I recently mentioned in one of my post that I will be using silica in my next grow with the reason being that I have seen several things that indicate that the CMH light causes extreme growth (cell division) that is hard for the plant to keep up with, even the place where I got the CMH from suggest adding silica when using it.
In one of the many PM's I get some one suggested that a thread on the benefits of silica would be a good idea (there is one currently in the advanced forum
https://www.rollitup.org/advanced-marijuana-cultivation/314764-silica-cannabis-2.html ) so I thought I would simply add my research results here.
I will be using DynaGro Pro Tekt (no surprise there as I love DynaGro)
I want to point out one thing that stands out above all the rest,
An increase in dry wieght of 6 to 80%
Here is the details on DynaGro,,,,,,,,,,,
DYNA-GRO'S unique Pro-TeKt® formula is an easy to use liquid concentrate 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, accelerated root development on cuttings and improved 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 enhances plants' resistance to small sucking insects. The resulting increased mechanical
strength in epidermal cell walls enhances leaf presentation to light and improved stem strength.
Soluble silicon enhances metabolic functions and plant growth rates by balancing nutrient uptake,
distribution and transport and increasing chlorophyll concentration in leaves resulting in improved
pollen fertility, fruit and flower count.
Silicon deposition in the plant's epidermal cell layer acts as a barrier against penetration of fungal
hyphae from powdery mildew, black spot, Pythium and Phytophthora, etc. Silicon is selectively
transported to the site of fungal infection and is utilized by the plant metabolically to combat the
growth of fungi. Silicon is also incorporated into cell walls improving heat, drought and cold
tolerance by reducing transpiration. The added mechanical strength makes the plant less dependent
upon osmotic pressure for leaf and stem turgidity. Silicon, selectively transported to the site of
fungal infection, plays an active metabolic role in combating fungal growth by the production of
polyphenolic compounds, part of a plant's natural defenses against fungi and insects. Silicon is
rapidly bound in leaf tissue and deposited in a non-translocatable form within 24 hours of uptake.
Therefore a continuous source of soluble silicon is very important to combat pathogens. This can be
from constant feeding in hydroponics or from retention in the growing medium.
In some plants, foliar applications appear to lead to even lower rates of disease. Silicon, taken up by
the plant via the roots, is moved to old leaves first, whereas fungal infections tend to attack the new
growth first. Foliar application to the new growth Pro-TeKts the tender new leaves. Foliar sprays of
soluble silicon have also been shown to be effective for the control of aphids and other sucking
insects on many plants. Epidermal cell walls containing silicon deposits act as a mechanical barrier
to 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.
The Nutrition Solution®
Product Data
Discover the Benefits of Silicon Nutrition in Your Plants!
Pro-TeKt ®
The Silicon Solution®
Silicon Increases Resistance to Pathogens
In growth tests at the University of Florida dry weight in Dendrobium nobile, Aeschmea fasciata,
Spathiphyllum and Anthurium scherzerianum provided 49 ppm soluble silicon increased from 18% to
80% over the dry weight of control plants grown without supplemental silicon. 32 of the 39 species
evaluated in this test took up additional silicon when it was provided. Those plants are considered
Si-responsive and had greater leaf thickness as well as greater dry weight.
Silicon Increases Metabolic Rates and Stress Resistance
Soil and Soilless Mixes: Apply Pro-TeKt® at a rate of 1:1500 to 1:3000 (1/2 tsp to 1/4 tsp/gal)
depending upon the plants' requirements.
Hydroponics: Continuously feed Pro-TeKt® at a rate of 1:750 (1 tsp/gal).
Research has shown 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, and increased tolerance of zinc deficiencies, cold
temperatures, excessive phosphorus, manganese, sodium and aluminum concentrations. 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° F 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 increases in intracellular
mineral concentrations that inhibit plant functions. Increased levels of
silicon in cell walls reduce transpiration loss caused by higher temperatures
and the low humidity of typical interior growing conditions 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. Studies at the Universities of Florida and Minnesota have shown significantly
increased success rates in propagation of cuttings when silicon is applied foliarly through a misting
system, or as a drench or soak prior to sticking. The surfactant characteristics of Pro-TeKt® result
in better uptake of water and the minerals dissolved in it for better nutrition and growth.
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 levels of soluble silicon have been shown to produce
higher concentrations of the enzyme RUBP carboxylase in leaf tissue. This enzyme 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 delayed 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.
AWARD WINNINGFORMULAS
LIQUID PLANT FOOD
PRO-SERIES
Not to be stuck on DynaGro here is a link to yet another product that has a lot of good info about adding silica,,,
http://www.basementlighting.com/Merchant2/merchant.mv?Screen=PROD&Store_Code=1&Product_Code=BLSS
Here is a link that explains how it helps with certain micro nute uptake and lockouts
http://www.fngla.org/reports/75/finalreport.pdf
Here is a quote from an article at Maximum Yield (one of my new favorite sites, see sig link),,,,,,,,,
Silica the missing macro element
Silica is much more than a trace element in many plant species. In fact silica is considered to be a beneficial macro element for many crops with a wide range of benefits for hydroponic crop production. Several plants need silica for growth including rice, sugar cane and tomatoes. Silica is transported from the roots and travels up to the shoot in the xylem vessels and is deposited mainly as hydrated silica dioxide or as polysilicic acids. Once silica has been incorporated into plant issue in this form, it cant be redistributed throughout the plant, so it needs to be in constant supply if the entire plant is to contain a useful amount.
The use of soluble forms of silica as an additive in hydroponics is not new; many cucumber and rose growers are aware of the benefits of adding silica to the nutrient solution, whether it is in an organic or non organic form. Silica in cucumbers, for example, reduces the incidence and severity of powdery mildew and other fungi. Silica contributes to the strength and thickness of cell walls, helping to keep leaves in a good position for good light interception and to resist attacks by fungi and insects. Silica also assists with the absorption and translocation of several macro and micro nutrients and plays a role in allowing plants to survive and thrive in adverse growing conditions such as high salinity or excess elements in the solution or soil. Silica in solution should, however, not be considered a micro element; levels as high as 140 ppm have been shown to have the most significant results since silica is naturally found in many plant tissues at up to 10 per cent or higher (dry weight).
In the past silica has been a difficult element to supply at high rates in hydroponic nutrient solutions. Chemical forms such as potassium metasilicate not only have a very high pH, but tend to form a glassy like substance, which blocks drippers and emitters when the enriched nutrient solution comes into contact with the air. These days more forms of silica are available on the hydroponic market and nutrient products and supplements containing silica as a macro element are readily available and easy to use.
And finally a link to Diatomite a silica based medium
http://www.diatomitecanada.com/hort_de_benefits.php
and a real good explanation of various mediums and additives including silica rocks,,,,,,,,,,,
http://www.progressivegardening.com/pottingmixalternatives.html
This should be enough to help explain the benefits of adding silica to your garden, oh yeah I should also let you know that silica is the second most common mineral found in the earths soil
To each his own tho. +rep for the help. Happy Growing
so i smoked sum purp to think about it, worst idea lol i passed out haha
...Ok so i just read ru ur thread an found it to be soil my bad but not entirely cause i have 5 new babies that just poped out of soil i said what the hell an go with soil too i cant loose by tryin both....