PROTECTED PLANT PRODUCTION

• for large or small scale growing, established or new operations
• improve your understanding of how plant growth can be controlled
• explore business and career opportunities; improve your value as an employee, improve your profitability as a flower grower, market gardener or nurseryman.

Lesson Structure

There are 10 lessons in this course:

1. Structures for Protected Cropping
   • Introduction
   • The greenhouse business
   • The greenhouse system
   • Components of a greenhouse facility
   • Deciding what you need
   • Siting a greenhouse
   • Suitability of different structures for specific cropping, depending on natural light transmission
   • Cleanliness in a greenhouse
   • Types of greenhouses
   • Construction method
   • Framing materials
   • Covering materials
   • Benches or beds
   • Flooring
   • Guttering
   • Doors
   • Ventilators
   • Common designs - venlo, wide span, multi span, mansard, polytunnel, saw tooth, single span, retractable roof
   • Relationship between shape and light transmission
   • Shade houses
   • Conservatories
   • Shade house design
   • Cold frames
2. Environmental Control
   • Introduction
   • Control of Environment
   • Measuring Environmental factors -natural light, growing media temperature. air temperature
   • Misting
   • Fog
   • Problems in Greenhouses
   • Heating and ventilation systems
   • Thermal screens
   • Insulation
   • Lighting equipment
   • Artificial light
   • Photosynthesis
   • Calvin Cycle Plants
   • Krantz Cycle Plants
   • Day length manipulation
   • Long day length plants
   • Short day length plants
   • Day length neutral plants
   • Heated propagators
   • Irrigation and nutrition control
   • Optimum temperature, humidity and light for selected plants
3. Cladding Materials and their properties
   • Factors affecting light transmission - shape and orientation
   • Covering materials
   • Coreflute/Polyflute
   • PVC
   • Polycarbonate
   • Fibreglass
   • PVC Film
   • Reinforced PVC Film
   • Heat Insulation and Cost Effectiveness
   • Windbreaks
   • Light transmission properties
4. Irrigation
   • Nursery Irrigation
   • Irrigation Practices
   • Irrigation syustems
   • Plant water needs, excess and deficiency
   • Automatic irrigation systems
   • Sprinkler types
   • Overheads watering
   • Flood benches
   • Capillary watering
   • Trickle irrigation
   • Pulse watering
   • Seep hoses
   • Watering cans
   • Water supply and quality
   • Liquid feed systems
   • Water treatment
   • Water sources
   • Scheduling irrigation
   • Water system maintenance
5. Nursery Nutrition and Soil Characteristics
   • Fertilisers in greenhouses
   • Diagnosing Nutritional problems
   • Nutrition management
   • Soils, media and nutrition
   • Pore space in soils and growing media
   • Percolation rates
   • Buffering capacity
   • Cation exchange capacity
   • Soil temperature
   • Soil pH
   • Laboratory testing
   • Soil sampling
   • Measuring pH and salinity
   • Fertiliser types
   • Applying fertilisers
   • Fertiliser problems
   • Applying liquid fertilisers
6. Relationship between Production techniques and Horticultural practices
   • What crops are grown under cover
   • Potting media
   • Potting mix components
   • Potting mix problems
   • Water repellency
   • U.C. Mixes
   • Knoxfield research
   • Potting mix standards
   • Propagation media
   • Pots and containers
   • Potting up plants
   • Transplanting between pots
   • Perched water tables
   • Production of different crops
   • Tomato production
   • Lettuce production
   • Potted begonias
   • Carnations
   • Greenhouse roses
   • Hydroponics
   • Propagation methods -overview
   • Plant hormones
   • Planting and crop establishment
7. Greenhouse Management: Pests and diseases
   • Fungi
   • Common fungal problems
   • Chemical and cultural control of disorders
   • Legislation & labels
   • Biological and integrated pest management
   • Beneficial agents
   • Economic thresholds
   • How pest and disease may be introduced to a greenhouse
   • Identifying major problems -viruses, bacteria, fungi, nematodes
   • Pests
   • How to determine the problem
   • Conducting an inspection
8. Harvest and Post Harvest Technology
   • Stage of growth for harvesting
   • Shelf life
   • Post harvest treatments
   • Grading
   • Cut flowers
   • Conditioning for market
   • Marketing at a wholesale market
   • Culture & management requirements for selected greenhouse crops
   • Harvest & post harvest for different orchids
   • Transport and storage of flowers
   • Post harvest requirements of mushrooms
   • Grading systems
   • Mechanised grading
   • Fruit grading
9. Greenhouse Plants
   • What is suited to growing in a greenhouse
   • Growing specific crops
   • Growing lilies in a greenhouse
   • Growing roses in a greenhouse
   • Growing tomatoes in a greenhouse
10. Risk Assessment
    • Identifying risk in a workplace
    • Safe work practices with clothing and equipment
    • Workplace policy
    • Identifying hazards
    • Risk control methods
    • Risk assessment for protected crop production
    • Manual lifting
    • How to lift safely
    • Using machines for heavy work -including cultivation
    • Cleaning and sharpening tools

Aims

• Describe and evaluate types and shapes of modern growing structures
• Describe and evaluate environmental controls in protected cropping
• Explain the nature of solar radiation, transmission properties of glass and other materials used to cover greenhouses
• Determine the water requirements of a greenhouse grown crop; including appropriate methods of irrigation
• Relate horticultural principles to the production and harvesting of a range of greenhouse grown crops
• Evaluate factors that affect successful marketing protected crops
• Undertake risk assessment for plants growing in a greenhouse

What You Will Do

• Identify the main types of growing structure
• Relate use of structures to shape and type of construction
• Identify the range of environmental factors controlled within a growing structure
• Describe the use of the equipment used to measure and monitor these factors
• Name and describe a range of types of environmental controls
• Evaluate the use of IT facilities for environmental control
• Describe the meaning of “daylight” and explain the role of sunlight and diffused light
• Relate time of year to the quantity and quality of available light
• Evaluate how the shape and orientation of a structure will affect light transmission
• Assess the effectiveness of glass and cladding alternatives for light transmission
• Describe the durability and insulation properties of glass and alternative materials
• Select and describe appropriate systems of irrigation for plants grown in situ
• Select and describe appropriate systems of irrigation for container grown plants
• Specify and evaluate systems for incorporating plant nutrients into the irrigation water
• Explain the effects of environmental control on a range of plants
• Relate the essential features necessary for successful plant establishment and development to their underlying scientific principles.
• Describe the production of a range of crops
• State the optimum stage of growth for harvesting a range of crops
• Describe the harvesting systems for protected crops
• Explain how shelf life can be affected by pre and post harvesting treatment of the crop
• State the factors to be considered when marketing crops
• Evaluate alternative marketing outlets
• Relate packaging & presentation to marketing
• Assess benefits to the grower and customer, of grading a crop before marketing
• Determine elements of risk in the practical operations associated with protected plant production.
• Identify safe working practices in a greenhouse or shadehouse.