FORAGE CROPS

Introduction and pasture classification

By the end of the lesson, the learner should be able to:
Define forage crops and distinguish between forage and fodder crops. Define pasture and classify pastures according to stand, establishment and ecological zones. Explain the difference between natural and artificial pastures. Give examples of pastures at different altitudes.

Exposition of forage concepts. Discussion on pasture classification. Examination of grass and legume specimens from different zones.

Charts showing pasture classification, specimens of grasses and legumes, altitude maps

KLB BK III Pg 218-222

FORAGE CROPS

Pasture establishment and planting materials
Fertilizer application and legume inoculation

By the end of the lesson, the learner should be able to:
Describe methods of pasture establishment using seeds, rhizomes and splits. Explain land preparation procedures for pastures. Outline sowing methods including direct sowing, undersowing and oversowing. State seed rates and quality standards for pasture crops.

Demonstration of land preparation and establishment methods. Discussion on sowing method selection. Examination of different planting materials.

Farm tools, pasture seeds, rhizomes, splits, charts showing sowing methods
Fertilizer samples, rhizobium inoculant, charts showing nitrogen fixation, legume nodules

KLB BK III Pg 222-226

FORAGE CROPS

Pasture management practices
Pasture utilization and defoliation
Carrying capacity and grazing systems
Napier grass production
Other fodder crops

By the end of the lesson, the learner should be able to:
Identify effects of weeds on pasture productivity and explain control measures. Describe top dressing procedures and reasons. Explain topping, reseeding and controlled grazing methods. State pest control measures in pastures.
Outline ecological requirements for napier grass. Distinguish between French Cameroon and Bana grass varieties. Describe land preparation and planting procedures. Explain fertilizer application, weed control and defoliation management.

Brain storming on weed problems and management practices. Discussion on fertilizer selection and grazing control. Demonstration of management principles.
Exposition of napier grass characteristics. Discussion on variety selection and management. Demonstration of planting procedures.

Pictures of pasture weeds, fertilizer samples, slashing tools, charts showing management practices
Charts showing defoliation effects, pasture quality samples, grazing schedules
Calculators, carrying capacity charts, paddocking diagrams, pictures of grazing methods
Napier grass specimens, stem cuttings with nodes, fertilizer samples, cutting tools
Guatemala grass specimens, mangold samples, clover and lucerne specimens, desmodium varieties

KLB BK III Pg 227-230
KLB BK III Pg 237-240

FORAGE CROPS

Agroforestry fodder and conservation introduction
Hay making

By the end of the lesson, the learner should be able to:
Outline establishment and utilization of agroforestry shrubs as fodder. Explain reasons for conserving forage including seasonal feed distribution. State methods of forage conservation. Compare hay, silage and standing forage conservation.

Discussion on agroforestry benefits. Exposition of conservation importance. Brain storming on conservation method selection.

Leucaenia and calliandra samples, charts showing conservation methods, seasonal feed charts
Hay samples, charts showing hay making process, storage equipment diagrams

KLB BK III Pg 244-245

FORAGE CROPS

Silage making and silo types

By the end of the lesson, the learner should be able to:
Describe silage making process and advantages over hay. Compare different types of silos including trench, clamp and tower silos. Explain steps followed in making silage. State principles of silage preservation and fermentation.

Discussion on silage advantages. Examination of silo diagrams. Exposition of fermentation principles and preservation.

Charts showing silo types, silage samples, fermentation diagrams, pH testing materials

KLB BK III Pg 247-249

FORAGE CROPS
LIVESTOCK HEALTH III

Silage quality and requirements calculation
Introduction to livestock diseases and observable conditions
Terms used in livestock diseases
Classification and protozoan diseases - ECF and anaplasmosis

By the end of the lesson, the learner should be able to:
Explain factors affecting silage quality and use of additives. Describe silage losses and prevention methods. Calculate silage requirements based on animal dry matter needs. Outline standing forage as alternative conservation method.
Define disease and distinguish between symptoms and signs. Identify observable conditions for detecting disease including pulse rate, temperature, and body condition. Explain disease-causing organisms and predisposing factors. State the role of vectors in disease transmission.

Calculation exercises on silage requirements. Discussion on quality factors and additive use. Brain storming on loss prevention strategies.
Exposition of disease concepts. Discussion on disease symptoms. Brain storming on predisposing factors. Demonstration of animal observation techniques.

Calculators, silage quality charts, additive samples, measurement tools, calculation worksheets
Charts showing disease symptoms, thermometer, pictures of sick animals, disease organism diagrams
Charts showing immunity types, vaccine samples, timeline charts for incubation periods
Disease classification charts, tick specimens, pictures of ECF symptoms, maps showing disease distribution

KLB BK III Pg 249-250
KLB BK III Pg 250-251

LIVESTOCK HEALTH III

Protozoan diseases - coccidiosis and trypanosomiasis
Bacterial diseases - mastitis

By the end of the lesson, the learner should be able to:
Describe coccidiosis in young animals including symptoms and control. Explain trypanosomiasis (nagana) transmission by tsetse flies. Identify symptoms of trypanosomiasis in different animals. Outline control measures for vector-borne diseases.

Discussion on young animal diseases. Case study of trypanosomiasis control. Examination of disease symptoms pictures. Brain storming on vector control.

Pictures of coccidiosis symptoms, tsetse fly specimens, maps showing trypanosomiasis areas, drug samples
Pictures of mastitis symptoms, milk samples showing mastitis, milking equipment, antibiotic samples

KLB BK III Pg 254-255

LIVESTOCK HEALTH III

Bacterial diseases - fowl typhoid and foot rot
Bacterial diseases - contagious abortion and scours
Bacterial diseases - black quarter, anthrax and pneumonia

By the end of the lesson, the learner should be able to:
Describe fowl typhoid symptoms and control in poultry. Explain foot rot in cloven-hoofed animals. Identify predisposing factors for foot rot including wet conditions. State control measures including foot baths and hoof trimming.

Discussion on poultry diseases. Examination of foot rot symptoms. Demonstration of hoof trimming principles. Brain storming on hygiene importance.

Pictures of fowl typhoid symptoms, foot rot specimens, hoof trimming tools, foot bath chemicals
Charts showing brucellosis transmission, pictures of scours symptoms, vaccination schedules, hygiene materials
Pictures of black quarter symptoms, anthrax control procedures, vaccination equipment, ventilation diagrams

KLB BK III Pg 257-259

LIVESTOCK HEALTH III

Viral diseases - rinderpest and foot and mouth disease
Viral diseases - Newcastle, fowl pox and Gumboro
Viral diseases - African swine fever

By the end of the lesson, the learner should be able to:
Describe rinderpest as highly contagious notifiable disease. Explain foot and mouth disease transmission and symptoms. Identify animals affected by viral diseases. Outline control measures including vaccination and quarantine.
Describe Newcastle disease symptoms and high mortality. Explain fowl pox types including cutaneous and diphtheritic forms. Describe Gumboro disease affecting immune system. State control measures for poultry viral diseases.

Discussion on viral disease characteristics. Examination of viral disease symptoms. Brain storming on quarantine importance. Case study of disease outbreaks.
Discussion on poultry viral diseases. Examination of fowl pox lesions. Brain storming on vaccination schedules. Case study of Gumboro (poultry AIDS).

Pictures of rinderpest symptoms, foot and mouth disease lesions, quarantine procedures, vaccination records
Pictures of Newcastle symptoms, fowl pox lesions, Gumboro symptoms, poultry vaccination equipment
Pictures of African swine fever symptoms, pig management charts, quarantine procedures, disease control equipment

KLB BK III Pg 263-265
KLB BK III Pg 265-267

LIVESTOCK HEALTH III

Nutritional disorders - milk fever and bloat

By the end of the lesson, the learner should be able to:
Describe milk fever as calcium deficiency in dairy cows. Explain symptoms including muscle twitching and paralysis. Describe bloat as gas accumulation in rumen. Outline treatment methods including calcium injection and gas release techniques.

Discussion on nutritional disorders. Demonstration of calcium injection principles. Brain storming on nutritional management. Case study of bloat treatment.

Calcium injection equipment, charts showing milk fever symptoms, bloat treatment tools, nutritional supplements

KLB BK III Pg 268-270

LIVESTOCK PRODUCTION V (POULTRY)

Composition of an egg
Incubation of eggs - Selection characteristics
Egg candling

By the end of the lesson, the learner should be able to:
Identify parts of an egg. Describe the parts of an egg. Explain the functions of each part of an egg.

Drawing and labeling an egg diagram. Breaking an egg to examine its internal structure. Detailed discussion on each part's function. Group work comparing different egg types. Practical examination of shell thickness and porosity.

Eggs, Chart showing parts of an egg, Drawing materials, Magnifying glass, Rulers for measurement
Eggs of various conditions, Weighing scale, Measuring tools, Record sheets, Selection criteria charts
Cardboard boxes, Torch, Electric bulb, Candles, Dark room setup, Observation sheets

KLB Secondary Agriculture Form 4, Pages 1-2

LIVESTOCK PRODUCTION V (POULTRY)

Natural incubation
Artificial incubation - Conditions
Management of an incubator
Sources of chicks and brooding introduction
Artificial brooding - Requirements and preparation

By the end of the lesson, the learner should be able to:
State merits and demerits of natural incubation. Identify management practices of natural incubation. Describe signs of broodiness in hens. Explain preparation of nesting boxes for broody hens.
Highlight management practices of an incubator. State merits and demerits of artificial incubation. Explain daily management routines. Identify and solve common incubation problems.

Q/A on natural incubation signs and management. Discussion on advantages and disadvantages. Practical demonstration of nesting box preparation. Role-play managing broody hens. Setting up proper nesting environment with appropriate materials. Problem-solving scenarios for natural incubation challenges.
Brain storming on incubator management practices. Practical demonstration of daily management procedures. Setting up incubation schedules and record keeping. Hands-on cleaning and disinfection procedures. Problem-solving common incubation failures and solutions. Cost-benefit analysis of artificial vs natural incubation.

Nesting box, Nesting materials (dry grass, sawdust), Debe containers, Sample nest setups, Broody hen management guides
Artificial incubator model, Thermometer, Water trays, Ventilation materials, Damp cloths, Eggs for turning
Incubator, Disinfectants, Cleaning materials, Management record sheets, Timer, Cost comparison charts
List of chick suppliers in Kenya, Transport cost charts, Chick quality assessment guides, Presentation materials
Artificial brooder, Heat sources (electric bulbs, charcoal burner), Wire guards, Thermometer, Newspapers, Litter materials, Feeders, Waterers

KLB Secondary Agriculture Form 4, Pages 5-6
KLB Secondary Agriculture Form 4, Pages 8-9

LIVESTOCK PRODUCTION V (POULTRY)

Brooder management and chick care

By the end of the lesson, the learner should be able to:
Outline management practices of a brooder. Describe feeding program for chicks (chick mash 20-22% D.C.P.). Explain vaccination schedule and health management. Monitor chick behavior for temperature assessment.

Exposition and explanations of daily management practices. Practical demonstration of chick feeding procedures and feed calculations. Setting up vaccination schedules (Gumboro-2 weeks, Newcastle-3-4 weeks, Fowl typhoid-7 weeks). Observing chick behavior patterns for temperature regulation. Hands-on temperature adjustment based on chick distribution. Record keeping for brooder management.

Chick mash samples, Feeders, Waterers, Vaccination charts, Behavior observation sheets, Feed calculation worksheets, Thermometer

KLB Secondary Agriculture Form 4, Pages 8-10

LIVESTOCK PRODUCTION V (POULTRY)

Rearing of growers, layers and broilers
Free range rearing system

By the end of the lesson, the learner should be able to:
Discuss rearing of growers, layers and broilers. Compare feeding requirements for different bird categories. Calculate feed consumption and space requirements. Plan transition from brooder to grower stage.

Exposition and probing questions on different rearing stages. Discussion on grower mash (16-17% D.C.P.) vs layer mash (14-16% D.C.P.) vs broiler feeds. Practical calculation of daily feed requirements (120g per layer). Problem-solving feeding program transitions. Creating management schedules for different bird categories. Space calculation exercises.

Feed samples (grower, layer, broiler mash), Calculators, Rearing comparison charts, Feed calculation worksheets, Space requirement guides
Free range system charts, Measuring tape, Calculators, Fencing materials samples, Land calculation worksheets, Cost comparison sheets

KLB Secondary Agriculture Form 4, Pages 10-12

LIVESTOCK PRODUCTION V (POULTRY)

Fold system
Deep litter system

By the end of the lesson, the learner should be able to:
Describe fold system. State merits and demerits of fold systems. Design fold specifications (3.5m long, 1.5m wide, 1.5m high). Calculate number of birds per fold (10-15 hens per fold).
Describe the requirements for deep litter system. State merits and demerits of deep litter systems. Calculate space requirements (1 sq m per 2-3 birds). Plan litter management and house specifications.

Q/A and discussion on fold system principles and portability. Practical measurement and design of fold dimensions. Drawing scaled fold designs with roofed and open sections. Calculation exercises for fold numbers needed for given flock size. Discussion on daily movement requirements and labor implications. Problem-solving fold construction and management issues.
Q/A and discussion on deep litter system requirements. Practical demonstration of litter preparation (15-30cm deep) using sawdust, wood shavings. Calculation of space allocation and bird density. Design of house layout with proper ventilation (60-90cm opening above ground). Problem-solving litter management challenges including moisture control and turning.

Fold design materials, Wire mesh samples, Measuring tools, Construction planning sheets, Calculators, Model building materials
Deep litter materials (sawdust, wood shavings, crushed maize cobs), House design materials, Calculators, Ventilation planning guides, Moisture control charts

KLB Secondary Agriculture Form 4, Pages 15-16
KLB Secondary Agriculture Form 4, Pages 16-18

LIVESTOCK PRODUCTION V (POULTRY)

Battery cage system

By the end of the lesson, the learner should be able to:
Describe the requirements for battery cage system. Calculate cage specifications and arrangements. Compare battery system with other systems. Design cage layout with proper spacing (0.2 square meter per bird).

Q/A and discussion on battery cage principles and intensive management. Practical measurement and design of cage dimensions (45cm wide, 45cm high, 57.5cm deep). Calculation exercises for tier arrangements (3-6 tiers) and bird capacity. Drawing scaled cage arrangements with feeding and watering systems. Cost analysis comparing initial investment with returns. Problem-solving cage management and mechanization issues.

Battery cage models, Wire mesh samples, Measuring equipment, Calculators, Cage design worksheets, Cost analysis sheets

KLB Secondary Agriculture Form 4, Pages 18-19

LIVESTOCK PRODUCTION V (POULTRY)

Factors affecting egg production - Stress

By the end of the lesson, the learner should be able to:
State causes of stress in birds. Outline stress management practices. Identify effects of stress on egg production. Plan stress reduction strategies for poultry farms.

Discussion on stress causes (sudden changes, strangers, handling, noise, weather, diseases, lack of feed/water). Practical identification of stress symptoms in birds. Problem-solving stress management scenarios. Group work on creating stress-free environments. Planning daily routines to minimize stress. Development of emergency procedures for stress situations.

Stress identification charts, Case study materials, Management planning sheets, Emergency procedure guides, Poultry behavior observation sheets

KLB Secondary Agriculture Form 4, Pages 19-20

LIVESTOCK PRODUCTION V (POULTRY)

Vices in poultry
Culling birds
Marketing eggs
Processing chicken meat

By the end of the lesson, the learner should be able to:
Identify causes of vices such as egg eating and cannibalism. Explain measures taken to control vices. Demonstrate debeaking procedures. Plan vice prevention programs.
State factors considered in sorting and grading eggs for fresh markets. Explain egg packing procedures with broad end upward. Calculate marketing costs, profits and pricing strategies.

Discussion on causes and control of egg eating (broken eggs, bright lights, idleness, inadequate nests, mineral deficiency). Analysis of cannibalism causes (parasites, overcrowding, bright light, prolapse, mineral deficiency, new birds). Demonstration of debeaking procedures using models. Problem-solving vice prevention strategies. Creating management plans to eliminate vice-causing conditions.
Teacher's demonstrations on egg sorting by cleanliness, size (small, medium, large), and candling quality. Practical exercise in egg classification and grading. Hands-on egg packing using proper techniques (30 eggs per tray, 10 trays per box). Discussion on marketing channels and pricing strategies. Cost-benefit calculations including transport and packaging costs. Problem-solving marketing challenges and seasonal price variations.

Charts showing poultry vices and symptoms, Debeaking equipment models, Vice prevention planning sheets, Case study examples, Control measure guides
Live birds for observation (if available), Culling record sheets, Production record examples, Culling criteria charts, Cost-benefit calculation sheets
Eggs of various sizes and quality, Egg trays (30-egg capacity), Egg boxes, Grading equipment, Calculators, Market price analysis sheets, Packaging cost worksheets
Demonstration models, Processing equipment models, Sharp knives (demonstration only), Safety and hygiene materials, Packaging materials, Processing cost calculation sheets

KLB Secondary Agriculture Form 4, Pages 20-22
KLB Secondary Agriculture Form 4, Pages 22-23