period before harvest. It controls most broad leaf annual weeds and grasses.
It works best when weeds are 2-15 cm high. It is not very effective on perennials
with good root system. It kills water weeds. Keep livestock away when spraying.
Paraquat is available as water solution. Mix with water and immediately spray
on leaves.
Paraquat, Diquat and Cyperquat are quaternary ammonium herbicides related to cationic surfactants
that kill by contact with the plant foliage and cannot enter the plant via
its roots because they
are very strongly adsorbed onto clay and soil particles. They are used to
kill weeds between crops or just before a crop emerges. They are toxic to
humans.
16.13.7.5 MCPA, 4-Chloro-2-methylphenoxyacetic
acid, also called 2-Methyl-4-chlorophenoxyacetic acid (MCPA), S5 poison
See diagram 16.13.11: MCPA
Phenoxyacetic acids can mimic the natural auxin, plant hormone, indole
acetic acid and are were not destroyed by the plant. They can also be used
in setting unfertilized fruits and promoting root growth. When used in excess
they can be used as herbicides. For MCPA is used to kill dicotyledon weeds
in monocotyledon cereal crops. Equal amounts are absorbed by weeds and cereals
but the cereals remain unharmed because of the differences in their growing
shoot structure.
16.13.7.6 Herbicide
2,4-D, 2,4-dichlorophenoxy acetic acid
See diagram 16.13.11: 2,4-D
The phenoxyacetic acid herbicides 2,4-D and 2,4,5-T and its precursor
2,4,5-trichlorophenol (TCP)
The selective herbicide 2,4-D is toxic to broad leafed plants but less
harmful to grasses. This hormone weed killer 2,4-dichlorophenoxy acetic acid
is an aryloxyalkanoic acid known also as a "phenoxy herbicide", which includes
MCPA, mecoprop, triclopyr and 2,4,5-T. Their actions against weeds resembling
those of auxins (growth hormones). Absorbed 2,4-D is translocated within the
plant and accumulates at the growing points of roots and shoots where it
inhibits growth. The principal use is for the control of broad leaf weeds
in cereal crops, including wheat, maize, rice, sorghum, grassland and turf
areas. It is also widely used in mixtures with other herbicides to provide
weed control in forestry, orchards and non-crop areas, and for the control
of aquatic weeds. 2,4-D is a WHO Class II "moderately hazardous" pesticide,
in the same class as endosulfan, Lindane, paraquat and toxaphene. It has an
LD50 of 375 mg / kg in the rat with evidence
suggesting a similar level of toxicity in human. Occupational exposure
to 2,4-D has produced serious eye and skin irritation, nausea, weakness and
fatigue, and inflammation of nerve endings. The various chemical forms of
2,4-D can have different toxic effects. Orthocarboxylic acids, e.g. picloram
can behave in a similar manner and is more potent than 2,4-D.
16.13.11 Herbicide
2,4,5-T, 2,4,5-trichlorophenoxyacetic acid
See diagram 16.13.11: 2,4,5-T | See 16.14.0: Dioxins
It was used to kill noxious weeds, e.g. privet and blackberry. At first
it caused birth defects in animals and chloracne rash in workers due to a
dioxin impurity TCDD (2,3,7,8-Tetrachlorodibenzo-p-dioxin) but this impurity
can be controlled to an acceptable limit. Production of 2,4,5-T was contaminated
with the carcinogenic dioxin TCDD. Agent Orange was used first by the UK military
in Malaysia and later by the US military to defoliate jungle regions in Vietnam.
Abnormal foetal skeletal development, increased foetal mortality and other
reproductive effects may be associated with exposure to phenoxy-acid herbicide
and their dioxin contaminants. 2,4-D has low soil absorption and a high potential
for leachability and 2,4-D residues have been recorded in groundwater and
surface water. Some formulations of 2,4-D are highly toxic to fish. 2,4,5-T,
2,4,5-Trichlorophenoxyacetic acid, "Weedone", Acetic acid (2,4,5-trichlorophenoxy)-555,
C8H5Cl3O3. This herbicide was
formerly used for industrial sites, lumber yards and vacant lots, range land
and rice, lawns and turf, aquatic use, home use, recreation areas, food crops
for humans. 2,4,5-T is used post emergence alone or with 2,4-d for the control
of shrubs and trees. It is also used for girdling, injection or cut stump
treatment. It has been used as a growth regulator to increase size of citrus
fruits and reduce excessive drop of deciduous fruit. The use of 2,4,5-T in
the United States has been cancelled since 1985. control in lakes and ponds
at 22-45 kg / ha, and along ditches and irrigation networks. It is odourless
but is an irritant to eyes, nose, and throat. The persistence of 2,4,5-T
does not exceed one full growing season. Biodegradation of 2,4,5-T to 2,4,5-trichlorophenol
appears to be the dominant removal mechanisms. 2,4,5-T is was one of the
most rapidly decomposed herbicides. 2,4,5-T has been qualitatively identified
in drinking water.
16.13.8 Insect
repellents
See diagram 16.13.8: Deet, DMP
Natural insect repellents contained strong smelling oils, e.g. citronella,
that repel insects after contact with the repellent. The most effective insect
repellents is deet, NN-diethyl-m-toluamide. Also, DMP, dimethylphthalate,
is an effective mosquito repellent but it dissolves the plastic in “watch
glass” and spectacles. Other effective repellents are “E-Hex”, ethyl hexanediol,
and “Indalone”, butyl 3,4-dihydro-2,2-dimethyl-4-oxo-2H-pyran-6-carboxylate!
The best repellent for bush flies and sand flies is di-n-propyl isosinchomeronate
with the addition of the pyrethrum synergist N-octyl bicycloheptenedicarboximide,
NN diethyltoluamide, di-N-propyl isocinchomeronate. n attractant for pantry
moth is "biolure" (2,E)-9, 12-tetradien-1-yl acetate.
Java oil contains geraniol and citronellal.
16.13.8.2 Nematode pests
Bulb and stem nematode Ditylenchus dipsaci bulbs, e.g. daffodil,
onion
Leaf nematodes in the buds Aphelenchoides sp. blackcurrant, strawberry
16.13.8.4 Integrated pest
management (IPM)
Teachers should adopt an IPM approach to the control of pests on school
farms.
IPM is a process of selecting a range of control strategies and using them
jointly in the removal of agricultural pests, or in reducing their presence
to an acceptable level.
Pest control methods that do not rely on the use of chemicals include the
following:
1. Physical or mechanical control, e.g. hand picking, fly swats, mouse
traps, fly screens, using light traps, using ultrasound, the hand chipping
of weeds
2. Cultural or managerial control, e.g. farm hygiene, crop rotation, companion
planting, adjusting the time of planting and harvest, the use of sealed storage
containers
3. Genetic control, e.g. the use of plants that are resistant to the pest
4. Exclusion, e.g. the erection of fences to keep out rabbits, the isolation
of sick animals from a healthy herd or flock, the careful inspection of animals
before allowing them entry to a school farm
5. Biological control, i.e. the use of other living organisms to reduce
the activities of pests, e.g. the control of the cabbage white butterfly
with the bacterium Bacillus thuringiensis.
16.13.8.5 Chemical pesticides,
poisons
1. S7 Poisons, "Dangerous poison, highly toxic". Not to be taken. Keep
out of reach of children. Must be stored in a locked poisons cupboard. Apply
the chemical strictly in accordance with the manufacturer's instructions given
on the label, product instruction sheet and the MSDS. Use MSDS to determine
the Dangerous Goods Packing Group. Use chemical eye protection goggles eye
and skin protection when splashes can occur or when spraying. e.g. Bayer Nemacur,
Bifenthrin.
2. S6 Poisons "Poison, moderately toxic". Not to be taken. Keep out of
reach of children. Must be stored in a locked poisons cupboard. Apply the
chemical strictly in accordance with the manufacturer's instructions given
on the label, product instruction sheet and the MSDS. Use MSDS to determine
the Dangerous Goods Packing Group. Use chemical eye protection goggles eye
and skin protection when splashes can occur or when spraying. e.g. Bromoxynil,
Diazinon, Dichlorvos, Hortico blackberry and tree killer, Metaldehyde (100%.),
Pindone, Propoxur, Warfarin.
3. S5 Poisons, "Caution, low toxicity". Apply the chemical strictly in
accordance with the manufacturer's instructions given on the label, product
instruction sheet and the MSDS. Use MSDS to determine whether the pesticide
is a hazardous substance and / or a dangerous good. Use eye and skin protection
when splashes can occur. e.g. Ametryn, Baysol snail & slug bait, Boric
acid, Dicamba, MCPA, Pyrethrum, Pyrethrins, Yates Blitzem (snail bait), Zero
weed spray (glyphosate).
4. Unscheduled chemicals, "very low toxicity". Use in accordance with the
safety instructions on the label. e.g. Lime sulfur spray fungicide, Dipel
H G Bio-insectide, white oil.