School Science Lessons
Cocoa Project
Updated: 2008-07-17
Please send comments to: J.Elfick@uq.edu.au
See also:
Interesting websites
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. If you cannot control insects by hand-picking,
ask the Ministry of Agriculture to recommend a chemical spray. All
insect
sprays are dangerous. Show the students how to use them safely. Do not
get the spray onto your hands. Do not breathe in the spray. Wash your
hands
well after using spray. Keep the spray container in a safe place where
students cannot get it. Spray on a day of no wind but if you must spray
when there is a wind, spray down wind. Make sure the spray does not
blow
on other people.
Cocoa project
See also: Cocoa, World Cocoa Foundation
1.0 Introduction to the cocoa project
2.0 Where cocoa will grow
3.0 Parts of the cocoa tree
4.0. The leaf
5.0. The flower
6.0 Seed in the pod
7.0 Pollination and fertilization
8.0 Cocoa pod
9.0 Seeds
10.0 Making a seed bed
11.0 Choosing seeds and planting
12.0 Varieties of cocoa
13.0 Soils for cocoa
14.0 Prepare land for cocoa
15.0 Planting cocoa shade
16.0 Transplanting cocoa
17.0 Mulching and weeding cocoa
18.0 Pruning the cocoa tree
19.0 Fertilizers for cocoa
20.0 Harvesting pods
21.0 Fermenting
22.0 Drying, bagging and shipping
23.0 Pests and diseases
25.0 Returns, costs and profits
26.0 Chocolate
23.0
Pests and diseases
23.1.1 Cocoa capsid bugs, Helopeltis,
Distantiella
23.1.2 Cocoa weevil borer, Pantorhytes
23.1.3 Amblypelta cocophaga
23.1.4 Termites
23.1.5 Longicorn beetles, Glenea
lefebueri
23.1.6 Giant African snail, Achatina
fulica
23.1.7 Rats
23.1.8 List of insect pests of
Cocoa
in Solomon Islands
23.1.9 Insect pests of cocoa in
Papua New Guinea
23.1.10 Insect pest control
methods
23.2.1 Black pod disease, Phytophthora
palmivora
23.2.2 Bark Canker, Ceratocystis
fimbriata
23.2.3 Dieback, Vascular streak
dieback virus
23.2.4 Pink Disease, Botryobasidium
salmonicolor
23.2.5 Thread Blight, Corticium
incisum
1.0 Introduction to the cocoa project
See diagram 55.1: Weeding the cocoa project
1. Cocoa is a cash crop. Cocoa growing can be profitable if the right
kind of cocoa is grown, it is properly raised in a seed bed, it is
planted
properly under enough shade and in the right kind of soil, it is cared
for properly as it grows including proper pruning, weeding, mulching,
fertilizing
and protection from diseases and pests, and it is harvested and
processed
properly. Cocoa is produced in tropical countries, but is processed and
consumed in temperate countries.
2. Cocoa is an understorey species from on the equatorial slopes of
the Andes Mountains in South America but is now cultivated widely. Two
thirds of the world's production comes from West Africa and one third
from
Brazil and Dominican Republic. Cocoa has about 20 subspecies and
cultivars
are named according to the place where they were found or developed.
The
Criollo types have elongated, ridged, pointed fruits and white
cotyledons.
The Forastero types have with short, roundish, almost smooth fruits and
purple cotyledons (2n = 20). It is classified in the plant family
Sterculiaceae
and has the botanical name "Theobroma cacao L". Some botanical
names
have
"L" after them to show that they were named by the famous Swedish
botanist
Linnaeus (1707 - 1778). He believed that the ancient Aztecs of South
America
thought that the cocoa drink was a "drink of the gods", in Latin "theo
broma". Mexicans named the pounded seeds "chocolate". Cocoa is now
grown
in many hot wetlands including the Pacific Islands, but it needs a
rich
deep soil so this tree cannot be grown on the coral atolls.
3. The seeds of cocoa called cocoa "beans" are used to make chocolate.
Fermented seeds are roasted, cracked and ground to give a powdery
mass. Fat is taken out to make cocoa. Cocoa has many uses including
folk medicine. The seed contains energy, protein, fat, Ca, Mg, P, Fe,
carotene,
thiamine, riboflavin, niacin, and ascorbic acid. Chocolate is
particularly
high in phenylethylamine and contains more than 300 volatile compounds
and theobromine, a stimulant related to caffeine (Theobromine does not
contain bromine!). It contains some caffeine, in milligrams:
Cup: expresso coffee 310 mg, boiled coffee 100 mg, instant coffee 65
mg, tea 10 to 50 mg, cocoa 13 mg
Can: Coca Cola, 20 mg, Can (6 oz.) Pepsi Cola: 10 mg.
2.0 Where cocoa will grow
1. Cocoa needs rich, organic, well drained, moist, deep soils. Shallow
soils are not suitable. It will not grow well on waterlogged soils,
shallow
stony soils, or soils with a hard stony layer near the surface. Also
cocoa
will not grow on coral soils, so it cannot be grown on atoll islands.
2. Cocoa trees do not like wind or drought and need high humidity and
high rainfall, 1,250 to 3,000 mm per year. The rainfall must be well
distributed
and any dry period should be no longer than 3 months. Annual rainfall
greater
than 2,500 mm may result in a higher incidence of fungal
diseases. It requires annual temperature of 18.0oC to 28.5oC,
with uniformly high temperatures mean of 26.6oC, diurnal
temperature
variation between 33.5oC and 18oC. It can be
grown
from 20 N to 20 S usually below 300 m above sea level. It must also
have
a high rainfall. It is very important also that the air should be moist
or humid. Cocoa can live through a dry time with no rain if the soil it
grows in holds water well, and the air is not too dry. If cocoa trees
are
grown among shade trees, these will help to keep the air moist.
3. Before they can be sold, the cocoa beans must be fermented in a
special way. It is good if the cocoa is grown in a place close to a
cocoa
fermentary, so the beans can be processed. If this is not possible, the
grower can make a small fermenting box.
4. Survey your locality are for cocoa growing. Is the local temperature
hot enough? Is there enough rain in the local area? What is the
rainfall
in mm. per year? Is the air moist enough for cocoa? Is any cocoa grown
in the district? Have they seen cocoa growing? Is a cocoa fermentary
near
the school? Can cocoa beans be taken to a ship for sending it to other
countries? Is this is a good place for growing cocoa? Could you use any
of the soils near the school? Can cocoa be grown near the school?
3.0 Parts of the cocoa tree
See diagram 55.3: Parts of the cocoa tree
1. The tree is 4 to 8 m tall. At 1 to 1.5 m the terminal bud breaks
into 3 to 5 meristems to give upright shoots. It has spreading
branches,
stipules 5 to 14 mm long, large green leaves with petioles. The ovary
has
5 carpels. The fruit is a drupe but is called a pod. The pod does not
open,
indehiscent, and stays on the tree. Pods vary in size and shape, being
10 to 32 cm long, spherical to cylindrical, pointed or blunt, smooth or
warty, with or without 5 or 10 furrows, colour white or green or red,
ripening
to green or yellow or red or purple. The pod has 20 to 60 seeds
arranged
in 5 rows, variable in size, 2 to 4 cm long, ovoid or elliptic shape
and
625 to 1125 seeds per kg. The roots are mostly surface feeding with tap
root
penetrating to 2 m in friable soil
2. Go to where cocoa trees are growing. How high is the tree? Has it
got a big canopy of leaves? Does the canopy of leaves have a mostly
level
base? Is the tree growing in a shady place? How much of the tree is in
sunlight? How thick is the tree trunk at the base? Are there any water
suckers called chupons growing from the trunk? The trunk branches into
several of smaller branches called the fan. Go up close to the trunk
and
look for flowers. The clusters of flowers grow out from small cushions
on the side of the trunk. Pick a large leaf. What colour is it? How
long
is it? What is its shape and size? After the flowers have formed, a
small
pod grows. The pod grows larger until it is ripe. Measure the length
and
width of a big pod. Open one pod to see the seeds, called "beans",
inside.
Estimate how much shade and full sun on the tree. Measure the thickness
of the trunk and the height of the fan above the ground. Look very
closely
at a flower and describe it. Look at the places where the flowers grow
out from the trunk at a small swelling called the cushion. Pick a leaf.
Pick a ripe pod and open it to see inside.
4.0 The leaf
1. Observe the length and breadth of a leaf. Describe the shape of
the leaf and the colour of the leaf. Young leaves may have a reddish or
yellowish colour. The colour of leaves at the top of the tree is often
different from colour of leaves growing low down on a tree. Note the
difference
between the colour of young and old leaves. Most cocoa leaves ends in a
sharp point called the "drip tip". Measure the length and thickness of
the leaf stalk, petiole. Note whether the leaves are held out sideways
or hang down.
5.0 The flower
See diagram 55.5: Flowers
The flowers are formed in groups that grow out from small cushions
on the main trunk and older branches that have no leaves. At first the
flowers are small buds. Later they open. The opened flower has five
long
pink sepals joined at their bases, but the upper parts are long and
pointed.
The five yellowish petals have a most unusual shape. The base of the
petal
is very narrow. Then it widens to form a hollow sac like pouch. At the
top of this part is a long narrow extension bent backwards and ends in
a broad flattened tip. The male parts of the flower are in two groups.
An outer row of five staminodes are sterile male parts that make no
pollen.
These long pointed staminodes point straight up out of the middle of
the
flower. An inner row of five stamens has an unusual shape. The stalk or
filament that carries the anthers is bent over so that the male anthers
are carried inside the hollow sac part of the five petals. The female
parts
of the flower consist of an ovary with five divisions. Each division or
carpel has a long style or stalk, but the five styles are all joined at
their base. At the top of the style five separate lobes, stigmas,
receive
the pollen.
1. Find the cushions from which the flowers grow.
2. Pick up a few flowers that fall off and do not develop.
3. Take off the 5 sepals.
4. Remove one petal.
5. Remove the five staminodes.
6. Look for the stamens. They are very small.
7. Look carefully on the ground under a tree and count the number of
fallen flowers.
6.0 Seed in the pod
See diagram 55.6: Pod
Cocoa trees only start to bear fruit when they are 4 or 5 years old.
Open a ripe fruit is by hitting it on the outside with a piece of stiff
wood. Once a young fruit is 3 months old, it will usually stay on the
tree
and grow properly. It usually takes about 6 months for a fruit or pod
to
be ripe. The pod is ripe when the beans are loose and the pod will
rattle
when shaken.
When the fruit is opened, these are the parts that can be seen:
1. On the outside is the thick coat or husk. This coat may have deep
grooves in it or shallow grooves. It may also have a lumpy surface with
a warty appearance. It may be soft or hard and woody.
2. The large seeds or "beans" are in the centre of the pod. Each pod
may have 20 to 60 seeds in it.
3. All around the seeds and between the seeds and the outside husk
is a mass of white or pink soft pulp.
4. The pod has a strong stalk.
5. The pods may be up to one foot or 30 cm long and may be four inches
or 10 cm wide.
6. The shape of the pods depends on the variety grown. Most cocoa trees
are of the Forastero or Amelonado types, and these have short pods with
a blunt end. The surface of the husk is not deeply grooved and is
smooth
- not warty. These pods are usually a
yellow colour. Cocoa trees of the Criollo type are long and deeply
grooved and form a point at the end. They are usually reddish in
colour.
Other shapes and colours of pods may be found in trees that are hybrids
or crosses between different types of cocoa trees. The water shoots are
called chupons. The flower has 5 sepals and 5 yellow petals. The long
sterile
male parts that make no pollen are called staminodes. The female ovary
has 5 parts.
7.0 Pollination and fertilization
1. Flowers arise from cushions in the wood of the main stem and fan
branches that is at least 2-3 years old. Only 1-5% of flowers
are
successfully
pollinated and form pods. Pollinating insects are mainly tiny midges,
e.g.
Forcipomyia, and other small insects that require cool, dark, moist
habitats
and breed in rotting vegetation. When the male pollen is taken to the
female
stigmas by midges, the flower is pollinated. When the pollen grains
grow
down into the ovary, it will be fertilized. Only about one flower in
500
becomes a fruit. Many fertilized flowers drop off the tree. Even when a
flower turns into a fruit, young fruits often shrivel up and drop off
the
tree when only 7 or 8 weeks old. A bad time or lack of plant food may
cause
this. Although only a few flowers are pollinated, the tree sets too
many
fruit to carry to maturity. Cocoa has a fruit thinning mechanism where
the young fruit, called cherelles, stop growing, turn black and shrivel
but do not fall off the tree. This is called cherelle wilt but it is
not
a disease - it is natural. The remaining pods take 5-6 months to ripen
after pollination. Ripe pods also do not open by themselves or fall off
the tree.
8.0 Cocoa pod
See diagram 55.6: Cocoa pod
1. There are many ways of telling if the pod is ripe. The beans will
be loose inside a ripe pod and will rattle if you shake the pod. If the
pod is ripe, the gum of the seeds will be slippery and it will taste
sweet.
If the gum around the seeds i, dry and if the seeds do not fail apart,
the pod is not ripe.
2. Describe the outside of the pod. Is it grooved or smooth?
Is the surface lumpy or warty? What colour is it? What type of cocoa is
it likely to be?
3. Open the pod by hitting it with a strong stick. Use a sharp knife
to cut cleanly across the wall of the pod and the soft pulp.
4. Scoop out all the seeds from the pod. Count the number of seeds.
5. All the seeds are joined to a long white
part running down the centre of the pod.
9.0 Seeds
See diagram 55.9: Cocoa seed and its parts
Study some seeds and note the following:
1. Where the seed was broken
off from the central white part, it leaves a small mark on the outside
of the seed. This is very important because when a seed is planted this
mark must be placed downwards in the seed bed or seed tin.
2. When the
seed or "bean" is cut open the following parts can be seen:
2.1 The
seed
has a tough seed coat or testa.
2.2 The outer part of the seed coat is
the soft pulp surrounding the seed.
2.3 The small plant or embryo (or
"germ") is at one end of the seed.
2.4 The main part of the seed
consists
of the two seed leaves or "cotyledons" where the starchy food is
stored.
2.5 A small mark on the outside of the seed coat shows it was once
joined
to the central white part of the pod.
3. Use a knife to cut the seed on
the
flat, not across them, then look for the embryo, small plant. Note the
seed leaves, cotyledons, where the food is stored. Note the colour and
thickness of the seed coat or testa.
4. The seeds are self-incompatible
and
are cross pollinated by midges. The pods contain up to 50 seeds
surrounded
by juicy sweet pulp. In nature the seeds are distributed by animals,
usually
monkeys. The seeds are rich in fat, called chocolate butter and contain
alkaloids, e.g. theobromine giving them a bitter taste.
5. Germination
occurs
best in dim light. The seeds have limited viability and no dormancy. A
tree bears pods at 4 or 5 years. A pod has 20 to 60 seeds (beans). The
average pod is 30 cm long. Amelonado or Forastero varieties have short
pods with no pointed ends. Criollo cocoas have yellow or red pods, with
rough surface and deep grooves. Amelonado cocoa pod is smoother and
rounder
and the seeds have dark purple seed leaves. Trinitario pods have many
shapes.
A pod takes 6 months to be fully grown and ripe? Plant a cocoa seed
with
the small mark downwards. The small plant inside a bean is the embryo.
The outside coat of a seed is the testa. A Criollo pod is red or
yellow.
An Amelonado pod is yellow.
10.0 Making a seed bed
See diagram 55.10: Seed bed for cocoa
1. The seedlings must have shade so build a small roofed shelter over
the place where you will plant the seeds.
2. The seedlings need good soil. Get some good dark soil and break
up the lumps until it is fine and loose. Then mix a little manure with
it. Spread this soil over the soil in the seed bed area, and place the
seeds into it. Also, you can put the soil into jam tins or pieces of
bamboo
or plastic bags with holes in them near the bottom.
3. Keep the seedlings wet. They must be watered every day.
4. Do not allow weeds to grow near the seedlings. If insects come to
eat the leaves of the seedlings, they must be killed.
11.0 Choosing seeds and planting
See diagram: 55.10 Nursery | See diagram 55.11: Right and wrong ways of
harvesting
pods
1. Propagation may be by cuttings, buddings or graftings, but seeding
is cheaper. Seeds germinate at maturity, and are viable only a short
time.
They may be stored 10 to 13 weeks if moisture content is kept at 50%.
Soon
after picking, pulp is removed from seeds that are then planted in
shaded
nursery beds or baskets. Collect seed from ripe pods and plant
immediately.
At least 90% should germinate within 2 weeks. Hybrid seeds are
available
but the plants can be highly variable in growth and performance
Planting
of seed direct to the field is not practised due to lack of irrigation
and problems with weed and pest management.
2. Choose a pod of the right variety from a high bearing tree. Chose
only an Amelonado pod of large size from a high bearing tree.
3. The pod must be ripe and healthy. A ripe pod will have loose seeds
inside when shook. Use a knife to cut off the pod leaving some stalk on
the tree. Never pull the pod from the tree because you may pull off the
cushion and then it cannot make any more flowers.
4. Select only the best seeds for planting. Open the ripe pod by
hitting
it with a stick. Do not use a knife because it might cut the seeds.
Discard
the small seeds at each end of the pod. Use only the big seeds in the
middle
of the pod used for planting.
5. Sow the large seeds soon after they are taken from the pod. Do not
keep the pod for more than a week because the embryo will die.
6. Hold the seeds by the flat sides and with the small scar pointing
downwards. Push the seed down into the moist soil until it is just
covered.
Do not push the seed in too deeply or it will not grow well.
7. If the seeds are planted in the soil and not in tins, plant them
in rows 25 cm apart. Leave a space of 25 cm between the seeds in a row.
8. Water the seeds after planting.
12.0 Kinds of Cocoa
See diagram 55.12: Three groups of cocoa
varieties:
Criollo, Forastero Trinitario
1. Plant only the best varieties of cocoa. Most of the common cocoa
varieties cross or breed with one another so there are many cocoa
varieties.
The two main groups of cocoa varieties are the Criollo and Forastero
cocoas.
2. The Criollo cocoas have yellow or red ripe pods and the pods have
deep grooves on the outside and the surface of the pods is rough or
warty.
The ends of the pods are pointed. The seeds or beans are large and
rounded
with white or pale violet seed leaves. These cocoas have a much better
taste than other cocoas, but are not common.
3. Forastero cocoas are the most common. The pods are not as deeply
grooved as the Criollo cocoas and may even be smooth. The ripe pods are
green or yellow, and the wall of the pod is very thick and woody. The
pods
are also shorter and more rounded. The two groups of Forastero cocoas
are
the Amelonado cocoas with yellow pods with flat seeds that have deep
purple
seed leaves inside and the Trinitario cocoas, probably crosses between
Criollo and Forastero cocoas because the pods look like Criollo and
Forastero
types.
4. The best varieties to grow are the Amelonado cocoas because they
are hardy, more vigorous, and yield well.
13.0 Soils for Cocoa
See diagram 55.13: A good soil and 3 bad soils
for
cocoa
1. Cocoa is grown on a wide range of soil types but soils with moderate
to high fertility are favoured since fertilizer inputs under
traditional
production systems are low. The best soils for cocoa are soft loose
deep
soils with good structure, e.g. clay loam. Soils. The main needs
are a free draining soil with good moisture holding capacity and pH
range
from 4.5 to 7.0 preferably close to 6.5.
2. The soil should be at least 1.5 metres deep. Shallow soils do not
give cocoa enough root room. If the soil has been dug often to a
certain
level, the soil under where they have been digging will be hard and
form
a soil pan. This will restrict the roots of cocoa and cause a swampy
soil
with the water repeated digging to the same level just below the
surface.
If the water table is close to the surface the roots have no room to
grow
in this soil - the trees have no "root room".
3. Dig a hole in a place where cocoa is growing to see if it is loose
and deep
14.0 Prepare cocoa land
See diagram 55.13: Plan of a small plantation
for
40 cocoa trees | See
also 6.9.14:
Composting
1. Choose a suitable piece of land. The soil must be good enough for
cocoas. The area must be big enough for the school project.
2. Prepare the land to be ready for planting the seedlings.
If about 60 cocoa seeds or beans are planted at least 50 will germinate
and grow. Discard the 10 weakest seedlings leaving 40 cocoa seedlings.
Plant the cocoa seedlings 3 m apart each way. So the piece of land must
be 15 metres wide and 18 metres long. Put stakes in the soil at each
planting
place.
3. Clear the land by cutting down grass and bushes and leaving them
on the soil to keep the soil moist.
4. Provide some shade for the young cocoa seedlings with coconuts
about 9 m feet apart or shade trees, e.g. Leucaena (Lusina). They are
fast
growing legumes that put nitrogen into the soil and giving shade
15.0 Planting cocoa shade
See diagram 55.15: Planting cocoa and Ikofala
ants nests made out of leaves
1. Shade may be remnant forest, interplanting with species that provide
a commercial return, e.g. bananas or coconuts or shade trees selected
on
basis of amount of nitrogen fixed if a legume, fuel wood produced,
suppresses
weeds, and grows well with cocoa. Shade trees include species of
Albizia,
Erythrina, Gliricida, Inga, Leucaena, Musanga, Peltophorum. Ask an
officer
of the Department of Agriculture to recommend supply of shade trees.
2. Dig trenches one metre long in between the cocoa, or plant Leucaena
seeds in strips or one metre long between cocoa planting places. Mark
out
strips of soil one metre long between the stakes where cocoa seedlings
will be planted.
3. Into each of these strips spread about 20 Leucaena seeds and cover
them up with 3 cm soil. Weed the strip each week. When about 1.3 m
high,
pull out the smaller shade plants leaving the 3. biggest at each strip.
When the shade trees are 2 m high, the cocoa seedlings can be planted.
4. Look in small trees for Ikofala ants nests made houses out of
leaves.
These ants help to keep pests away from cocoa. Put wooden stakes at
each
of the 40 planting positions.
5. Cocoa grows well if it has part shade at first but as the tree
grows,
some shade trees are removed. Seedling cacao does best with only 25%
full
sunlight, saplings with closer to 50%. Cut the stem of Leucaena
shade
trees
just below the soil surface. Cocoa can be grown without any shade, but
the trees do not grow well and much fertilizer must be used. Shade
removal
is possible after 3 to 4 years but in many situations windbreaks will
be
beneficial or necessary.
16.0 Transplanting cocoa
See diagram 55.16: Dig a hole for cocoa a month
before
planting
1. Transplant 3 to 6 months after planting when about 0.6 m tall into
shaded fields at 2.4 m x 2.4 m or 3.6 m x 3.6 m. Use stakes to mark the
positions where the cocoa will be planted. Planting density may range
from
800 to 3,000 trees / ha with about 1,200 trees / ha common in under
permanent
shade.
2. One month before planting, dig a hole 30 cm wide and 45 cm deep.
Keep the dug out topsoil separate from the subsoil.
3. Just before planting, replace the subsoil in the bottom of the hole
and replace the topsoil for the planting of the seedlings.
4. When the seedlings are about six months old, take them out of the
nursery seed beds or gradually take away the shade cover so that the
seedlings
get used to the sun. Discard weak seedlings. They should not be used
for
planting.
5. Transplant the cocoa seedlings during the start of the wet season
or at a time of rain.
6. Use a spade to dig up seedlings from the seed beds and keep a ball
of earth around the roots. If the seedlings were raised in tins or pots
or bags, remove carefully to keep the earth around the roots. Turn the
seedling in a tin upside down and tap the edge of the sharply on
something
hard.
7. Plant the seedlings into a hole in the topsoil then put soil around
the seedling level with the soil surface. Then water the
seedling.
17.0 Mulching and weeding cocoa
See diagram 55.17: Mulch
1. A mulch is any light loose covering laid on the surface of the soil.
The commonest mulch is made of dead weeds, but any kind of plant
rubbish
can be used.
A mulch helps plants on the following ways:
1. helps to keep
the
surface of the soil moist and cool. In cold weather it keeps the soil
warm,
2. protects the soil and stops heavy rain washing away the
topsoil,
3. helps to keep sun off the weeds and stops their growing,
4. keeps the surface of the topsoil soft and moist,
5. contains some nutrients, plant foods, which can be washed down into
the
soil.
However, in a dry climate with only occasional light rain, too much
mulch may absorb all the rainfall so that no moisture reaches the plant
roots.
2. To make a mulch, clear a one metre circle around each cocoa
seedling
then cover the ground with mulch 10 cm thick. Leave a small clear space
of the bare soil around the seedlings so that the mulch does not touch
the seedling. The clear space helps to stop the attack of pests. As the
tree grows bigger, widen the area covered by mulch until all the soil
is
covered. Do not use pieces of wood or sticks as mulch because they take
too long to rot down.
Weed 3 to 4 times in the year during the establishment phase before
the canopy closes by manual slashing along the tree rows or around
young
plants. Also, use herbicides, e.g. "Gramoxone" and "Roundup". For the
efficient
application of herbicides, plant the cocoa trees in lines. When cocoa
is
mature and a complete canopy is formed, heavy shading and leaf mulch
inhibit
weed growth so only a few woody weeds must be removed. However, breaks
in the canopy or equipment access paths allow weeds to grow again.
18.0 Pruning the cocoa tree
See diagram 55.18: Pruning
1. As the cocoa seedling grows it has to be pruned so it will grow
into the right shape for cocoa and to limit tree height for easy
harvesting.
The young tree forms a straight main stem about 1 to 1.5 metres high.
It
then branches into 3 to 5 main fan branches, called the first
jorquette.
The tree then makes two kinds of branches: 1. Fan branches with leaves
growing flat along both sides of the stem. 2. Sucker branches called
chupons
with leaves growing all the way around the stem.
2. When the first fan branches have formed then chupon branches will
grow. If chupons are left on the tree, it will grow into a bad shape
with
two or three fans, one above the other. So cut off all the chupons as
soon
as they are seen to prevent subsequent jorquettes and restrict further
vertical growth. 3. Also prune fan branches to maintain evenness in the
structure, dead or diseased branches or any branches that hang down
low.
Otherwise, never prune fan branches. Remove floral buds until trees are
5 years old.
4. Use a sharp knife, secateurs or pruning saw and cut close to the
main stem to prevent the chupons growing again. If the pruning cut is
large,
paint it over with tar or creosote or another chemical to kill fungi.
Apparently
pruning itself does not promote high yields.
19.0 Fertilizing cocoa
See diagram 55.19: Drip circle for cocoa
About 200 kg N, 25 kg P, 300 kg K, and 140 kg Ca are needed per ha
to
grow the trees before pod production. For each 1,000 kg of dry beans
harvested, about 20 kg N, 4 kg P, and 10 kg K are removed if the pod
husks
are also removed from the field, the K removed increases to about 50
kg.
You can use soil and leaf analyses to find the nutritional needs
of cocoa. Leaf analyses are not accurate due to the difficulty in
sampling
leaves of the same age and the influence of shading on the nutrient
composition
of leaves. Some experts can use visual symptoms of mineral deficiencies
to recommend use of fertilizers.
Ask an agriculture officer which fertilizers should be used.
Some
common
fertilizers:
Urea: This has much nitrogen in it (46%), but it makes the soil
a bit
sour (acid) and some nitrogen may be lost into the air
Sulfate of ammonia: This has nitrogen (21%) and sulfur
(24%) in it.
Do not use this on an acid soil because it makes the soil more acid.
Calcium ammonium nitrate: This has 20% of nitrogen in it, but
it also
has calcium. Use it on acid soils.
Superphosphate has phosphorus nutrient in it, but it also has calcium
and sulfur.
Triple superphosphate has much more phosphorus in it, but it is much
more expensive to buy.
Muriate of potash contains 60% potassium oxide but is
expensive.
Sulfate of potash contains potassium and sulfur.
Limestone or lime is only used when soils are very acid and do not
have enough calcium.
Magnesium sulfate contains magnesium and sulfur.
Trace element fertilizers give the soil very small amounts of some
elements. Some of these fertilizers give the soil iron, or copper, or
manganese,
or molybdenum.
If a soil needs just one plant food, use a single fertilizer. However
you can mix single fertilizers for several nutrients.
1. When applying fertilizers, first take away all weeds growing near
the trees. If a mulch has been used, rake this away and leave the soil
bare.
2. Sprinkle the fertilizer evenly in a wide ring around the tree,
but do not put any of it close to the tree trunk. Sprinkle fertilizer
right
out as far as drips of rain fall down from the leaves. This is called
the
drip circle.
3. Rake the mulch back on top of the fertilizer. Leave a clear space
close to the base of the tree.
20.0 Harvesting pods
See diagram 55.11: Harvesting
1. The cocoa harvest can be spread over several months. Although pods
may be available for harvest throughout the year usually one or two
peak
harvest periods are used depending on flowering in response to
rainfall.
2. Ripe pods turn from green or deep red to yellow or orange. Only
the ripe pods are harvested but they can be left on the tree for 2 to 3
weeks. Also, under ripe pods can be fermented. Pod left too long on the
tree will rot and the beans may germinate inside the pod.
3. Harvesting is by hand using machetes or knives to cut pods from
the tree. Pulling the pods from the tree can damage the flower cushion
and tear the bark.
After harvest, the pods are opened and the beans scooped out by hand.
This can be done immediately or delayed for a few days. The plant
placenta
joining the beans inside the pod should be separated from the wet beans
before fermentation.
4. After about two years trees will start to make flowers and fruit.
Although fruits mature throughout the year, usually only two harvests
are
made, e.g. in the Pacific Islands the ripe pods should be harvested
every
two weeks between April and September and every four weeks from
September
to March. From fertilization to harvesting the fruit requires 5 to 6
months.
Harvest season lasts about 5 months. Cut the pods from trees and store
on the ground. Crack the pods and remove the beans. Burn the husks.
Production
varies from 29 kg / ha to 2,000 kg / ha, 0.5 to 10 kg / tree.
21.0 Fermenting
See diagram: 55.21 Fermenting
1. Fermentation develops chocolate flavour that develops further during
roasting of the beans. Also, fermentation allows easy extraction of
beans
from the pod. The wet beans are taken out of the pods then heaped to
allow
them to increase temperature due to exothermic chemical reactions in
the
pulp caused by the fermentation micro-organisms. At first the sticky
mucilage
around the beans breaks down drains off as "sweatings". After 36 to 72
hours the beans are killed by the heat and chemical changes occur
inside
the bean and will continue during drying. During fermentation the beans
become darker and wrinkled and lose their bitter taste. The beans are
collected,
heaped, covered with leaves and allowed to ferment through the action
of
microbes and enzymes naturally present This process kills the germ of
the
bean, removes adhering pulp and modifies the flavour and colour (now
brown).
After drying, the beans are ready for export.
2. Fermentation can be done wooden boxes about 800 kg capacity covered
by banana leaves. Usually at least 90 kg of beans are needed for
processing
for 5 to 7 days, depending on the type of cocoa being grown and design
of the fermenting box. The percentage of dry fermented beans to wet
unfermented
beans is called "recovery". It ranges from about 40% for under
ripe
pods
to 45% for over-ripe pods.
3. Make a fermenting box with some holes in it so air can get in.
4. Ferment the beans 2 to 8 days before drying in sun. Mix the beans
every 2 days.
5. Test some beans to see if they are properly fermented. Before
fermenting
the kernels inside are purple, but after fermenting they are reddish
brown.
22.0 Drying, bagging and shipping
1. Fermented beans are dried in the sun or
artificially to a 6 to
7% moisture content dry basis. Artificial drying can
cause beans to be
very
acidic if they are dried too quickly. Dried beans are hand sorted or
mechanically sieved and winnowed to remove defective beans and debris.
The number of pods required to produce 1 kg of dried beans is called
the "pod index". Low pod index means good bean size and a high weight
of
beans per pod.
2. After fermenting the cocoa beans must be dried. Building a good
drier is quite hard, so try to find a drier that the school could use.
The beans must be well dried and have only 6% moisture. In most
dryers
heat comes from a wood fire, but the beans must not be heated over 50oC
and they must be stirred while they are being dried. The beans are then
bagged and shipped. Further processing includes roasting, crushing, and
separating out the kernel, grinding the nibs and extraction of about
half
of the fat.
3. Quality of cocoa beans depends on flavour attributes, average bean
weight 1.0 to 1.2 g, bean count of 100 to 83 beans per 100 g, low shell
percentage of 11 to 17%, and fat content of the cotyledons
(nib) at
least
53%.
4. In many countries cocoa fermentaries and cocoa dealers and buyers
are licensed to ensure production is at the standards of export cocoa.
Inspectors of cocoa beans intended for export control quality of cocoa
beans. The term "cacao bean" means the seed of the cacao trees
(Theobroma
cacao L) which has not been passed through a fermentation and drying
process.
The term "cocoa bean" means a whole cacao bean that has been fermented
and dried.
The term "cocoa processing" means the process of fermenting and drying
cacao beans for converting cacao beans into cocoa beans.
The term "fermentary" means any place or premises maintained for cocoa
processing. The term "dry cocoa" means cocoa beans that have been
evenly
dried and the moisture content of which is not more than 8% and not
more
than 1000 beans per kilogram. The term "defective bean" means a cocoa
bean
that is either insect or mite damaged or germinated (shell has been
pierced
by the seed germ) or flat (too thin) or coupled (beans stuck together).
The standard for "Export Cocoa" is based on accepted international
standards
and is prescribed by local legislation. Cocoa inspectors put inspection
marks on cocoa bags for export. They can check samples taken through
the
meshes of the bags by using a stab sampler.
5. In countries exporting cocoa beans, particularly in West Africa,
desiccant bags are placed inside the shipping containers with the cocoa
beans. Addition of the desiccant bags inside the containers
significantly reduces the amount of condensation during the transit
period. The end result is a marked improvement of the quality of the
cocoa beans.
23.0 Pests and diseases
Cocoa is grown in places that are hot, moist and partly shaded that
allow many fungus diseases and pests to live. Regularly examine the
cocoa
trees for signs of diseases and pests and then get advice from the
Department
of Agriculture on how to control them. The normally recommended methods
for the control of capsids and black pod disease that involve mainly
the
use of conventional insecticides and fungicides are now considered by
many
to be environmentally unfriendly, posing a threat to both humans and
non-target insects, e.g. the midges that pollinate the cocoa flowers.
Some
cocoa pests that occur in PNG that do not occur in Bougainville or the
Solomon Islands.
You can find much information about pests and diseases from the
internet
at websites run by Integrated Pest Management (IPM),
23.1.1 Cocoa capsid bugs (Hemiptera, sub-order
Heteroptera, Family
Miridae)
mirids, e.g. Helopeltis sp., Distantiella sp.
See diagram 55.23.1.1: Capsid bugs
Capsids (Helopeltis or Distantiella) have not been recorded in the
Solomon Islands and they are not in Bougainville.
1. Capsids are sucking insects that feed mainly on the husk of cocoa
pods and young shoots of chupons and fans. They use their piercing
mouth
parts to suck up sap. Their feeding results in dark markings called
lesions
on pods, shoots, petioles, leaf midrib and black angular spots on the
leaf
surface caused by their toxic saliva. Secondary damage of canker and
dieback
occurs when the lesions are invaded by parasitic fungi, e.g.
Calonectria
and Fusarium species. In very serious infection the entire tree looks
burnt.
2. Capsids may occur at a break in the cocoa shade canopy followed
by growth of vegetative chupons. Feeding on fan branches results in
damage
to the tree canopy that causes more damage to exposed cocoa in the dry
season, called "capsid blast".
3. The female adults lay eggs in the outer layer of pods and beneath
the bark of young shoots then go through five nymph stages for a total
incubation period of 2-17 days. The adults are about 5.5 cm long. The
nymphs,
are smaller and have no wings.
4. They can be controlled by spraying the plants with an insecticide,
e.g. "Gammalin 20" (Lindane), followed by a second spray time to kill
the
bugs from eggs that were not killed by the first spraying. However, the
adverse side effects of persistent chemicals, including the destruction
of non-target beneficial insects, e.g. midges, and their long lasting
residual
effects in the environment, make them undesirable so some scientists
want
to replace Lindane. Pesticide can be applied to mature cocoa with
motorized
knapsack mist blowers.
23.1.2 Cocoa weevil borer (Pantorhytes)
Pantorhytes biplagiatus (P. plutus) is damaging in the Solomon Islands.
This is probably the worst of all insect pests on cocoa. This pest
occurs
in Papua New Guinea and in the Solomon Islands. The adult weevils lay
their
eggs in small cracks in the bark of the cocoa tree. The small grubs
that
come out of the eggs bore holes into the trunk as they grow. Some jelly
like liquid comes out of these holes. The grubs make holes right
through
the trunk and may go around and ring bark the branch or trunk. It is
not
much good trying to kill these insects with chemicals. Collect the
adult
beetles by hand and kill them. Get some Ikofala or "crazy ants" to come
into the cocoa trees. These ants make their nests in soursop trees, so
planting some of these trees will help to bring the ants into the
cocoa.
The ants drive away the weevils. 3. The Pipturus plant attracts the
cocoa
weevils. Ask the agricultural officer to show you these plants so you
can
destroy them.
23.1.3 Amblypelta cocophaga
It is a minor pest but can be controlled with crazy
ants. They are brown or green bugs about 2 cm long. They have very long
feelers, but in the young bugs the feelers are thick. The young and old
bugs feed on cocoa pods and young shoots. They suck juices up through
long
thin feeding tubes. If they feed on young pods, the whole pod may be
spoiled,
and young shoots may be killed. These bugs also attack coconut trees
and
make the young nuts fall of the tree. Spray the pods with the same
spray
used to kill capsids. Get some ikofala ants into the cocoa trees by
planting
sour-sop trees among the cocoa trees.
23.1.4 Termites
See diagram 55.23.1.4: Termites
No termites are listed as pests by CABI. Termites or "white ants" are
ants that live by eating holes in wood. They may weaken a branch or a
trunk
so much that it falls over. It is often hard to tell whether the
termites
are in a tree because they make holes just under the bark and there may
be no signs outside. Two things can be done: a. if an attack is found,
the branch can be cut off close to the main branch. b. If a nest is
found,
it can be opened a little and a bottle full of weak chlordane (0.2%)
mixture
poured into it. Another treatment for termites is to pour slowly
"Dursban"
(Chlorpyrifos) solution at the base of each transplanted
seedling.
23.1.5 Longicorn beetles (long antennas
beetles), e.g. Glenea lefebueri
See diagram 55.23.1.4: Longicorn
beetles
The longicorn beetle (Family Cerambycidae) Glenea aluensis occurs in
the Solomon Islands, although neither G. aluensis or G. lefebueri are
listed
by CABI. They are associated with poorly managed cocoa under heavy
shade
or near forests. Be sure that they are economically important before
any
control because control is very difficult. These pests are big beetles
with long feelers. The beetles are either bright yellow or bright blue.
The grubs of these beetles are pale yellow in colour and have strong
jaws.
The beetles lay their eggs on the trunk. The grubs hatch out and eat
holes
in the soft part of the trunk. The trunk may be ring barked and die.
Signs
of this grub may be seen as lumps of wood chips stuck together in rusty
coloured lumps. These are pushed out and breathing holes made by the
grubs.
The fungus causing the tree canker may get into the tree through these
holes. The way to kill these grubs is to open some holes and pour in an
insecticide. This can be made up by mixing together: 12 litre of
Lebaycid,
4 litres of white oil, 12 litres of water 16 mL wetting agent.
23.1.6 Giant African Snail (GAS) (Achatina
fulica)
1. The snail can kill young cocoa seedlings and damage cocoa trees.
It can feed on leaves and tubers of many types of crops.
2. It searches for food at night and hides in the soil during daytime.
The eggs are 5 mm diameter, round and white are usually found in
batches
of about 200 eggs just beneath the soil surface. The eggs hatch within
15 days after laying.
3. It was introduced from East Africa and is now established in some
Pacific Islands but not been reported from Cook Islands, Fiji,
Kiribati,
Nauru, Niue, Pitcairn Island, Solomon Islands, Tokelau and Tonga. It
can
be easily transported between countries in containers, machinery and
empty
bottles. After it has become established, it is extremely difficult to
eradicate. Villagers should collect the snails and kill them by burning
or immersing in sea water. Clear rubbish and weeds in infested areas to
reduce breeding places. Do not bring planting materials from infested
areas
to places where the snail is not present.
4. The best way to control Giant African Snail is to eat them. The
snail can be controlled with chemical baits, e.g. Blitzem, Esbit,
Canned Heat (metaldehyde) fuel tablets and snail bait, mixed with
sawdust and cement.
However, but baits may be dangerous if
eaten
by children or domestic animals.
23.1.7 Rats
See diagram 55.23.1.7: Poison baits for rats
Rats may do much damage to cocoa pods, because they eat holes in the
outside of the pods so they can eat the soft part inside. A good way to
stop rats is to put wax blocks containing brodifacoum into bamboo tubes
and tie these on to the branches of the tree. Another thing to do is to
get some crazy ants or ikofala ants into the cocoa area. These ants
keep
the rats away. Whatever you do to control rodents it is essential that
measures are carried out on an area wide basis - one farmer trying to
control
rats is useless.
23.1.8 List of insect pests of
Cocoa
in Solomon Islands
from CABI Crop Protection Compendium CD
Achatina fulica (giant African land snail)
Ahasverus advena (foreign grain beetle)
Amblypelta cocophaga (coconut bug)
Aphis craccivora (groundnut aphid)
Aphis gossypii (cotton aphid)
Aspidiotus destructor (coconut scale)
Brevipalpus phoenicis (false spider mite)
Carpophilus
Ceroplastes destructor (white wax scale)
Corcyra cephalonica (rice meal moth)
Dysmicoccus brevipes (pineapple mealy bug)
Euwallacea fornicatus (tea shot hole borer)
Ferrisia virgata (striped mealy bug)
Homona coffearia (tea tortrix)
Leptoglossus gonagra (squash bug)
Nezara viridula (green stink bug)
Pantorhytes (weevil borers)
Planococcus minor (passionvine, mealy bug)
Rhynchophorus bilineatus (black palm weevil)
Selenothrips rubrocinctus (red banded thrips)
Spodoptera litura (taro caterpillar)
Tenebroides mauritanicus (cadelle)
Toxoptera aurantii (camellia aphid)
23.1.9 Insect pests of cocoa in Papua New
Guinea,
importance and control
J. E. Moxon, Department of Agriculture and
Livestock,
Papua New Guinea
Many insects feed on cocoa, attacking most parts of the tree in both
the establishment and production phases. Crop losses range from most
serious
to slight depending on insect type, density, distribution, occurrence
and
duration of attack. Many serious pests are absent from the North
Solomons
Province, Papua New Guinea, which produces about half of the country's
cocoa.
An integrated approach to control is preferred because of a wide
variety
of pests and their natural enemy complexes. Both large estate and
smallholder
sectors produce large amounts of cocoa though their farming methods are
generally very different, the former having a much higher technical,
financial
and management input than the latter. It is often necessary to provide
different pest control recommendations to suit the two farming sectors.
Many smallholder blocks either begin as or, more usually, become mixed
gardens containing coconuts, areca palms, bananas and fruits, nuts and
food crops. Some pest associations between these crops and cocoa in the
farming system and between shade trees and cocoa are considered and the
value of coconut as a shade for cocoa is highlighted.
Cocoa is the most important cash crop in the lowland areas and large
scale redevelopment of over mature cocoa and development in new regions
using high yielding Trinitario x Upper Amazon hybrid material is
expected
to increase production significantly over the next few years. Many
factors, e.g. climate, soils and marketing, favour cocoa production in
the major cocoa growing regions, but pests, diseases and poor
management
can
impose serious constraints. Pantorhytes weevils, caterpillars and
vascular
streak dieback can cause the collapse of the industry in a major
regions.
Over 300 species of pests have been associated with cocoa in Papua New
Guinea). However, only about 10 pests regularly cause widespread,
economic
damage. Damaging Pantorhytes weevil species, mirids, and some other
pests
for example are believed to be absent from North Solomons Province,
Papua
New Guinea, an island that produces half of the country's cocoa.
Main insect pests of cocoa in order of economic importance - Group
1 contains the worst pests
Group 1
Wood boring Pantorhytes beetle larva (Coleoptera: Curculionidae) Larvae
bore into wood of trunk and main branches
Leaf eating caterpillars (Lepidoptera: Limacodidae) (Lepidoptera:
Noctuidae)
(Lepidoptera: Geometridae) Larvae eat both young and mature leaves
Wood boring longicorn beetles (Coleoptera: Cerambycidae) Larvae bore
into wood of trunk and main branches
Pod damaging mirids (Hemiptera: Miridae) Adults and nymphs suck sap
from pods and shoots
Group 2
Shoot chewing Grey weevils (Coleoptera: Curculionidae) Adults chew
bark on shoots of young cocoa
Terminal branch feeding Pansepta moths (Lepidoptera: Xylorictidae)
Grubs bore in branches
Wood eating termites (Isoptera: Kalotennitidae) Adults and nymphs chew
wood inside the tree
Group 3
Pod sucking bug Amblypelta (Hemiptera: Coreidae) Adults and nymphs
suck sap from pods
Root chewing Chafer beetles (Coleoptera: Melolonthinae) Larvae chew
roots of young trees
Mealy bugs (Hemiptera: Pseudococcidae) Adults and nymphs suck sap from
shoots, pods an flowers
Tip boring Oxymagis (Coleoptera: Cerambycidae) Larvae bore into
terminal
branches
Pod Borers (Lepidoptera: Tortricidae) (Lepidoptera: Olethreutidae)
Larvae bore into husk of pods
Leaf eating Rhyparids (Coleoptera: Chrysomelidae) Adults eat leaves
Stem boring Zeuzera moths (Lepidoptera: Cossidae) Larvae bore into
wood of trunk and main branches
The economic importance of an insect is ultimately measured in terms
of crop loss. This can be a direct result of feeding on pods or
indirect
result of feeding damage on other parts of the tree. The major pests in
Papua New Guinea attack many parts of the tree including pods, leaves,
shoots, branches, trunks and roots. Both young and mature cocoa are
attacked
and so pest control is often necessary throughout the life of the crop.
Pests which damage young cocoa may either stunt or kill the tree
necessitating
replanting or retard growth all of which reduce time to bearing and
thus
result in a measurable crop loss. Pests which attack the wood of mature
trees can cause senility or death and so are particularly important.
The
insect type, density, distribution, occurrence and duration of attack
contribute
to the overall importance of a pest.
Pantorhytes
Pantorhytes species are now possibly the worst pest of cocoa in Papua
New Guinea. Pantorhytes species occur in New Guinea, the Bismarck
Archipelago
and the Solomon Islands, with species extending to Queensland in
Australia.
In the North Solomons Province, Papua New Guinea, which produces half
the
country's cocoa, P. biplagiatus is scarce and never of economic
importance
while the same species in the neighbouring Solomon Islands can be most
damaging. Pantorhytes species are robust, heavily sclerotised, wingless
weevils about 1-5 cm long. The eggs which are white, ovoid and about 2
mm long, are laid singly in crevices on the trunk and main branches,
particularly
near the jorquette, intersection of main branches and tree base. Eggs
hatch
after 2 to 3 weeks. The larva has a well developed brown head and
curved
cream body with rows of fine hairs. The larva bores into the wood 1 to
2 cm deep and feeds on sap wood making tunnels or channels parallel to
the surface. The larva feeds for 3 to 9 months through 9 instars and
then
pupates beneath the bark in about 14 days. The newly emerged adults
feed
for 4 to 6 weeks before mating, after which time the female lays about
2 eggs per day sometimes through out her life span of one to two years.
Adults feed mainly on the semihardened bark of young cocoa shoots and
occasionally
on pod husks, leaves and flowers though damage is rarely economic.
Larval
feeding, by contrast, is usually devastating. The larvae bore into the
sapwood of trunks and main branches of trees more than about two and a
half years old, causing structural weak ness, tip dieback and a general
canopy degradation, branches may be ring barked and die and trees may
split
at the jorquette. A severe drop in production follows and often a large
proportion of the plantation dies.
Wounds made by larvae in the bark are an entry point for bark canker,
Phytophthora pabnivora, which also reduces yield and kills trees.
Termites
may also enter the tree as secondary pests.
Pansepta
Pansepta larvae are most damaging on young trees when they bore
into
or ring bark the main branches. However, since about the beginning of
1987
Pansepta has been particularly abundant in New Britain and large
areas
are suffering from severe tip dieback, including main branches, canopy
degradation and crop loss. The pest is easily controlled on young trees
by removing the web and applying dimethoate, a systemic insecticide,
onto
the bark with a brush or swab but there is no economic control
recommendation
for Pansepta on mature trees. Pansepta is usually only
a problem on
lightly
shaded cocoa although since 1987 the pest has been reported throughout
well shaded plantings.
Termites
Several species of termite attack cocoa in Papua New Guinea. The most
important species is the giant termite, Neotermes papuana that
occurs
throughout
the islands region and is particularly damaging in New Britain, Papua
New
Guinea. Termites first enter the tree via dead branches and then make
their
nest in the living wood and feed it. The tree canopy is reduced,
production
falls, branches die and eventually the tree is killed. Termites are
easily
controlled by exposing part of the nest and pouring a dilute solution
of
insecticide into it. The newer pyrethroids give a good kill and are
safe
to use. Neotermes papuana does not construct covered runways on
the tree but
the
location of the nest is indicated by a water soaked appearance on the
bark.
Some shade trees are also attacked by termites and so these must also
be
inspected regularly and treated. Termite infestations can be prevented
to some extent by pruning dead branches from the tree.
Amblypelta
A number of species have been noted feeding on cocoa but only Amblypelta
theobromae
and Amblypelta cocophaga are pests. Amblypelta
theobromae can cause large crop losses
on
mainland Papua New Guinea. Adults and nymphs suck the sap from pods and
shoots causing damage similar to mirids. The life cycle takes about 6
weeks.
A. cocophaga occurs in the North Solomons and Solomon Islands where it
is an occasional pest of cocoa. The ant Oecophylla smaragdina
is
negatively
associated with both species. Amplypelta is controlled in the same way
as mirids
Rhyparida
Chrysomelid beetles of the genus Rhyparida which feed on the
flush
leaves of cocoa can build up rapidly and cause extensive defoliation.
There
are many species of Rhyparida distributed throughout Papua New
Guinea.
Eggs are laid on the ground and the larvae feed on plant roots.
Pupation
also occurs in the ground and the life cycle takes about 6 weeks.
Defoliation
can be prolonged and particularly damaging when associated with dry
weather.
It is often necessary therefore to control Rhyparida on cocoa
trees up
to about 2 years old using insecticides.
Pod borers
Two pod boring moths, Cryptophlebia encarpa and Olethreutes
sp. are
minor pests of cocoa in Papua New Guinea and the Solomon Islands. Eggs
are laid singly on the pod surface. The larvae hatch within 24 hours
and
burrow into the epicarp of the pod husk to feed. The larvae feed for 13
to 15 days.
23.1.10
Insect pest control methods
1. Biological control using crazy ants
Although over 30 parasites
predators
and pathogenic fungi have been recorded from Pantorhytes none
have
shown
promise as biocontrol as the crazy ant, Anoplolepsis longipes
and
possibly
Oecophylla smaragdina.
Dense crazy ant populations eliminate Pantorhytes from cocoa
but as
the ant density decreases so the Pantorhytes reinvade and
increase. A
technique has been developed for collecting and introducing crazy ants
to cocoa. The crazy ant also controls some other cocoa pests. Present
work
is attempting to develop methods of stabilizing crazy ant populations
which
are sometimes transient.
2. Hand-picking of adults
Adults weevils are easily seen, collected and destroyed by hand during
the middle of the day when they descend through the canopy to cooler
places.
This method is popular with smallholders who operate on
restricted
budget and some large estates also find the method cost effective when
operating on a "bounty payment system.
3. Larval channel paints
Larvae are easily detected in the tree by the presence of frass
expelled
from the entrance hold of the larval channel. The frass is removed with
a stiff brush and the larvae are then easily killed by applying a
solution
(channel paint) of Dichlorvos, White Oil, Ridomil and water with a
small
2 cm brush onto the bark around the entrance hole. About 80% of
larvae treated in this way die. Ridomil is added to the channel paint
to
control any Phytophthora that might be present. It is
recommended that
trees severely infested with Pantorhytes larvae be inspected
and
treated
at least every two weeks.
4. Coconut shade
Pantorhytes populations are often, but not always, low in cocoa
grown
beneath coconut shade although the reason for this is unknown. One
possible
explanation is that coconuts often harbour Oecophylla smaragdina
ants
which
are believed to repel Pantorhytes By contrast, cocoa grown
beneath
other
shades such as Leucaena and Gliricidia is often badly
damaged by
Pantorhytes.
For this reason and other considerations it is strongly recommended
that
coconuts be used as a shade for Pantorhytes are believed killed
by
natural
enemies before they enter the wood. The larva constructs a silk web
mixed
with brown droppings or frass over the feeding area for protection.
Larvae
feed on wood and bark for 8 to 12 weeks. Pupation takes 3 to 4 weeks
and
adults live for only a few days.
23.2.1 Black pod disease (Fungi: Phytophthora
palmivora, Phytophthora
megakarya)
See diagram 55.23.2.1: Black pod disease
1. This is a common disease of cocoa. The signs of the disease are
that black patches appear on the pod, usually down near the tip first.
The black patches gradually spread upwards and soon the whole pod and
the
beans inside it are rotten. This disease is caused by a fungus that
grows
very fast in cool wet weather. The body of the fungus is like fine
white
threads of cotton. It makes spores that get into drops of rainwater on
the outside of the pod. Then they can be splashed onto healthy pods of
trees nearby. These are the things that can be done to stop this
disease:
1. Pick the ripe pods regularly every one or two weeks.
2. Take all diseased pods off the tree and carry them away from the
cocoa trees and burn them. Do not touch healthy pods after touching
diseased
pods or you may spread the spores that cause the disease.
3. Do not open ripe pods near the cocoa trees. The disease may grow
on the old pods left lying nearby.
4. Cutting down some trees around the cocoa trees and so increase the
flow of air through the trees may be possible. This may make the air
drier
and not such a good place for the fungus spores to grow.
5. Protect apparently healthy pods with copper based fungicides, with
or without metalaxyl. If more than one third of the pods get black pod
disease, then a spray must be used or the disease will spread to all
the
pods. To make the spray mixture put half a kilo of bluestone (copper
sulfate)
into 4 litres of water and stir until it is dissolved. In a separate
bucket
put half a kilo of slaked lime (hydrated lime) into 4 litres of water
and
stir until it is dissolved. Pour the bluestone solution and the lime
solution
into a 20 litre container. Stir this mixture well. Spray this mixture
until
the spray is dripping off the pods. Also, spray the leaves above the
pods
and on the trunk. This spray must be used the same day as it is mixed,
not later.
6. In Papua New Guinea trunk injection with potassium phosphonate
significantly
reduced Phytophthora pod rot and increased pod yield. Use of potassium
phosphonate or phosphorous acid does not contaminate the environment.
7. The disease may be spread by ants, beetles, the pod borer Characoma,
and infected pods and pod husks. Some pest control results from
frequent
harvesting, immediate removal of infected pods and establishment of
ground
cover. Selection and breeding of cocoa varieties for resistance to
black
pod may be possible.
23.2.2 Bark Canker (Ceratocystis fimbriata)
See diagram 55.23.2.1: Bark canker
The bark has been peeled off the trunk to show the canker spreading
around the trunk. This disease attacks the trunk and branches of the
cocoa
tree. If a tree has the canker, the bark may have patches of darker
colour.
Also, a reddish brown liquid may come out of the bark and turn a rusty
brown colour when dry. Insects live in the dying bark and may make any
holes in it. When the bark is cut away, you can see the canker. This
disease
is caused by the same fungus that causes black pod. Always put tar over
a cut made when pruning a tree. Pruning tools must be sterilized by
dipping
them in a 1% sodium hypochlorite solution. Take all black
pods away
because
they carry the canker spores. In small cankers, cut away the bad bark,
making a clean cut just outside the canker.
23.2.3 Dieback (Vascular streak dieback virus,
VSD)
See diagram 55.23.2.3: Dieback disease
In this disease the top branches of a tree die. The disease starts
when leaves turn yellow and drop off. What causes this disease is not
known
but it may be a virus carried by mealy bugs. Make sure the trees have
the
right amount of shade. Trees that do not have enough shade may get
dieback.
Look at the leaves of the trees. Observe whether they have brown leaf
edges,
or yellow leaves or leaves with light green patches between leaf veins.
These things may mean that the trees are not getting enough minerals,
and
they may need some fertilizers. Kill insects on the trees. If many
leaves
are killed the tree may get dieback. Prune off the dead branches, and
cover
the cut ends of branches with tar.
23.2.4 Pink Disease (Botryobasidium
salmonicolor)
See diagram 55.23.2.3: Pink disease
In this disease a fungus attacks the branches of cocoa trees. It also
attacks branches of other trees like coffee, citrus or rubber trees.
The
first sign is when fine white threads of fungus are seen on a branch.
Later
the fungus forms a pink crust over the branch. By the time the leaves
drop
off the tree and the branch will soon die. To stop this disease: 1.
Cut
off the diseased branches making the cuts 45 cm below the bad part.
Take
the bad branches away and burn them. Put some tar or other chemical
fungicide
over the cut you have made on the tree.
23.2.5 Thread Blight (Corticium incisum,
Marasmius species, and other
species)
See diagram 55.23.1.1: Thread blight
Seeing this disease is easy if it comes to
your tree, because the
leaves
have fungus threads growing thickly over them. Sometimes the threads
are
white and sometimes they are a dark colour. The threads are quite
thick.
This disease makes the leaves die and grow brown. Cut out the diseased
branches and burn them.
25 Returns, costs and profits
See also 6.9.20.0:
Understanding the records
You grow cocoa so that the beans can be fermented and dried properly
and then sold for money, so you should calculate the annual profit of
the
cocoa project.
Returns means all the moneys they have received from selling the cocoa.
Cocoa pods ripen at different times, so the beans must be fermented and
dried at different times and the money received for the beans will come
in at different times.
Record the returns under the 3 headings: Date Amount Sold
Profits = Returns - Costs. However, costs are divided into two groups.
Establishment costs are moneys paid for things that will last more than
a year, e.g. a spade and secateurs. So you add these costs and divide
them
by the number of years that you think these things will last, e.g.
Divide
by 3 if you think the items can be used for 3 years. This calculation
gives
us a figure for establishment costs for each year. Production Costs are
costs for things that you must buy every year, e.g. fertilizers,
fungicides
and insecticides.
So profits = returns - (establishment costs / 3) - production costs
Net profit for the year = total profit of the 40 cocoa trees / 40, i.e.
profit per tree. you can also calculate profit / hectare (ha).
Cultivation of recommended new hybrid cocoa cultivars should bring
higher yields and profits.
26 Chocolate
At the chocolate factory the beans are sorted and cleaned, then
roasted and winnowed to remove the outer shells to be sold for animal
feed.
The remaining "inner nib" is crushed then heated to melt the cocoa
butter
and ground to a thick paste. This paste is called "chocolate liquor"
which
is then pressed to extract most of the cocoa butter leaving a cake that
is ground into cocoa powder. Cooking chocolate is made from moulded
chocolate
liquor. Dark chocolate is made with chocolate liquor, sugar, cocoa
butter,
and vanilla. Milk chocolate is made with chocolate liquor, cocoa
butter,
sugar and milk powder. White chocolate is made with cocoa butter but no
chocolate liquor.
The beans are roasted and passed through a complex set of milling
processes.
The heat of grinding melts the fat and produces chocolate liquor, which
is composed of about 55% fat, 17% carbohydrate, 11% protein, tannins,
ash.
Theobromine, the stimulant alkaloid related to caffeine, is found in
amounts
ranging from 0.8% to 1.7%. Theobromine may be poisonous
to dogs, so do not give your dog chocolate. Less caffeine is also
found.
The solidified
liquor forms the bitter cooking or baking chocolate. The fat removed
from
the chocolate liquor is cocoa butter that consists mainly of
triglycerides
in which the middle fatty acid is oleic acid and the two outside fatty
acids are saturated, generally stearic acid or palmitic acid. The
simple
composition of cocoa butter causes a relatively sharp melting point, 30oC
to 35oC. However the solid is polymorphic, i.e. it can
crystallize in at least three different crystal forms, with
melting
points varying from 17.3oC to 35oC. Only the
fifth
of these forms, a so-called beta-3 type, with a melting point of 33.8oC
is suitable because if the fat crystallizes in an unstable form it will
cause problems. For milk chocolate, the need may be a minimum of
45 g / kg milk fat, 105 g / kg non-fat milk solids, milk sugars mainly,
and
30 g / kg water free, fat-free cocoa paste. Cocoa paste is defined as
the
product prepared by grinding solidified chocolate liquor containing not
less than 480 g / kg of cocoa butter but the fat-free specification
means there is no minimum need for chocolate to contain cocoa
butter.
So there is an incentive to replace the expensive and often
variable
in quality cocoa butter with a cheaper fat. White chocolate does have a
minimum content of 200 g / kg of cocoa butter specified and also must
contain
not more than 550 g / kg of sugar, i.e. it can be over half sugar. Fat
bloom
is the development of a new phase in a chocolate fat, causing surface
disruption
with large clusters to give the grey mould-like coating usually due to
poor consumer storage. Fat bloom in chocolate is distinguished from
loss
of gloss which occurs when small crystals on the surface grow into
large
crystals and scatter light. The use of emulsifiers and stabilizers can
greatly affect the rate at which crystal changes occur in the solid
state.
Various additives, e.g. sorbitan fatty acid esters, are used to control
crystallization and phase change in substitute chocolate.
Nutritional information on cocoa powder, per 100g ("Cacao Powder" Van
Houten brand)
Energy 1390 kJ
Protein 23.5%
Carbohydrates 45 g (sugars 0.5 g)
Fat total 21% (saturated fats 13.7%)
Fibres 34 g
Sodium 27 mg
Cholesterol 6.3 g
Calcium 130 mg
Iron 22 mg
History
These teaching materials were originally written and illustrated by
Mr J. A. Sutherland, Faculty of Education, University of New England,
Armidale,
Australia and later edited by Dr J. Elfick, School of Education,
University
of Queensland, Brisbane, Australia.