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FARMYARD MANURE- COMPOST AND VERMICOMPOST

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Organic matter. They are substances which are added to the soil to restore the productive power of the soil They add nutrients ,organic matter required for plants and soil microbes that improve the physio chemical properties of the soil They also counter act the toxic effect of certain chemicals in the soil

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FARMYARD MANURE COMPOST AND VERMICOMPOST
MANURE • ORGANIC MATTER. • THEY ARE SUBSTANCES WHICH ARE ADDED TO THE SOIL TO RESTORE THE PRODUCTIVE POWER OF THE SOIL • THEY ADD NUTRIENTS ,ORGANIC MATTER REQUIRED FOR PLANTS AND SOIL MICROBES THAT IMPROVE THE PHYSIO CHEMICAL PROPERTIES OF THE SOIL • THEY ALSO COUNTER ACT THE TOXIC EFFECT OF CERTAIN CHEMICALS IN THE SOIL
• THE MAIN EXAMPLES OF MANURES INCLUDE CATTLE MANURE ,BONE MEAL ,OIL CAKES , LEAF MOULDS ETC
TYPES • THERE ARE THREE MAIN CLASSES :- 1. ANIMAL MANURE 2. COMPOST 3. GREEN MANURE
ANIMAL MANURE • MOST ANIMAL MANURE CONSISTS OF FECES • . COMMON FORMS OF ANIMAL MANURE INCLUDE FARMYARD MANURE (FYM) OR FARM SLURRY (LIQUID MANURE). • FYM ALSO CONTAINS PLANT MATERIAL (OFTEN STRAW), WHICH HAS BEEN USED AS BEDDING FOR ANIMALS AND HAS ABSORBED THE FECES AND URINE.
• .AGRICULTURAL MANURE IN LIQUID FORM, KNOWN AS SLURRY, IS PRODUCED BY MORE INTENSIVE LIVESTOCK REARING SYSTEMS WHERE CONCRETE OR SLATS ARE USED, INSTEAD OF STRAW BEDDING. • MANURE FROM DIFFERENT ANIMALS HAS DIFFERENT QUALITIES AND REQUIRES DIFFERENT APPLICATION RATES WHEN USED AS FERTILIZER. FOR EXAMPLE HORSES, CATTLE, PIGS, SHEEP, CHICKEN , RABBITS , TURKEY FROM SEABIRDS AND BATS HAVE ALL DIFFERENT PROPERTIES
• . FOR INSTANCE, SHEEP MANURE IS HIGH IN NITROGEN AND POTASH, WHILE PIG MANURE IS RELATIVELY LOW IN BOTH. HORSES MAINLY EAT GRASS AND A FEW WEEDS SO HORSE MANURE CAN CONTAIN GRASS AND WEED SEEDS, AS HORSES DO NOT DIGEST SEEDS THE WAY THE CATTLES DO • CHICKEN LITTER CONTAIN NITROGEN AND PHOSPHATE AND HENCE HIGHLY VALUABLE
• ANIMAL MANURES MAY BE ADULTERATED OR CONTAMINATED WITH OTHER ANIMAL PRODUCTS, SUCH AS WOOL (SHODDY AND OTHER HAIR), FEATHERS, BLOOD, AND BONE. • LIVESTOCK FEED CAN BE MIXED WITH THE MANURE DUE TO SPILLAGE. • FOR EXAMPLE, CHICKENS ARE OFTEN FED MEAT AND BONE MEAL, AN ANIMAL PRODUCT, WHICH CAN END UP BECOMING MIXED WITH CHICKEN LITTER.
HUMAN MANURE • SOME PEOPLE REFER TO HUMAN EXCRETA AS HUMAN MANURE, AND THE WORD "HUMANURE" HAS ALSO BEEN USED. • JUST LIKE ANIMAL MANURE, IT CAN BE APPLIED AS A SOIL CONDITIONER (REUSE OF EXCRETA IN AGRICULTURE). • SEWAGE SLUDGE IS A MATERIAL THAT CONTAINS HUMAN EXCRETA, AS IT IS GENERATED AFTER MIXING EXCRETA WITH WATER AND TREATMENT OF THE WASTEWATER IN A SEWAGE TREATMENT PLANT.
FARM YARD MANURE • THIS IS THE TRADITIONAL MANURE AND IS MOSTLY READILY AVAILABLE TO THE FARMERS. • FARM YARD MANURE IS A DECOMPOSED MIXTURE OF CATTLE DUNG AND URINE WITH STRAW AND LITTER USED AS BEDDING MATERIAL AND RESIDUES FROM THE FODDER FED TO THE CATTLE. • THE WASTE MATERIAL OF CATTLE SHED CONSISTING OF DUNG AND URINE SOAKED IN THE REFUSE OF THE SHADE IS COLLECTED DAILY AND PLACED IN TRENCHES ABOUT 6- 7 M LONG, 1.5-2 M BROAD AND 1 M DEEP
• . EACH TRENCH IS FILLED UPTO A HEIGHT OF ABOUT 0.5 M ABOVE THE GROUND LEVEL. • THE TOP OF THE HEAP IS TO BE MADE DOME SHAPED AND PLASTERED OVER WITH COW DUNG EARTH SLURRY. • IT BECOMES READY TO APPLY AFTER 3-4 MONTHS. • IT IS POSSIBLE TO PREPARE BY THIS PROCESS 7-8.5 CU.M OF MANURE. (5-6 TONNES OR 10-12 CART LOADS) PER YEAR PER HEAD OF CATTLE.
• WELL ROTTEN FARM YARD MANURE CONTAINS 0.4 TO 1.5 PER CENT N, 0.3-0.9 % P2O5 AND 0.3-1.9% K2O. ANIMAL AND COW DUNG FROM BIOGAS ARE ALSO USED IN SIMILAR MANNER.
Nutrients Amount Nitrogen 0.5 Phosphorous 0.25 Potassium 0.4 Calcium 0.08 Sulfur 0.02 Zinc 0.004 Copper 0.0003 Manganese 0.007 Iron 0.45
COMPOST • DECOMPOSED REMNANTS OF ORGANIC MATERIALS USUALLY OF PLANT ORIGIN. • IT IS PREPARED BY DECOMPOSTING PLANT RESIDUES UNDER THE ACTION OF BACTERIA AND FUNGI • WELL PREPARED COMPOST CONTAINS 0.75 – 1 % N , 0.60 - 0.75% P2 O5 AND 1-1.5% K2O
HOW TO PREPARE A COMPOST • COMPOST IS CREATED WHEN ORGANIC MATTER DECOMPOSES • ORGANIC MATTER EVENTUALLY REACHES A POINT WHERE IT CAN NO LONGER DECOMPOSE ; IT IS AT THAT POINT THAT IT BECOMES AN EXTREMELY NUTRITIOUS AND LONG- LASTING FERTILIZER
1 ) OBTAIN A COMPOST BIN • PURCHASE A PRE MADE COMPOSTING CONTAINER OR BUILD YOUR OWN BOX USING WOOD 2 ) CREATE A BOTTOM LAYER • FORK OVER BOX TO AERATE IT AND ASSIST IN DRAINAGE • PILE TWIGS AND OTHER STRAW LIKE MATERIAL AT THE BOTTOM ABOUT 4 INCHES DEEP
STEP 1 STEP 2
• 3) FILL YOUR BIN • ADD NITROGEN COMPOUNDS ,LIKE CUT GRASS ,WEEDS RAW VEGETABLE PEELINGS , COFFEE GROUNDS , MANURE ETC.. • INCLUDE CARBON COMPOUNDS LIKE CARDBOARD , WASTE PAPER ,NEWSPAPER , SAWDUST ETC.. • THE FAST ROTTING MATERIALS SHOULD BE COMBINED WITH SLOW ROTTING MATERIALS INORDER TO PREVENT UNPLEASANT SMELL • ADD SOME BACTERIA LIKE PSEUDOMONAS TO CATALYZE THE DECOMPOSITION
• THE MATERIALS SHOULD BE CUTTED INTO SMALL PIECES TO MAKE IT DECOMPOSE FASTER • WATER THE HEAP LIBERALLY AS YOU ARE FILLING • 4) CHECK THE COMPOST PILE AFTER 3 DAYS • PLACE YOUR HAND NEAR THE TOP TO DETERMINE IF IT IS HOT ,IF IT IS HOT THEN IT IS A SIGN OF DECOMPOSITION • WAIT ANOTHER WEEK ,AND CHECK THE PILE AGAIN ,IF IT IS COOL , YOU CAN BEGIN TO MIX IT • IF IT IS STILL HOT , WAIT ANOTHER WEEK
STEP 3 STEP 4
• 5)MIX UP THE MATTER • USE A SHOVEL OR GARDEN FORK TO THOROUGHLY MIX THE CONTENTS OF THE COMPOST BIN • MIXING THOROUGHLY FROM TOP TO BOTTOM GIVE AERATION • ADD WATER IT THE CONTENTS SEEM DRY • 6) CONTINUE TO MIX THE MATTER THROUGHOUT THE NEXT 4 TO 6 WEEKS • STOP ONCE THE HEAP NO LONGER HEATS UP • THE COMPOST MUST BE UNDISTURBED IN ITS FINAL STAGES IN ORDER TO COMPLETE THE PROCESS
STEP 5 STEP 6
• 7) CHECK THE BOTTOM OF THE BIN FOR COMPOST READY FOR THE GARDEN • DETERMINE IF THE COMPOST IS READY BY STUDYING IT FOR A DARK BROWN COLOR THAT SMELLS LIKE EARTH
STEP 7
GREEN MANURE • GREEN UNDECOMPOSED MATERIAL USED AS MANURE IS CALLED GREEN MANURE. • IT IS OBTAINED IN TWO WAYS: BY GROWING GREEN MANURE CROPS OR BY COLLECTING GREEN LEAF (ALONG WITH TWIGS) FROM PLANTS GROWN IN WASTELANDS, FIELD BUNDS AND FOREST. • GREEN MANURING IS GROWING IN THE FIELD PLANTS USUALLY BELONGING TO LEGUMINOUS FAMILY AND INCORPORATING INTO THE SOIL AFTER SUFFICIENT GROWTH
GREEN MANURE CROP • THE PLANTS THAT ARE GROWN FOR GREEN MANURE KNOWN AS GREEN MANURE CROPS. • THE MOST IMPORTANT GREEN MANURE CROPS ARE SUNNHEMP, DHAINCHA, PILLIPESARA,CLUSTERBEANS AND SESBANIA ROSTRATA.
• SESBANIA ROSTRATA IS A STEM NODULATING GREEN MANURE CROP WHICH IS A NATIVE OF WEST AFRICA. • AS IT IS A SHORT-DAY PLANT AND SENSITIVE TO PHOTOPERIOD, THE LENGTH OF VEGETATIVE PERIOD IS SHORT WHEN SOWN IN AUGUST OR SEPTEMBER. • A MUTANT (TSR-L) DEVELOPED BY BHABHA ATOMIC RESEARCH CENTRE, BOMBAY IS INSENSITIVE TO PHOTOPERIOD, TOLERANT TO SALINITY AND WATERLOGGED CONDITION • . GROWTH AND NITROGEN FIXATION IS HIGHER WITH TSR-L COMPARED TO THE EXISTING STRAINS.
• ADVANTAGES OF GREEN MANURE CROP • IMPROVES SOIL STRUCTURE • INCREASES WATER HOLDING CAPACITY AND • DECREASES SOIL LOSS BY EROSION
GREEN LEAF MAURE • APPLICATION OF GREEN LEAVES AND TWIGS OF TREES, SHRUBS AND HERBS COLLECTED FROM ELSEWHERE IS KNOWN AS GREEN LEAF MANURING. • FOREST TREE LEAVES ARE THE MAIN SOURCES FOR GREEN LEAF MANURE. • PLANTS GROWING IN WASTELANDS, FIELD BUNDS ETC., ARE ANOTHER SOURCE OF GREEN LEAF MANURE. • THE IMPORTANT PLANT SPECIES USEFUL FOR GREEN LEAF MANURE ARE NEEM, MAHUA, WILD INDIGO, GLYRICIDIA, KARANJI (PONGAMIA GLABRA) CALOTROPIS, AVISE(SESBANIA GRANDIFLORA), SUBABUL AND OTHER SHRUBS.
• ADVANTAGES OF GREEN MANURING • GREEN MANURING IMPROVES SOIL STRUCTURE, INCREASES WATER HOLDING CAPACITY AND DECREASES SOIL LOSS BY EROSION. • GROWING OF GREEN MANURE CROPS IN THE OFF SEASON REDUCES WEED PROLIFERATION AND WEED GROWTH. • GREEN MANURING HELPS IN RECLAMATION OF ALKALINE SOILS. ROOT KNOT NEMATODES CAN BE CONTROLLED BY GREEN MANURING
VERMICOMPOST • VERMICOMPOST IS THE PRODUCT OF THE COMPOSTING PROCESS USING VARIOUS SPECIES OF WORMS, USUALLY RED WIGGLERS, WHITE WORMS, AND OTHER EARTHWORMS, TO CREATE A HETEROGENEOUS MIXTURE OF DECOMPOSING VEGETABLE OR FOOD WASTE, BEDDING MATERIALS, AND VERMICAST, ALSO CALLED WORM CASTINGS, WORM HUMUS OR WORM MANURE, IS THE END-PRODUCT OF THE BREAKDOWN OF ORGANIC MATTER BY AN EARTHWORM. • THESE CASTINGS HAVE BEEN SHOWN TO CONTAIN REDUCED LEVELS OF CONTAMINANTS AND A HIGHER SATURATION OF NUTRIENTS THAN DO ORGANIC MATERIALS BEFORE VERMICOMPOSTING.
• CONTAINING WATER-SOLUBLE NUTRIENTS, VERMICOMPOST IS AN EXCELLENT, NUTRIENT-RICH ORGANIC FERTILIZER AND SOIL CONDITIONER. THIS PROCESS OF PRODUCING VERMICOMPOST IS CALLED VERMICOMPOSTING. • WHILE VERMICOMPOSTING IS GENERALLY KNOWN AS A NUTRIENT RICH SOURCE OF ORGANIC COMPOST USED IN FARMING AND SMALL SCALE SUSTAINABLE, ORGANIC FARMING, THE PROCESS OF VERMICASTING IS UNDERGOING RESEARCH AS A TREATMENT FOR ORGANIC WASTE IN SEWAGE AND WASTEWATER PLANTS AROUND THE WORLD.
CLIMATE AND TEMPERATURE • THERE MAY BE DIFFERENCES IN VERMICOMPOSTING METHODS DEPENDING ON THE CLIMATE • IT IS NECESSARY TO MONITOR THE TEMPERATURES OF LARGE-SCALE BIN SYSTEMS (WHICH CAN HAVE HIGH HEAT- RETENTIVE PROPERTIES), AS THE FEEDSTOCKS USED CAN COMPOST, HEATING UP THE WORM BINS AS THEY DECAY AND KILLING THE WORMS.
• THE MOST COMMON WORMS USED IN COMPOSTING SYSTEMS, REDWORMS (EISENIA FOETIDA, EISENIA ANDREI, AND LUMBRICUS RUBELLUS) FEED MOST RAPIDLY AT TEMPERATURES OF 15–25 °C (59-77 °F). • THEY CAN SURVIVE AT 10 °C (50 °F). • TEMPERATURES ABOVE 30 °C (86 °F) MAY HARM THEM.
• THIS TEMPERATURE RANGE MEANS THAT INDOOR VERMICOMPOSTING WITH REDWORMS IS POSSIBLE IN ALL BUT TROPICAL CLIMATES. • OTHER WORMS LIKE PERIONYX EXCAVATUS ARE SUITABLE FOR WARMER CLIMATES. • IF A WORM BIN IS KEPT OUTSIDE, IT SHOULD BE PLACED IN A SHELTERED POSITION AWAY FROM DIRECT SUNLIGHT AND INSULATED AGAINST FROST IN WINTER.
SUITABLE SPECIES • LUMBRICUS RUBELLUS (RED EARTHWORM) • EISENIA FETIDA
• EISENIA HORTENSIS • LUMBRICUS TERRESTRIS
• PERIONYX EXCAVATUS
HOW TO PREPARE A VERMICOMPOST • 1 BUILD OR PURCHASE A WORM BIN • IT IS THE ENCLOSURE IN WHICH WORMS LIVE ; IT HOLDS IN THE BEDDING AND FOOD SCRAPS ,REGULATE THE AMOUNT OF MOISTURE IN THE BEDDING , AND BLOCKS LIGHT • THE WORM BIN SHOULD BE LARGE , SHOULD HAVE A LID , OPAQUE , AND 30 CM DEEP • DRILL SEVERAL SMALL HOLES IN THE SIDES OF THE BIN FOR AIR FLOW • THE WORMS WONT LEAVE THESE HOLES BECAUSE OF THEIR AVERSION TO LIGHT , IF DESIRED THE HOLES CAN BE COVERED WITH MESH
• 2 PURCHASE WORMS • AS MENTIONED EARLIER RED WIGGLERS ( EISENIA FOETIDA ) ARE THE BEST • 3 PREPARE THE WORM BEDDING • THE BEDDING IS THE MATERIAL THAT THE WORMS WILL LIVE IN • IT CAN BE MADE FROM ANY CARBON – RICH ORGANIC MATTER , BUT NEWSPAPER WORKS THE BEST • TEAR THE NEWSPAPERS INTO LONG , 1 INCH WIDE STRIPS • SHOULD FILL THE NEWSPAPER TILL PACKED LOOSELY
STEP 1 STEP 2
• 4 MOISTEN THE BEDDING • WORMS CAN SURVIVE ONLY IN MOIST CONDITION , SO MAKE SURE THE BEDDING IS MOIST • MOISTEN IT WITH WATER TILL THE BEDDING FEEL LIKE A WRUNG – OUT SPONGE THAT IS IF SQUEEZED , NO MORE THAN DROP OR 2 OF WATER SHOULD FALL OUT • 5 ADD A HANDFUL OF SOIL TO THE BEDDING • IN ADDITION TO BEDDING ADD A HANDFUL OF SOIL • THE SOIL PROVIDES GRIT FOR THE WORMS WHICH HELP S THEM TO DIGEST THE FOOD SCRAPS
• IT ALSO INTRODUCES MICROORGANISMS INTO THE WORM BIN THAT AID IN DECOMPOSITION • 6 ADD THE WORMS TO THE VERMICOMPOST BIN • ADD THE WORMS BY SCATTERING THEM ONTO THE BEDDING • CLOSE THE LID TO BLOCK THE LIGHT • KEEP IT UNDISTURBED FOR ONE DAY WITHOUT ADDING FOOD SCRAPS TO WORK THEIR WAY INTO BEDDING
STEP 3 STEP 4
STEP 5 STEP 6
• 7 ADD FOOD SCRAPS TO THE BIN • TO BEGIN COMPOSTING , ADD FOOD SCRAPS AND RESEAL THE LID • AS TIME PROGRESS YOU CAN ADD MORE FOOD SCRAPS • 8 REMOVE THE WORMS WHEN THE COMPOST IS DONE • AS THE WORMS DIGEST THE FOOD SCRAPS THEY PRODUCE CASTINGS • THESE DARK BLACK –BROWN THREADS FORM COMPLETED VERMICOMPOST • WORMS CAN BE REMOVED EITHER BY HAND OR BY REMOVING THE BEDDING A BIT SO THAT WORMS CAN MOVE TO BOTTOM
• 9 AFTER HARVESTING REPLACE THE BEDDING AND REINTRODUCE THE WORMS
STEP 7 STEP 8
STEP 9 STEP 10
HARVESTING • VERMICOMPOST IS READY FOR HARVEST WHEN IT CONTAINS FEW-TO-NO SCRAPS OF UNEATEN FOOD OR BEDDING • THERE ARE SEVERAL METHODS OF HARVESTING FROM SMALL-SCALE SYSTEMS: "DUMP AND HAND SORT", "LET THE WORMS DO THE SORTING", "ALTERNATE CONTAINERS" AND "DIVIDE AND DUMP. • THEY DIFFER ON THE AMOUNT OF TIME AND LABOR INVOLVED AND WHETHER THE VERMICOMPOSTER WANTS TO SAVE AS MANY WORMS AS POSSIBLE FROM BEING TRAPPED IN THE HARVESTED COMPOST.
• THE PYRAMID METHOD OF HARVESTING WORM COMPOST IS CONSIDERED THE SIMPLEST METHOD FOR SINGLE LAYER BINS. • IT IS COMMONLY USED IN SMALL SCALE VERMICULTURE. • WHILE HARVESTING, IT'S ALSO A GOOD IDEA TO TRY TO PICK OUT AS MANY EGGS/COCOONS AS POSSIBLE AND RETURN THEM TO THE BIN. EGGS ARE SMALL, LEMON- SHAPED YELLOWISH OBJECTS THAT CAN USUALLY BE SEEN PRETTY EASILY WITH THE NAKED EYE AND PICKED OUT.
THANK YOU

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FARMYARD MANURE- COMPOST AND VERMICOMPOST

  • 2. MANURE • ORGANIC MATTER. • THEY ARE SUBSTANCES WHICH ARE ADDED TO THE SOIL TO RESTORE THE PRODUCTIVE POWER OF THE SOIL • THEY ADD NUTRIENTS ,ORGANIC MATTER REQUIRED FOR PLANTS AND SOIL MICROBES THAT IMPROVE THE PHYSIO CHEMICAL PROPERTIES OF THE SOIL • THEY ALSO COUNTER ACT THE TOXIC EFFECT OF CERTAIN CHEMICALS IN THE SOIL
  • 3. • THE MAIN EXAMPLES OF MANURES INCLUDE CATTLE MANURE ,BONE MEAL ,OIL CAKES , LEAF MOULDS ETC
  • 4.
  • 5.
  • 6. TYPES • THERE ARE THREE MAIN CLASSES :- 1. ANIMAL MANURE 2. COMPOST 3. GREEN MANURE
  • 7. ANIMAL MANURE • MOST ANIMAL MANURE CONSISTS OF FECES • . COMMON FORMS OF ANIMAL MANURE INCLUDE FARMYARD MANURE (FYM) OR FARM SLURRY (LIQUID MANURE). • FYM ALSO CONTAINS PLANT MATERIAL (OFTEN STRAW), WHICH HAS BEEN USED AS BEDDING FOR ANIMALS AND HAS ABSORBED THE FECES AND URINE.
  • 8. • .AGRICULTURAL MANURE IN LIQUID FORM, KNOWN AS SLURRY, IS PRODUCED BY MORE INTENSIVE LIVESTOCK REARING SYSTEMS WHERE CONCRETE OR SLATS ARE USED, INSTEAD OF STRAW BEDDING. • MANURE FROM DIFFERENT ANIMALS HAS DIFFERENT QUALITIES AND REQUIRES DIFFERENT APPLICATION RATES WHEN USED AS FERTILIZER. FOR EXAMPLE HORSES, CATTLE, PIGS, SHEEP, CHICKEN , RABBITS , TURKEY FROM SEABIRDS AND BATS HAVE ALL DIFFERENT PROPERTIES
  • 9. • . FOR INSTANCE, SHEEP MANURE IS HIGH IN NITROGEN AND POTASH, WHILE PIG MANURE IS RELATIVELY LOW IN BOTH. HORSES MAINLY EAT GRASS AND A FEW WEEDS SO HORSE MANURE CAN CONTAIN GRASS AND WEED SEEDS, AS HORSES DO NOT DIGEST SEEDS THE WAY THE CATTLES DO • CHICKEN LITTER CONTAIN NITROGEN AND PHOSPHATE AND HENCE HIGHLY VALUABLE
  • 10. • ANIMAL MANURES MAY BE ADULTERATED OR CONTAMINATED WITH OTHER ANIMAL PRODUCTS, SUCH AS WOOL (SHODDY AND OTHER HAIR), FEATHERS, BLOOD, AND BONE. • LIVESTOCK FEED CAN BE MIXED WITH THE MANURE DUE TO SPILLAGE. • FOR EXAMPLE, CHICKENS ARE OFTEN FED MEAT AND BONE MEAL, AN ANIMAL PRODUCT, WHICH CAN END UP BECOMING MIXED WITH CHICKEN LITTER.
  • 11. HUMAN MANURE • SOME PEOPLE REFER TO HUMAN EXCRETA AS HUMAN MANURE, AND THE WORD "HUMANURE" HAS ALSO BEEN USED. • JUST LIKE ANIMAL MANURE, IT CAN BE APPLIED AS A SOIL CONDITIONER (REUSE OF EXCRETA IN AGRICULTURE). • SEWAGE SLUDGE IS A MATERIAL THAT CONTAINS HUMAN EXCRETA, AS IT IS GENERATED AFTER MIXING EXCRETA WITH WATER AND TREATMENT OF THE WASTEWATER IN A SEWAGE TREATMENT PLANT.
  • 12. FARM YARD MANURE • THIS IS THE TRADITIONAL MANURE AND IS MOSTLY READILY AVAILABLE TO THE FARMERS. • FARM YARD MANURE IS A DECOMPOSED MIXTURE OF CATTLE DUNG AND URINE WITH STRAW AND LITTER USED AS BEDDING MATERIAL AND RESIDUES FROM THE FODDER FED TO THE CATTLE. • THE WASTE MATERIAL OF CATTLE SHED CONSISTING OF DUNG AND URINE SOAKED IN THE REFUSE OF THE SHADE IS COLLECTED DAILY AND PLACED IN TRENCHES ABOUT 6- 7 M LONG, 1.5-2 M BROAD AND 1 M DEEP
  • 13. • . EACH TRENCH IS FILLED UPTO A HEIGHT OF ABOUT 0.5 M ABOVE THE GROUND LEVEL. • THE TOP OF THE HEAP IS TO BE MADE DOME SHAPED AND PLASTERED OVER WITH COW DUNG EARTH SLURRY. • IT BECOMES READY TO APPLY AFTER 3-4 MONTHS. • IT IS POSSIBLE TO PREPARE BY THIS PROCESS 7-8.5 CU.M OF MANURE. (5-6 TONNES OR 10-12 CART LOADS) PER YEAR PER HEAD OF CATTLE.
  • 14. • WELL ROTTEN FARM YARD MANURE CONTAINS 0.4 TO 1.5 PER CENT N, 0.3-0.9 % P2O5 AND 0.3-1.9% K2O. ANIMAL AND COW DUNG FROM BIOGAS ARE ALSO USED IN SIMILAR MANNER.
  • 15.
  • 16.
  • 17.
  • 18. Nutrients Amount Nitrogen 0.5 Phosphorous 0.25 Potassium 0.4 Calcium 0.08 Sulfur 0.02 Zinc 0.004 Copper 0.0003 Manganese 0.007 Iron 0.45
  • 19. COMPOST • DECOMPOSED REMNANTS OF ORGANIC MATERIALS USUALLY OF PLANT ORIGIN. • IT IS PREPARED BY DECOMPOSTING PLANT RESIDUES UNDER THE ACTION OF BACTERIA AND FUNGI • WELL PREPARED COMPOST CONTAINS 0.75 – 1 % N , 0.60 - 0.75% P2 O5 AND 1-1.5% K2O
  • 20.
  • 21. HOW TO PREPARE A COMPOST • COMPOST IS CREATED WHEN ORGANIC MATTER DECOMPOSES • ORGANIC MATTER EVENTUALLY REACHES A POINT WHERE IT CAN NO LONGER DECOMPOSE ; IT IS AT THAT POINT THAT IT BECOMES AN EXTREMELY NUTRITIOUS AND LONG- LASTING FERTILIZER
  • 22. 1 ) OBTAIN A COMPOST BIN • PURCHASE A PRE MADE COMPOSTING CONTAINER OR BUILD YOUR OWN BOX USING WOOD 2 ) CREATE A BOTTOM LAYER • FORK OVER BOX TO AERATE IT AND ASSIST IN DRAINAGE • PILE TWIGS AND OTHER STRAW LIKE MATERIAL AT THE BOTTOM ABOUT 4 INCHES DEEP
  • 24. • 3) FILL YOUR BIN • ADD NITROGEN COMPOUNDS ,LIKE CUT GRASS ,WEEDS RAW VEGETABLE PEELINGS , COFFEE GROUNDS , MANURE ETC.. • INCLUDE CARBON COMPOUNDS LIKE CARDBOARD , WASTE PAPER ,NEWSPAPER , SAWDUST ETC.. • THE FAST ROTTING MATERIALS SHOULD BE COMBINED WITH SLOW ROTTING MATERIALS INORDER TO PREVENT UNPLEASANT SMELL • ADD SOME BACTERIA LIKE PSEUDOMONAS TO CATALYZE THE DECOMPOSITION
  • 25. • THE MATERIALS SHOULD BE CUTTED INTO SMALL PIECES TO MAKE IT DECOMPOSE FASTER • WATER THE HEAP LIBERALLY AS YOU ARE FILLING • 4) CHECK THE COMPOST PILE AFTER 3 DAYS • PLACE YOUR HAND NEAR THE TOP TO DETERMINE IF IT IS HOT ,IF IT IS HOT THEN IT IS A SIGN OF DECOMPOSITION • WAIT ANOTHER WEEK ,AND CHECK THE PILE AGAIN ,IF IT IS COOL , YOU CAN BEGIN TO MIX IT • IF IT IS STILL HOT , WAIT ANOTHER WEEK
  • 27. • 5)MIX UP THE MATTER • USE A SHOVEL OR GARDEN FORK TO THOROUGHLY MIX THE CONTENTS OF THE COMPOST BIN • MIXING THOROUGHLY FROM TOP TO BOTTOM GIVE AERATION • ADD WATER IT THE CONTENTS SEEM DRY • 6) CONTINUE TO MIX THE MATTER THROUGHOUT THE NEXT 4 TO 6 WEEKS • STOP ONCE THE HEAP NO LONGER HEATS UP • THE COMPOST MUST BE UNDISTURBED IN ITS FINAL STAGES IN ORDER TO COMPLETE THE PROCESS
  • 29. • 7) CHECK THE BOTTOM OF THE BIN FOR COMPOST READY FOR THE GARDEN • DETERMINE IF THE COMPOST IS READY BY STUDYING IT FOR A DARK BROWN COLOR THAT SMELLS LIKE EARTH
  • 31. GREEN MANURE • GREEN UNDECOMPOSED MATERIAL USED AS MANURE IS CALLED GREEN MANURE. • IT IS OBTAINED IN TWO WAYS: BY GROWING GREEN MANURE CROPS OR BY COLLECTING GREEN LEAF (ALONG WITH TWIGS) FROM PLANTS GROWN IN WASTELANDS, FIELD BUNDS AND FOREST. • GREEN MANURING IS GROWING IN THE FIELD PLANTS USUALLY BELONGING TO LEGUMINOUS FAMILY AND INCORPORATING INTO THE SOIL AFTER SUFFICIENT GROWTH
  • 32. GREEN MANURE CROP • THE PLANTS THAT ARE GROWN FOR GREEN MANURE KNOWN AS GREEN MANURE CROPS. • THE MOST IMPORTANT GREEN MANURE CROPS ARE SUNNHEMP, DHAINCHA, PILLIPESARA,CLUSTERBEANS AND SESBANIA ROSTRATA.
  • 33.
  • 34. • SESBANIA ROSTRATA IS A STEM NODULATING GREEN MANURE CROP WHICH IS A NATIVE OF WEST AFRICA. • AS IT IS A SHORT-DAY PLANT AND SENSITIVE TO PHOTOPERIOD, THE LENGTH OF VEGETATIVE PERIOD IS SHORT WHEN SOWN IN AUGUST OR SEPTEMBER. • A MUTANT (TSR-L) DEVELOPED BY BHABHA ATOMIC RESEARCH CENTRE, BOMBAY IS INSENSITIVE TO PHOTOPERIOD, TOLERANT TO SALINITY AND WATERLOGGED CONDITION • . GROWTH AND NITROGEN FIXATION IS HIGHER WITH TSR-L COMPARED TO THE EXISTING STRAINS.
  • 35. • ADVANTAGES OF GREEN MANURE CROP • IMPROVES SOIL STRUCTURE • INCREASES WATER HOLDING CAPACITY AND • DECREASES SOIL LOSS BY EROSION
  • 36. GREEN LEAF MAURE • APPLICATION OF GREEN LEAVES AND TWIGS OF TREES, SHRUBS AND HERBS COLLECTED FROM ELSEWHERE IS KNOWN AS GREEN LEAF MANURING. • FOREST TREE LEAVES ARE THE MAIN SOURCES FOR GREEN LEAF MANURE. • PLANTS GROWING IN WASTELANDS, FIELD BUNDS ETC., ARE ANOTHER SOURCE OF GREEN LEAF MANURE. • THE IMPORTANT PLANT SPECIES USEFUL FOR GREEN LEAF MANURE ARE NEEM, MAHUA, WILD INDIGO, GLYRICIDIA, KARANJI (PONGAMIA GLABRA) CALOTROPIS, AVISE(SESBANIA GRANDIFLORA), SUBABUL AND OTHER SHRUBS.
  • 37.
  • 38. • ADVANTAGES OF GREEN MANURING • GREEN MANURING IMPROVES SOIL STRUCTURE, INCREASES WATER HOLDING CAPACITY AND DECREASES SOIL LOSS BY EROSION. • GROWING OF GREEN MANURE CROPS IN THE OFF SEASON REDUCES WEED PROLIFERATION AND WEED GROWTH. • GREEN MANURING HELPS IN RECLAMATION OF ALKALINE SOILS. ROOT KNOT NEMATODES CAN BE CONTROLLED BY GREEN MANURING
  • 39.
  • 40. VERMICOMPOST • VERMICOMPOST IS THE PRODUCT OF THE COMPOSTING PROCESS USING VARIOUS SPECIES OF WORMS, USUALLY RED WIGGLERS, WHITE WORMS, AND OTHER EARTHWORMS, TO CREATE A HETEROGENEOUS MIXTURE OF DECOMPOSING VEGETABLE OR FOOD WASTE, BEDDING MATERIALS, AND VERMICAST, ALSO CALLED WORM CASTINGS, WORM HUMUS OR WORM MANURE, IS THE END-PRODUCT OF THE BREAKDOWN OF ORGANIC MATTER BY AN EARTHWORM. • THESE CASTINGS HAVE BEEN SHOWN TO CONTAIN REDUCED LEVELS OF CONTAMINANTS AND A HIGHER SATURATION OF NUTRIENTS THAN DO ORGANIC MATERIALS BEFORE VERMICOMPOSTING.
  • 41. • CONTAINING WATER-SOLUBLE NUTRIENTS, VERMICOMPOST IS AN EXCELLENT, NUTRIENT-RICH ORGANIC FERTILIZER AND SOIL CONDITIONER. THIS PROCESS OF PRODUCING VERMICOMPOST IS CALLED VERMICOMPOSTING. • WHILE VERMICOMPOSTING IS GENERALLY KNOWN AS A NUTRIENT RICH SOURCE OF ORGANIC COMPOST USED IN FARMING AND SMALL SCALE SUSTAINABLE, ORGANIC FARMING, THE PROCESS OF VERMICASTING IS UNDERGOING RESEARCH AS A TREATMENT FOR ORGANIC WASTE IN SEWAGE AND WASTEWATER PLANTS AROUND THE WORLD.
  • 42. CLIMATE AND TEMPERATURE • THERE MAY BE DIFFERENCES IN VERMICOMPOSTING METHODS DEPENDING ON THE CLIMATE • IT IS NECESSARY TO MONITOR THE TEMPERATURES OF LARGE-SCALE BIN SYSTEMS (WHICH CAN HAVE HIGH HEAT- RETENTIVE PROPERTIES), AS THE FEEDSTOCKS USED CAN COMPOST, HEATING UP THE WORM BINS AS THEY DECAY AND KILLING THE WORMS.
  • 43. • THE MOST COMMON WORMS USED IN COMPOSTING SYSTEMS, REDWORMS (EISENIA FOETIDA, EISENIA ANDREI, AND LUMBRICUS RUBELLUS) FEED MOST RAPIDLY AT TEMPERATURES OF 15–25 °C (59-77 °F). • THEY CAN SURVIVE AT 10 °C (50 °F). • TEMPERATURES ABOVE 30 °C (86 °F) MAY HARM THEM.
  • 44. • THIS TEMPERATURE RANGE MEANS THAT INDOOR VERMICOMPOSTING WITH REDWORMS IS POSSIBLE IN ALL BUT TROPICAL CLIMATES. • OTHER WORMS LIKE PERIONYX EXCAVATUS ARE SUITABLE FOR WARMER CLIMATES. • IF A WORM BIN IS KEPT OUTSIDE, IT SHOULD BE PLACED IN A SHELTERED POSITION AWAY FROM DIRECT SUNLIGHT AND INSULATED AGAINST FROST IN WINTER.
  • 45.
  • 46. SUITABLE SPECIES • LUMBRICUS RUBELLUS (RED EARTHWORM) • EISENIA FETIDA
  • 47. • EISENIA HORTENSIS • LUMBRICUS TERRESTRIS
  • 49. HOW TO PREPARE A VERMICOMPOST • 1 BUILD OR PURCHASE A WORM BIN • IT IS THE ENCLOSURE IN WHICH WORMS LIVE ; IT HOLDS IN THE BEDDING AND FOOD SCRAPS ,REGULATE THE AMOUNT OF MOISTURE IN THE BEDDING , AND BLOCKS LIGHT • THE WORM BIN SHOULD BE LARGE , SHOULD HAVE A LID , OPAQUE , AND 30 CM DEEP • DRILL SEVERAL SMALL HOLES IN THE SIDES OF THE BIN FOR AIR FLOW • THE WORMS WONT LEAVE THESE HOLES BECAUSE OF THEIR AVERSION TO LIGHT , IF DESIRED THE HOLES CAN BE COVERED WITH MESH
  • 50. • 2 PURCHASE WORMS • AS MENTIONED EARLIER RED WIGGLERS ( EISENIA FOETIDA ) ARE THE BEST • 3 PREPARE THE WORM BEDDING • THE BEDDING IS THE MATERIAL THAT THE WORMS WILL LIVE IN • IT CAN BE MADE FROM ANY CARBON – RICH ORGANIC MATTER , BUT NEWSPAPER WORKS THE BEST • TEAR THE NEWSPAPERS INTO LONG , 1 INCH WIDE STRIPS • SHOULD FILL THE NEWSPAPER TILL PACKED LOOSELY
  • 52. • 4 MOISTEN THE BEDDING • WORMS CAN SURVIVE ONLY IN MOIST CONDITION , SO MAKE SURE THE BEDDING IS MOIST • MOISTEN IT WITH WATER TILL THE BEDDING FEEL LIKE A WRUNG – OUT SPONGE THAT IS IF SQUEEZED , NO MORE THAN DROP OR 2 OF WATER SHOULD FALL OUT • 5 ADD A HANDFUL OF SOIL TO THE BEDDING • IN ADDITION TO BEDDING ADD A HANDFUL OF SOIL • THE SOIL PROVIDES GRIT FOR THE WORMS WHICH HELP S THEM TO DIGEST THE FOOD SCRAPS
  • 53. • IT ALSO INTRODUCES MICROORGANISMS INTO THE WORM BIN THAT AID IN DECOMPOSITION • 6 ADD THE WORMS TO THE VERMICOMPOST BIN • ADD THE WORMS BY SCATTERING THEM ONTO THE BEDDING • CLOSE THE LID TO BLOCK THE LIGHT • KEEP IT UNDISTURBED FOR ONE DAY WITHOUT ADDING FOOD SCRAPS TO WORK THEIR WAY INTO BEDDING
  • 56. • 7 ADD FOOD SCRAPS TO THE BIN • TO BEGIN COMPOSTING , ADD FOOD SCRAPS AND RESEAL THE LID • AS TIME PROGRESS YOU CAN ADD MORE FOOD SCRAPS • 8 REMOVE THE WORMS WHEN THE COMPOST IS DONE • AS THE WORMS DIGEST THE FOOD SCRAPS THEY PRODUCE CASTINGS • THESE DARK BLACK –BROWN THREADS FORM COMPLETED VERMICOMPOST • WORMS CAN BE REMOVED EITHER BY HAND OR BY REMOVING THE BEDDING A BIT SO THAT WORMS CAN MOVE TO BOTTOM
  • 57. • 9 AFTER HARVESTING REPLACE THE BEDDING AND REINTRODUCE THE WORMS
  • 60. HARVESTING • VERMICOMPOST IS READY FOR HARVEST WHEN IT CONTAINS FEW-TO-NO SCRAPS OF UNEATEN FOOD OR BEDDING • THERE ARE SEVERAL METHODS OF HARVESTING FROM SMALL-SCALE SYSTEMS: "DUMP AND HAND SORT", "LET THE WORMS DO THE SORTING", "ALTERNATE CONTAINERS" AND "DIVIDE AND DUMP. • THEY DIFFER ON THE AMOUNT OF TIME AND LABOR INVOLVED AND WHETHER THE VERMICOMPOSTER WANTS TO SAVE AS MANY WORMS AS POSSIBLE FROM BEING TRAPPED IN THE HARVESTED COMPOST.
  • 61. • THE PYRAMID METHOD OF HARVESTING WORM COMPOST IS CONSIDERED THE SIMPLEST METHOD FOR SINGLE LAYER BINS. • IT IS COMMONLY USED IN SMALL SCALE VERMICULTURE. • WHILE HARVESTING, IT'S ALSO A GOOD IDEA TO TRY TO PICK OUT AS MANY EGGS/COCOONS AS POSSIBLE AND RETURN THEM TO THE BIN. EGGS ARE SMALL, LEMON- SHAPED YELLOWISH OBJECTS THAT CAN USUALLY BE SEEN PRETTY EASILY WITH THE NAKED EYE AND PICKED OUT.