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Sericulture

Prince Verma
Prince Verma

Sericulture in India involves the cultivation of mulberry plants as a food source for silkworms to produce silk. Major silk varieties include mulberry silk, tasar silk, oak tasar, eri, and muga silk. Mulberry silk comes from the domesticated Bombyx mori silkworm feeding solely on mulberry leaves. Mulberry is commercially grown using cuttings in nurseries before transplanting. Proper spacing, fertilization, irrigation, and pruning are required for healthy mulberry cultivation to support a thriving sericulture industry in India.

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Sericulture in India Sericulture Submitted by Prince Verma
Silkworm Cultivation The bulk of the commercial silk produced in the world comes from this variety and often silk generally refers to mulberry silk. Mulberry silk comes from the silkworm, Bombyx mori L. which solely feeds on the leaves of mulberry plant. Mulberry Bombyx mori These silkworms are completely domesticated and reared indoors. In India, the major mulberry silk producing states are Karnataka, Andhra Pradesh, West Bengal, Tamil Nadu and Jammu & Kashmir which together accounts for 92 % of country's total mulberry raw silk production Tasar (Tussah) is copperish colour, coarse silk mainly used for furnishings and interiors. It is less lustrous than mulberry silk, but has its own feel and appeal. Tasar silk is generated by the silkworm, Antheraea mylitta which mainly thrive on Tasar Antheraea mylitta the food plants Asan and Arjun. The rearings are conducted in nature on the trees in the open. In India, tasar silk is mainly produced in the states of Jharkhand, Chattisgarh and Orissa, besides Maharashtra, West Bengal and Andhra Pradesh. Tasar culture is the main stay for many a tribal community in India. It is a finer variety of tasar generated by the silkworm, Antheraea proyeli J. in India which feed on natural food plants of oak, found in abundance in the sub- Oak Tasar Antheraea proyeli J Himalayan belt of India covering the states of Manipur, Himachal Pradesh, Uttar Pradesh, Assam, Meghalaya and Jammu & Kashmir. China is the major producer of oak tasar in the world and this comes from another silkworm which is known as Antheraea pernyi. Also known as Endi or Errandi, Eri is a multivoltine silk spun from open-ended cocoons, unlike other varieties of silk. Eri silk is the product of the domesticated silkworm, Philosamia ricini that feeds mainly on castor leaves. Ericulture is a Eri Philosamia ricini household activity practiced mainly for protein rich pupae, a delicacy for the tribal. Resultantly, the eri cocoons are open-mouthed and are spun. The silk is used indigenously for preparation of chaddars (wraps) for own use by these tribals. In India, this culture is practiced mainly in the north-eastern states and Assam. It is also found in Bihar, West Bengal and Orissa Page 1
Silkworm Cultivation This golden yellow colour silk is prerogative of India and the pride of Assam state. It is obtained from semi-domesticated multivoltine silkworm, Antheraea Antheraea assamensis. These silkworms feed on the aromatic leaves of Som and Soalu Muga assamensis plants and are reared on trees similar to that of tasar. Muga culture is specific to the state of Assam and an integral part of the tradition and culture of that state. The muga silk, an high value product is used in products like sarees, mekhalas, chaddars, etc. Mulberry cultivation Mulberry (Morus spp., Moraceae) The important character of the members of the family Moraceae (especially Morus spp.) is the presence of idioblast, an enlarged epidermal cell in the leaf. Ecological requirements Climate Mulberry can be grown upto 800 m MSL. For the optimum growth of mulberry and good sprouting of the buds, the mean atmospheric temperature should be in the range of 13oC to 37.7oC. The ideal temperature should be between 24 and 28oC with relative humidity of 65 to 80 percent and sun shine duration of 5 to 12 hours per day. Mulberry can be grown in a rainfall range of 600mm to 2500mm. Under low rainfall conditions, the growth is limited and requires supplemental irrigation. On an average, 50mm once in 10 days is considered ideal for mulberry. Slightly acidic soils (6.2 to 6.8 pH) free from injurious salts are ideal for good growth of mulberry plant. Saline and alkaline soils are not preferred. Mulberry varieties Irrigated : Kanva 2, MR 2, S 30, S 36, S 54, DD (Viswa), V1 Semi irrigated : Kanva 2, MR 2 Rainfed : S 13, S 34, RFS 135, RFS 175, S 1635 Propagation of mulberry Mulberry is mostly propagated through cuttings. Cuttings may be planted straight away in the main field itself or nursery may be raised and the sprouted and rooted saplings may be planted in the main field. The latter method is advisable because of its easy establishment in the main field. Selection of planting material Generally, the mulberry plants are raised from semi-hardwood cuttings. Cuttings are selected from well-established garden of 8-12 months old. Only full grown thick main stems, free from insect and disease damages having a diameter of 10-12mm are chosen for preparation of cuttings. The cuttings should be of 15-20 cm with 3-4 active buds and should have 45o slanting cut at the bottom end. Care should be taken to make a sharp clean cut at both the ends of cuttings without splitting the bark. Manual/power operated mulberry cutter (stem cutting machine) is available for quick cutting of Propagation material Nursery bed preparation Page 2
Silkworm Cultivation Select 800 sq.m. area of red loamy soil near water source for raising saplings for planting one hectare of main field. Apply 1600 kg of FYM @ 20 t/ha and mix well with the soil. Raise nursery beds of 4m x 1.5m size. The length may be of convenient size depending upon the slope, irrigation source, etc. Provide a drainage channel and avoid shady area. Pre-treatment of cuttings Mix one kilogram of Azospirillum culture in 40 liters of water. Keep the bottom end of the cuttings for 30 minutes in it before planting. Azospirillum is applied for inducement of early rooting. Nursery planting Apply VAM @ 100 g/m2 of nursery area. Irrigate the nursery bed. Plant the cuttings in the nursery at 15 cm x 7 cm spacing at an angle of 45o. Ensure exposure of one active bud in each cutting. Nursery management Irrigate the nursery once in three days. Dust one kg of any one of the following chemicals around the nursery bed to avoid termite attack. 1. endosulfan 4 D 2. malathion 5 D 3. quinalphos 1.5 D To avoid root rot and collar rot, drench the soil with carbendazim 50 WP (2 g/l) or apply Trichoderma viride 0.5 g/m2 using rose can. After weeding, apply 100 g of urea/m2 between 45 and 50 days after planting. Age of sapling The saplings are ready for transplanting in the main field after 90-120 days of planting. Paired row system : Plant the cuttings/saplings at a spacing of 75 / 105 cm x 90 cm. Raise intercrops in the wider inter row space (amenable for mechanization also). Planting method Spacing (cm) Irrigated Rainfed Ridges and furrows 60 x 60 / 90x90 90 x 90 Pit system 90 x 90 90 x 90 No. of cuttings / ha. - 27,780 (60 x 60 cm) ; 12,345 (90 x 90 cm) Time of planting Plant the well rooted and sprouted saplings at a depth of 15-20 cm Earth up and level the area around the saplings Gap fill during monsoon months. Irrigated Row System Pit System Page 3
Silkworm Cultivation N P K N P K Recommendation 300 120 120 280 120 120 Split Doses First Crop 60 60 60 60 60 60 Second Crop 60 40 Third Crop 60 60 60 40 Forth Crop 60 60 60 60 Fifth Crop 60 40 Sixth Crop 40 For V1, fertilizer schedule is 375 : 140 : 140 kg NPK/ha. Apply fertilizers as per soil recommendation wherever possible Apply the first dose of fertilizers three months after planting Follow subsequent fertilizer application after each leaf harvest and pruning Apply straight fertilizers to minimize the cost b) Rainfed (Kg/ha) N P K Recommendation 100 50 50 First dose 50 50 50 Second dose 50 - - Apply the first and second doses coinciding with South West and North East monsoons respectively. Bio-fertilizers Apply Azospirillum @ 20 kg/ha in five split doses. Apply phosphobacterium @ 10 kg/h in two equal splits. Mix the bio-fertilizers with 50 kg of FYM for uniform distribution Ensure irrigation after application Do not mix bio-fertilizers with inorganic fertilizers Growing and insitu incorporation of sunnhemp. Micro nutrients Apply recommended major/secondary nutrients based on the deficiency symptoms. For micro nutrients according to the deficiency symptom expressed, apply micronutrients as foliar spary @ Zinc sulphate 5 g, Ferrous sulphate 10 g, Borax 2.5 g, Copper sulphate 2.5 g, Manganese 2.5 g or Sodium molybdate 100 mg/lit of water using high volume sprayer (spray fluid 500 lit/ha). ■Add wetting agent, Teepol @ 0.5 ml/lit. for better adherence on the foliage. Methods of Irrigation Ridges and furrows method Most efficient method of irrigation Page 4
Silkworm Cultivation Comparatively requires less amount of water The furrows serve as drainage channels during heavy rainfall. Flat bed method Rectangular beds and channels are formed Water run off is relatively low More land is wasted and requires more labour for field preparation. Drip Irrigation Most efficient in water use Can be used in undulating terrains Fertilizers can also be applied along with irrigation water Initial cost is very high Weed Flora The common weed flora in the mulberry garden is given below. 1. MONOCOTYLEDONOUS WEEDS (Grassy weeds) Cyperus rotundus Korai Nut grass Cynodon dactylon Arugampull Bermuda grass 2. DICOTYLEDONOUS WEEDS (Broad leaves) Abutilon indicum Thuthi Velvet leaf Amaranthus viridis Kuppaikeerai Pig weed Acalypha indica Kuppaimeni Copper leaf Boerhaevia diffusa Mookaratai Hog weed Croton sparsiflorus Milakai poondu Croton Parthenium hysterophorus Vizhachedi Carrot grass Trianthema portulacastrum Saranai Carpet grass Tridax procumbens Manjapoo Tridax INTEGRATED WEED MANAGEMENT Chemical method As post-emergence application, use Paraquat (Grammoxone) @ 2-3 lit/ha.Spray Glycel 7.5 ml with 10 grams of ammonium sulphate per litre of water as post-emergence application. A total of 600 litres of spray fluid is required/ha.Use flooding / deflector / fan type nozzle for spraying weedicide. Apply the weedicide immediately after pruning or within 2-3 days after pruning. Intercropping Intercropping with short duration pulse crop enriches the soil, gives additional revenue and also controls the weed growth. Grow any one of the following crops / varieties as intercrop Black gram - Co 5, VBN 1, VBN 3, VBN 4 Green gram - Co 5, Paiyur 1, Pusa bold, VBN 2, VRM 1, Co 6 Cowpea - Co 4, Co 5, Pusa 152 ■Seed rate : 10 kg/ha ■Sow the intercrop after pruning and earthing up Mulching Mulching with pruned mulberry twigs and other materials like straw and dried leaves will have the following advantages Controls weed growth Conserves soil moisture by reducing run-off Page 5
Silkworm Cultivation Increases the infiltration of water Reduces the soil temperature Bottom pruning The plants are cut at ground level leaving 10-15 cm stump above the ground. This type of pruning is done once in a year. ii) Middle pruning The branches are cut at 40-60 cm above the ground level. After bottom pruning, subsequent cuts are made at 45-50 cm height. iii) Kolar or Strip system In closely planted area, this type of pruning is done. The branches are cut at ground level every time. Thus, it receives five prunings every year. This type of severe pruning requires heavy fertilization and irrigation. Harvesting The method of leaf harvest depends on the type of rearing practiced There are three methods of harvesting of mulberry leaves Individual leaves are harvested with or without petiole. Leaf picking starts 10 weeks after bottom pruning and subsequent pickings are done at an interval of 7 weeks. 1.Branch cutting The entire branches are cut and fed to the worms. Before that, topping is done to ensure uniform maturity of the lower leaves. The branches are cut at ground level by bottom pruning. Shoots are harvested at an interval of 10-12 weeks and thus 5 to 6 harvests are made in a year. Time of harvest It is preferable to harvest the leaves during morning hours. Preservation of leaves Use leaf preservation chamber or wet gunny bags to store the leaves or cover the bamboo basket with wet gunny bags to keep it cool and fresh. Disinfectants used in Silkworm cultivation Spray 2 % formalin with 0.3% slaked lime or 2.5 % chlorine dioxide with 0.5 % slaked lime @ 2 l/m2 area for disinfecting the rearing house immediately after completion of rearing and three days before brushing. Dip the rearing equipment’s in 2 % bleaching powder solution and sundry before use. Dust 5% bleaching powder with slaked lime powder @ 200 g/m2 around the rearing house and passages and sprinkle water @ 1 lit / m2 floor area. Incubation of egg and hatching The egg sheets should be spread out as a single layer in a chawki tray. Temperature of 25oC and humidity of 80 per cent are maintained. For this, paraffin papers and wet foam pads may be used. When the eggs come to head pigmentation stage (about 48 hours before hatching), they should be kept in dark condition by wrapping them in black paper or by keeping them in a box (black boxing). On the expected day of hatching, eggs are exposed to light, early in the morning to ensure uniform hatching. This facilitates uniform development of embryo. Most of the eggs (90 to 95 per cent) will hatch in about 2 to 3 hours. Low cost method of preservation of eggs The eggs can be kept in an earthen incubation chamber. Draw the diagram and observe how humidity is maintained in the chamber. Brushing Page 6
Silkworm Cultivation The hatched larvae should not be starved and they must be brushed on a paraffin paper in a rearing tray or blue polythene sheet (Rearing bed). This is done by sprinkling chopped tender mulberry leaves of size 0.5 to 1 cm2 over the hatched larvae. The larvae crawl on to the leaves. After 8 to 10 minutes, the egg sheet is inverted over rearing tray and gently tapped. Worms that are still attached to the egg sheets should be gently removed to the tray with a feather. A rearing bed is prepared and some more chopped leaves, if necessary, are sprinkled. To prevent drying of leaves and to maintain the required humidity in the rearing bed, wet foam pads and paraffin paper covering are provided YOUNG AGE SILKWORM (CHAWKI) REARING ■In a tray of 120 cm x 90 cm x 105 cm size, 20 dfls are brushed and reared upto second stage. Selection of leaves From brushing to the end of second age, the larvae are fed with tender leaves. The leaves are selected from the largest glossy leaf, 3rd or 4th from the top. The next 6 to 8 leaves are used to rear the young age worms upto II moult. The size of the chopped leaf is around 0.5 to 1.0 sq.cm. during 2nd age. Illustrate with the help of a figure, the selection of leaves from a fully grown branch. Leaf preservation Silkworm grows best when fed with succulent leaves which are rich in nutrients and moisture. The leaves, if not preserved properly, dry up and become unsuitable for feeding. The harvested leaves must be preserved in fresh condition in a wet gunny cloth. If the climate is too hot and dry, the leaves are preserved in a leaf chamber which is lined with gunny cloth. The cloth is kept wet by spraying water at frequent intervals. Cleaning It is the process of removing the silkworm excreta and left over leaves in the rearing bed In the first age, one cleaning is given just a day before the worms settle for moulting. In the second age, two cleanings are given, one after resuming feeding and the other before second moult. A net with mesh size of 0.5 x 0.5 cm is spread over the rearing bed and feeding is given. The worms crawl through the net and come to fresh leaves. The net along with the worms and leaves are transferred to another tray. The left over leaves and litter are discarded. Moulting At the time of moulting, care should be taken not to disturb the worms. Correct detection of moult and stopping or resuming feeds are very important for uniform growth of silkworms. During moult, the rearing bed should be kept thin and dry by applying lime @ 30 – 50 g/m2 and should have proper aeration. LATE AGE SILKWORM REARING The third, fourth and fifth instar larvae are considered as late age worms. They are reared in bamboo trays. Newspapers are spread over the trays to absorb excess moisture in leaves and faecal pellets. The temperature and humidity requirement gradually comes down as the stage advances. Page 7
Silkworm Cultivation Leaves of medium maturity (6th leaf onwards) are fed in the third and fourth age and coarse leaves are fed in the fifth age. Over matured and yellow leaves should be rejected, since they may induce disease outbreak. Bed disinfectants Apply bed disinfectants like TNAU Seridust, Resham Jyothi, Vijetha or Sajeevini @ 4 kgs/100 dfls. Moulting Remove the paraffin papers Evenly spread the larvae in the rearing bed 6-8 h before settling for moult. Provide air circulation to avoid excess humidity inside the room. Provide charcoal stove/heaters to raise the room temperature during winter. Apply lime powder at 60 minutes before resumption of feeding daily during rainy/winter seasons to reduce the dampness in bamboo trays. Mounting Apply Sampoorna @ 20 ml (dissolved in 4 l of water) per 100 dfls over the leaves for early and uniform spinning of cocoons. After attaining full growth in the final instar, the worms cease to feed and are ready to spin. Such worms are slightly translucent and raise their heads to find a place for spinning. These worms have to be picked up and transferred to a mountage for spinning cocoons. Mounting of worms should not be delayed as the ripened worms will waste silk. About 800-900 worms per m2 are to be kept on a mountage. For 100 dfls, about 30 to 40 chandrakis are required. Mountages should be kept under shade in well ventilated place. Care during spinning Quality of silk depends on the care taken at the time of spinning. Mature worms are sensitive to temperature, humidity, light, etc., at the time of spinning. The ripe worm requires space equal in area to square of the length of its body for spinning. Proper spacing avoids wastage of silk for forming preliminary web and avoids double cocoons. To prevent staining of cocoons, keep mountage in an inclined position so that the urine may drop to the ground. Maintenance of humidity Fluctuation of humidity causes abrupt thinning and thickening of silk filament. A relative humidity of 60-70% is ideal for spinning. Provide proper ventilation and straw mats below the mountage to quid excreta. Provide even and moderate lighting. Improper lighting (bright light or dark shadow) causes crowding of larvae to shaded area leading to double cocoons. Remove dead worms and non-spinners on the 2nd day of spinning. To protect the silkworm from predatory ants, apply malathion 5% dust/lakshman rekha at the base of mountage stand. Harvesting The silk worms complete spinning in 2 to 3 days but the cocoons should not be harvested at this time as the worms inside are still in the prepupal stage. Harvesting should be done on the fifth day (7th day for bivoltine hybrids) when pupae are fully formed and hard. Do not harvest when the pupa is in amber colour. Page 8
Silkworm Cultivation Dead and diseased worms on the mountages should be removed before harvest. Marketing of cocoons should be done on the sixth day (8th day for bivoltine hybrids). Shoot rearing for late age worms Silkworm larvae consume 85% of their food requirement during fifth instar. Fifty per cent of the labour input is utilized during the last seven days of rearing. Rearing house Provide separate rearing house for shoot rearing in shady areas. Separate room should be provided for young age worm rearing, leaf storing and hall for late age worm rearing. Shoot rearing rack A rearing rack of 1.2m x 11m size is sufficient to rear 50 dfls. Provide 15 cm border on all sides of the shelf to prevent the migration of the larvae. Arrange the shelves in three tier system with 50 cm space between the tiers. Fabricate the rack stand with wood, or steel and the rearing seat with wire mesh/bamboo mat. Shoot harvesting Harvest the shoots at 1 m height from ground level at 60 to 70 days after pruning. Store the shoots vertically upwards in dark cooler room. Provide thin layer of water (3 cm) in one corner of storage room and place the cut of shoots in the water for moisture retention. Feeding Provide a layer of newspaper in rearing shelf. Disinfect the bed, spread the shoot in perpendicular to width of the bed. Place top and bottom ends of the shoots alternatively to ensure equal mixing of different qualities of leaves. Transfer the third instar larvae to shoots immediately after moulting. Watch for feeding rate from 4th day of fourth instar. If 90% of larvae have not settled for moulting, provide one or two extra feedings. Provide 3 feedings during rainy/winter months and 4 feedings during summer rearing. Spacing 18-36 m2/100 dfls. Bed cleaning Bed cleaning is done once during second day of fifth instar following rope (or) net method. In rope method, spread 2 m length of rope (two numbers) at parallel row leaving 0.5m on other side. After 2 to 3 feedings, ends of the ropes are pulled to the centre to make it into a bundle. In net cleaning method, spread 1.5 cm2 size net across the bed. After 2 or 3 feedings, the nets are lifted and the old bed is cleaned and disinfected. Transfer the net to newer shelf, spread the net over the shoots; larvae will migrate to lower layer. Advantages Labour saving upto 70% when compared on hour to hour basis with leaf feeding method. Leaf saving upto 15-20%. Hence, leaf cocoon ratio is less by 2-3 kg and extra cocoon production. Better cocoon characters and effective rate of rearing (ERR). Better preservation of leaf quality both during storing and on the bed. More organic matter production (upto 18 tonnes per ha per year). Page 9
Silkworm Cultivation Better hygienic conditions can be maintained. Handling of silkworms minimised. Hence, contamination and spreading of disease reduced. Bed cleaning only once after IV moult. Worms and leaves are kept away from the litter. Hence, chances of secondary contamination are minimised. Labour dependent risk is reduced. Disadvantages Required rearing room floor area is more (by 30%) Bed refusals will not be available as a cattle feed. Planting materials (cuttings) will not be available. UZIFLY is the main pest of silkworm Type of damage Mature maggot causes reduction in yield of cocoons and cocoon quality. Causes death of silkworm larva. Period of occurrence Throughout the year, severity is more in winter months •Maintain sanitary and hygienic conditions in the rearing room. •Provide physical barriers like wire mesh in the doors and windows of the rearing rooms. •Spray 1 per cent benzoic acid over the larvae to kill the eggs of uzi fly. •Dissolve the uzicide tablets in the water (2 tablets/l) to attract the adults. •Release the gregarious, ectopupal hyperparasitoid, Nesolynx thymus (Eulophidae: Hymenoptera) @ 1 lakh adults/100 dfls during night hours. Release the hyperparasitoid in three split doses @ 8000, 16,000 and 76,000/100 DFLs during fourth and fifth instars and after cocoon harvest. Common Sl. No. Scientific Name Name 1 Pink mealybug Maconellicoccus hirsutus Jassid/leaf 2 Empoasca flavescens hopper 3 Termite Odontotermes sp. 4 White grub Holotrichia spp. 5 Mite Tetranychus sp. Integrated Pest Management Sl.No Component Days after pruning 1 Flood irrigation 0 Release of pupal parasitoid, 2 Tetrastichus howardi@ 20,000 / 1 ac. Release of egg parasitoid, 3 Trichogramma chilonis @ 2cc / 10 ac. 4 Spraying of dichlorvos @ 1ml /l. 30 Page 10
Silkworm Cultivation Mechanical clipping and burning 5 40 of affected shoots Disease are Viral,Bacterial, Fungal- White muscadine caused by Beauveria bassiana green muscadine Caused By Spicaria prasina Aspergillosis common in young Silk worm Dark green Aspergillus flavus Rusty brown Aspergillus tamari Protozoan disease: Pebrine(Worm shows slow growth Sl. No Disease Causal organism 1 Leaf spot Cercospora moricola 2 Powdery mildew Phyllactinia corylea Macrophomina phaseolina 3 Root rot Fusarium solani .oxysporum 4 Root knot nematode Meloidogyne incognita Post Cocoon Technology POST COCOON TECHNOLOGy Presently, silk is produced mainly using three reeling technologies namely Charka, Cottage basin / domestic basin and Multiend reeling technology in the country. About 50% silk produced is of Charka and about 35 to 40 % is of cottage basin and small quantity is from multiend reeling. Due to inherent inadequacies in charka, it is not possible to produce good quality silk. Even though the cottage basin produces better quality silk compared to charka, it still falls short of international grade. The main reason why charka is still dominating is that the bulk of raw silk produced is used by handloom sector, wherein the cost factor of raw material has to be kept low. Poor quality cocoon can only be reeled economically on charka. In order to achieve better reeling performance, following have to be considered 1. Casting of cocoons to be such to have raw silk of uniform denier 2. The broken end during reeling has to be knotted to improve the winding quality. 3. Water has to be changed after it becomes turbid to improve reeling performance and colour of the silk. 4. Water quality has to be maintained to get clean silk. 5. Motorised charka to maintain uniform reeling speed and reduce labour cost is must. 6. CSRTI economic oven reduces fuel cost. 7. Drying during reeling to reduce gum spots is important 8. Silk waste should be stretched, dried and stored properly. Page 11
Silkworm Cultivation Cocoon Selection Twisting Stifling Degumminhg and Bleaching Cooking Dying Brushing Reeling Weaving Re-Reeling Page 12

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Sericulture

  • 2. Silkworm Cultivation The bulk of the commercial silk produced in the world comes from this variety and often silk generally refers to mulberry silk. Mulberry silk comes from the silkworm, Bombyx mori L. which solely feeds on the leaves of mulberry plant. Mulberry Bombyx mori These silkworms are completely domesticated and reared indoors. In India, the major mulberry silk producing states are Karnataka, Andhra Pradesh, West Bengal, Tamil Nadu and Jammu & Kashmir which together accounts for 92 % of country's total mulberry raw silk production Tasar (Tussah) is copperish colour, coarse silk mainly used for furnishings and interiors. It is less lustrous than mulberry silk, but has its own feel and appeal. Tasar silk is generated by the silkworm, Antheraea mylitta which mainly thrive on Tasar Antheraea mylitta the food plants Asan and Arjun. The rearings are conducted in nature on the trees in the open. In India, tasar silk is mainly produced in the states of Jharkhand, Chattisgarh and Orissa, besides Maharashtra, West Bengal and Andhra Pradesh. Tasar culture is the main stay for many a tribal community in India. It is a finer variety of tasar generated by the silkworm, Antheraea proyeli J. in India which feed on natural food plants of oak, found in abundance in the sub- Oak Tasar Antheraea proyeli J Himalayan belt of India covering the states of Manipur, Himachal Pradesh, Uttar Pradesh, Assam, Meghalaya and Jammu & Kashmir. China is the major producer of oak tasar in the world and this comes from another silkworm which is known as Antheraea pernyi. Also known as Endi or Errandi, Eri is a multivoltine silk spun from open-ended cocoons, unlike other varieties of silk. Eri silk is the product of the domesticated silkworm, Philosamia ricini that feeds mainly on castor leaves. Ericulture is a Eri Philosamia ricini household activity practiced mainly for protein rich pupae, a delicacy for the tribal. Resultantly, the eri cocoons are open-mouthed and are spun. The silk is used indigenously for preparation of chaddars (wraps) for own use by these tribals. In India, this culture is practiced mainly in the north-eastern states and Assam. It is also found in Bihar, West Bengal and Orissa Page 1
  • 3. Silkworm Cultivation This golden yellow colour silk is prerogative of India and the pride of Assam state. It is obtained from semi-domesticated multivoltine silkworm, Antheraea Antheraea assamensis. These silkworms feed on the aromatic leaves of Som and Soalu Muga assamensis plants and are reared on trees similar to that of tasar. Muga culture is specific to the state of Assam and an integral part of the tradition and culture of that state. The muga silk, an high value product is used in products like sarees, mekhalas, chaddars, etc. Mulberry cultivation Mulberry (Morus spp., Moraceae) The important character of the members of the family Moraceae (especially Morus spp.) is the presence of idioblast, an enlarged epidermal cell in the leaf. Ecological requirements Climate Mulberry can be grown upto 800 m MSL. For the optimum growth of mulberry and good sprouting of the buds, the mean atmospheric temperature should be in the range of 13oC to 37.7oC. The ideal temperature should be between 24 and 28oC with relative humidity of 65 to 80 percent and sun shine duration of 5 to 12 hours per day. Mulberry can be grown in a rainfall range of 600mm to 2500mm. Under low rainfall conditions, the growth is limited and requires supplemental irrigation. On an average, 50mm once in 10 days is considered ideal for mulberry. Slightly acidic soils (6.2 to 6.8 pH) free from injurious salts are ideal for good growth of mulberry plant. Saline and alkaline soils are not preferred. Mulberry varieties Irrigated : Kanva 2, MR 2, S 30, S 36, S 54, DD (Viswa), V1 Semi irrigated : Kanva 2, MR 2 Rainfed : S 13, S 34, RFS 135, RFS 175, S 1635 Propagation of mulberry Mulberry is mostly propagated through cuttings. Cuttings may be planted straight away in the main field itself or nursery may be raised and the sprouted and rooted saplings may be planted in the main field. The latter method is advisable because of its easy establishment in the main field. Selection of planting material Generally, the mulberry plants are raised from semi-hardwood cuttings. Cuttings are selected from well-established garden of 8-12 months old. Only full grown thick main stems, free from insect and disease damages having a diameter of 10-12mm are chosen for preparation of cuttings. The cuttings should be of 15-20 cm with 3-4 active buds and should have 45o slanting cut at the bottom end. Care should be taken to make a sharp clean cut at both the ends of cuttings without splitting the bark. Manual/power operated mulberry cutter (stem cutting machine) is available for quick cutting of Propagation material Nursery bed preparation Page 2
  • 4. Silkworm Cultivation Select 800 sq.m. area of red loamy soil near water source for raising saplings for planting one hectare of main field. Apply 1600 kg of FYM @ 20 t/ha and mix well with the soil. Raise nursery beds of 4m x 1.5m size. The length may be of convenient size depending upon the slope, irrigation source, etc. Provide a drainage channel and avoid shady area. Pre-treatment of cuttings Mix one kilogram of Azospirillum culture in 40 liters of water. Keep the bottom end of the cuttings for 30 minutes in it before planting. Azospirillum is applied for inducement of early rooting. Nursery planting Apply VAM @ 100 g/m2 of nursery area. Irrigate the nursery bed. Plant the cuttings in the nursery at 15 cm x 7 cm spacing at an angle of 45o. Ensure exposure of one active bud in each cutting. Nursery management Irrigate the nursery once in three days. Dust one kg of any one of the following chemicals around the nursery bed to avoid termite attack. 1. endosulfan 4 D 2. malathion 5 D 3. quinalphos 1.5 D To avoid root rot and collar rot, drench the soil with carbendazim 50 WP (2 g/l) or apply Trichoderma viride 0.5 g/m2 using rose can. After weeding, apply 100 g of urea/m2 between 45 and 50 days after planting. Age of sapling The saplings are ready for transplanting in the main field after 90-120 days of planting. Paired row system : Plant the cuttings/saplings at a spacing of 75 / 105 cm x 90 cm. Raise intercrops in the wider inter row space (amenable for mechanization also). Planting method Spacing (cm) Irrigated Rainfed Ridges and furrows 60 x 60 / 90x90 90 x 90 Pit system 90 x 90 90 x 90 No. of cuttings / ha. - 27,780 (60 x 60 cm) ; 12,345 (90 x 90 cm) Time of planting Plant the well rooted and sprouted saplings at a depth of 15-20 cm Earth up and level the area around the saplings Gap fill during monsoon months. Irrigated Row System Pit System Page 3
  • 5. Silkworm Cultivation N P K N P K Recommendation 300 120 120 280 120 120 Split Doses First Crop 60 60 60 60 60 60 Second Crop 60 40 Third Crop 60 60 60 40 Forth Crop 60 60 60 60 Fifth Crop 60 40 Sixth Crop 40 For V1, fertilizer schedule is 375 : 140 : 140 kg NPK/ha. Apply fertilizers as per soil recommendation wherever possible Apply the first dose of fertilizers three months after planting Follow subsequent fertilizer application after each leaf harvest and pruning Apply straight fertilizers to minimize the cost b) Rainfed (Kg/ha) N P K Recommendation 100 50 50 First dose 50 50 50 Second dose 50 - - Apply the first and second doses coinciding with South West and North East monsoons respectively. Bio-fertilizers Apply Azospirillum @ 20 kg/ha in five split doses. Apply phosphobacterium @ 10 kg/h in two equal splits. Mix the bio-fertilizers with 50 kg of FYM for uniform distribution Ensure irrigation after application Do not mix bio-fertilizers with inorganic fertilizers Growing and insitu incorporation of sunnhemp. Micro nutrients Apply recommended major/secondary nutrients based on the deficiency symptoms. For micro nutrients according to the deficiency symptom expressed, apply micronutrients as foliar spary @ Zinc sulphate 5 g, Ferrous sulphate 10 g, Borax 2.5 g, Copper sulphate 2.5 g, Manganese 2.5 g or Sodium molybdate 100 mg/lit of water using high volume sprayer (spray fluid 500 lit/ha). ■Add wetting agent, Teepol @ 0.5 ml/lit. for better adherence on the foliage. Methods of Irrigation Ridges and furrows method Most efficient method of irrigation Page 4
  • 6. Silkworm Cultivation Comparatively requires less amount of water The furrows serve as drainage channels during heavy rainfall. Flat bed method Rectangular beds and channels are formed Water run off is relatively low More land is wasted and requires more labour for field preparation. Drip Irrigation Most efficient in water use Can be used in undulating terrains Fertilizers can also be applied along with irrigation water Initial cost is very high Weed Flora The common weed flora in the mulberry garden is given below. 1. MONOCOTYLEDONOUS WEEDS (Grassy weeds) Cyperus rotundus Korai Nut grass Cynodon dactylon Arugampull Bermuda grass 2. DICOTYLEDONOUS WEEDS (Broad leaves) Abutilon indicum Thuthi Velvet leaf Amaranthus viridis Kuppaikeerai Pig weed Acalypha indica Kuppaimeni Copper leaf Boerhaevia diffusa Mookaratai Hog weed Croton sparsiflorus Milakai poondu Croton Parthenium hysterophorus Vizhachedi Carrot grass Trianthema portulacastrum Saranai Carpet grass Tridax procumbens Manjapoo Tridax INTEGRATED WEED MANAGEMENT Chemical method As post-emergence application, use Paraquat (Grammoxone) @ 2-3 lit/ha.Spray Glycel 7.5 ml with 10 grams of ammonium sulphate per litre of water as post-emergence application. A total of 600 litres of spray fluid is required/ha.Use flooding / deflector / fan type nozzle for spraying weedicide. Apply the weedicide immediately after pruning or within 2-3 days after pruning. Intercropping Intercropping with short duration pulse crop enriches the soil, gives additional revenue and also controls the weed growth. Grow any one of the following crops / varieties as intercrop Black gram - Co 5, VBN 1, VBN 3, VBN 4 Green gram - Co 5, Paiyur 1, Pusa bold, VBN 2, VRM 1, Co 6 Cowpea - Co 4, Co 5, Pusa 152 ■Seed rate : 10 kg/ha ■Sow the intercrop after pruning and earthing up Mulching Mulching with pruned mulberry twigs and other materials like straw and dried leaves will have the following advantages Controls weed growth Conserves soil moisture by reducing run-off Page 5
  • 7. Silkworm Cultivation Increases the infiltration of water Reduces the soil temperature Bottom pruning The plants are cut at ground level leaving 10-15 cm stump above the ground. This type of pruning is done once in a year. ii) Middle pruning The branches are cut at 40-60 cm above the ground level. After bottom pruning, subsequent cuts are made at 45-50 cm height. iii) Kolar or Strip system In closely planted area, this type of pruning is done. The branches are cut at ground level every time. Thus, it receives five prunings every year. This type of severe pruning requires heavy fertilization and irrigation. Harvesting The method of leaf harvest depends on the type of rearing practiced There are three methods of harvesting of mulberry leaves Individual leaves are harvested with or without petiole. Leaf picking starts 10 weeks after bottom pruning and subsequent pickings are done at an interval of 7 weeks. 1.Branch cutting The entire branches are cut and fed to the worms. Before that, topping is done to ensure uniform maturity of the lower leaves. The branches are cut at ground level by bottom pruning. Shoots are harvested at an interval of 10-12 weeks and thus 5 to 6 harvests are made in a year. Time of harvest It is preferable to harvest the leaves during morning hours. Preservation of leaves Use leaf preservation chamber or wet gunny bags to store the leaves or cover the bamboo basket with wet gunny bags to keep it cool and fresh. Disinfectants used in Silkworm cultivation Spray 2 % formalin with 0.3% slaked lime or 2.5 % chlorine dioxide with 0.5 % slaked lime @ 2 l/m2 area for disinfecting the rearing house immediately after completion of rearing and three days before brushing. Dip the rearing equipment’s in 2 % bleaching powder solution and sundry before use. Dust 5% bleaching powder with slaked lime powder @ 200 g/m2 around the rearing house and passages and sprinkle water @ 1 lit / m2 floor area. Incubation of egg and hatching The egg sheets should be spread out as a single layer in a chawki tray. Temperature of 25oC and humidity of 80 per cent are maintained. For this, paraffin papers and wet foam pads may be used. When the eggs come to head pigmentation stage (about 48 hours before hatching), they should be kept in dark condition by wrapping them in black paper or by keeping them in a box (black boxing). On the expected day of hatching, eggs are exposed to light, early in the morning to ensure uniform hatching. This facilitates uniform development of embryo. Most of the eggs (90 to 95 per cent) will hatch in about 2 to 3 hours. Low cost method of preservation of eggs The eggs can be kept in an earthen incubation chamber. Draw the diagram and observe how humidity is maintained in the chamber. Brushing Page 6
  • 8. Silkworm Cultivation The hatched larvae should not be starved and they must be brushed on a paraffin paper in a rearing tray or blue polythene sheet (Rearing bed). This is done by sprinkling chopped tender mulberry leaves of size 0.5 to 1 cm2 over the hatched larvae. The larvae crawl on to the leaves. After 8 to 10 minutes, the egg sheet is inverted over rearing tray and gently tapped. Worms that are still attached to the egg sheets should be gently removed to the tray with a feather. A rearing bed is prepared and some more chopped leaves, if necessary, are sprinkled. To prevent drying of leaves and to maintain the required humidity in the rearing bed, wet foam pads and paraffin paper covering are provided YOUNG AGE SILKWORM (CHAWKI) REARING ■In a tray of 120 cm x 90 cm x 105 cm size, 20 dfls are brushed and reared upto second stage. Selection of leaves From brushing to the end of second age, the larvae are fed with tender leaves. The leaves are selected from the largest glossy leaf, 3rd or 4th from the top. The next 6 to 8 leaves are used to rear the young age worms upto II moult. The size of the chopped leaf is around 0.5 to 1.0 sq.cm. during 2nd age. Illustrate with the help of a figure, the selection of leaves from a fully grown branch. Leaf preservation Silkworm grows best when fed with succulent leaves which are rich in nutrients and moisture. The leaves, if not preserved properly, dry up and become unsuitable for feeding. The harvested leaves must be preserved in fresh condition in a wet gunny cloth. If the climate is too hot and dry, the leaves are preserved in a leaf chamber which is lined with gunny cloth. The cloth is kept wet by spraying water at frequent intervals. Cleaning It is the process of removing the silkworm excreta and left over leaves in the rearing bed In the first age, one cleaning is given just a day before the worms settle for moulting. In the second age, two cleanings are given, one after resuming feeding and the other before second moult. A net with mesh size of 0.5 x 0.5 cm is spread over the rearing bed and feeding is given. The worms crawl through the net and come to fresh leaves. The net along with the worms and leaves are transferred to another tray. The left over leaves and litter are discarded. Moulting At the time of moulting, care should be taken not to disturb the worms. Correct detection of moult and stopping or resuming feeds are very important for uniform growth of silkworms. During moult, the rearing bed should be kept thin and dry by applying lime @ 30 – 50 g/m2 and should have proper aeration. LATE AGE SILKWORM REARING The third, fourth and fifth instar larvae are considered as late age worms. They are reared in bamboo trays. Newspapers are spread over the trays to absorb excess moisture in leaves and faecal pellets. The temperature and humidity requirement gradually comes down as the stage advances. Page 7
  • 9. Silkworm Cultivation Leaves of medium maturity (6th leaf onwards) are fed in the third and fourth age and coarse leaves are fed in the fifth age. Over matured and yellow leaves should be rejected, since they may induce disease outbreak. Bed disinfectants Apply bed disinfectants like TNAU Seridust, Resham Jyothi, Vijetha or Sajeevini @ 4 kgs/100 dfls. Moulting Remove the paraffin papers Evenly spread the larvae in the rearing bed 6-8 h before settling for moult. Provide air circulation to avoid excess humidity inside the room. Provide charcoal stove/heaters to raise the room temperature during winter. Apply lime powder at 60 minutes before resumption of feeding daily during rainy/winter seasons to reduce the dampness in bamboo trays. Mounting Apply Sampoorna @ 20 ml (dissolved in 4 l of water) per 100 dfls over the leaves for early and uniform spinning of cocoons. After attaining full growth in the final instar, the worms cease to feed and are ready to spin. Such worms are slightly translucent and raise their heads to find a place for spinning. These worms have to be picked up and transferred to a mountage for spinning cocoons. Mounting of worms should not be delayed as the ripened worms will waste silk. About 800-900 worms per m2 are to be kept on a mountage. For 100 dfls, about 30 to 40 chandrakis are required. Mountages should be kept under shade in well ventilated place. Care during spinning Quality of silk depends on the care taken at the time of spinning. Mature worms are sensitive to temperature, humidity, light, etc., at the time of spinning. The ripe worm requires space equal in area to square of the length of its body for spinning. Proper spacing avoids wastage of silk for forming preliminary web and avoids double cocoons. To prevent staining of cocoons, keep mountage in an inclined position so that the urine may drop to the ground. Maintenance of humidity Fluctuation of humidity causes abrupt thinning and thickening of silk filament. A relative humidity of 60-70% is ideal for spinning. Provide proper ventilation and straw mats below the mountage to quid excreta. Provide even and moderate lighting. Improper lighting (bright light or dark shadow) causes crowding of larvae to shaded area leading to double cocoons. Remove dead worms and non-spinners on the 2nd day of spinning. To protect the silkworm from predatory ants, apply malathion 5% dust/lakshman rekha at the base of mountage stand. Harvesting The silk worms complete spinning in 2 to 3 days but the cocoons should not be harvested at this time as the worms inside are still in the prepupal stage. Harvesting should be done on the fifth day (7th day for bivoltine hybrids) when pupae are fully formed and hard. Do not harvest when the pupa is in amber colour. Page 8
  • 10. Silkworm Cultivation Dead and diseased worms on the mountages should be removed before harvest. Marketing of cocoons should be done on the sixth day (8th day for bivoltine hybrids). Shoot rearing for late age worms Silkworm larvae consume 85% of their food requirement during fifth instar. Fifty per cent of the labour input is utilized during the last seven days of rearing. Rearing house Provide separate rearing house for shoot rearing in shady areas. Separate room should be provided for young age worm rearing, leaf storing and hall for late age worm rearing. Shoot rearing rack A rearing rack of 1.2m x 11m size is sufficient to rear 50 dfls. Provide 15 cm border on all sides of the shelf to prevent the migration of the larvae. Arrange the shelves in three tier system with 50 cm space between the tiers. Fabricate the rack stand with wood, or steel and the rearing seat with wire mesh/bamboo mat. Shoot harvesting Harvest the shoots at 1 m height from ground level at 60 to 70 days after pruning. Store the shoots vertically upwards in dark cooler room. Provide thin layer of water (3 cm) in one corner of storage room and place the cut of shoots in the water for moisture retention. Feeding Provide a layer of newspaper in rearing shelf. Disinfect the bed, spread the shoot in perpendicular to width of the bed. Place top and bottom ends of the shoots alternatively to ensure equal mixing of different qualities of leaves. Transfer the third instar larvae to shoots immediately after moulting. Watch for feeding rate from 4th day of fourth instar. If 90% of larvae have not settled for moulting, provide one or two extra feedings. Provide 3 feedings during rainy/winter months and 4 feedings during summer rearing. Spacing 18-36 m2/100 dfls. Bed cleaning Bed cleaning is done once during second day of fifth instar following rope (or) net method. In rope method, spread 2 m length of rope (two numbers) at parallel row leaving 0.5m on other side. After 2 to 3 feedings, ends of the ropes are pulled to the centre to make it into a bundle. In net cleaning method, spread 1.5 cm2 size net across the bed. After 2 or 3 feedings, the nets are lifted and the old bed is cleaned and disinfected. Transfer the net to newer shelf, spread the net over the shoots; larvae will migrate to lower layer. Advantages Labour saving upto 70% when compared on hour to hour basis with leaf feeding method. Leaf saving upto 15-20%. Hence, leaf cocoon ratio is less by 2-3 kg and extra cocoon production. Better cocoon characters and effective rate of rearing (ERR). Better preservation of leaf quality both during storing and on the bed. More organic matter production (upto 18 tonnes per ha per year). Page 9
  • 11. Silkworm Cultivation Better hygienic conditions can be maintained. Handling of silkworms minimised. Hence, contamination and spreading of disease reduced. Bed cleaning only once after IV moult. Worms and leaves are kept away from the litter. Hence, chances of secondary contamination are minimised. Labour dependent risk is reduced. Disadvantages Required rearing room floor area is more (by 30%) Bed refusals will not be available as a cattle feed. Planting materials (cuttings) will not be available. UZIFLY is the main pest of silkworm Type of damage Mature maggot causes reduction in yield of cocoons and cocoon quality. Causes death of silkworm larva. Period of occurrence Throughout the year, severity is more in winter months •Maintain sanitary and hygienic conditions in the rearing room. •Provide physical barriers like wire mesh in the doors and windows of the rearing rooms. •Spray 1 per cent benzoic acid over the larvae to kill the eggs of uzi fly. •Dissolve the uzicide tablets in the water (2 tablets/l) to attract the adults. •Release the gregarious, ectopupal hyperparasitoid, Nesolynx thymus (Eulophidae: Hymenoptera) @ 1 lakh adults/100 dfls during night hours. Release the hyperparasitoid in three split doses @ 8000, 16,000 and 76,000/100 DFLs during fourth and fifth instars and after cocoon harvest. Common Sl. No. Scientific Name Name 1 Pink mealybug Maconellicoccus hirsutus Jassid/leaf 2 Empoasca flavescens hopper 3 Termite Odontotermes sp. 4 White grub Holotrichia spp. 5 Mite Tetranychus sp. Integrated Pest Management Sl.No Component Days after pruning 1 Flood irrigation 0 Release of pupal parasitoid, 2 Tetrastichus howardi@ 20,000 / 1 ac. Release of egg parasitoid, 3 Trichogramma chilonis @ 2cc / 10 ac. 4 Spraying of dichlorvos @ 1ml /l. 30 Page 10
  • 12. Silkworm Cultivation Mechanical clipping and burning 5 40 of affected shoots Disease are Viral,Bacterial, Fungal- White muscadine caused by Beauveria bassiana green muscadine Caused By Spicaria prasina Aspergillosis common in young Silk worm Dark green Aspergillus flavus Rusty brown Aspergillus tamari Protozoan disease: Pebrine(Worm shows slow growth Sl. No Disease Causal organism 1 Leaf spot Cercospora moricola 2 Powdery mildew Phyllactinia corylea Macrophomina phaseolina 3 Root rot Fusarium solani .oxysporum 4 Root knot nematode Meloidogyne incognita Post Cocoon Technology POST COCOON TECHNOLOGy Presently, silk is produced mainly using three reeling technologies namely Charka, Cottage basin / domestic basin and Multiend reeling technology in the country. About 50% silk produced is of Charka and about 35 to 40 % is of cottage basin and small quantity is from multiend reeling. Due to inherent inadequacies in charka, it is not possible to produce good quality silk. Even though the cottage basin produces better quality silk compared to charka, it still falls short of international grade. The main reason why charka is still dominating is that the bulk of raw silk produced is used by handloom sector, wherein the cost factor of raw material has to be kept low. Poor quality cocoon can only be reeled economically on charka. In order to achieve better reeling performance, following have to be considered 1. Casting of cocoons to be such to have raw silk of uniform denier 2. The broken end during reeling has to be knotted to improve the winding quality. 3. Water has to be changed after it becomes turbid to improve reeling performance and colour of the silk. 4. Water quality has to be maintained to get clean silk. 5. Motorised charka to maintain uniform reeling speed and reduce labour cost is must. 6. CSRTI economic oven reduces fuel cost. 7. Drying during reeling to reduce gum spots is important 8. Silk waste should be stretched, dried and stored properly. Page 11
  • 13. Silkworm Cultivation Cocoon Selection Twisting Stifling Degumminhg and Bleaching Cooking Dying Brushing Reeling Weaving Re-Reeling Page 12