Vanilla
Vanilla fragrans
Family – Orchidaceae
Vanilla
is an economically important crop as it is the source of natural
vanillin. It is believed that vanilla is indigenous to north eastern
Mexico. It is ancient Totonaco Indians of Mexico who were the first
keepers of the secrets of vanilla. When they were defeated by the Aztecs
they were demanded to relinquish their exotic fruit, vanilla pods.
Later Aztecs were defeated by the Spanish and Spaniard Hernando Cortez,
the Spanish mariner, returned to Spain with the precious plunder
vanilla beans which were combined with cacao to make an unusual and
pleasing drink. For eighty years this special beverage was only enjoyed
by the nobility and the very rich. Then in 1602 Hugh Morgan,
Apothecary to Queen Elizabeth I, suggested that vanilla could be used
as a flavoring all by it self and versatility of the exotic bean was
finally uncovered. However only in 1858 Gobley was able to isolate
vanillin from vanilla pods. Today vanilla is grown by Madagaskar,
Indonesia, Mexico, Thahiti and few other countries including Sri Lanka
as a commercial crop.
Products and Uses
Vanillin
is the main product extracted from vanilla. It is used as a flavor
ingredient in confectionery industry, perfumery and pharmaceutical
industries.
Major Growing Areas
In Sri
Lanka vanilla is mainly confined as a home garden crop grown in mid and
low country wet zone. Total extent is less than 100ha. and main
growing areas are Kandy, Nuweraeliya,Matale and Kegalle ditricts.
Varieties
No specific varieties have been identified in Sri Lanka and planting material is taken from traditionally grown vines.
Soils and Climatic needs
Soil
High fertile well drained loamy soils are preferable. Soils should be rich in organic matter.
Climate
Altitude - Vanilla performs well up to 1000m above the mean sea level.
Temperature – 21-32 0C is suitable. But Vanilla performs well at 27 0C
Rainfall – 2000-2500 mm. But 2-3 months dry spell is needed for flower initiation.
Crop establishment
Planting material
Vegetative methods are practiced. Cuttings, 3’-4.5’ (1-1.5m) in size, are obtained from selected mother vines. Lower end of the cuttings should be closer to the node and 3-4 leaves should be removed from the lower end. To induce buds cuttings should be hanged on a support for about 7 days.
Field Planting
Vanilla is a shade loving plant hence live support trees are used to provide adequate shade (50-60%). Glyricidia is the most suitable shade tree and support trees should be established at least six months before planting vanilla.
Spacing – 3m x 1.5 m (10’ x 5’) (2000 cuttings / ha)
Planting should be done with the on set of rain. Loosen the soil around the base of support up to 8’’ deep in and area of about 2’ in diameter. Then add 2-3 basket of organic manure. Make a furrow 10 (4’’) deep (from support tree and across the surface of planting pit.) and place the cutting horizontally in the furrow leaving 3 cm from lower cut end jutting out into air . Cuttings should be buried firmly with upturned soil. The upper end of the cutting is tied up on to the support tree and mulching should be done up to thickness of 7.5 – 15 cm using decayed organic matter.
Vegetative methods are practiced. Cuttings, 3’-4.5’ (1-1.5m) in size, are obtained from selected mother vines. Lower end of the cuttings should be closer to the node and 3-4 leaves should be removed from the lower end. To induce buds cuttings should be hanged on a support for about 7 days.
Field Planting
Vanilla is a shade loving plant hence live support trees are used to provide adequate shade (50-60%). Glyricidia is the most suitable shade tree and support trees should be established at least six months before planting vanilla.
Spacing – 3m x 1.5 m (10’ x 5’) (2000 cuttings / ha)
Planting should be done with the on set of rain. Loosen the soil around the base of support up to 8’’ deep in and area of about 2’ in diameter. Then add 2-3 basket of organic manure. Make a furrow 10 (4’’) deep (from support tree and across the surface of planting pit.) and place the cutting horizontally in the furrow leaving 3 cm from lower cut end jutting out into air . Cuttings should be buried firmly with upturned soil. The upper end of the cutting is tied up on to the support tree and mulching should be done up to thickness of 7.5 – 15 cm using decayed organic matter.
Crop management
Training of vines -
When cuttings start to grow emerging axial buds should be trained to turn vines to grow upward direction. When vines reach top of the support tree they should be allowed to droop. When reached to ground let them to grow on soil further 30 -45 cm (1-1.5’) and then curl the stem upwards and allow the buds to grow up again on the support tree. This process should be repeated until vines form several loops. Ground area of loops should be covered with organic manure.
Stimulate flowering –
To get the maximum number of flowers flowering should be induced artificially. Usually this practice is done in January. For that 5-7 nodes are removed from the tip of drooped matured branches. To get 70-80% sunlight shade trees too should be pruned. .
Manuring-
Usually artificial fertilizer is not applied to vanilla but organic fertilizer is essential. Compost should be applied at the beginning of each rainy season. Plants should be mulched at least once in six month with dry or fresh leaves and lopping of shade trees.
Pollination-
In vanilla artificial pollination is essential as the natural pollination rarely produce pods. Flower is self-fertile, but incapable of self-pollination without the aid of an outside agency to either transfer the pollen from the anther to the stigma or to lift the flap or rostellum and press the anther against the stigma. Usually flowers come out in April-/ May period and flowers are small lily like, greenish-yellow in colour. There are about 20 flowers in a raceme. Usually, only one flower in a raceme opens in a day, with the entire flowering period of the raceme lasting an average of 24 days. The flower opens in the morning and closes in the afternoon, never to re-open. If it is not pollinated, it will shed the next day. The optimum time for pollination is in mid morning.
When cuttings start to grow emerging axial buds should be trained to turn vines to grow upward direction. When vines reach top of the support tree they should be allowed to droop. When reached to ground let them to grow on soil further 30 -45 cm (1-1.5’) and then curl the stem upwards and allow the buds to grow up again on the support tree. This process should be repeated until vines form several loops. Ground area of loops should be covered with organic manure.
Stimulate flowering –
To get the maximum number of flowers flowering should be induced artificially. Usually this practice is done in January. For that 5-7 nodes are removed from the tip of drooped matured branches. To get 70-80% sunlight shade trees too should be pruned. .
Manuring-
Usually artificial fertilizer is not applied to vanilla but organic fertilizer is essential. Compost should be applied at the beginning of each rainy season. Plants should be mulched at least once in six month with dry or fresh leaves and lopping of shade trees.
Pollination-
In vanilla artificial pollination is essential as the natural pollination rarely produce pods. Flower is self-fertile, but incapable of self-pollination without the aid of an outside agency to either transfer the pollen from the anther to the stigma or to lift the flap or rostellum and press the anther against the stigma. Usually flowers come out in April-/ May period and flowers are small lily like, greenish-yellow in colour. There are about 20 flowers in a raceme. Usually, only one flower in a raceme opens in a day, with the entire flowering period of the raceme lasting an average of 24 days. The flower opens in the morning and closes in the afternoon, never to re-open. If it is not pollinated, it will shed the next day. The optimum time for pollination is in mid morning.
Crop Protection
No economically important pests and diseases have been reported
Harvesting and Post Harvest practices
Harvesting –
Pods reach maturity after 8-9 months from pollination. Harvesting mainly falls in December- January. Ideal stage is when tip of the green pods start turning yellow and before split opened of the lower end of pods. In harvesting only mature pods should be e harvested. To make one kg of pods 70 -100 well ripened pods are needed and 6 kg of raw pods are needed to make 1kg of cured pods. Pods must atleast be longer than 6cm and better quality pods must be longer than 10cm. To get quality bulk of pods small pods ( Less tan 10 cm long) should be removed from the plants 2 months after pollination and allow only 8-10 pods in a bunch and remove all other pods. Pods should be plucked by turning upright and should not be used pair of scissors or knife to avoid fungus formed in cut end.
Yield – After 3 years of planting 500 – 800 kg/ha and peak yield level at 8years
Processing
There are several methods of processing but basic steps in each and every method are same. Those steps are
Pods reach maturity after 8-9 months from pollination. Harvesting mainly falls in December- January. Ideal stage is when tip of the green pods start turning yellow and before split opened of the lower end of pods. In harvesting only mature pods should be e harvested. To make one kg of pods 70 -100 well ripened pods are needed and 6 kg of raw pods are needed to make 1kg of cured pods. Pods must atleast be longer than 6cm and better quality pods must be longer than 10cm. To get quality bulk of pods small pods ( Less tan 10 cm long) should be removed from the plants 2 months after pollination and allow only 8-10 pods in a bunch and remove all other pods. Pods should be plucked by turning upright and should not be used pair of scissors or knife to avoid fungus formed in cut end.
Yield – After 3 years of planting 500 – 800 kg/ha and peak yield level at 8years
Processing
There are several methods of processing but basic steps in each and every method are same. Those steps are
- Killing or Wilting – Initiates the on set of enzymatic reactions responsible for the production of aroma and flavor. Pods become brown in color.
- Sweating - Increase the temperature to promote the enzymatic reactions and to provoke fairly rapid drying to prevent harmful fermentations, Develop deep brown coloration of pods.
- Drying – Slow drying. Beans reach to one-third of their original weight
- Conditioning – Store in closed boxes for a period of three months or longer to permit the full development of desired aroma and flavor
The
aroma and flavor of the cured vanilla bean/pod are the characteristics
that determine the bean’s commercial value on the world market.
Processing should be done carefully to preserve the maximum aroma and
flavor as well as the physical appearance. Once the mature vanilla beans
have been picked, they are taken to the curing and sorted according to
size and condition. Sorted beans are plunged into large vats of hot
water (63 degrees Celsius) and quickly drained. The warm beans are
wrapped in dark colored cotton fabric and after a day they are laid on
slatted platforms to dry in the open sun for an hour. For about a week,
the beans are left for two hours a day to dry in the sun and rolled in
cloth between drying session. At this stage the vanilla beans have
become quite supple. For the next two or three months the vanilla beans
are spread on racks in the shade or in well-ventilated rooms to allow
their full flavor and fragrance to develop. After the curing process,
vanilla beans are sorted in an open airy place and graded according to
length before they are bundled for shipment. By this time, their aroma
is quite remarkable.
Standard quality specifications
Length of pods – between 17-25cm
Smell - Inherited vanilla smell
Color – Dark brown or black color
Appearance - Shiny oily surface
Lack of insect attacks or other patches
Cleanness – Lack of extraneous matter, animal o plant parts or insects
Moisture – around 25%-30%
Standard quality specifications
Length of pods – between 17-25cm
Smell - Inherited vanilla smell
Color – Dark brown or black color
Appearance - Shiny oily surface
Lack of insect attacks or other patches
Cleanness – Lack of extraneous matter, animal o plant parts or insects
Moisture – around 25%-30%
Medicinal and Chemical Properties
Though
there are many compounds presents in the extracts of vanilla, Vanillin
(4-hydroxi-3-methoxybenzaldehyde) is primarily responsible for the
characteristic flavor and smell of vanilla. However there are hundreds
of minor compounds in vanilla extract. Main compound in vanilla oil is
piperonal (heliotropin)
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