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KERALA AGRICULTURAL UNIVERSITY
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Groundnut can be cultivated as a floor crop in coconut gardens, as an intercrop
with tapioca and as a catch crop after second crop paddy with irrigation. The
crop is grown best in sandy loam and loam soils.
Season
Rainfed: May-June to September-October
Irrigated: January to May
Varieties
|
Duration (days) |
|
| TMV-2 (bunch type) | 110 |
| TMV-7 (bunch type) | 110 |
| TG-3 (bunch type) | 100-110 |
| TG-14 (bunch type) | 105-115 |
| Spanish Improved | 100-110 |
| Sneha (bunch type) | Early |
| Snigtha (bunch type) | Early |
Note: TG-3, TMV-2 and TMV-7 are recommended as intercrops in coconut gardens.
Seeds and sowing
| Pure crop |
100kg kernels/ha |
| Intercrop in coconut | 80kg kernels/ha |
| Intercrop in tapioca | 40-50kg kernels/ha |
Plough the field three or four times into a fine tilth. Sow the seeds by
dibbling in ploughed furrows at a spacing of 15 x 15 cm. For seed treatment the
rhizobial culture is recommended.
Manuring
| Cattle manure or compost | 2 t/ha |
| Lime | 1-1.5 t/ha |
| Fertilizers N:P2O5:K2O | 10:75:75 kg/ha |
Apply entire quantity of cattle manure or compost and recommended quantity of
fertilizers as basal dressing and incorporate well into the soil. Apply lime at
the time of flowering of the crop and mix with the soil by light hoeing or
raking.
Irrigation and interculture
Irrigate the crop once in 7 days. Weed the crop 10-15 days after germination of
seed by light hoeing. Give another light hoeing or raking at the time of
application of lime. Do not disturb the soil after 45 days of sowing.
Plant protection
Red hairy caterpillar, termites and leaf miners are the major pests of
groundnut. Against leaf miner apply any of the organophosphorus insecticides
with contact action. Spraying carbaryl 0.15% controls red hairy caterpillars.
Against ants / earwigs / termites damaging the pods, apply carbaryl 10% DP in
soil at the time of seeding.
Tikka leaf spot disease infects both the rainfed and irrigated crops.
Prophylactic spraying with Bordeaux mixture 1% before flowering will control the
disease.
Harvesting
The crop will be ready for harvest when the leaves start yellowing and begin to
dry up. Development of brown colour inside the pods also indicates maturity of
the crop.
Oil palm grows best in areas with a mean
maximum temperature of 30-32 ºC and on an average of at least five hours of
sunlight. It can be grown in areas, which receive well-distributed annual
rainfall of 200 cm or more. However, it can tolerate two to four months of dry
spell. The oil palm grows on wide range of tropical soils. The adult palms can
withstand occasional waterlogging, but frequently waterlogged, extremely sandy
and hard lateritic soils should be avoided.
Varieties
The only variety recommended for commercial cultivation is Tenera, which is a
hybrid between Dura and Pisifera.
Nursery practices
The fruits are separated from the bunch and seeds are extracted by scraping off
the exocarp and mesocarp with a knife, or by retting in water. The seeds are
then dried by spreading them on concrete or wooden floors under shade for two
days. Such seeds can be stored for 3-9 months at about 27 ºC without much
reduction in viability.
Seeds are soaked in water for five days, changing the water daily. Thereafter,
the seeds are spread out to dry for 24 hours. The dried seeds are put in
polythene bags and placed in germinator maintained at a temperature of 40 ºC.
After 80 days, the seeds are removed from polythene bags, soaked in water for 5
days changing the water daily and dried in the shade for two hours. The seeds
are then put back into bags and kept in a cool place in order to maintain the
moisture content. Germination commences in about 10-12 days. The percentage of
germination obtainable by this method is 90-95.
Raising nursery
Polybags (preferably black) of 400-500 gauge measuring 40 x 35 cm are used. The
bags are filled with topsoil and compost and are arranged at a spacing of 45 x
45 cm and one sprouted seed is dibbled per bag. A good mulching during summer is
desirable. Watering the seedlings weekly thrice is recommended. A fertilizer
mixture containing 15 g N, 15 g P2O5 and 6 g K2O
at the rate of 8 g in five litres of water for 100 seedlings may be applied when
the seedlings are two month and eight month old.
Planting
Oil palm is planted in the main field in triangular system at spacing of 9 m
accommodating 140 palms per ha. Planting is preferably done at the onset of
monsoon during May-June. The polythene bag is torn open and the entire ball of
earth is buried in the pit (50 x 50 x 50 cm) and levelled.
Manuring
The following fertilizer schedule is considered satisfactory for oil palm.
N:P2O5:K2O
g/palm/year
First year
400:200:400
Second year
800:400:800
Third year onwards
1200:600:1200
Mg application is necessary only if deficiency symptoms are noticed. Fertilizers
are preferably applied in two equal split doses (May and September), within 2 m
diameter around the palm and forked in. Supply of sufficient quantities of green
leaf or compost is advantageous, especially where the soil is poor in organic
matter.
Leaf pruning
Dead and diseased leaves and all inflorescences should be cut off regularly up
to three years after planting. When the palms are yielding, judicious pruning to
retain about 40 leaves on the crown is advocated. It is necessary to remove some
of the leaves while harvesting. In such cases, care should be taken to avoid
over pruning. In addition, all dead and excess leaves should be cut off and
crown cleaned at least once in a year, usually during the dry season.
Pollination
Oil palm is a cross-pollinated crop. Assisted pollination is done to ensure
fertilization of all female flowers. However, this is not necessary if the
pollination weevil Elaedobius kamerunicus is introduced in the
plantation. They congregate and multiply on male inflorescence during flower
opening. The weevils also visit the female flowers and pollinate them
effectively.
Harvesting
First harvest can be taken 3.5 to 4 years after planting. When a few ripe fruits
are loose / fall off, the bunch is ready for harvesting. Processing over-ripe
fruits reduces quantity and quality of oil.
A chisel is used for harvesting bunches from young palms. The stalk of the bunch
is struck hard with the chisel to cut off and push the bunch out. When the palms
become taller (from 10 year onwards) a harvesting hook has to be used. When the
palms are too tall, it is necessary to climb the palms for harvesting.
Plant protection
Pests
Rhinoceros beetle
The pest causes severe damage to emerging fronds and spindle. The adult
beetle feeds on the softer tissue of the rachis, resulting in snapping off of
the fronds and spears at the feeding sites. Field sanitation and elimination of
breeding sites are essential components of the pest management operation. This
pest can be suppressed by using the virus Baculovirus oryctes.
Red palm weevil
This is a major pest of oil palm in India. These weevils lay their eggs
at the cut end of petioles or other wounds. The emerging larvae tunnel into the
crown and feed on the growing tissues. Palms infested by red palm weevil start
wilting and leaves show gradually increasing chlorosis and fracture in strong
winds. If detected early, treatment of affected palm with 0.2% solution of
endosulfan or 1% carbaryl would save the palms.
Birds
Many birds such as the forest crow, the house crow and the common Indian myna
cause severe damage to oil palm fruit bunches. These birds feed on the mesocarp
of the oil palm fruits. The damage can be minimized by scaring the birds and
covering the ripe bunch with wire net, 150 days after fruit set.
Diseases
Anthracnose
This disease occurs in the nursery. It is recognized by regular or
irregular brown to black leaf blotches surrounded by yellow haloes, which
develop along the margin, centre or tip of the leaves. It causes heavy seedling
loss. The disease can be controlled by spraying mancozeb or captan at the rate
of 200 g/100 litres of water. Copper fungicides should not be used because of
the extreme susceptibility of oil palm seedlings to copper burn (scorching).
Spear rot
This is noticed to affect oil palms of all ages. The incidence is less than one
per cent. Yellowing starts from tip of the innermost whorl of leaves. Small
lesions occur at the distal portions of spear and rotting extends downwards. As
the disease advances, new leaves become rudimentary and show rotting. General
decline in vigour and production is then noticed. Occurrence of spear rot
without yellowing has also been noticed. Distinguishable marginal yellowing of
leaflets and sudden drying of leaves showing yellowing are other symptoms.
Rouging of all the affected palms may be adopted to prevent further spread of
the disease. In early stages of the disease, the affected portions of leaves may
be removed and burnt.
Bunch failure
Sparse or no fruit set followed by complete drying or rotting of the affected
bunches are the typical symptoms. The extent of incidence can be up to 20%. This
malady is generally attributed to excess pruning, mutual shading,
underpollination, moisture stress and unhygienic conditions. The situation can
be improved by assisted pollination as well as by adopting hygienic measures
like removal of infected bunches and dry male inflorescence.
Processing
For mature plantations not exceeding 40 ha, a hand-operated hydraulic press will
be enough for extraction of oil. In the case of large-scale plantations, the
hydraulic press will not be economical and as such, mechanically driven oil
mills have to be established. The fruit bunches brought to the factory are first
quartered by means of a chisel. They are then sterilized in steam or boiling
water for 30-60 minutes. The objective of this process is to inactivate the fat
splitting enzymes, which are present in the fruit, which may raise the free
fatty acid content of the oil and also to soften the fruits for easy pounding.
The sterilized fruits are stripped off from the bunch and then pounded. The
pounded fruit mass is then reheated and squeezed using a hydraulic press. It is
then boiled in a clarification drum where the sludge will deposit and pure oil
float over the water. The oil is then drained out.
Sesame grows in well-drained, sandy loam
soils. Coarse sandy soils and soils of alkaline and saline nature are not suited
for the crop.
Season
Lowland paddy field: December-April (third crop)
Uplands: August-December
Varieties
For upland cultivation use varieties with long duration of 100-110 days and for
low land use varieties with duration of 80-99 days.
Table 22. Sesame varieties
| Kayamkulam-1 | Suitable for lowlands of Onattukara | |
| Kayamkulam-2 (Thilothama) | Suitable for rice fallows in Onattukara, resistant to leaf spot disease | |
| ACV-1 (Soma) | Pure line selection for summer fallows of Onattukara | |
| ACV-2 (Surya) | Pure line selection suited for uplands | |
| ACV-3 (Thilak) | Pure line selection suited to summer fallows of Onattukara | |
| Thilathara (CST 785 x B14) | Suitable for the summer rice fallows of Onattukara, oil 51.5%, duration 78 days | |
| OMT-1165 | Suited to uplands of Onattukara (rabi season), oil 50.5% | |
| Thilarani | Suited to summer rice fallows of Onattukara |
Preparation of land and sowing
Prepare the soil into a fine tilth by ploughing 2-4 times and breaking the
clods. Seed rate is 4-5 kg/ha. Broadcast seeds evenly, preferably mixed with
sand 2-3 times its volume, to ensure uniform coverage. Work with harrow,
followed by pressing with wooden plank so as to cover the seed in the soil.
Manuring
Apply manures and fertilizers at the following rates.
Cattle manure/compost
5 t/ha
N:P2O5:K2O
30:15:30 kg/ha
Apply cattle manure/compost as basal dressing and incorporate into the soil
along with last ploughing. Apply fertilizers as basal dose when there is enough
moisture in the soil. Urea is preferable to ammonium sulphate. Nitrogen may be
applied in split doses, 75% as basal and the balance as foliar spray at 3%
concentration, 20-35 days after sowing keeping the discharge rate at 500 l/ha.
Interculture
Aftercultivation of the crop may be done twice, first at 15 days and the next
25-35 days after sowing. When the plants are about 15 cm in height, thin the
crop so as to give a spacing of 15-25 cm between plants.
Irrigation
Usually the crop is grown under rainfed conditions. When facilities are
available, the crop may be irrigated to field capacity after thinning operation
and thereafter at 15-20 days interval. Stop irrigation just before the pods
begin to mature.
Surface irrigation at 3 cm depth during the critical stages, viz., 4-5 leaves,
branching, flowering and pod formation will increase the yield by 35-52%. Two
irrigations of 3 cm depth each in the vegetative phase (4-5 leaf stage or
branching) and in reproductive phase (at flowering or pod formation) are the
best, registering maximum yield and water use efficiency. In the case of single
irrigation, it can be best given in the reproductive phase. In the tail end
fields in command area, best use of the sparingly available water can be made
for augmenting sesame production.
Plant protection
For control of leaf and pod caterpillar, remove affected leaves and shoots and
dust with carbaryl 10%. For control of gall fly, give preventive spray with 0.2%
carbaryl.
For control of leaf curl disease, remove and destroy disease affected sesame
plants as well as the diseased collateral hosts like chilli, tomato and zinnia.
Remove plants affected with phyllody and destroy them. Do not use seeds from
affected plants for sowing.
Harvesting
Harvest the crop, when the capsules turn yellowish by pulling out the
plants. Harvest during the morning hours. Cut the root portion and stack the
plants in bundles for 3-4 days when the leaves will fall off. Spread in the sun
and beat with sticks to break open the capsules. Repeat this for 3 days.
Preserve seeds collected during the first day for seed purposes. Clean and dry
in sun for about 7 days before storing.
Storage of seeds
By keeping sesame seeds in polybags, tin bins, wooden receptacles or in earthen
pots, the viability can be maintained for about one year. Admixture of seeds
with ash will drastically reduce germination.
Citation:
Kerala Agricultural University. 2002. Package of Practices
Recommendations: Crops. 12th Edition
(eds. A. I. Jose et al.). Kerala Agricultural University, Trichur. 278p.