Green House Powder Feeding – Short Flowering is specifically designed for the growth and flowering stages of those plant varieties with a short flowering time, 8 weeks or less.
Its formula provides carefully prepared macro and micro-elements in a balanced manner for all phases, growth and flowering.
Without adding other components throughout the cycle, nutrients are provided in the proper ratio for easy absorption, perfect for early flowering plants.
Green House Powder Feeding can be used on every medium.
Ideal for:
Tomatoes
Cucumber
Bell peppers
Cyclamen
Begonia
etc.
Packet Sizes: 1Kg & 500g
The feeding schedule is slightly different and if using anything than soil we recommend using a PH- and EC-meter in order to achieve the desired values and have full control over your feeding solution.
Beginner Easy Grower
If you grow on pre-fertilized soil we recommend starting using Powder Feeding 2-4 weeks after planting the seeds and to start with a mild solution (0.25g per Liter).
During the vegetative stage you can increase the feeding up to 0.5g per Liter.
With the beginning of the flowering stage you should slowly increase the amount of Powder Feeding until you reach 1g per Liter.
Following this schedule, there should usually be no problem and growers will achieve a good yield.
Experienced Grower
Experienced growers usually measure their feeding solution to provide the plants with the exact amount of nutrients and the correct pH value of the solution.
Whether you grow in coco, hydroponics or aeroponics – with all of these systems you should measure your pH and EC values.
When using a pH and EC meter you can optimize your growing and achieve much better results.
Steps of mixing nutrient solution:
1. a) Check pH and EC value of the water and make sure the temperature is about 18-22 degrees Celsius. You should also check if your water contains enough Calcium.
1. b) If your EC is 0,0 (using RO or rain water) you need to add Calcium to your water before adding Powder Feeding. Make sure your EC rises up to 0.3-0.4 EC
2. Add Powder Feeding and mix well for 2-3 minutes, and then measure the EC value. If necessary repeat until you reach the desired value.
3. When you reached the desired EC value, wait for 15-30 min.
4. Then measure the PH and if necessary adjust it using PH up or PH down – mix good for 2-3 minutes and wait again 15-30 minutes before measuring.
5. When you reached the desired values, feed your plants.
Digital Timer: Automate your hydroponic growing system with a Digital Timer for convenience and control.
If your timer has no display upon receipt … plug it in ( to charge the internal battery ) for an hour or two. Then press the reset button to activate the timer.
Control your hydroponic grow with a Digital Timer for your lamps, fans, pumps and other devices.
Digital Timers have the advantage of keeping time during load-shedding.
Timers allow you to turn devices on and off without having to be present to do so.
Test your timers at least once a month to ensure that they are in proper working order.
Advisable to keep a spare in case of a faulty timer as they may burn out after a certain amount of time, or with high Amps when switching ON.
When powering up equipment with high combined Amperes use a Contact Relay in conjunction with the timer to help prevent the timer from burning out.
The Method Seven Cultivator HPS is designed to provide the best optical quality possible for a synthetic lens, and to provide exceptional value to those working under HID lighting.
The Method Seven Cultivator HPS provides great value and exceptional color balancing for HPS lighting with their proprietary lenses manufactured by Carl Zeiss Vision.
Designed for the intense yellow spectrum of High Pressure Sodium lights they use unique notch filtering technology to strip away the peaks of red & yellow in the 660nm range and balance the other wavelengths evenly. This provides an unmistakable experience of perfectly balanced color and comfort, with full UV protection under these incredibly yellow and hot lights.
Method 7 uses notch filtering to selectively and precisely block specific wavelengths of light energy to achieve a color balance for each specific type of grow light (HPS, LED). This provides perfect color, full protection, and comfort. They also use anti-reflective and hydrophobic coatings for the best clarity and durability.
Lenses are polycarbonate with 100% UV protection and Flash Silver exterior lens coating. Like other premium eyewear and unlike typical value eyewear, these lenses are decentered (asymmetrical) to eliminate distortion that would otherwise occur with a curved lens. The Cultivator frame features a rubber nose pad which holds the frames comfortably for hours, even in hot conditions. Microfiber pouch included for proper cleaning and storage.
The Cultivator is a workhorse — designed to fit everyone with excellent base 8 coverage, providing optimal side protection. This frame meets/ exceeds ANSI Z87+s safety requirements; meaning you are safe against projectiles.
Its open bottom frame ensures plenty of air circulation to prevent fogging. With a safety rating, it’s perfect for commercial gardens. The Cultivator features the same high-quality Zeiss lenses found in their more expensive optics, but they’ve made the frame more affordable to deliver the best value for growers.
[tabs style=”default”] [tab title=”Welcome”]Welcome to hydroponic.co.za, online hydroponics supplier.
We provide secure online shopping with the largest range of hydroponic products and accessories. Our excellent customer service will help you on your journey into the world of hydroponics. Fresh herbs, vegetables and flowers are just a few clicks away.
We supply everything from hydroponic systems and nutrients to growing mediums and environment controls. Get growing today![/tab] [tab title=”Plant Basics”]HOW PLANTS GROW
We need to know how plants grow in soil in order to understand how hydroponics differs from soil. A plant has three main parts, namely the root system, the stem and the leaves. The root system anchors the plant in the soil and takes up water and nutrients from the soil.
The soil itself consists of 5% organic matter, which is plant remains and animal residues. These are broken down by bacteria to form humus, This mixture increases the water-holding capacity of the soil and fixes inorganic plant nutrients as well as being a source of nitrogen. The inorganic part of the soil, comprising 45% by volume, is made up of minerals released from broken-down rock particles, mainly sand and clay. This provides the chemical nutrients for plants. The remaining 50% of soil is made up in equal parts of water and air.
[/tab] [tab title=”Nutrients”]NUTRIENTS
You don’t have to worry about making up a nutrient solution of the major and trace elements, as there are ready-made mixtures on the market. We use a two-part nutrient, which, though a bit more trouble than single-part nutrients to mix, has given superior results without the sedimentation experienced with the single-part mixtures. A new solution should be made up once a week, throwing the old solution away into your garden. During the week top up the reservoir with plain water to replace any transpiration losses.
If you want to be more scientific, you can use an EC meter. This measures the total concentration of nutrients in the solution. There comes a time when your plants do not seem to be very happy, turning yellow or brown for no apparent reason. This may be caused by a deficiency in one of the mineral elements. While this may seem to be a contradiction if you are using a ready-made solution as mentioned above, in fact it isn’t, as plants may need more of a particular element at different times in their growth cycle. Although the different nutrient deficiency symptoms may look the same, there are small differences in each problem. It is by observation that the cause may be isolated.
[/tab] [tab title=”EC and pH”]EC AND PH
Before your eyes glaze over with all this science, it is necessary to have a working knowledge of pH. Although it sounds fearful, it is simply the relative acidity or alkilinity of a solution. In hydroponics we are interested in determining the pH level of water before nutrient is added to it, making adjustments if necessary, and then checking the pH level of the nutrient solution from time to time.
If we take a scale of 1 to 14, the centre point, or neutral position, is 7. Everything above neutral is alkaline and everything below is acid. To determine accurate pH levels, each whole number is divided into ten parts. Thus we have 6.8, 6.9, 7.0, 7.1, 7.2 and so on. When growing several kinds of vegetables or herbs in one unit, you will probably do best in the slightly acidic range of 5.6 to 6.5, as it is within this range that the nutrients are most available to the plants. To illustrate this, at 7.0, which is outside the most suitable range for vegetables, they will take up nitrogen, phosphorus and potassium, but only half of the trace elements such as iron, manganese, boron, copper zinc and molybdenum. So if the pH is above 7.0, look out for trace element problems, rather than those caused by lack of major elements.
[/tab] [tab title=”Growing Plants”]GROWING PLANTS
Now we come to the interesting part of hydroponics. You can grow almost anything in your unit; flowers for cutting, house plants for decoration, or vegetables and herbs to improve your meals. The only limitation is that root vegetables, such as potatoes and carrots need a different hydroponic system and will not have enough space in your unit. But it could also be argued that these vegetables do not suffer from long storage as much as vegetables like tomatoes, lettuce and green peppers, which thrive in your unit. So start with these and then experiment to your heart’s content as you go. We will discuss growing of specific plants later; the comments here apply to any plant you want to grow.
[/tab] [tab title=”Seeds”]SEEDS
When you select seeds for raising, bear in mind that commercial seed varieties have been bred for toughness and long shelf life in the supermarket at the expense of fragrance and flavour, so ask for seed varieties suited to home growing. For instance, you might like to grow a bush tomato instead of the vine type, which may grow too high! Leaf lettuce will yield a high volume of leaves in a few weeks, while head lettuce takes a bit longer. If you choose a head lettuce, such as “Great Lakes”, treat it like a leaf lettuce and simply pick the leaves for your salads. Don’t be afraid to experiment with hydroponics; use any seed that interests you.
You can plants seeds directly into your hydropopnic unit or, by using the growing medium supplied with your unit, which is equal parts of vermiculite and perlite, put them into seed trays from local nursery. You can soak the seek overnight in water for faster germination. Plant two seeds where you want one plant. If both come up, snip off the smaller one with scissors. Push your seeds gently into the growing medium no deeper than 1.5cm. Most seeds germinate best in darkness, warmth and moisture. Thus, you can cover your seeds with dark plastic sheet or use a humidity dome with a heating pad. For those seeds that germinate best in light, such as certain herbs, use clear plastic. Check every day for results. As soon as the first sprouts poke through the medium, take the cover off to let air and light get to the seedlings. Failure to remove the cover soon enough will make the seedlings “bolt” (grow long and spindly). If that happens you might as well pull them out and start again!
[/tab] [tab title=”Seedlings”]SEEDLINGS
If you have grown seeds in the hydroponic growing medium in a seed tray, all you have to do is transfer them, with the growing medium clinging to their roots, to the unit. There should be no shock, drooping or wilting. They will just continue growing! When you insert the seedling into the growing pot, don’t be afraid to put the roots and the stem up to the first set of leaves into the pot. Ideally, the roots should just protrude into the nutrient channel. If you have been impatient to get started and bought seedlings in soil from your local nursery, that is O.K!
You will have to wash the roots gently to remove the soil. Use cold water running steadily from a tap. The water will help to loosen the soil and the coldness will have an anaesthetising effect on the plant to minimise the shock. Then feed the roots into the growpot so that they stick out of the bottom of the pot. Place one hand under the pot and with the other hand put in the dry mixture by holding the pot under a gently-running tap. The mixture will not now come out of the bottom of the pot. Be warned that there may be some wilting or drooping initially and some plants may even lose some leaves, but you will see the new growth will appear within a few days. Whether you have used hydroponically raised seedlings or those raised in soil, be gentle with the roots.
[/tab] [tab title=”Cuttings”]CUTTINGS
Any plants that will normally root from cuttings can be placed directly into your growing pots. To make the cutting, use a sterile scalpel blade and cut a section of the plant that has at least 3 internodes diagonally down. Clean the leaves from the last 50mm of the stem and coat with a rooting hormone and place in your growing medium.
Hydrogen peroxide is water with an extra oxygen atom in it which, when broken down into the solution, helps to add extra oxygen to your Hydroponic nutrient solution. This extra oxygen is then applied to the Hydroponic plant’s roots making healthier and more robust plants with lots of healthy new root growth.
Hydrogen peroxide is also very helpful in sterilizing your growing medium and the surrounding growing area at the same time. It helps to prevent bacteria and harmful pathogens like fusarium, pythium and some other unwanted diseases from growing in your Hydroponic system.
Strength: 50%
To get to a 3% solution, use DISTILLED WATER and dilute 6 mls 50% H2O2 into 94 mls of distilled water.
Dilution of 3% H2o2 into a hydroponic system with plants in it: Up to 3 mls of 3% H2O2 per liter of nutrient solution. It is advised to start with lower doses and gradually increase to 3 mls of 3% H2O2 per liter.
CORROSIVE!!! – HANDLE WITH CARE, STORE RESPONSIBLY, DO NOT INGEST
Using Hydrogen Peroxide for root rot and over-watering
Over-watering:
Roots require Oxygen to breathe and low Oxygen levels are the main cause of almost all root diseases. Hydroponic crops often fail due to “root rot” and soil crops succumb to over watering.Soil consists of particles, a film of water on the particles and air spaces between the particles, when too much water is put into the soil the air spaces fill with liquid. The roots will quickly use up what Oxygen is dissolved in the water; if they haven’t drunk enough of the liquid to allow air back in to the soil spaces they will stop working.In this situation roots will start dying within twenty-four hours. As the roots die the plants ability to drink water and nutrients will decrease, this will cause symptoms of nutrient deficiencies (mostly pale, slow, weak growth), and strangely they will start to wilt like they don’t have enough water.In a Hydroponic system the cause is a more direct simple lack of oxygen in the solution; this may be from inadequate circulation and/or aeration. High reservoir temperatures also interfere with Oxygen’s ability to dissolve in the water. The same symptoms will appear as with soil plants but you can also check the roots. Healthy roots should be mostly white with maybe a slight yellowish tan tinge. If they are a brownish colour with dead tips or they easily pull away there are at least the beginnings of a serious problem. Organic dirt like rotting smell means there is already a very good chance it is too late. As roots die and rot they eat Oxygen out of the water, as Oxygen levels are even further depleted more roots die, a viscous circle may be well under way. Reduced Oxygen levels and high temperatures both encourage anaerobic bacteria and fungi. The plants may still be saved but you will have to work fast.
How Hydrogen Peroxide prevents root rot and or over-watering.
When plants are watered with Hydrogen Peroxide it will break down and release Oxygen into the area around the roots. This helps stop the Oxygen from being depleted in the water filled air spaces until air can get back into them. High Oxygen levels at the roots will encourage rapid healthy root growth. In a Hydroponic system Hydrogen Peroxide will disperse throughout the system and raise Oxygen levels as it breaks down. Strong white healthy roots with lots of fuzzy new growth will be visible. This fuzzy growth has massive surface area allowing for rapid absorption of the huge amounts of water and nutrients needed for rapid top growth. A healthy plant starts with a healthy root system.
What to do if you already have root rot,in hydro:
Change your nutrients. Add Hydrogen Peroxide to the system. This will add oxygen and chemically eat dead roots. If roots are badly rotted pull them off by hand. Add a fungicide to kill any fungus that is probably present in the rotted tissue to prevent it from spreading. If plants are wilting, Increase aeration of the water, get an air pump and air stones. An air stone under every plant is usually very effective, but will require a larger air pump. Decrease the reservoir temperature, oxygen dissolves better in cold water and disease causing organisms reproduce slower as well. It is also a good idea to remove any wilting plants from the system and put them on a separate reservoir so they don’t infect plants that are still healthy.
Warning:
Hydrogen Peroxide is highly concentrated; it can cause damage to skin and clothing. When working with Hydrogen Peroxide it is very important that you clean up any spills or splashes immediately, it will damage almost anything very quickly. This is extra important with skin and clothing. Skin will be temporarily bleached pure white if not washed cleaned. Gloves are strongly recommended when working with any strong chemical. Store responsibly – away from pets and children. Do NOT ingest!
The key to big productive plants is a big healthy root system and Hydrogen Peroxide is a great way to keep your roots healthy. It is a must to ensure the biggest best crops possible and to increase the chances of your plants thriving to harvest. Peroxide users will rarely lose plants or crops to root disease and will harvest larger and more consistent crops.
Please Note: This has not been tested with FloraCoco Micro and FloraCoco Bloom!
Lucas Formula, sometimes known as the Lucas Ratio, is less complicated than it initially seems. It is nothing more than a basic recipe of nutrients to give your plants during both the vegetative, and the flowering state.
The original recipe uses 2 parts of the General Hydroponics 3-part FLORA series (Gro, Micro, Bloom) nutrient system.
Lucas Formula using General Hydroponics 3-Part System
General Hydroponics makes a 3-part system named the Flora series. It consists of Flora Gro, Flora Micro, and Flora Bloom. These are 3 bottles you buy, that you would normally use together throughout the entire grow. You may use it as per the instructions on the bottle, with excellent results, but…
Lucas figured out that Flora Micro contains enough nitrogen, and everything else that Flora Gro contains, that you use it with Flora Bloom alone, saving you from having to buy Flora Gro.
How do you use it? Simple. Add 2ml of Flora Micro (dark red stuff, there are Hard and Soft water versions ) to 1 Litre of water*, mix, and then add 4ml of Flora Bloom (pink stuff) into the water, and mix. Done – unless you’re growing in coco.
Low light ratio, and flowering vs veg.
Lucas Formula should be used in the same ratio throughout the grow. There is a misconception that one should use 1ml of Micro and 2ml of Bloom, when in veg, and switch to 2ml of Micro, and 4ml of Bloom, when flowering.
This was never stated by Lucas himself. He originally stated that the 0-5-10 ratio was for low light situations (fluorescent lighting like PL/L and CFLs, or HID lamps less than 400W), whereas 0-8-16 is for medium to high light (400W+)
Lucas Formula for seedlings/cuttings
For young plants (< 4 weeks old) or cuttings, which may not be able to handle a full strength feeding formula, may require that you dilute the nutrient solution before feeding. This is OK, just make sure you keep the correct ratio when mixing. For example, 50% strength would be 1ml Micro and 2ml Bloom.
Lucas Formula when growing in Coco Coir – Head’s Formula
If you’re growing in coco, you may need to adjust the Lucas formula slightly to compensate for a property of coco which may result in a calcium or magnesium deficiency. How? You may be able to get by simply by adding 0.5 ml of CalMag, or 0.25 gram of Epsom salts , per litre of water, before feeding the plants.
There is a modified formula specifically for Coco that consists of using a different ratio: 1ml of Flora Micro, and 2ml of Flora Bloom, per litre of water, along with0.25 gram of Epsom salt per water.
What type of water should I use? What about pH/ppm?
The original formula uses reverse osmosis, or RO, water, and is intended to be used without having to measure pH and ppm. Reverse Osmosis water makes this possible because it should, in theory, be the same for everyone. It is filtered water, which you can get either by buying a reverse osmosis filter system, or just buying bottled water. One may also use dH2O (distilled water) with good results.
Lucas Formula with tap water
You may use Lucas Formula with tap water successfully, but this may require pH adjusting on your part. Keep the pH close to 5.8.
Can I use additives with Lucas Formula?
You may. It is recommended that you do not introduce additives until your setup is dialed in. After you’ve ironed out any deficiencies and fully understand how your plant and strain likes to be fed, feel free to begin using additives – not that the additives will help. For increased quality and yield, focus on good genetics, and ample light and temperature control, rather than trying to compensate for those with additives.
The Garland XL High Dome Propagator is an unheated high dome propagator designed by Garland and to our knowledge one of the largest injection molded propagator on the market. The base tray of the Garland XL High Dome Propagator does not feature drainage holes, given that most users opt to fill the unit with smaller trays or pots or multi cell inserts.
PLEASE NOTE: BASE COLOR MAY BE EITHER GREEN OR BLACK, DEPENDING ON AVAILABILITY.
The lid of the Garland XL High Dome Propagator is Injection molded in crystal clear shatter resistant material. The lid features 2 adjustable ‘dial’ ventilators to control the humidity and optimize growing conditions
Dimensions – 58cm (l) x 40.5cm (w) x 22.5cm (h)
This is a Premium range of propagation, all made from high quality recycled plastics. These items are super strong and durable, with thicker wall sections offering extra rigidity. The trays are easy to clean and can even be put in a dishwasher. Although injection molded trays are generally more expensive than vacuum formed equivalents, they will easily last for 10 years or more.
Propagators are simple to obtain and provide an ideal start for young plants. A propagator holds in humidity and warm air while allowing seedlings to receive light. This an easy way to maintain a good environment for very young seedlings . However, since the cover prevents normal air movement (which is very important as it encourages young plants to grow strong stems), seedlings should not be kept in a covered propagator for too long.
Once the young plants produce their second or third pair of leaves, or if they grow taller than about 7 cm with only the first pair, the cover of the propagator should be removed. A small oscillating fan on the lowest setting is a good way to give indoor plants the air movement they need, while outdoor plants can start to receive the natural outdoor air movement when they have reached this size.
Tony Hinde provided this quick introduction into how hydroponics works, all aspects around growing plants from seed or seedling in a hydroponic system and common problems encountered.
More extensive guide to hydroponics .
HOW PLANTS GROW
We need to know how plants grow in soil in order to understand how hydroponics differs from soil. A plant has three main parts, namely the root system, the stem and the leaves. The root system anchors the plant in the soil and takes up water and nutrients from the soil.
The soil itself consists of 5% organic matter, which is plant remains and animal residues. These are broken down by bacteria to form humus, This mixture increases the water-holding capacity of the soil and fixes inorganic plant nutrients as well as being a source of nitrogen. The inorganic part of the soil, comprising 45% by volume, is made up of minerals released from broken-down rock particles, mainly sand and clay. This provides the chemical nutrients for plants. The remaining 50% of soil is made up in equal parts of water and air.
Air is essential for the supply of oxygen to the roots of a plant. The stem connects the roots and the leaves. It is responsible for getting water and nutrients from the roots to the leaves. The leaves, in the sunlight, turn carbon dioxide and water from the atmosphere into chlorophyll. This is the green substance which is the source of energy to help the plant grow. Another function of the leaves is to act as an air-conditioner to cool the plant on a hot day. Now we come to the common denominator between growing in soil and hydroponics, which is the availability of mineral elements. These are absorbed by the plant from the soil (or nutrient solution in hydroponics) and are essential for the growth of the plant.
There are six major elements and six trace elements. The major elements are nitrogen, phosphorus, potassium, calcium, magnesium and sulphur. The trace elements are iron, mangenese, boron, copper, zinc and molybdenum. There are other trace elements, but they do not have any effect on plant growth. We don’t want to frighten you with too much science, but it is important that you have the basics. An interesting fact is that the mineral elements mentioned above form only about 2% by weight of a tomato fruit, with 95% made up of water!
NUTRIENTS
You don’t have to worry about making up a nutrient solution of the major and trace elements, as there are ready-made mixtures on the market. We use a two-part nutrient, which, though a bit more trouble than single-part nutrients to mix, has given superior results without the sedimentation experienced with the single-part mixtures. A new solution should be made up once a week, throwing the old solution away into your garden. During the week top up the reservoir with plain water to replace any transpiration losses.
If you want to be more scientific, you can use an EC meter. This measures the total concentration of nutrients in the solution. There comes a time when your plants do not seem to be very happy, turning yellow or brown for no apparent reason. This may be caused by a deficiency in one of the mineral elements. While this may seem to be a contradiction if you are using a ready-made solution as mentioned above, in fact it isn’t, as plants may need more of a particular element at different times in their growth cycle. Although the different nutrient deficiency symptoms may look the same, there are small differences in each problem. It is by observation that the cause may be isolated.
Nitrogen Small, stunted plants with very large root systems; leaves smaller and lighter in colour than normal; slow growth. Paleness will start at the tips of the lower leaves. If this deficiency continues, the foliage will continue to develop, but stems will be spindly, sappy and soft, flowering will be delayed, small fruit will grow and the plant will become more susceptible to disease.
Phosphorus Stunted plants with dark, dull and sometimes discoloured leaves, unusually hard stems, poor root system and very little branching. Attacks lower, more mature leaves first. Occurs especially when nitrogen level is low.
Potassium In early stages, yellowing and curling of older leaves. Newer leaves will begin to droop. Older leaves then become blotchy and scorched. Flowers are lacklustre and stems are soft. The plant will be more susceptible to diseases such as mildew and rust.
Calcium Underdeveloped roots are the first to be affected. Younger leaves will be immobile and their edges will curl. Plants will be stunted and have dark crinkly leaves. (See blossom end rot under diseases.)
Magnesium Symptoms do not appear until the deficiency is well established. The plant will be stunted. Leaf veins will stay green while the remainder of the leaf turns yellow. Brown spots will appear and then the plant will dry out. Flowers will be slow to develop, if at all. Flowers that do grow will be lack lustre.
Sulphur Resembles nitrogen deficiency in many ways. Iron Tips of new leaves will become either pale or yellow, and this will spread inward. The leaf will likely turn blotchy from a lack of green pigment, eventually turning brown and drying out. Manganese Poor blooming, weak growth. Leaves may turn yellow or blotchy.
Boron Brittle stems and immobile new leaves with brown tips.
Zinc Growth will be stunted. You may never encounter any of these imbalance problems, but it is as well to be aware of them. If they do occur, one of the ways to remedy the situation is to give the plant a foliar feed of nutrient solution, using a very fine spray.
HYDROPONICS AND pH
How pH affects nutrient uptake
Before your eyes glaze over with all this science, it is necessary to have a working knowledge of pH. Although it sounds fearful, it is simply the relative acidity or alkilinity of a solution. In hydroponics we are interested in determining the pH level of water before nutrient is added to it, making adjustments if necessary, and then checking the pH level of the nutrient solution from time to time.
If we take a scale of 1 to 14, the centre point, or neutral position, is 7. Everything above neutral is alkaline and everything below is acid. To determine accurate pH levels, each whole number is divided into ten parts. Thus we have 6.8, 6.9, 7.0, 7.1, 7.2 and so on. When growing several kinds of vegetables or herbs in one unit, you will probably do best in the slightly acidic range of 5.6 to 6.5, as it is within this range that the nutrients are most available to the plants. To illustrate this, at 7.0, which is outside the most suitable range for vegetables, they will take up nitrogen, phosphorus and potassium, but only half of the trace elements such as iron, manganese, boron, copper zinc and molybdenum. So if the pH is above 7.0, look out for trace element problems, rather than those caused by lack of major elements.
There are two simple methods of determining pH level, namely litmus paper or pH indicator solution. It is unlikely that the pH of your water supply will fluctuate, but if it does, a check of the pH level every two or three days may be necessary; otherwise, once a week should be enough. Many areas have a water pH of 7.0 to 8.2. Your nutrient powder will probably affect this, bringing it down close to the desired 5.6 to 6.5. If you change your nutrient solution regularly, say every week, pH shouldn’t be a problem. The other factors which may affect pH are the hardness of the water, which can be ascertained by getting an analysis from your local council, climate, what plants you are growing and how much nutrient each plant uses.
However, having said that, it is not necessary to get in a lather over pH, as you will still get decent crops! It is just interesting to experiment with different conditions. If your pH is too alkaline, add pH Down Nitric or pH Down acid. The amount to be used should measured in single drops only! Check the pH level every eight hours. If your pH is too acidic, add pH Up to your solution.
Certain vegetables have specific preferences. For example, lettuces like 6.0 to 7.0 and tomatoes prefer 5.5 to 7.5. When growing combinations of vegetables, a good pH range is 5.6 to 6.5. For Herbs only it is 5.6 to 7.0. If you are growing vegetables and herbs together try to maintain a pH of 6.0 to 6.5. Have a look at this chart for detailed information on the correct pH/EC/ppm for a variety of plants grown using hydroponics.
Now we come to the interesting part of hydroponics. You can grow almost anything in your unit; flowers for cutting, house plants for decoration, or vegetables and herbs to improve your meals. The only limitation is that root vegetables, such as potatoes and carrots need a different hydroponic system and will not have enough space in your unit. But it could also be argued that these vegetables do not suffer from long storage as much as vegetables like tomatoes, lettuce and green peppers, which thrive in your unit. So start with these and then experiment to your heart’s content as you go. We will discuss growing of specific plants later; the comments here apply to any plant you want to grow.
SEEDS
When you select seeds for raising, bear in mind that commercial seed varieties have been bred for toughness and long shelf life in the supermarket at the expense of fragrance and flavour, so ask for seed varieties suited to home growing. For instance, you might like to grow a bush tomato instead of the vine type, which may grow too high! Leaf lettuce will yield a high volume of leaves in a few weeks, while head lettuce takes a bit longer. If you choose a head lettuce, such as “Great Lakes”, treat it like a leaf lettuce and simply pick the leaves for your salads. Don’t be afraid to experiment with hydroponics; use any seed that interests you.
You can plants seeds directly into your hydropopnic unit or, by using the growing medium supplied with your unit, which is equal parts of vermiculite and perlite, put them into seed trays from local nursery. You can soak the seek overnight in water for faster germination. Plant two seeds where you want one plant. If both come up, snip off the smaller one with scissors. Push your seeds gently into the growing medium no deeper than 1.5cm. Most seeds germinate best in darkness, warmth and moisture. Thus, you can cover your seeds with dark plastic sheet or use a humidity dome with a heating pad. For those seeds that germinate best in light, such as certain herbs, use clear plastic. Check every day for results. As soon as the first sprouts poke through the medium, take the cover off to let air and light get to the seedlings. Failure to remove the cover soon enough will make the seedlings “bolt” (grow long and spindly). If that happens you might as well pull them out and start again!
If you have different seeds in the same tray, some may germinate faster than others. Just fold or cut the cover as needed. Some seeds come up fast (basil, cucumbers); others are quite slow (parsley, peppers). Identify what you have sown with plant markers. Use a waterproof felt pen or pencil so that the writing won’t wash off. If your seeds don’t sprout, there are five possible reasons: – The seed tray is too cold for them (less than 13 degrees Centigrade). – You have bought old seed that is no longer fertile. Check the “sell-by” date on the package. – Your seeds were not treated for fungus resistance and have been eaten by the fungus. You’ve put your seeds under the germination cover, placed them in the hot sun and cooked them. Keep the tray out of direct sunlight. – The seeds have come from sterile hybrids. This might happen if you saved seed, e.g. tomato, from a fruit that you bought at the supermarket.
SEEDLINGS
If you have grown seeds in the hydroponic growing medium in a seed tray, all you have to do is transfer them, with the growing medium clinging to their roots, to the unit. There should be no shock, drooping or wilting. They will just continue growing! When you insert the seedling into the growing pot, don’t be afraid to put the roots and the stem up to the first set of leaves into the pot. Ideally, the roots should just protrude into the nutrient channel. If you have been impatient to get started and bought seedlings in soil from your local nursery, that is O.K!
You will have to wash the roots gently to remove the soil. Use cold water running steadily from a tap. The water will help to loosen the soil and the coldness will have an anaesthetising effect on the plant to minimise the shock. Then feed the roots into the growpot so that they stick out of the bottom of the pot. Place one hand under the pot and with the other hand put in the dry mixture by holding the pot under a gently-running tap. The mixture will not now come out of the bottom of the pot. Be warned that there may be some wilting or drooping initially and some plants may even lose some leaves, but you will see the new growth will appear within a few days. Whether you have used hydroponically raised seedlings or those raised in soil, be gentle with the roots.
CUTTINGS
Any plants that will normally root from cuttings can be placed directly into your growing pots. To make the cutting, use a sterile scalpel blade and cut a section of the plant that has at least 3 internodes diagonally down. Clean the leaves from the last 50mm of the stem and coat with a rooting hormone and place in your growing medium.
If you want to use your unit as a hobby, plant whatever interests you and don’t be afraid to experiment. If you want to grow crops for your table it may be advisable to stick to salad vegetables. Notes on a few of the more popular vegetable crops and their requirement follows:
Cucumbers If you don’t wish to cross-pollinate, plant the English or seedless variety. They like hot weather and direct sunlight and are sometimes susceptible to mildew. They can be trained upwards and then laterally, using twine as a support. The crop then hangs downwards.
Lettuce Grow either the heading variety, such as “Great Lakes”, or a leaf lettuce or “cos” lettuce. Although it is a cool weather crop, it can be grown throughout the year if shade is used during the summer months. It prefers a temperature of between 13 and 24 degrees Centigrade.Germination takes about 10 days and you should have leaves to harvest in six to eight weeks. If you want a continuous supply of lettuce, you should stagger planting.
Tomato This is a most popular and rewarding plant to grow. It loves the sun and prefers a temperature range of 21 to 27 degrees Centigrade. When the plant has two pairs of leaves in addition to the seed leaves, it can be transplanted from the seed tray into the unit. At this stage you should make arrangements for supporting the plant. We have used twine, attached to the shade support quite successfully. You should get a crop about 12 weeks from planting seed. Experiment with different varieties. The small cocktail varieties are particularly sweet. It should be remembered that certain plants either like or dislike growing in close proximity, so it is as well to keep “friends” together and “enemies” apart. Examples of “friends” are tomatoes and parsley or lettuce and cucumber. However, tomatoes do not like cabbages, but it is highly unlikely that you will be growing those at the same time anyway! Cucumbers and sage should be kept apart. When growing combinations of vegetables, the pH should be 5.6 to 6.5.
GROWING FLOWERS
Flowers are very rewarding in any garden, and no less so in your unit. The carnation is always a favourite. It likes a pH of 6.0 to 6.5, but requires a fair amount of attention to be successful. Antirrhinums or Snapdragons will grow for many months of the year at a pH of 6.0. Experiment with Sweet Peas, Marigolds, Zinnias and anything else that takes your fancy. Just remember that flowers also have “friends” and “enemies”. These can be found in any good gardening book.
GROWING HERBS
There is nothing more satisfying than being able to enliven your cooking with fresh herbs. The main herbs for cooking include Basil, Marjoram, Sage, Parsley, Oregano and Thyme. The difference between using dried and fresh herbs is unbelievable! Herbs can be grown from seed, or you can obtain cutting from friends. Their pH requirements vary, but not markedly. For example, parsley grows best from 5.0 to 7.0, while thyme prefers a pH of between 5.5 and 7.0. A good range for herbs only is 5.6 to 7.0. If you are growing vegetables and herbs together, aim for between 6.0 and 6.5. Quite apart from the culinary uses, herbs are known for their medicinal properties, but that is another topic altogether!
GENERAL HINTS
Housekeeping The pump should be cleaned at least weekly. The impeller can be accessed by pulling off the front of the pump, Do a daily check to see that the 5mm feeder pipes are clear and that the flow in the gullies is in contact with the roots of the plants, not wandering all over the place! The initial setting of the pump is 300l/h. You can increase this as the plants grow, and if you feel that the flow is insufficient. As a rule of thumb, the flow should be about 1-2 litres per minute. Keep your unit and its plants clean. Remove dead leaves before they rot, to avoid any fungal infection.
Pests Watch out for insects, such as red spider mite and aphids. You can use commercial insecticides, but if you don’t like using them, a general organic spray that you can make yourself is as follows: Chop 90 grams of garlic cloves in a grinder or blender and soak for 24 hour in 2 tablespoons of mineral oil. Dissolve 15 grams of oil-based soap in 500ml of water and add to the garlic mixture. Stir well and use in your hand sprayer. Alternatively, there is a natural insecticide called “Neem”, which is derived from the Indian neem tree.
Record-keeping Although you may not like the idea, it is worthwhile to keep a log of your day to day activities (hydroponically speaking of course). Record the pH when checked, when you changed the nutrient solution, the weather and light conditions, when seeds were planted, when they germinated, when they were transplanted, when they, start fruiting, when and how much you harvested. Anything that will add to your knowledge later can be noted. If you have problems, this may help you find solutions.
TROUBLE-SHOOTING
This section is intended to give you some idea of what to do if your plants do not seem to be as healthy as they could be. The problem with such a section is rather like reading a medical book containing symptoms of various diseases; you seem to have them all!
Bolting of lettuce Lettuce is a cool weather crop and will bolt if it is too hot or if it doesn’t get enough light from germination to maturity. Give it plenty of light early on, but keep in a cool shady place after partial maturity. Use 40% shade cloth.
Damping off This disease is also called root rot, although damping off applies more to seeds and root rot to plants. It is a fungus disease caused by a variety of fungi. It strikes seeds, which will turn mildewy and fail to grow. It may be due to the fact that your unit is in a place that keeps it too damp, dark and cool. In plants, the roots turn brown and rot. One answer is an all-purpose fungicide.
Drooping leaves Check to see that your plants are getting enough water. Check that the pump is operating correctly. If these are all right it is possible that your nutrient concentration is too high. Flush the system and run on plain water for a couple of days, then use the nutrient again. Make sure that there is a good circulation of air around the unit and that it is not too hot.
Limp Lettuce When they are grown in the sun, lettuce leaves are sometimes too limp to serve. They will crisp up nicely for your salad if you wash them in cold water, shake gently and put them in a plastic bag in the refrigerator for an hour before using.
Overfeeding This is a common mistake, and burns the plants. It is safer to run nutrient on the lean side. If the plants get too little nutrient, you will know they need more because the veins of their leaves will turn yellow or pale. Just add a pinch of nutrient powder and they’ll turn green again almost overnight.
Rain overflow If a heavy shower should cause your reservoir to overflow, it is best to throw away the solution and prepare a fresh one. Light rain will have little effect on the solution.
Spindly growth This is caused by insufficient light.
Sunburn White, bleached-looking patches appear on the leaves. Plants such as tomatoes and cucumbers need a 30% shade cloth, while lettuces do best with 40% shade cloth. Tip burn The tips or margins turn brown. This is caused by overfeeding. Flush the system and make up a new batch of nutrient solution.
Yellow leaves When a vegetables is nearing the end of its fruitful life, its older leaves will usually turn yellow and die. This is normal. When younger leaves yellow or turn a distinctly lighter green than older leaves, try adding a pinch of nutrient. Wait a few days and they’ll turn green again. If not, add a little more.
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Aluminium Tape 50m Roll is highly reflective. Aluminium Tape is very useful in that once you stick it down it will not fall off when exposed to moisture rich environments.
50 m roll, 5 cm wide.
Aluminium tape is particularly effective for joining or sticking down Mylar or Sisalation or joining ductingpieces together.
Siliconised release backing paper needs to be peeled off before use.
Conformable tape resists flame, moisture, weather, UV degradation and many chemicals, making it ideal for a variety of applications
Heat and light reflective tape protects, insulates and enhances lighting efficiency
Withstands a wide temperature range
Thermally conductive tape helps dissipate heat and improves heating and cooling efficiency
Transparent acrylic adhesive combined with the rugged, durable backing provides long service life both indoors and out.
Submersible Water Pumps are used to circulate nutrient-rich water in NFT and other hydroponic systems.
Choosing the right water pump will be determined by how high the pump would need to lift the water. ( In the table below the listed Head Height is the height where the pump basically stops pumping any water. ) The prescribed flow rate for NFT hydroponics per channel is between 1 and 2 liters of water per minute. Choosing a pump slightly larger than the one that meets your minimum requirements is advised, as the flow rate can then be throttled back slightly by using an inline tap.
The Grech pumps come with 2 pipe fittings, the standard fitting (mentioned in the table above), used to connect to piping to lift/move water. The 2nd fitting ( with the little T-piece on the side, attached to clear piping ) is actually a venturi adaptor and can be used to aerate tanks of water, INSTEAD of lifting/moving water. This venturi really only works well on the larger models (HJ-942 and up) and is also dependent on how deep the pump is submerged. THIS video shows how a venturi can be used to aerate and agitate water.
The Grech pumps come with a filter sponge and needs to be cleaned regularly. All you need to do is put a dab of soap on it (optional) and work it in under running water, then rinse it out thoroughly.
Grommets are used to create watertight seals for the plumbing of hydroponic systems such as NFT systems, DWC systems, Dutch Bucket systems, water reservoirs etc.
A hole is drilled and the Grommet is inserted into the hole. Piping is then pushed through the grommet which will form a watertight seal.
Irrigation Piping, Ring Grommet and Top Hat Grommet measurements (approximate, in mm) follow below:
Product – General Name
Outer Diameter
Inner Diameter
5mm Irrigation Piping
6
4
6mm Autopot Piping
6.3
4.2
9mm Autopot Piping
9
6.5
16mm Autopot Piping
18.5
12.5
12mm Irrigation Piping
16
12
15mm Irrigation Piping
18
15
20mm Irrigation Piping
24
21
-
-
-
6mm Grommet for Reservoir
10
5.5
12mm Ring Grommet
19
12
15mm Ring Grommet
20
15.5
20mm Ring Grommet
23
18
25mm Ring Grommet
32
25
-
-
-
6mm Top Hat Grommet
10
6
9mm Top Hat Grommet
13.5
9
16mm Top Hat Grommet
19
15
19mm Top Hat Grommet
23
18
Based on the above the following grommet & piping combinations are advised:
12mm irrigation piping: 16mm Top Hat Grommet works beautifully. 12mm Ring Grommet fit will be a very tight fit, while a 15mm Ring Grommet’s fit could be a little loose (This could be countered by using an insert fitting (eg. straight connector/T-piece/elbow) inside the piping at the point where it goes through the grommet, to flare out the piping and create the waterproof seal)
25mm white PVC electrical conduit: 25mm Ring Grommet
Hole Saw Sizes for Grommets – Please note: these hole saw sizes are for flat surfaces, not for curved surfaces. A slightly smaller hole can be tried on curved surfaces to prevent possible leakage due to the curving of the grommet on the curved surface. (Drilling test holes and testing if seals are watertight is always advised)
6mm Ring Grommet: 9mm drill bit
12mm Ring Grommet: 19 mm Hole Saw
15mm Ring Grommet: 19mm Hole Saw
20mm Ring Grommet: 25mm Hole Saw
25mm Ring Grommet: 31mm Hole Saw
6mm Top Hat Grommet: 9.5mm drill bit
9mm Top Hat Grommet: 12.5mm drill bit
16mm Top Hat Grommet: 19mm Hole Saw
19mm Top Hat Grommet: 21mm Hole Saw
It is not recommended that Petroleum Jelly is used as a lubricant. A silicon lubricant, although more expensive, is better. Olive oil can also be used. Throwing grommets into HOT water before installing also helps a lot.
Please note if grommet is fitted and then taken out a number of times, it may stretch and warp.
Sterile surgical scalpels are used to take cuttings from plants- fresh Surgical Scalpels need to be used every time that you decide to take new cuttings.
Taking cuttings is one of the most popular ways to propagate a plant. Also referred to as cloning, it offers the ability to get multiple plants that are genetically identical to the mother plant. Many people feel intimidated by the process, and are a bit leery to attempt it. If you are one of those people, relax, it’s a relatively easy process.
What follows are step by step instructions for a simple procedure that works for both hardwood and softwood plants. (NOTE: Not all plants can be cloned in this manner. Some plants are virtually impossible to get cuttings from, even for experts.)
Why Take Cuttings?
There are several reasons that you may want to clone your plant, one being, that it does not require seeds. Cloning may be your only option for obtaining a certain variety of plant when no seeds are available. Another reason is to maintain consistent quality control of your crop. Every seed, like every human being, is slightly different. Aside from identical twins, genetically, no two people are exactly the same. DNA works in plants the same way it does in humans. So if you have a plant that is just what you want it to be, you can take cuttings and have as many perfect clones of your special plant as you want.
Another big factor which makes cloning so popular is that in most cases, it’s much faster than starting from seed. The majority of plant species will produce a rooted, growing plant from a clone before the seeds of the same species can even sprout, saving a lot of time.
What You’ll Need
A SINGLE EDGE RAZOR BLADE – Must be sharp!!
BACK-UP BLOCK – A piece of Styrofoam, wood or plastic approximately 2″x2″.
SHOT GLASS – Or similar small glass or plastic container.
GROWING MEDIUM – Jiffys, Rockwool or Oasis cubes, Pro-mix, coconut fiber or one of several other suitable growing media.
SEED TRAY WITH CLEAR HUMIDITY DOME
ROOTING HORMONE – You will need a good quality gel, liquid or powdered rooting hormone. Although you can use a powdered rooting hormone, in our opinion they are much harder to work with resulting in a reduced success rate.
SPRAY BOTTLE WITH WATER
RUBBING ALCOHOL
Before You Start
This might sound obvious, but you should only take cuttings from healthy plants. The healthier the mother plant, the better success you will have with your clones. You should take a few more cuttings than you need and then select the best ones to use and dispose of the rest.
You will need to leach the nitrogen out of the mother plant(s) by watering them heavily with pH adjusted water only (no fertilizer) for two or three days before you take the cuttings. This is an important step because the nitrogen stored in the plant will retard rooting.
Decide what you are going to use for growing medium. Most people use Jiffys, Rockwool or Oasis cubes. You can also use many different mediums successfully. Use plastic cups with holes cut in the bottom to hold coconut fiber, a Perlite & Vermiculite mix or other loose type growing medium. .You will need to pre-soak your growing medium before you start, using pH balanced water. Distilled water is the best thing to use, but any good, chlorine free water source will work. (NOTE: Most growing medium need to be soaked in pH 5.5 to pH 6.5 water. Rockwool needs to be soaked for 24 hours with water adjusted to a pH of 4.5 to 5.5).
Make a hole in the top of the growing medium which is about the same size or a little smaller than the stem of the cutting. You do not want to force the cutting into the growing medium.
It is critical that you sterilize everything before you start, because cuttings are very susceptible to fungus, viruses and diseases until they root. Use rubbing alcohol on your hands, the razor blade and the cutting block. Rinse the shot glass (or whatever you are using) with alcohol, dry it and then fill it 3/4 full with rooting hormone, and set it aside for now.
Work quickly but carefully. When you make the cut that separates the clone from the mother, you must get it into the rooting hormone as quickly as possible to prevent air from getting pulled into the stem. Please be careful not to cut yourself with the razor blade. (The lawyers made us say that).
Take the Cuttings
Take a growing tip from your plant 3″ to 6″ long with at least one leaf internode, two is better but not always possible. (A leaf internode is where the leaf connects to the stem, See diagram 1).
With a Sharp single edge razor blade, carefully cut off one or two leaves (or small branches) flush with the stem. (See diagram 2).
Make a cut approximately 1/4″ below the internode(s) where you just trimmed the leaves. Cut at a 45 to 60 deg. angle. (See diagram 3). Hold the back-up block tightly behind the stem where you are going to cut. This supports the stem and protects your fingers. Make this cut as quick and clean as you can as you do not want to tear or crush the stem.
Quickly insert the cutting into the rooting hormone (See diagram 4). If you are using a liquid hormone you can let the cutting soak for 30-60 seconds. With a gel type hormone you just dip the cutting and then insert it into the growing medium. If you are using a powdered hormone you need to wet the stem with water and then carefully roll it in the powder.
Gently insert the cutting into the growing medium (see diagram 5). Do not push the cutting all the way thru the medium. You need to leave room for the roots to develop. Make sure that the cut(s) you made at the leaf internode(s) are below the surface of the growing medium.
Lightly pack the growing medium up against the cutting. Make sure there is good contact between the cutting and the growing medium.
Care and Feeding Instructions
You have successfully taken cuttings. Now the challenge is to keep them alive long enough to root. The cuttings are obviously very vulnerable at this point and must be handled with care. If you follow the steps below you should have few problems.
Once you have your cuttings in the growing medium, mist them with the spray bottle filled with water and place them in the tray. Mist the inside of the clear humidity dome and place the dome over the tray. (NOTE: The cuttings need some ventilation and a couple of small holes in the dome will usually do the trick).
Remove the dome and mist the cuttings 2 or 3 times a day. This keeps the cuttings from drying out and also changes the air under the dome. This step is critical as the cuttings have no way to replenish lost moisture until they develop roots. Mist the inside of the dome and replace on tray. The humidity under the dome needs to be about 90% until roots appear on the cuttings. (NOTE: Be careful that the air under the dome doesn’t get too warm. If it does, you may have to increase the amount of venting, as well as the number of mistings per day). Cuttings need to be kept between 72° and 80° Fahrenheit. Too hot or too cold will inhibit root growth. If you live in a cold climate you may need a heated propagation mat.
The cuttings will require lighting at this time. Dappled sunlight is fine if you are leaving your cuttings outside. Indoors, we recommend fluorescents. They are cooler and more energy efficient then metal halides and provide equal to superior results. Keep in mind that fluorescent lights don’t penetrate so you must keep the lights 1-2 inches above the plants.If you are using a Metal Halide or High Pressure Sodium fixture you must keep the cuttings much further away (2 – 3 feet away for 175 – 400 watt bulbs and 4 – 6 feet for a 1000 watt bulb).The lights should be turned on for 18 to 24 hours a day.
To water the cuttings we suggest using either plain distilled water or RO (reverse osmosis) water. It is recommended but not absolutely necessary to add a very mild fertilizer such as Olivia’s Cloning Solution or Wilder’s Clone Root Concentrate at this time. You can also use your hydroponic fertilizer at 1/4 strength. Don’t forget to adjust the pH of the water/nutrient solution at 5-5.5 for Rockwool and 5.5-6.5 for most everything else.
Water the cuttings approximately every 2 days unless you live in a very dry climate in which case you will probably need to water every day. Never let the growing medium dry out. Do not let it set in water either, or the stem will rot. A great method for watering the cuttings is to use two trays, one with holes and the other without. Fill the tray without holes about half way with water and then slowly lower the tray with the holes and the cuttings, into it. Let sit for a few moments and then slowly raise the tray back out and let it drain. Small Hydroponic systems are available to automate the watering cycles of the cuttings, greatly reducing the amount of manual labor.
After about a week you can test to see if your plants have started to root. Remove the humidity dome and leave it off for an hour or two. If the plants have not wilted at all then they probably have enough root development to support themselves. If no wilt is noticed leave the dome off. If they are wilted, spray the cuttings and dome and replace the dome on the tray. Once you have determined that the plants can support themselves, stop misting the cuttings and leave the humidity dome off. (NOTE: Once the plants have roots, constant misting can actually be harmful to the plants).
If the lower leaves start to turn yellow and die, don’t worry. This is perfectly normal. It is the plant feeding off of itself to sustain life, moving valuable nutrient and water from the older growth. Do not remove any dead growth until the plant is well rooted. If you remove the dying growth the plant can starve and die completely.
When the cuttings are completely rooted you can move them into your hydroponic system or the soil.
Final Notes
Cloning is easy once you get the hang of it. Just remember that every step must be done properly. Skipping a small, seemingly insignificant step can have very significant consequences. We suggest that the first time you take cuttings, take twice as many as you need. With a little practice this method of propagation should produce a 95 to 100 percent success ratio.
The use of distilled or RO water can drastically increase your success ratio, especially if you don’t have good quality water where you live. Do not continue using distilled water once the plants have gone into the hydroponic system or soil as it can lead to mineral deficiencies. RO or other chlorine/chloramine free water should be used at this time.
This is one tried and true method of propagation that works well on most types of plants. There are several other ways to clone your plants, including, air layering, dividing, and tissue culture. There are even hydroponic systems that do a good job of rooting cuttings using no growing medium at all. Once the cuttings form roots you simply transplant them to whatever growing medium you will be using.
Hydor HIT Metal Inline Fans – a QUALITY brand for residential, commercial and industrial exhaust or supply air application. Direct connections to standard diameter circular ducting and comes standard with manufacturing.
Please make sure that these fans are wired up CORRECTLY ! Although the fan may function for a period of time when wired INCORRECTLY, it will soon burn out the motor’s windings, rendering it obsolete. This is not covered under warranty and will not be refunded or swapped out.
AND ANOTHER THING… When adding an inline duct fan to a fan speed controller, rheostator dimmer switch, the fan must ALWAYS be set to its HIGHEST speed setting!
Hydor HIT Metal Inline Fans – Features:
Easy to install
Performance up to 0.51m3/second.
Can be mounted at any angle and suitable for on intake and/or discharge side and for supply or exhaust application.
Suitable for ambient operating temperatures of up to 50° C.
Does NOT include electrical cord or 3-point plug
Hydor warranty: Products of its manufacture when not misused or neglected to be free of defects in workmanship and/or materials. Our obligation under this warranty is limited to repairing or exchanging F.O.B. factory, any part, assembly or portion found to be defective within one (1) year from the date of commissioning but not to exceed eighteen (18) months from date of shipment from our factory.
Motor:
External motor squirrel cage induction motor.
Electrical supply, 220-240v.
Single phase.
Bearings are sealed for life.
Can be wired to run at 1 of 3 speeds ( Low , Medium or High ).
HIT -100 Inline Fan = 219 m3/h
HIT -150 Inline Fan = 464 m3/h
HIT -200 Inline Fan = 914 m3/h
HIT -250B Inline Fan = 1119 m3/h
HIT -315B Inline Fan = 1861 m3/h
DIMENSIONS
PLEASE NOTE: Only 200mm and larger fans come with a crossbar between the 2 mounting feet.
Model
A
B
C
D
E
F
G
KG
HIT100
98
205
130
236
284
270
47
3.7
HIT150
148
195
165
278
326
312
47
3.6
HIT200
198
235
190
333
392
372
100
5.5
HIT250B
248
210
190
333
392
372
100
5.3
HIT315B
313
265
227
400
460
440
100
8.8
TECHNICAL DATA
Model
V
Hz
W
r.p.m.
m3/h H
m3/h M
m3/h L
HIT100
230
50
59
2641
219
194
158
HIT150
230
50
62
2578
464
403
324
HIT200
230
50
155
2502
914
792
680
HIT250B
230
50
165
2480
1119
867
680
HIT315B
230
50
240
2480
1861
1746
1616
Compared with sleeve bearing, ball bearing has the following advantages: Long life, low maintenance, low temperature compatibility.
How to work out the size and type of fan required:
In order to provide adequate ventilation for a given application, it is essential the
correct size, type and number of units are selected. Selection of the correct fan depends on two
principal factors: the performance and application.
Step 1
Determine which mounting arrangements meet your requirements
Step 2
Calculate the VOLUME of the room in cubic meters (m3) by multiplying the length x width x height.
Step 3
How many air changes (AC/H) are required. Work out how fast one complete ‘air change’ needs to be carried out under warm conditions (i.e. the maximum you will ever need the fan to operate).If excess heat in a certain growing environment is a common problem, or there is a large volume of plants growing in a very restricted space you will need more air flow per hour than for a larger growing area which doesn’t suffer from too much heat build up with smaller plants. Growers commonly underestimate just how much ‘air exchange’ is required to remove excess heat and humidity, bring in fresh CO2 and generally create fresh air movement over all of the plant surfaces. As a comparison to greenhouse crops growing in full sunlight – one air change per minute or 60 air changes an hour are often aimed for with large, mature crops growing under warm, humid conditions. However, in a grow room situation, one complete air change obtained in 4-5 minutes is acceptable. Obviously this needs to be more frequent (one complete air change in 2-3 minutes) where lighting is creating a lot of extra heat to be removed or when a CO2 generator is being used.
Step 4
Use the following formula: Volume (m3) x AC/H = Airflow (m3/h)
128 Cell Tray (For Preforma Plugs / loose seedling mix. Preforma plugs will sit proud inside this shallow tray, as they are taller than the tray)
Length: 540mm. Will need to be trimmed shorter along one short side (using scissors / box cutter) to fit flat into a ROOTiT Large Propagator.
Width: 275mm
Shape: Square
Cavity Top: 28mm
Cavity Bottom: 15mm
Depth: 40mm
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