Vermitechnology
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Apr 20, 2020
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About This Presentation
Vermitechnology means rearing of earthworms. earthworm is friend of farmer. earthworm is doing a great job and also produced a good organic manure is called vermicompost. vermicompost is a biofertilzer. which is enhancing soil qualities. This is explained earthworm biology, importance and preparatio...
Slide Content
VERMITECHNOLOGY
Dr.K.RAMESHKUMAR
Assistant Professor of Zoology
Vivekananda College
Tiruvedakam West
Vivekananda College
Tiruvedakam-West
Dr.K.RAMESHKUMAR
Assistant Professor of Zoology
Vivekananda College
Tiruvedakam West
Vivekananda College
Tiruvedakam-West
INTRODUCTION
•Rearing of earthworms
•Darwin –Friend of Farmer
•Aristotle –intestine of earth
•Earthworm –God’s most gracious creatures –miracle
•Earthworms convert
Waste into Wealth
Trash into Treasure
Garbage into Black gold
Black gold into Green gold
Waste lands into Wonder lands
•Rearing of earthworms
•Darwin –Friend of Farmer
•Aristotle –intestine of earth
•Earthworm –God’s most gracious creatures –miracle
•Earthworms convert
Waste into Wealth
Trash into Treasure
Garbage into Black gold
Black gold into Green gold
Waste lands into Wonder lands
Scope of Vermitechnology
•Provides Vermicompost –excellent manure
•Provides Vermiwash–foliar Spray
•Supplies Organic fertilizer
•Worm casts –manure for crops and gardens
•Vermiprotein–Poultry and fish feed
•Employment Opportunity
•Enhance the Green revolution
•Convert rural and urban biowastes
•Provides Vermicompost –excellent manure
•Provides Vermiwash–foliar Spray
•Supplies Organic fertilizer
•Worm casts –manure for crops and gardens
•Vermiprotein–Poultry and fish feed
•Employment Opportunity
•Enhance the Green revolution
•Convert rural and urban biowastes
EarthwormDiversity
•Terrestrial Animal
•Cosmopolitan distribution
•4600 species (world)
•590 species (India)
•Few species are used for
vermicomposting
•Research Started in 1950
•1978 –useful to society
•America, England, France and
Japan
•Terrestrial Animal
•Cosmopolitan distribution
•4600 species (world)
•590 species (India)
•Few species are used for
vermicomposting
•Research Started in 1950
•1978 –useful to society
•America, England, France and
Japan
CLASSIFICATION OF EARTHWORM
•Based on the habitat
•Based on the soil layers
•Based on the feeding habits and colour
•Based on the behavior
•Based on the habits
•Based on the food materials
•Based on the place of living
•Based on the habitat
•Based on the soil layers
•Based on the feeding habits and colour
•Based on the behavior
•Based on the habits
•Based on the food materials
•Based on the place of living
Based on the habits
•Epigeicforms-red worm –feed on decaying organic matter –no
burrows –Surface of the earth –loose soil –vermicomposting and
vermiculture systems -Eisenia fetida
•Endogeicforms-horizontal burrows –all layers –incorporate
mineral matter into the top soil layer -within the earth-Octochaetona
thurstoni
•Anecicforms-night crawlers -feed on decaying organic matter –
organic debris to humus –
4-6ft permanent vertical burrows –mucus
-Deep soil –Lampitomauritti
•Epigeicforms-red worm –feed on decaying organic matter –no
burrows –Surface of the earth –loose soil –vermicomposting and
vermiculture systems -Eisenia fetida
•Endogeicforms-horizontal burrows –all layers –incorporate
mineral matter into the top soil layer -within the earth-Octochaetona
thurstoni
•Anecicforms-night crawlers -feed on decaying organic matter –
organic debris to humus –
4-6ft permanent vertical burrows –mucus
-Deep soil –Lampitomauritti
BIOLOGY OF EARTHWORM
•Segmentation –not in external but in
internal structures
•Head –Prostomium–infrontof the
mouth –used to force into the soil
•Setae –each segments –locomotion
and made in burrows
•Glands –Skin –mucus –lubricating
and burrows
•No eyes but it has cells –detect light
–sensitive to chemicals and touch as
smell
•No lungs –breaths by skin
•Digestive tract –unique features
–burrowing and feeding –ingest
soil
•Digestive tract –fluids –
enzymes –help in releasing
sugars, amino acids and smaller
organic molecules
•Molecules –absorbed by the
intestine –energy and synthesis
of new cells
•Segmentation –not in external but in
internal structures
•Head –Prostomium–infrontof the
mouth –used to force into the soil
•Setae –each segments –locomotion
and made in burrows
•Glands –Skin –mucus –lubricating
and burrows
•No eyes but it has cells –detect light
–sensitive to chemicals and touch as
smell
•No lungs –breaths by skin
•Digestive tract –unique features
–burrowing and feeding –ingest
soil
•Digestive tract –fluids –
enzymes –help in releasing
sugars, amino acids and smaller
organic molecules
•Molecules –absorbed by the
intestine –energy and synthesis
of new cells
Digestive system
•Alimentary Canal and Digestive glands
•Alimentary canal –mouth, buccalcavity,
pharynx, oesophagus, intestine, rectum
and anus
•Oesophagus–gizzard –pharyngeal
gland
Feeding
•Detritus feeders
•Gizzard–break the food into fine
particles (Worm casts)
•Alimentary Canal and Digestive glands
•Alimentary canal –mouth, buccalcavity,
pharynx, oesophagus, intestine, rectum
and anus
•Oesophagus–gizzard –pharyngeal
gland
Feeding
•Detritus feeders
•Gizzard–break the food into fine
particles (Worm casts)
Life Cycle of earth worm
•Sexual reproduction –hermaphrodite –
copulation –rainy season –morning hours
–Protandrous (Male gametes than female)
•Cocoon formation –Cocoon (Ootheca) -
Protective covering for eggs, sperms, zygote
and young ones –Clitellum –yellow to
black in colour
•Development
•Egg + sperm Zygote Blastula
GastrulaYoung worm
•Hatching –10-12 worms
•Life span –3 to 7 years
•Life cycle varies from sps to sps
•Sexual reproduction –hermaphrodite –
copulation –rainy season –morning hours
–Protandrous (Male gametes than female)
•Cocoon formation –Cocoon (Ootheca) -
Protective covering for eggs, sperms, zygote
and young ones –Clitellum –yellow to
black in colour
•Development
•Egg + sperm Zygote Blastula
GastrulaYoung worm
•Hatching –10-12 worms
•Life span –3 to 7 years
•Life cycle varies from sps to sps
IMPORTANCE OF EARTHWORM
•Enhancement of he soil –decomposition and two sources –Mineral and
organic
•Changes in soil pH -Neutral or alkaline –bacteria and fungi
•Humus formation –breakdown of cellulose
•Improvement of soil quality –nitrogenous matter
•So many Diseases affected by man and cattles
•Biological magnification
•Japan –minamatadisease
•Organic farming –vermicompost
Economic importance
•Laboratory use
•Food for other animals
•Research and development
•Medicinal use –asthma, diabetes and hypertension
•Enhancement of he soil –decomposition and two sources –Mineral and
organic
•Changes in soil pH -Neutral or alkaline –bacteria and fungi
•Humus formation –breakdown of cellulose
•Improvement of soil quality –nitrogenous matter
•So many Diseases affected by man and cattles
•Biological magnification
•Japan –minamatadisease
•Organic farming –vermicompost
Economic importance
•Laboratory use
•Food for other animals
•Research and development
•Medicinal use –asthma, diabetes and hypertension
Vermiculture Techniques
•Artificial rearing
•Increase the number of worms
Steps involved in vermiculture
•Site selection
•Species selection
•Vermibed
•Feedstock
•Inoculation of earthworms
•Feeding
•Harvesting
•Artificial rearing
•Increase the number of worms
Steps involved in vermiculture
•Site selection
•Species selection
•Vermibed
•Feedstock
•Inoculation of earthworms
•Feeding
•Harvesting
Site selection
•Should be
•Slope area
•Drainage facility
•Transport facility
•Shady areas of trees
•Should be
•Slope area
•Drainage facility
•Transport facility
•Shady areas of trees
Species selection
•Short life cycle
•High rate of reproduction and growth
•Voracious feeder
•High output of worm casts
•Resistant to disease
•Adaptable to climatic changes
•Examples –Eudrilluseugeniae, Eiseniafetida,
Perionyxexcavates and Lampitomauritii
•Short life cycle
•High rate of reproduction and growth
•Voracious feeder
•High output of worm casts
•Resistant to disease
•Adaptable to climatic changes
•Examples –Eudrilluseugeniae, Eiseniafetida,
Perionyxexcavates and Lampitomauritii
Vermibed
•Substratum of the earthworms
•House of the earthworms
•Containers for vermibed
•Plastic bucket
•Plastic basin
•Wooden box
•Concrete tank
•Card board box
•Substratum of the earthworms
•House of the earthworms
•Containers for vermibed
•Plastic bucket
•Plastic basin
•Wooden box
•Concrete tank
•Card board box
Feed Stock
•Detritivore and Omnivore
•The following materials are selected for feeding earthworm
•Agricultural waste -Straw, grass clippings, coconut husk, saw
dust, paddy husk
•Animal waste -cow dung, goat, sheep
•Municipality waste-degradable material
•Industrial waste-Food industry and Sugarcane industry
waste
•Biogas waste
•Kitchen waste
•Detritivore and Omnivore
•The following materials are selected for feeding earthworm
•Agricultural waste -Straw, grass clippings, coconut husk, saw
dust, paddy husk
•Animal waste -cow dung, goat, sheep
•Municipality waste-degradable material
•Industrial waste-Food industry and Sugarcane industry
waste
•Biogas waste
•Kitchen waste
Leaves Coconut
husk;
Vegetables and fruits waste;
Industrial waste;
Farming wastes;
husk;
Vegetables and fruits waste;
Industrial waste;
Farming wastes;
Inoculation of worms
•100 worms are introduced pre-decomposed process
Types
•Monoculture
•Polyculture
Feeding
•Pre-decomposed feedstock
•Feed is loaded on the top of the bed
•Entire feed -Thrice in a week
•Watering is daily or alternate days
•Bed is covered by broad leaves
•Earthworms breed and multiply
•100 worms are introduced pre-decomposed process
Types
•Monoculture
•Polyculture
Feeding
•Pre-decomposed feedstock
•Feed is loaded on the top of the bed
•Entire feed -Thrice in a week
•Watering is daily or alternate days
•Bed is covered by broad leaves
•Earthworms breed and multiply
Suitable conditions required for earthworms
•Feeding
•Moisture 75 –90%
•Adequate aeration
•Optimum temperature 25 –30
o
C
•Neutral pH
•Salinity of the soil is less than 0.5%
•Feeding
•Moisture 75 –90%
•Adequate aeration
•Optimum temperature 25 –30
o
C
•Neutral pH
•Salinity of the soil is less than 0.5%
Harvesting
•Collection of earthworms from the culture bed
•Harvest in two months
•Spread a paper on the ground
•Pyramid like heap
•Heap remain in day light for about half to one
hour
•Earthworms to penetrate deep and reach the
bottom
•Organic manure removed
•Harvested from the bottom
•Collection of earthworms from the culture bed
•Harvest in two months
•Spread a paper on the ground
•Pyramid like heap
•Heap remain in day light for about half to one
hour
•Earthworms to penetrate deep and reach the
bottom
•Organic manure removed
•Harvested from the bottom
Methods of vermicomposting:
1. Bin or Tray method:
•Conversion of organic waste into valuable compost in a tray.
•Worms in a bin with biodegradable bedding.
Bin or Tray-It may be wooden box, metal tub.
•Bin should not more than 18 inches deep.
•Keep bin upon bricks or wooden blocks or sheet.
•Bin kept at shady ranges 25
0
-30
0
C.
•Bed made up of leaves, husk etc.
•Bed made wet by sprinkling water.
•If bin is 2x2 inch use one pound of worms (1000 worms).
1. Bin or Tray method:
•Conversion of organic waste into valuable compost in a tray.
•Worms in a bin with biodegradable bedding.
Bin or Tray-It may be wooden box, metal tub.
•Bin should not more than 18 inches deep.
•Keep bin upon bricks or wooden blocks or sheet.
•Bin kept at shady ranges 25
0
-30
0
C.
•Bed made up of leaves, husk etc.
•Bed made wet by sprinkling water.
•If bin is 2x2 inch use one pound of worms (1000 worms).
Feeding the worms -feed includes dung, veg waste etc.
•Mark the bin into four sections, bury Scarps few inches in first
section, after 4 or 5 days the bury scarp on second like wise.
•This makes worms to move.
Harvesting-Vermicompostis ready in two months.
•The entire content piled as pyramid shape in a bright light, the worms
drive down.
•After 10-15 minutes gently collect the vermicompost.
•Mark the bin into four sections, bury Scarps few inches in first
section, after 4 or 5 days the bury scarp on second like wise.
•This makes worms to move.
Harvesting-Vermicompostis ready in two months.
•The entire content piled as pyramid shape in a bright light, the worms
drive down.
•After 10-15 minutes gently collect the vermicompost.
2. Wedge method:
•The arrangement of rows of vermibedin V-shaped.
•Organic waste and cow dung for vermibed.
•A layer of vermibedmaterials into row.
•The height of layer should 3-4 inches, breadth is 3 feet and
height is 1 feet.
•Water is sprinkled, worms released 1 kg per 10 feet length of
bed.
•Bed is covered by coconut or palm leaves.
•After one, second row is started, new row is at 45
0
angle to
first row.
•worms migrate one row to another row automatically.
•After one month first windrow can be harvested
Advantages:
•There is no need to separate wormsonly the compost
•The arrangement of rows of vermibedin V-shaped.
•Organic waste and cow dung for vermibed.
•A layer of vermibedmaterials into row.
•The height of layer should 3-4 inches, breadth is 3 feet and
height is 1 feet.
•Water is sprinkled, worms released 1 kg per 10 feet length of
bed.
•Bed is covered by coconut or palm leaves.
•After one, second row is started, new row is at 45
0
angle to
first row.
•worms migrate one row to another row automatically.
•After one month first windrow can be harvested
Advantages:
•There is no need to separate wormsonly the compost
Vermicompost
•Manufactured from the buffalo / Cow dung & biomass used by
Vermiculturetechnology and Scientific Composting
Contains
•Macro nutrients
•Micro nutrients
•Vitamins
•Enzymes
•Hormones like Auxinsand Cytokinins
•Beneficial Soil Microfloralike Bacteria, Actinomycetes, Protozoans,
Fungi and others
•Manufactured from the buffalo / Cow dung & biomass used by
Vermiculturetechnology and Scientific Composting
Contains
•Macro nutrients
•Micro nutrients
•Vitamins
•Enzymes
•Hormones like Auxinsand Cytokinins
•Beneficial Soil Microfloralike Bacteria, Actinomycetes, Protozoans,
Fungi and others
Features of Vermicompost
•NPKlevel is high
•Contains Plant growth promoting rhizobacteria
•Humicacid –helpful for balancing the pH level in the
soil
•Protect ecosystem
•Reduce biological magnification
•Waste into wealth
•Micronutrients is high
•Auxinand Gibberlin–Plant growth hormones
•Physicochemical modulators
•Good secondary decomposer –Stability, Water
infiltration and water retention
•NPKlevel is high
•Contains Plant growth promoting rhizobacteria
•Humicacid –helpful for balancing the pH level in the
soil
•Protect ecosystem
•Reduce biological magnification
•Waste into wealth
•Micronutrients is high
•Auxinand Gibberlin–Plant growth hormones
•Physicochemical modulators
•Good secondary decomposer –Stability, Water
infiltration and water retention
Used For
•Gardening: Vegetable, Roof top,
herbal
•Organic Landscaping
•Agricultural Farms
•Fruit trees (Horticulture)
•Flowering Plants (Floriculture)
•Natural Lawn and Garden care
•Tissue culture Plants
•Sericulture
•Aquaculture
Benefits
•Enables efficient growth
•Increases moisture retention
•Promotes microbial activity
•Controls pest & diseases
•Gardening: Vegetable, Roof top,
herbal
•Organic Landscaping
•Agricultural Farms
•Fruit trees (Horticulture)
•Flowering Plants (Floriculture)
•Natural Lawn and Garden care
•Tissue culture Plants
•Sericulture
•Aquaculture
Benefits
•Enables efficient growth
•Increases moisture retention
•Promotes microbial activity
•Controls pest & diseases
CHEMICAL COMPOSITION
Vermiwash
•VermiwashisaBrowncoloredliquidfertilizer,
whichiscollectedafterwaterpassesviaaworm
culturecolumn.
•Asstorehouseofnutrientsandmicroorganisms,
Vermiwashisusedasafoliarsprayforcrops.
•WeprepareVermiwashwhilemaintaininghigh
concentrationsofmicroandmacronutrients,plant
hormonestoensurehealthydevelopmentof
plants.
•VermiwashisaBrowncoloredliquidfertilizer,
whichiscollectedafterwaterpassesviaaworm
culturecolumn.
•Asstorehouseofnutrientsandmicroorganisms,
Vermiwashisusedasafoliarsprayforcrops.
•WeprepareVermiwashwhilemaintaininghigh
concentrationsofmicroandmacronutrients,plant
hormonestoensurehealthydevelopmentof
plants.
Preparation of Vermiwash:
•Vermiwash is a liquid that is collected after
the passage of water through a column of
worm action and is very useful as a foliar
spray.
•It is a collection of excretory products and
mucus secretion of earthworms along with
micronutrients from the soil organic
molecules.
•It is a clear and transparent, pale yellow
coloured fluid.
•Worm worked soils have burrows formed
by the earthworms.
•Vermiwash is a liquid that is collected after
the passage of water through a column of
worm action and is very useful as a foliar
spray.
•It is a collection of excretory products and
mucus secretion of earthworms along with
micronutrients from the soil organic
molecules.
•It is a clear and transparent, pale yellow
coloured fluid.
•Worm worked soils have burrows formed
by the earthworms.
•Bacteria richly inhabit these burrows,
also called as the drilospheres
•Water passing through these passages
washes the nutrients from these
burrows to the roots to be absorbed
by the plants.
•Water is allowed to fall drop by drop
from a pot hung above the barrel into
the vermicomposting system.
also called as the drilospheres
•Water passing through these passages
washes the nutrients from these
burrows to the roots to be absorbed
by the plants.
•Water is allowed to fall drop by drop
from a pot hung above the barrel into
the vermicomposting system.
How To Use
•Dilute with water (10%) before spraying
effectively on any plant
•Vermiwash should be diluted 5 to 10
times with water and then applied
•Can also be mixed with cow urine and
diluted for use as foliar spray and
pesticide as follows
•1 litreof cow urine
•1 litreof vermiwash
•8 litresof water
•Dilute with water (10%) before spraying
effectively on any plant
•Vermiwash should be diluted 5 to 10
times with water and then applied
•Can also be mixed with cow urine and
diluted for use as foliar spray and
pesticide as follows
•1 litreof cow urine
•1 litreof vermiwash
•8 litresof water
Organic Farming
•Organic manure and natural methods of plant
protection
•Eco-friendly method –improves soil health and water
holding capacity –soil fertility
•Aims –production of quality and safe agricultural
products
•Popular in worldwide and global demand of products
•Components –Crop managements, waste recycling,
weed management, pest control, resistance, biological
chemicals, biological disease control, bioherbicides,
bioinsecticides and biofungicides
•Organic manure and natural methods of plant
protection
•Eco-friendly method –improves soil health and water
holding capacity –soil fertility
•Aims –production of quality and safe agricultural
products
•Popular in worldwide and global demand of products
•Components –Crop managements, waste recycling,
weed management, pest control, resistance, biological
chemicals, biological disease control, bioherbicides,
bioinsecticides and biofungicides
Advantages
•Supplies all nutrients
•Optimal conditions in the soil
•High yield and good quality
•Improvement of growth and physiological activities of the plant
•Carbon content-water holding capacity
•Restores pH –chemical fertilizers –acidic soil
•Healthy food
•Resistant plants
Disadvantages
•More labour
•Supplies all nutrients
•Optimal conditions in the soil
•High yield and good quality
•Improvement of growth and physiological activities of the plant
•Carbon content-water holding capacity
•Restores pH –chemical fertilizers –acidic soil
•Healthy food
•Resistant plants
Disadvantages
•More labour
Panchagavya
•It is organic and made from the combination of five products
including cow’s dung, urine, milk, curd and ghee.
Benefits:
•Panchagavya acts as a growth-promoter and immunity
booster
•Safeguards plants and soil micro-organisms
•Increases Crops, vegetable and fruit production
•Various crops such as rice, a variety of vegetables, fruit crops
•Plants produce larger leaves
•Roots helps in better intake of nutrients and water.
•It is organic and made from the combination of five products
including cow’s dung, urine, milk, curd and ghee.
Benefits:
•Panchagavya acts as a growth-promoter and immunity
booster
•Safeguards plants and soil micro-organisms
•Increases Crops, vegetable and fruit production
•Various crops such as rice, a variety of vegetables, fruit crops
•Plants produce larger leaves
•Roots helps in better intake of nutrients and water.
Suitable For:
•Organic Farming
•All crops in Agriculture
•Herbal plants
•Floriculture
•Contract farming
Applications :
•Spray system
•Water Irrigation system
•Seed/Seedling treatment
•Organic Farming
•All crops in Agriculture
•Herbal plants
•Floriculture
•Contract farming
Applications :
•Spray system
•Water Irrigation system
•Seed/Seedling treatment
Thank You….
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