Course Content
Lectures
- Fungi of vegetable and ornamental species. Description, Hosts, Geographical Distribution, Disease Cycle, Damage and Treatment.
- Prokaryotic diseases of vegetable and ornamental species. Description, Hosts, Geographical Distribution, Disease Cycle, Damage and Treatment.
- Vegetable and ornamental virus induced diseases. Description, Hosts, Geographical Distribution, Disease Cycle, Damage and Treatment.
- Non-parasitic diseases of vegetables and ornamental species. Description, Damage and Confrontation.
- Parasitic plants
- Post harvest diseases
- Principles of fungal disease control
- Principles of procaryotic disease control
- Principles of virus disease control
- Principles of non-parasitic disease control.
Laboratory exercises
- Preparation of laboratory culture media
- Principles of sampling and sample processing
- Observation, description of symptoms, sample processing for identification of disease agent of tissues infected by plant pathogenic fungi, bacteria and viruses, or post-harvest disease agents.
- Observation, description of symptoms, sample processing for identification of non parasitic disease causes
Course Content
Lectures
- Cultivation of flowering plants for cut flowers and pots
- Packaging and preservation of cut flowers
- Cultivation of potted plants
- Cultivation of garden plants
- Cultivation of park plants
- Cultivation of indoor plants
- Perennial and annual herbs
- Evergreen shrubs.
- Deciduous shrubs.
- Climbing plants.
- Evergreen and deciduous trees.
- Phrygana and aromatic plants.
- Succulent plants
Laboratory exercises
- Techniques for carnation cultivation
- Techniques for Gardenia, Azalea, Camellia cultivation
- Techniques for cut flowers cultivation
- Techniques for garden plants cultivation
- Techniques for indoor plants cultivation
- Plant propagation techniques
Course Content
Lectures
- History of olive growing; anthropocene cultivation practices origin and classification of olive tree; economic data and projection for olive table fruits and olive oil at local and international stage.
- Morphology and taxonomy of olive tree; bud induction, differentiation and flowering; pollination and fruit setting; alternate bearing; structure and synthesis of olive fruit.
- Climate and soil condition requirements for olive culture.
- Olive propagation.
- Olive orchard establishment.
- Prunning
- Irrigation techniques in olive orchards – Water management and stress indicators.
- Olive tree nutrition; arid soils and soil salinity management for olives.
- Varieties; fruit maturity; harvest planning techniques and technology
- Olive oil mill technology, management and qualitative productivity standards.
- Pharmaceutical and non-pharmaceutical metabolites in olive orchards.
- Weed control and crop protection of olive trees; biological and IPM management plans.
- Contemporary issues on olive culture.
Laboratory exercises
- Characteristics of olive tree varieties; Management and development of patents in entrepreneurial olive culture.
- Modes of olive tree propagation; nursery startup and operational business plans.
- Phenotype plasticity in olive orchards; identification tools for olive plant material discrepancies.
- Postharvest technology in olives. Estimating yield loss due to environmental factors.
- Olive culture and environmental protection; circular economy in olive culture and fruit production.
- Research and discovery business plans for olive biopharmaceuticals.
Course Content
Lectures
- Hydroponics: Soilless Cultivation systems.
- Equipment of hydroponic units
- Nutritive solutions. Fertilizers used in hydroponics. Nutritive solutions preparation systems. Irrigation systems.
- Substrates and channels for growing crops.
- Hydroponic growing systems: Open hydroponic systems. Closed hydroponic systems.
- Float systems. N.F.T. Systems, N.G.S. Systems Aquaculture systems.
- Hydroponic crops of vegetables and flower plants.
- Aeroponics: Historical review. Fundamentals of Aeroponics.
- Advantages and Disadvantages.
- Modern Aeroponic cultivation systems: Hight and Low pressure units’ Commercial systems
- Vertical aeroponic growing systems.
- Aeroponic organic cultivation. NASA Aeroponic Systems. Garden Towers.
- Fully automated aeroponic plant growing system. Aeroponic cultivation of vegetables and flower plants.
- Aquaponics, (fish and plants co-growing systems).
Laboratory Exercises
- Open hydroponic systems. Closed hydroponic systems. Nutritive solutions for horticultural and flower crops.
- Nutritive solutions preparation and supply systems.
- Installation of hydroponic cultivation (horticultural or floricultural species).
- Vertical aeroponic growing system (vertical cultivation of aeroponics), NASA aeroponic systems. Garden Towers.
- Fully automated aeroponic plant cultivation system.
- Aquaponics, (fish and plants co-growing systems
Course Content
Lectures
- Introduction to turbines and power turbines
- Thermodynamic analysis of turbines and power turbines
- Applications of turbine engines
- Turbines and similarity relations
- Fans and mechanical equipment of ventilated warehouses
- Pressure losses and fan selection
- Principles of fluid mechanics related to pump head losses
- Classification of pumps
- Positive displacement, piston, diaphragm and rotary pumps
- Dynamic pumps, centrifugal type
- Deep well pumps, underwater pumps
- Characteristic curves of pumps
- Selection of a suitable pump
- Selection and design of a suitable pumping unit
The student chooses one (1) of the 8th Semester Elective Courses
Κωδικός |
Τίτλος |
|---|---|
AGRI_ΕΕ1 |
Smart Agriculture |
AGRI_ΕΕ2 |
Irrigation and Drainage using Information and Communication Technology |
AGRI_ΕΕ3 |
Environmental Fluid Mechanics |
AGRI_ΕΕ4 |
Pollution and Protection of the Rural Enviroment |
AGRI_ΕΕ5 |
Systems Simulation and Modeling of Agrobiosystems |
AGRI_ΕΕ6 |
Aromatic & Medicinal Plants |
AGRI_ΕΕ7 |
Applied Soil Science |
AGRI_ΕΕ8 |
Practical Training |