Welcome to the helpful tips area of our site. Scott, General Manager of Solar Hydroponics Supply, would like to help you develop a successful garden with various ideas each month. These gardening tips include both industry knowledge and those lessons learned through personal experience. Please feel free to add your own experiences by emailing us at tips@solarhydroponics.com! Silicon Nutrition In Our Plants Rooting Mediums DISCOVER THE BENEFITS OF SILICON NUTRITION IN YOUR PLANTS! Potassium Silicate is an easy to use liquid that provides supplemental potassium (3.7%) and silicon (7.8%). The latest research proves that plants benefit in many important ways from supplemental soluble silicon. These benefits include greater tolerance of environmental stresses, such as cold, heat, drought, salinity, mineral toxicity or deficiency, improved growth rates and resistance to insects and fungi. Soluble silicon promotes natural fungal defense mechanisms in plants, significantly reducing and , in many cases eliminating entirely, the need to use fungicides. Silicon deposited in epidermal cell walls makes plants resistant to small sucking insects. The resulting increased mechanical strength in epidermal cell walls enhances leaf presentation a nd stem strength. Soluble silicon enhances metabolic functions and improves pollen fertility, fruit and flower count. SILICON INCREASES RESISTANCE TO PATHOGENS Silicon deposition in the epidermal cells of plants act as a barrier against penetration of invading fungi such as powdery mildew and Pythium. Following a fungal infection, greater deposits of silicon are found around the affected plant tissue showing th at silicon is selectively accumulated at the site. Silicon is also deposited in the cell walls of roots where it acts as a barrier against invasion of the stele by parasites and pathogens. Test conducted on cucumbers, melons and tomatoes determined that soluble silicon must be available to the plant during the period of infection by fungal spores. The silicon is deposited at the sites of infection to form stronger, harder cell walls to deter the fungus. Silicon also stimulates the production of polyph enolic compounds which form part of a plant’s natural defenses against fungal infection and insect attack. Silicon is rapidly bound in leaf tissue and will be deposited in a non-translocatable form within 24 hours. Therefore, a continuous source of solu ble silicon is very important to combat pathogens. This can be from constant feeding in hydroponics or from retention in the growing medium with soils or soilless mixes. In some plants, foliar applications appear to lead to even lower rates of disease probably because deposits of silicon compounds on the leaf surface promote physical barriers to the infection process. Foliar sprays of soluble silicon have also been shown to be effective for control of aphids and other sucking insects on many plants. Epidermal cell walls containing silicon deposits act as a mechanical barrier to the styles and mandibles of sucking and biting insects. In addition to the silicate deposits in the leaves, the intracellular content of silicic acid also acts as an effective sap sucking inhibitor for many insects. SILICON INCREASES METABOLIC RATES AND STRESS RESISTANCE Research shows that silicon benefits plants in the following ways: improved resistance to wilt resistance to water stress (heat and drought) enhanced leaf presentation resulting in improved light interception enhanced reproductive growth increased tolerance of excessive phosphorus, manganese, sodium and aluminum concentrations, zinc deficiencies and cold temperatures Silicon, deposited in the cell walls, forms a protective layer reducing transpiration through the outer cells. Silicon deposits in the cell walls of xylem vessels prevent compression of the vessels under conditions of high transpiration caused by drought or heat stress. Temperatures much above 90 degrees Fahrenheit cause plants to virtually cease their metabolic functions because water is lost through transpiration faster than it can be replaced via the plant’s root system. This results in harmful incr eases in intracellular mineral concentrations that inhibit plant functions. Increased levels of silicon in cell walls reduce transpiration loss caused by higher temperatures thus allowing continued metabolic functions at higher temperatures. Plants wilt less, resist sunburn and are generally more tolerant of heat stresses. Cuttings and plugs are more tolerant of the stresses encountered during root formation and potting up as a result of decreased transpiration. Silicon has also been shown to result in higher concentrations of chlorophyll per unit area of leaf tissue. This means that a plant is able to tolerate both lower and higher light levels by using more of the available light. Moreover, supplemental level s of soluble silicon have been shown to produce higher concentrations of the enzyme RUBP carboxylase in leaf tissue. This exzyme regulates the metabolism of carbon dioxide and enables the plant to make more efficient use of available levels of CO2. Silicon deficiencies often are indicated by malformation of young leaves and a failure of pollination and fruit formation in many cases. Plants with silicon added to the nutrient formula also show a decrease in leaf and flower senescence. The shelf life of cut flowers, specialty pot crops and plugs is also extended. Leaves are thicker and darker green compared to those grown without soluble silicon. ROOTING MEDIUMS There are as many different mediums and various mixes as there are people to talk about it! The main thing to consider when choosing a rooting medium is 'will it or the chemicals I supply make a hospitable environment to grow in?' - that is the six million-dollar question! Here is a list of the more common rooting mediums and the pros and cons of each: PEAT MOSS is organic so the pH is of low priority because organic mediums provide a pH buffer for the plant. It also holds water well in small quantities. In large quantities, it provides something like Pearlite to increase drainage. Drowning is the biggest concern. You may also need to add oxygen to the food. SAND is natural but has no pH buffer. Do a pH check on some of the water that has sat overnight with sand in it to see if your stock of sand needs pH help. Sand doesn't hold water well although it does drain well. You will need a frequent watering schedule for sand. Wash sand well so the fine particles can't plug up the cutting as it takes water. Sand has an almost ideal although temporary climate to root in. PEARLITE is a synthetic and requires a pH test and help to correct to 6.2. It also has no nutrients so you will have to supply food. Pearlite is single beads of Styrofoam, a very loose medium offering minimal support to the stalk. For those who want to get a clone with just roots, Pearlite washes out with minimal damage to the roots. Pearlite is great for root oxygen. Pearlite doesn't hold water well although it does drain well; you will need to water often. VERMICULITE is a natural medium but still requires pH testing due to the mineral content. Vermiculite drains well and provides a bit of water retention as well. There is plenty of air to oxygenate the roots too. Vermiculite is Mica that has superheated until it pops into flakes like popcorn. When cool, it has zillions of micro fissures in the flake that holds the water. ROCKWOOL is natural but it needs some serious help with pH. Soak Rockwool in pH 4.5 for 24 hours from dry before use. The problem is that, over time, the core of the Rockwool will alter the pH considerably. Water the Rockwool from the top so the nutrients in the block are exchanged. Rockwool has excellent drainage and keeps an ideal environment for propagation. PROFESSIONAL POTTING SOIL is organic and is usually peat moss based. It combines the best of the organic worlds to create an excellent rooting medium. Usually, the only problem is if the medium is saturated with water or if you add food to the water. Most potting soils contain an initial charge of fertilizer to get the plants going. They also will hold too much water for propagation; drain extremely well and squeeze out as much as you can of the moisture with your hands. Reprinted with Permission from Maximum Yield Magazine.   COMPANY| |PRODUCTS/SERVICES| |CUSTOMERS| |RESOURCES| |FEEDBACK| |VISIT OUR STORE| |FEATURE PRODUCTS| |SCOTT'S TIPS & TECHNIQUES| Solar Hydroponic Supply 4752 Imperial Street, Burnaby, BC (604) 438-7244 or info@solarhydroponics.com Hours of operation: Mon-Sat 10am-6:00pm;  Sun - Closed Copywright © 1998 Canada Internet Direct Inc. All rights reserved

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