Global agro meet 2014 kerala india
November 22, 2017 | Author: V. Chandrasekharan | Category: N/A
Deskripsi Singkat
Use of Sensors In Greenhouses
HYGIENE
Entry Control
Insect/Weed management
Growing Env Control
Disease Free Plants
Fungicides
Plant Inspection
Waste Management
Waist height farming means Happy & Productive farmers
Irrigation Water Temperature and Effects
Plants need an ideal Irrigation water temperature between 18-26 Degrees Celsius at the root zone.
Cooler the water > the Oxygen
More Oxygen > nutrient uptake
More Oxygen > lesser root diseases
More Oxygen > friendly bacteria will thrive
Cool Root Zones are known to act as ideal Heat Sinks that lower the overall body temperature of plants thus reducing heat stress especially on very hot days.
Root Zone cooling also helps grow temperate plants in Tropical regions
Tensiometer-based Irrigation in greenhouses
Irrigation in greenhouses can be controlled using a system which measures moisture tension of the soil medium and irrigates based on this measurement. Such a system uses a tensiometer to sense the moisture tension and an automated irrigation system to deliver water to the desired locations.
This is a very useful way to decide when irrigation is necessary.
Irrigation must be calculated by time and quantity and also depends upon the Rooting Depth of the plant as per crop being grown.
Most often what happens is the Root Zone has not been wetted completely leaving the possibility of dry roots at the bottom.
A tensiometer can sense the lack of sufficient substrate medium tension and cause irrigation to be performed to avoid root /plant death.
TENSIOMETER
Medium and High technology greenhouses make use of a range of sensors which link into automated control systems.
These systems can monitor temperature, relative humidity, vapour pressure deficit, light intensity, electrical conductivity (feed and drain), pH (feed and drain), carbon dioxide concentrations, wind speed and direction and even whether or not it is raining. The information is used to control heating, venting, fans, screens, nutrient dosing, irrigation, carbon dioxide supplementation and fogging or misting systems.
Good climate/irrigation control in the greenhouse is the ultimate aim of controlled environment horticulture. The most important benefit of control in the greenhouse is the efficiency and effectiveness of your management decisions. There are a lot of other benefits too which save money and result in a better crop. These include greater energy and labour efficiency, more efficient use of water and fertilisers and fewer pesticides. Better control also gives you a more uniform crop so it costs you less to sell.
Correct operation of the automatic controllers is essential to management of an optimal growing environment. Emergency alarms and backup generators may be used in case of problems or power failure due to the large investments made in producing a crop.
GREENHOUSE ENVIRONMENT CONTROLLED BY SENSORS
TYPICAL NFT (NUTRIENT FILM TECHNIQUE LAYOUT) COMMERCIAL HYDROPONICS SYSTEM
TEMPERATURE INSIDE GREENHOUSES – THE NEED FOR CONTROLS
Photosynthesis – Within limits, rates of photosynthesis and respiration both rise with increasing temperatures. As temperatures reach the upper growing limits for the crop, the rate of food used by respiration may exceed the rate at which food is manufactured by photosynthesis.
Temperature influence on growth –Helps or Inhibits seed germination.
Temperature also influences Pollen formation, causes Blossom drop, affects fruit flavour.
High temperatures increase respiration rates, reducing sugar content of produce. Fruits and vegetables grown in heat will be less sweet.
In heat, crop yields reduce while water demand goes up.
In hot weather, flower colours fade and flowers have a shorter life.
Note: Consult with your seed specialists/vendors before selecting seeds.
HUMIDITY CONTROL AND MONITORING-
IN PROTECTED CULTIVATION ENVIRONS
Humidity plays an important role in plant growth.
Low Humidity conditions reduces Turgor Pressure and causes loss of water
High Humidity and High Temperature conditions , plants can get overheated because transpiration is reduced, thus restricting evaporative cooling
Humidity also influences plant diseases, especially fungi and moulds that grow and spread rapidly when humidity is high. Low Humidity can also affect the fruit set of some plant species e.g. , the Bean.
In hot and humid conditions the use of Foggers, Fan & Pad cooling only increases the humidity further and creates a negative environment for plant growth and creates a microsystem for diseases.
In environments like Kerala use of circulation fans in such conditions is highly recommended even in naturally ventilated greenhouses.
Photoperiod Sensitivity
Light intensity and duration are important for crop growth and development
Photosynthesis uses light- Low light causes plants to be long and this (spindly), small leaves, bud blades, poor pollination and poor fruit quality.
Photosynthesis is stopped at high light intensity depending on species.
Plants differ in light requirements.
Certain seeds require light and break dormancy.
Some plants are sensitive to photoperiod or day length.
Short day plants flower rapidly when the days get shorter.
Long day plants flower when days are longer.
Short days hasten tuber formation in potato, root enlargement in sweet potatoes.
Long days and high temps keep plants in Staminate (phase) in cucurbits.
Note: Its important to regulate light duration and Intensity and this crop-wise
Hydroponic Techniques –Nutrient Film Technique
Hydroponic Techniques- Aeroponics
No Compromise- The Four Factors
Water Quality: The quality of the water used in Hydroponics has to be of a very high quality. Tolerable EC < 0.3, pH- between 5.5-6.5. Must be free of micro-biological infections. Paramaters must be tested in a reputed laboratory. It is very important to monitor the drain pH and EC in both recovery and non-recovery systems.
Solid Substrates: Like Perlite, Coco Peat, Vermiculite, Volcanic Rock, River sand etc must be thoroughly washed to remove all traces of soil. Their EC and pH values must be tested before use. Must be a sterile substance free of bacteria and viruses. The WHC (Water Holding Capacity) of the substrate must be known and the AFP (Air Filled Porosity ) also is important to know for better oxygenation in the Root Zone. Its very important to understand that the substrate must be designed and ordered to be crop specific.
Nutrients : Must be 100 percent highly processed "Technical Grade Nutrients" and of the highest quality. Nutrients must be mixed as per crop requirement and as per stages of growth. Chemical Antagonism can play truant by diminishing properties of other salts.
Planting Materials: Seeds, Cuttings, Root-stock, Runners & other transplants must be free of virus and bacterial infections and certification sought from the vendors.
Note: Non Compliance and Non-Adherence can be a certain recipe for disaster
Role of Nutrients in Hydroponics
Plants need balanced nutrition and must be given as per stage of the crop and nutrient solutions must be prepared accordingly. The pH/EC must be monitored to ensure that there is no nutrient toxicity and salt stress at the roots.
Nutrient solution analysis is absolutely necessary in a closed system, where the solution is re-used, and recommended in an open system to verify concentrations of macro and microelements. Plants take up nutrients in varying amounts depending on their needs. Although monitoring pH and EC will give an indication of changes in the nutrient solution, it cannot indicate changes in preferential uptake of particular ions. In a closed system, if no analysis is possible, then the nutrient solution should be completely changed every two weeks.
Quality of nutrient salts as said earlier must be of a very high order. It must be well processed to remove insoluble material and must be 100 percent water soluble. Micro-Nutrients play a very huge role in fruit quality and nutrition.
Plant tissue analysis allows the grower to detect a problem in the uptake/assimilation of nutrients which may not be apparent in a nutrient solution analysis.
Foliar Nutrient sprays can be applied for a faster response, however burning of the plants may result. It is best to test a foliar spray on a few plants and wait several days to observe the effects before spraying a whole crop.
Remember : Good Nutrient Management is only a part fulfilled of plant growth.
The Root Zone
Plant roots are arguably the most important part of a plant.
Continuous Monitoring and Good health of the Roots means better yields and no diseases.
White Roots indicate Good Health at Root Zone.
Root Zone Temperature must be maintained at optimum levels to prevent stunted growth, root diseases, better nutrient uptake and create a microsystem for friendly bacteria to thrive.
Salt Stress at Root Zone must be monitored to avoid poor growth and resultant yields.
Oxygen at the Root Zone is very important and a leading cause of root diseases and death.
Porosity and Drainage of Irrigation water is a must and must not result in ponding.
EC/ TDS & pH of nutrient water must be controlled and gradually increased.
Root-Microbe Symbiosis climate must be excellent.
Beneficials at Root Zone like Bacillus, Mychorhizal Fungi, Nitrosomonas Bacteria, Nitrobacteria, Streptomyces, Trichoderma are essentials for good root zone health.
Root Pathogen Control – Friendly bacteria must be used with the substrates during seeding and transplanting .
No Compromise when it comes to Root Zone.
This is the mantra for more crop per drop
The importance of Light
Light is the most important factor in plant growth, Without good and plentiful light, a plant will not be able to perform photosynthesis, chiefly the main principle by which a plant converts food into energy.
The wavelengths between 400-700 Nanometres is ideal for photosynthesis also known as PAR (Photo-synthetically Active Radiation)
DRIP FED GRAVITY HYDROPONICS KIT FOR SMALL FARMERS/SMALL LAND HOLDERS
ZERO ENERGY SYSTEM
SMALL 96 BAG SYSTEM HOME HYDROPONICS
ON ROOFTOPS/BACKYARDS- Enough for a 6 member family
THE PET BHARO PROJECT
SL
ITEM
QTY
1
Coco Peat Low EC
12
2
Seeds
20 types
3
Nutrients
1 set
4
Seedling Trays
20
5
pH Test Indicator Strips
1 set
6
Rose Can
1
8
Hydroponics DVD
1
9
Horticultural Poly Bags
96
10
Measuring Spoon
1
14
Spray Bottles
2
15
Neem Oil Spray
1
16
Insect Trap
1
17
Sponge
1
Optional
18
Bluelab EC/pH/Temp Combo Probe
1
19
Consultancy 24 Times a Year Package
1
Not Included items are
1
Road Transport at actuals
2
5 pc tax on agri items
3
Shade/Polyhouse/Cover
200 Sq Ft
4
Thermocol sheets
5
Nutrient tanks 200 L -3 nos
GREENHOUSE MANAGEMENT –IMPORTANT FACTORS
Hydroponics/Soilless cultivation is highly process and procedure oriented and needs a high level of devotion and diligence on the part of the grower/farm manager/agronomist and the farm assistants
SIMPLIFIED HYDROPONICS- FOR SUSTAINABILITY AND LIVELIHOOD
This is CV… and Thank You
Jai Kisan… Jai Hind
[email protected] Email
www.petbharoproject.co.in Website
Training must include
Location, Siting & Layout of Greenhouse Systems. Greenhouse Structures & Environmental Management .Water Quality, EC & pH .Basic Hydroponic Systems & Components .Crop Varieties, Media Types &Characteristics. Plant Structure, Nutrition & Nutrient Management. Common Greenhouse Pests & Diseases &IPM. Quality Assurance, OH&S, I.T. & Production Plan. Light and PAR adjustments in Greenhouses. Irrigation, growing media's manager. Plant Management, physical and cultural requirements .CO2 enrichment of greenhouses. Practical EC & pH Measurements in Crops. Implement a Hydroponic Maintenance Program. Implement a Plant Establishment Program. Implement a Pest & Disease Control Program for Hydroponic Systems. Implement an IPM Program. New Greenhouse Investment & Technology Considerations. Implement a Plant Monitoring Program. Introduction to Plant Physiology, Monitoring and Management. Nutrient Uptake Influences. Seedling Propagation Management. Acid & Chlorine Sterilisation Worksheet. Dripper timing Calculations. Greenhouse Management Program. Greenhouse Crop Protection Principles. Greenhouse Climate Management. Greenhouse Environment Management. Identifying Plant & Fruit Problems. Influence of Greenhouse Temperature. Initial Greenhouse Crop Targets. Maximising Greenhouse Efficiency & Energy Conservation. Nutrient Deficiency Chart. Plant Photosynthesis & Temperature Relationships. Plant Transpiration Principles. Plant Vigour & Balance Chart. Spray System for Greenhouse Crops. Treatment Spray Chart for Greenhouse Crops. Nutrient Feed Solutions for Greenhouse Vegetables. Irrigation in Protected Cropping & Soilless Culture. Greenhouse Ventilation Techniques. Managing Plant Balance. Radiation Transmission through Greenhouse Claddings. Maintenance Program for Closed Hydroponic Systems. Operating Pressurised Irrigation Systems. Production scheduling. Harvest timings, Sorting, Grading and Packing.
More Skill … More Thrill
Government support for the industry in the form of assistance with an appropriate legislative environment, training and information provision.
Industry education and training at a grass roots level of production is important. This might include education on climate control, crop environmental requirements, and IPM programs within greenhouses.
State government must look at subsidising different kinds of greenhouses not just the same ones that have been subsidised since independence.
Governments must give support to private companies to set up demonstration greenhouses and training centres of world class quality.
There must be systems that fill every bill, the small , the medium and large famers.
WITHOUT KNOWLEDGE TECHNOLOGY IS OF NO USE
Information Technology in Greenhouse Cultivation
Although the computer takes over a lot of control from the grower these days, the grower must still carefully follow how plants react. The expert's eye, the many years of experience and the grower's passion make the difference and can never be taken over by a computer. Maintaining the biological balance in the greenhouse also continues to be manual work and demands a lot of experience
MYTHS ABOUT HYDROPONICS
It's a new technology
It's hard to learn
Its rocket science
Is artificial /unnatural
Hurts the environment
Is only for the rich farmer
Plants grow faster
Is expensive to grow
Is used for Illegal purposes
Only for Indoors
Needs no Pesticides
Uses dangerous chemicals
Hydroponics – For Whom It is Not
For the Lazy Procrastinating variety
For those who don't believe in structure, process and procedure
For those who will leave the operation to a manager
For those whose only interest is making a fast buck
For those whose life is about short cuts
For whom quality does not matter – work or material
For those who wont work with their hands
What can go wrong?
Over-confidence on the part of a grower- I-Know-It - All attitude
Carelesssness on part of grower to follow procedures laid down
Procrastination- Postponing scheduled jobs to a later time
Cutting corners by doing jobs half heartedly
Failing to look for insects , pests and signs of disease or nutrient deficiencies
Cutting costs by using inferior substrates, seeds, poor water and nutrients.
Unhappy staff due to poor welfare conditions.
Poor maintenance of the Greenhouse like torn poly-film as example.
Non-observance of Greenhouse Hygiene Management principles.
HGTIPL- Products & Services
Training in Simplified Hydroponics
Consultancy for setting up of SH systems
Turnkey Commercial Projects
Supply of Seeds
On The Job Training during Commercial Projects
Agronomy Support On-site
Hand-holding till first or second crop
Continuous auditing
Remote Agronomy Support
Supply of Hydroponic Nutrients,
R&D of plant varieties in Hydroponics/Soil-less systems
Water Testing Facilities
Supply of Hydroponics Substrates and Accessories & Equipment
Linking Growers and Buyers
Hydroponics Techniques- Drip Systems- Recovery and Non-Recovery
Hydroponics Techniques- Ebb & Flow/Flood & Drain
Hydroponic Techniques- DWC Method
Water use efficiencies in the
Agriculture Sector
Litres of water used per $100 of output
Rice – 470,000
Cotton – 160,000
Dairy Milk – 147,000
Sugar – 123,900
Beef Cattle – 81,200
Vegetables & Fruit – 37,900
Wheat & Grain – 24,500
Hydroponic Crops – 600
Just look at the savings of water in Hydroponics…
Current Water Resource Usage- India vs World
The world uses 69 percent of its water resources for agriculture, India uses 83 percent.
As the Indian Economy and its Population grows , there will be more need for water for Industrial and Domestic use, which will put a great strain on resources needed in agriculture.
This means better water saving technologies must be adopted soon to mitigate this looming scenario.
YOU CAN SEE HERE THE AMOUNT OF WATER USED IN GLOBAL AGRICULTURE
INDIAN AGRICULTURE WITHDRAWS NEARLY 80 PERCENT OF ITS WATER RESOURCES BEING AN AGRARIAN ECONOMY
Global Water Availability
ONLY 1.5 PERCENT OF THE WORLDS WATER RESOURCES IS USABLE
AND THAT'S REALLY SCARY !!!
'More Crop Per Drop'
In the Realms of Soilless/Hydroponics Cultivation
Global Agro Meet 2014
Presented by Lt Cdr CV Prakash (retd) , Farmer-in-Chief & Founder of the
"Pet Bharo Project" under Hydroponic Greenhouse Technologies India Private Limited, Bangalore
www.petbharoproject.co.in
A Saga of Tenacity……… An Audacity of Hope… A Journey like no Other……….
Improve performance of irrigated and rain-fed production.
Smarter water-saving agricultural practices.
Better & Productive water management techniques are urgently needed.
The technical solutions to produce 'more crop per drop' exist but investments and political will are often lacking to improve rain-fed production and modernize irrigation systems.
National governments and funding agencies must make strategic choices in favour of agricultural water management.
WHAT IS NEEDED ON PRIORITY
ROOFTOP HYDROPONICS FARMING- NEXT GEN AGRICULTURE
Problems in Flood Irrigated Soil based Horticulture- Vegetables & Fruits- B
Watering is not based on scientific methods.
Excessive flow rates in drip method causes run-off, leaching of nutrients & root diseases.
Excessive flow rates in flood or drip causes erosion of top soil and bares roots.
Soil moisture is very important for max seed germination & Vegetable transplants.
Each irrigation event must consider the rooting depth otherwise the entire root system may not be irrigated.
Soil Moisture is hardly measured by farmers resulting in excessive untimely watering resulting in root diseases.
Amount and timing between irrigation is rarely considered.
Inadequate soil moisture during fruit set causes poor fruit quality and affects yields.
Use of Tensiometers to ensure adequate soil moisture is unheard of.
Leafy vegetables are very susceptible to drought stress.
Hydroponic Techniques- Wick Method
Different methods used in Hydroponics
Benefits of Hydroponics Technology
Healthy growth
Off season production
Higher consistent yields
Excellent quality
Superior hygiene
Reduction in growing area
Free from weeds
Free from soil borne diseases
Water can be recycled
Predictability of crops
Pests kept to minimum
Use of all macro & micro nutrients
Traceability possible
Produce high In nutrition
Produce Is export worthy
No tractor required
No need to replace soil
Quick turnaround between crops
Excellent ergonomics
Least labour
Least water
Is the smart way to grow and earn good money by selling quality crop
Problems in Flood Irrigated Soil based Horticulture- Vegetables & Fruits- A
Vegetables & Fruits contain nearly 80-95 percent water. Right Irrigation methodologies alone ensures yields and quality
Drought affects Yields and Quality
Lack of soil moisture affects shallow rooted vegetables
Effective irrigation means toughness, flavour, size and shape of the fruit/veggie
Prevents poor tip and pod fill
Prevents cracking, blossom end rot, misshapen fruit
Too much water reduces soluble solids in muskmelons and peppers
Untimely or Delayed irrigation causes water stress
Stretching of acreage may reduce water reaching extremities of field
Irrigation timings and flow rates must be based on crop stage
Uneven soil moisture distribution causes non-even growth & yields
Enter Soilless/Hydroponics Cultivation
No horticultural method of growing vegetables, herbs and certain fruits have possibly undergone such minute study, research, scrutiny and inherent understanding as Hydroponics/Soilless Cultivation in the past century. It is by far the most efficient technique to help plants reach their 'Genetic' potential.
The future of horticulture is embedded within the womb of this wonderful science
If More Crop Per Drop is what you desire you are here at the right place at the right time…
What is Hydroponics/Soilless Cultivation?
Hydroponics, simply put, is the art of growing plants without soil.
Hydro in Latin Means Water, Ponos in Greek means working. Water Working or Working in Water
Hydroponics is a subset of Soilless Cultivation. Its very loosely used like we use the word 'Xerox'.
Any sterile substrate with/having similar properties to soil can be used in this method to grow plants.
Since most of the worlds soil are depleted of nutrition, have soil borne diseases, Soilless Cultivation is an answer.
Ground Reality
The Indian farmer is poorly informed. Still follows methods passed down from generations.
Lack of Extension is a cause of poor skills among farmers.
Reluctance to share knowledge among intellectuals and among farmers have caused huge gaps in skills.
Farmers have little idea of irrigation/drip scheduling, flow rates et al.
Lack of understanding of weather patterns, soil conditions, key criteria have not allowed them to progress.
Poor Greenhouse Management techniques.
Inputs like seeds, fertilisers, pesticides from dubious and cheap sources have effected farmers yields.
Lack of understanding of fertiliser and pesticide regimes and dosages and when to apply them.
Inability to understand cultural practices/ package of practices of crop(s).
Poor disease and pest identification skills.
Two farmers cannot get along and share water resources. Each one to himself mentality.
Over irrigation in the minds of farmers seems to be the mantra.
Farmers waste a lot of water unnecessarily.
This is just a partial list.
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Disadvantage is that the plants may draw more water than what the wick can supply
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Good for leafy veggies mainly and not for long term plants. DWC Means Deep Water Culture
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Great for Research and Development and for making rhizomes etc but extremely expensive and subject to clogging causing death of plants
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Got to monitor the pH and EC constantly and also the temperature of the drain water. If one plant has a disease in the root zone it would spread very easily to other plants.
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Needs Constant Power Interruptions can cause root drying and die-out
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Deskripsi
Use of Sensors In Greenhouses
HYGIENE
Entry Control
Insect/Weed management
Growing Env Control
Disease Free Plants
Fungicides
Plant Inspection
Waste Management
Waist height farming means Happy & Productive farmers
Irrigation Water Temperature and Effects
Plants need an ideal Irrigation water temperature between 18-26 Degrees Celsius at the root zone.
Cooler the water > the Oxygen
More Oxygen > nutrient uptake
More Oxygen > lesser root diseases
More Oxygen > friendly bacteria will thrive
Cool Root Zones are known to act as ideal Heat Sinks that lower the overall body temperature of plants thus reducing heat stress especially on very hot days.
Root Zone cooling also helps grow temperate plants in Tropical regions
Tensiometer-based Irrigation in greenhouses
Irrigation in greenhouses can be controlled using a system which measures moisture tension of the soil medium and irrigates based on this measurement. Such a system uses a tensiometer to sense the moisture tension and an automated irrigation system to deliver water to the desired locations.
This is a very useful way to decide when irrigation is necessary.
Irrigation must be calculated by time and quantity and also depends upon the Rooting Depth of the plant as per crop being grown.
Most often what happens is the Root Zone has not been wetted completely leaving the possibility of dry roots at the bottom.
A tensiometer can sense the lack of sufficient substrate medium tension and cause irrigation to be performed to avoid root /plant death.
TENSIOMETER
Medium and High technology greenhouses make use of a range of sensors which link into automated control systems.
These systems can monitor temperature, relative humidity, vapour pressure deficit, light intensity, electrical conductivity (feed and drain), pH (feed and drain), carbon dioxide concentrations, wind speed and direction and even whether or not it is raining. The information is used to control heating, venting, fans, screens, nutrient dosing, irrigation, carbon dioxide supplementation and fogging or misting systems.
Good climate/irrigation control in the greenhouse is the ultimate aim of controlled environment horticulture. The most important benefit of control in the greenhouse is the efficiency and effectiveness of your management decisions. There are a lot of other benefits too which save money and result in a better crop. These include greater energy and labour efficiency, more efficient use of water and fertilisers and fewer pesticides. Better control also gives you a more uniform crop so it costs you less to sell.
Correct operation of the automatic controllers is essential to management of an optimal growing environment. Emergency alarms and backup generators may be used in case of problems or power failure due to the large investments made in producing a crop.
GREENHOUSE ENVIRONMENT CONTROLLED BY SENSORS
TYPICAL NFT (NUTRIENT FILM TECHNIQUE LAYOUT) COMMERCIAL HYDROPONICS SYSTEM
TEMPERATURE INSIDE GREENHOUSES – THE NEED FOR CONTROLS
Photosynthesis – Within limits, rates of photosynthesis and respiration both rise with increasing temperatures. As temperatures reach the upper growing limits for the crop, the rate of food used by respiration may exceed the rate at which food is manufactured by photosynthesis.
Temperature influence on growth –Helps or Inhibits seed germination.
Temperature also influences Pollen formation, causes Blossom drop, affects fruit flavour.
High temperatures increase respiration rates, reducing sugar content of produce. Fruits and vegetables grown in heat will be less sweet.
In heat, crop yields reduce while water demand goes up.
In hot weather, flower colours fade and flowers have a shorter life.
Note: Consult with your seed specialists/vendors before selecting seeds.
HUMIDITY CONTROL AND MONITORING-
IN PROTECTED CULTIVATION ENVIRONS
Humidity plays an important role in plant growth.
Low Humidity conditions reduces Turgor Pressure and causes loss of water
High Humidity and High Temperature conditions , plants can get overheated because transpiration is reduced, thus restricting evaporative cooling
Humidity also influences plant diseases, especially fungi and moulds that grow and spread rapidly when humidity is high. Low Humidity can also affect the fruit set of some plant species e.g. , the Bean.
In hot and humid conditions the use of Foggers, Fan & Pad cooling only increases the humidity further and creates a negative environment for plant growth and creates a microsystem for diseases.
In environments like Kerala use of circulation fans in such conditions is highly recommended even in naturally ventilated greenhouses.
Photoperiod Sensitivity
Light intensity and duration are important for crop growth and development
Photosynthesis uses light- Low light causes plants to be long and this (spindly), small leaves, bud blades, poor pollination and poor fruit quality.
Photosynthesis is stopped at high light intensity depending on species.
Plants differ in light requirements.
Certain seeds require light and break dormancy.
Some plants are sensitive to photoperiod or day length.
Short day plants flower rapidly when the days get shorter.
Long day plants flower when days are longer.
Short days hasten tuber formation in potato, root enlargement in sweet potatoes.
Long days and high temps keep plants in Staminate (phase) in cucurbits.
Note: Its important to regulate light duration and Intensity and this crop-wise
Hydroponic Techniques –Nutrient Film Technique
Hydroponic Techniques- Aeroponics
No Compromise- The Four Factors
Water Quality: The quality of the water used in Hydroponics has to be of a very high quality. Tolerable EC < 0.3, pH- between 5.5-6.5. Must be free of micro-biological infections. Paramaters must be tested in a reputed laboratory. It is very important to monitor the drain pH and EC in both recovery and non-recovery systems.
Solid Substrates: Like Perlite, Coco Peat, Vermiculite, Volcanic Rock, River sand etc must be thoroughly washed to remove all traces of soil. Their EC and pH values must be tested before use. Must be a sterile substance free of bacteria and viruses. The WHC (Water Holding Capacity) of the substrate must be known and the AFP (Air Filled Porosity ) also is important to know for better oxygenation in the Root Zone. Its very important to understand that the substrate must be designed and ordered to be crop specific.
Nutrients : Must be 100 percent highly processed "Technical Grade Nutrients" and of the highest quality. Nutrients must be mixed as per crop requirement and as per stages of growth. Chemical Antagonism can play truant by diminishing properties of other salts.
Planting Materials: Seeds, Cuttings, Root-stock, Runners & other transplants must be free of virus and bacterial infections and certification sought from the vendors.
Note: Non Compliance and Non-Adherence can be a certain recipe for disaster
Role of Nutrients in Hydroponics
Plants need balanced nutrition and must be given as per stage of the crop and nutrient solutions must be prepared accordingly. The pH/EC must be monitored to ensure that there is no nutrient toxicity and salt stress at the roots.
Nutrient solution analysis is absolutely necessary in a closed system, where the solution is re-used, and recommended in an open system to verify concentrations of macro and microelements. Plants take up nutrients in varying amounts depending on their needs. Although monitoring pH and EC will give an indication of changes in the nutrient solution, it cannot indicate changes in preferential uptake of particular ions. In a closed system, if no analysis is possible, then the nutrient solution should be completely changed every two weeks.
Quality of nutrient salts as said earlier must be of a very high order. It must be well processed to remove insoluble material and must be 100 percent water soluble. Micro-Nutrients play a very huge role in fruit quality and nutrition.
Plant tissue analysis allows the grower to detect a problem in the uptake/assimilation of nutrients which may not be apparent in a nutrient solution analysis.
Foliar Nutrient sprays can be applied for a faster response, however burning of the plants may result. It is best to test a foliar spray on a few plants and wait several days to observe the effects before spraying a whole crop.
Remember : Good Nutrient Management is only a part fulfilled of plant growth.
The Root Zone
Plant roots are arguably the most important part of a plant.
Continuous Monitoring and Good health of the Roots means better yields and no diseases.
White Roots indicate Good Health at Root Zone.
Root Zone Temperature must be maintained at optimum levels to prevent stunted growth, root diseases, better nutrient uptake and create a microsystem for friendly bacteria to thrive.
Salt Stress at Root Zone must be monitored to avoid poor growth and resultant yields.
Oxygen at the Root Zone is very important and a leading cause of root diseases and death.
Porosity and Drainage of Irrigation water is a must and must not result in ponding.
EC/ TDS & pH of nutrient water must be controlled and gradually increased.
Root-Microbe Symbiosis climate must be excellent.
Beneficials at Root Zone like Bacillus, Mychorhizal Fungi, Nitrosomonas Bacteria, Nitrobacteria, Streptomyces, Trichoderma are essentials for good root zone health.
Root Pathogen Control – Friendly bacteria must be used with the substrates during seeding and transplanting .
No Compromise when it comes to Root Zone.
This is the mantra for more crop per drop
The importance of Light
Light is the most important factor in plant growth, Without good and plentiful light, a plant will not be able to perform photosynthesis, chiefly the main principle by which a plant converts food into energy.
The wavelengths between 400-700 Nanometres is ideal for photosynthesis also known as PAR (Photo-synthetically Active Radiation)
DRIP FED GRAVITY HYDROPONICS KIT FOR SMALL FARMERS/SMALL LAND HOLDERS
ZERO ENERGY SYSTEM
SMALL 96 BAG SYSTEM HOME HYDROPONICS
ON ROOFTOPS/BACKYARDS- Enough for a 6 member family
THE PET BHARO PROJECT
SL
ITEM
QTY
1
Coco Peat Low EC
12
2
Seeds
20 types
3
Nutrients
1 set
4
Seedling Trays
20
5
pH Test Indicator Strips
1 set
6
Rose Can
1
8
Hydroponics DVD
1
9
Horticultural Poly Bags
96
10
Measuring Spoon
1
14
Spray Bottles
2
15
Neem Oil Spray
1
16
Insect Trap
1
17
Sponge
1
Optional
18
Bluelab EC/pH/Temp Combo Probe
1
19
Consultancy 24 Times a Year Package
1
Not Included items are
1
Road Transport at actuals
2
5 pc tax on agri items
3
Shade/Polyhouse/Cover
200 Sq Ft
4
Thermocol sheets
5
Nutrient tanks 200 L -3 nos
GREENHOUSE MANAGEMENT –IMPORTANT FACTORS
Hydroponics/Soilless cultivation is highly process and procedure oriented and needs a high level of devotion and diligence on the part of the grower/farm manager/agronomist and the farm assistants
SIMPLIFIED HYDROPONICS- FOR SUSTAINABILITY AND LIVELIHOOD
This is CV… and Thank You
Jai Kisan… Jai Hind
[email protected] Email
www.petbharoproject.co.in Website
Training must include
Location, Siting & Layout of Greenhouse Systems. Greenhouse Structures & Environmental Management .Water Quality, EC & pH .Basic Hydroponic Systems & Components .Crop Varieties, Media Types &Characteristics. Plant Structure, Nutrition & Nutrient Management. Common Greenhouse Pests & Diseases &IPM. Quality Assurance, OH&S, I.T. & Production Plan. Light and PAR adjustments in Greenhouses. Irrigation, growing media's manager. Plant Management, physical and cultural requirements .CO2 enrichment of greenhouses. Practical EC & pH Measurements in Crops. Implement a Hydroponic Maintenance Program. Implement a Plant Establishment Program. Implement a Pest & Disease Control Program for Hydroponic Systems. Implement an IPM Program. New Greenhouse Investment & Technology Considerations. Implement a Plant Monitoring Program. Introduction to Plant Physiology, Monitoring and Management. Nutrient Uptake Influences. Seedling Propagation Management. Acid & Chlorine Sterilisation Worksheet. Dripper timing Calculations. Greenhouse Management Program. Greenhouse Crop Protection Principles. Greenhouse Climate Management. Greenhouse Environment Management. Identifying Plant & Fruit Problems. Influence of Greenhouse Temperature. Initial Greenhouse Crop Targets. Maximising Greenhouse Efficiency & Energy Conservation. Nutrient Deficiency Chart. Plant Photosynthesis & Temperature Relationships. Plant Transpiration Principles. Plant Vigour & Balance Chart. Spray System for Greenhouse Crops. Treatment Spray Chart for Greenhouse Crops. Nutrient Feed Solutions for Greenhouse Vegetables. Irrigation in Protected Cropping & Soilless Culture. Greenhouse Ventilation Techniques. Managing Plant Balance. Radiation Transmission through Greenhouse Claddings. Maintenance Program for Closed Hydroponic Systems. Operating Pressurised Irrigation Systems. Production scheduling. Harvest timings, Sorting, Grading and Packing.
More Skill … More Thrill
Government support for the industry in the form of assistance with an appropriate legislative environment, training and information provision.
Industry education and training at a grass roots level of production is important. This might include education on climate control, crop environmental requirements, and IPM programs within greenhouses.
State government must look at subsidising different kinds of greenhouses not just the same ones that have been subsidised since independence.
Governments must give support to private companies to set up demonstration greenhouses and training centres of world class quality.
There must be systems that fill every bill, the small , the medium and large famers.
WITHOUT KNOWLEDGE TECHNOLOGY IS OF NO USE
Information Technology in Greenhouse Cultivation
Although the computer takes over a lot of control from the grower these days, the grower must still carefully follow how plants react. The expert's eye, the many years of experience and the grower's passion make the difference and can never be taken over by a computer. Maintaining the biological balance in the greenhouse also continues to be manual work and demands a lot of experience
MYTHS ABOUT HYDROPONICS
It's a new technology
It's hard to learn
Its rocket science
Is artificial /unnatural
Hurts the environment
Is only for the rich farmer
Plants grow faster
Is expensive to grow
Is used for Illegal purposes
Only for Indoors
Needs no Pesticides
Uses dangerous chemicals
Hydroponics – For Whom It is Not
For the Lazy Procrastinating variety
For those who don't believe in structure, process and procedure
For those who will leave the operation to a manager
For those whose only interest is making a fast buck
For those whose life is about short cuts
For whom quality does not matter – work or material
For those who wont work with their hands
What can go wrong?
Over-confidence on the part of a grower- I-Know-It - All attitude
Carelesssness on part of grower to follow procedures laid down
Procrastination- Postponing scheduled jobs to a later time
Cutting corners by doing jobs half heartedly
Failing to look for insects , pests and signs of disease or nutrient deficiencies
Cutting costs by using inferior substrates, seeds, poor water and nutrients.
Unhappy staff due to poor welfare conditions.
Poor maintenance of the Greenhouse like torn poly-film as example.
Non-observance of Greenhouse Hygiene Management principles.
HGTIPL- Products & Services
Training in Simplified Hydroponics
Consultancy for setting up of SH systems
Turnkey Commercial Projects
Supply of Seeds
On The Job Training during Commercial Projects
Agronomy Support On-site
Hand-holding till first or second crop
Continuous auditing
Remote Agronomy Support
Supply of Hydroponic Nutrients,
R&D of plant varieties in Hydroponics/Soil-less systems
Water Testing Facilities
Supply of Hydroponics Substrates and Accessories & Equipment
Linking Growers and Buyers
Hydroponics Techniques- Drip Systems- Recovery and Non-Recovery
Hydroponics Techniques- Ebb & Flow/Flood & Drain
Hydroponic Techniques- DWC Method
Water use efficiencies in the
Agriculture Sector
Litres of water used per $100 of output
Rice – 470,000
Cotton – 160,000
Dairy Milk – 147,000
Sugar – 123,900
Beef Cattle – 81,200
Vegetables & Fruit – 37,900
Wheat & Grain – 24,500
Hydroponic Crops – 600
Just look at the savings of water in Hydroponics…
Current Water Resource Usage- India vs World
The world uses 69 percent of its water resources for agriculture, India uses 83 percent.
As the Indian Economy and its Population grows , there will be more need for water for Industrial and Domestic use, which will put a great strain on resources needed in agriculture.
This means better water saving technologies must be adopted soon to mitigate this looming scenario.
YOU CAN SEE HERE THE AMOUNT OF WATER USED IN GLOBAL AGRICULTURE
INDIAN AGRICULTURE WITHDRAWS NEARLY 80 PERCENT OF ITS WATER RESOURCES BEING AN AGRARIAN ECONOMY
Global Water Availability
ONLY 1.5 PERCENT OF THE WORLDS WATER RESOURCES IS USABLE
AND THAT'S REALLY SCARY !!!
'More Crop Per Drop'
In the Realms of Soilless/Hydroponics Cultivation
Global Agro Meet 2014
Presented by Lt Cdr CV Prakash (retd) , Farmer-in-Chief & Founder of the
"Pet Bharo Project" under Hydroponic Greenhouse Technologies India Private Limited, Bangalore
www.petbharoproject.co.in
A Saga of Tenacity……… An Audacity of Hope… A Journey like no Other……….
Improve performance of irrigated and rain-fed production.
Smarter water-saving agricultural practices.
Better & Productive water management techniques are urgently needed.
The technical solutions to produce 'more crop per drop' exist but investments and political will are often lacking to improve rain-fed production and modernize irrigation systems.
National governments and funding agencies must make strategic choices in favour of agricultural water management.
WHAT IS NEEDED ON PRIORITY
ROOFTOP HYDROPONICS FARMING- NEXT GEN AGRICULTURE
Problems in Flood Irrigated Soil based Horticulture- Vegetables & Fruits- B
Watering is not based on scientific methods.
Excessive flow rates in drip method causes run-off, leaching of nutrients & root diseases.
Excessive flow rates in flood or drip causes erosion of top soil and bares roots.
Soil moisture is very important for max seed germination & Vegetable transplants.
Each irrigation event must consider the rooting depth otherwise the entire root system may not be irrigated.
Soil Moisture is hardly measured by farmers resulting in excessive untimely watering resulting in root diseases.
Amount and timing between irrigation is rarely considered.
Inadequate soil moisture during fruit set causes poor fruit quality and affects yields.
Use of Tensiometers to ensure adequate soil moisture is unheard of.
Leafy vegetables are very susceptible to drought stress.
Hydroponic Techniques- Wick Method
Different methods used in Hydroponics
Benefits of Hydroponics Technology
Healthy growth
Off season production
Higher consistent yields
Excellent quality
Superior hygiene
Reduction in growing area
Free from weeds
Free from soil borne diseases
Water can be recycled
Predictability of crops
Pests kept to minimum
Use of all macro & micro nutrients
Traceability possible
Produce high In nutrition
Produce Is export worthy
No tractor required
No need to replace soil
Quick turnaround between crops
Excellent ergonomics
Least labour
Least water
Is the smart way to grow and earn good money by selling quality crop
Problems in Flood Irrigated Soil based Horticulture- Vegetables & Fruits- A
Vegetables & Fruits contain nearly 80-95 percent water. Right Irrigation methodologies alone ensures yields and quality
Drought affects Yields and Quality
Lack of soil moisture affects shallow rooted vegetables
Effective irrigation means toughness, flavour, size and shape of the fruit/veggie
Prevents poor tip and pod fill
Prevents cracking, blossom end rot, misshapen fruit
Too much water reduces soluble solids in muskmelons and peppers
Untimely or Delayed irrigation causes water stress
Stretching of acreage may reduce water reaching extremities of field
Irrigation timings and flow rates must be based on crop stage
Uneven soil moisture distribution causes non-even growth & yields
Enter Soilless/Hydroponics Cultivation
No horticultural method of growing vegetables, herbs and certain fruits have possibly undergone such minute study, research, scrutiny and inherent understanding as Hydroponics/Soilless Cultivation in the past century. It is by far the most efficient technique to help plants reach their 'Genetic' potential.
The future of horticulture is embedded within the womb of this wonderful science
If More Crop Per Drop is what you desire you are here at the right place at the right time…
What is Hydroponics/Soilless Cultivation?
Hydroponics, simply put, is the art of growing plants without soil.
Hydro in Latin Means Water, Ponos in Greek means working. Water Working or Working in Water
Hydroponics is a subset of Soilless Cultivation. Its very loosely used like we use the word 'Xerox'.
Any sterile substrate with/having similar properties to soil can be used in this method to grow plants.
Since most of the worlds soil are depleted of nutrition, have soil borne diseases, Soilless Cultivation is an answer.
Ground Reality
The Indian farmer is poorly informed. Still follows methods passed down from generations.
Lack of Extension is a cause of poor skills among farmers.
Reluctance to share knowledge among intellectuals and among farmers have caused huge gaps in skills.
Farmers have little idea of irrigation/drip scheduling, flow rates et al.
Lack of understanding of weather patterns, soil conditions, key criteria have not allowed them to progress.
Poor Greenhouse Management techniques.
Inputs like seeds, fertilisers, pesticides from dubious and cheap sources have effected farmers yields.
Lack of understanding of fertiliser and pesticide regimes and dosages and when to apply them.
Inability to understand cultural practices/ package of practices of crop(s).
Poor disease and pest identification skills.
Two farmers cannot get along and share water resources. Each one to himself mentality.
Over irrigation in the minds of farmers seems to be the mantra.
Farmers waste a lot of water unnecessarily.
This is just a partial list.
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Disadvantage is that the plants may draw more water than what the wick can supply
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Good for leafy veggies mainly and not for long term plants. DWC Means Deep Water Culture
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Great for Research and Development and for making rhizomes etc but extremely expensive and subject to clogging causing death of plants
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Got to monitor the pH and EC constantly and also the temperature of the drain water. If one plant has a disease in the root zone it would spread very easily to other plants.
20
Needs Constant Power Interruptions can cause root drying and die-out
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