Sign up for our daily Newsletter and stay up to date with all the latest news!

Subscribe I am already a subscriber

You are using software which is blocking our advertisements (adblocker).

As we provide the news for free, we are relying on revenues from our banners. So please disable your adblocker and reload the page to continue using this site.
Thanks!

Click here for a guide on disabling your adblocker.

Sign up for our daily Newsletter and stay up to date with all the latest news!

Subscribe I am already a subscriber

Role of silicon in plant culture

All previous elements that were featured in previous articles are considered essential, meaning that plants cannot complete their lifecycle without them. However there are other elements that provide benefits to some plants, but these plants can complete their lifecycle without them. The two that will be discussed in this and the next article are silicon and nickel, respectively.

Silicon is the second most abundant element in the earth’s crust and is found in significant quantities in the soil; however, silicon can only be taken up by the plant in the form of mono-silicic acid. Most dicots (broad leaf plants) take up small quantities of silicon and accumulate less than 0.5% in their tissue. Some monocots (grasses) such as rice and other wetland grasses accumulate up to 5-10% silicon in their tissue, which is higher than normal ranges for nitrogen or potassium.

Function of Silicon

Silicon seems to benefit certain plants when they are under stress. It has been found to improve drought tolerance and delay wilting in certain crops where irrigation is withheld and may enhance the plant’s ability to resist micronutrient and other metal toxicities (i.e. aluminium, copper, iron, manganese, zinc, etc.). Also, silicon has been found to help increase stem strength. For example, research found when rice and wheat are silicon deficient, their stems weaken and easily collapse in wind or rain (a condition called lodging); poinsettias treated with silicon have shown reduced stem breakage. Silicon has been found to increase certain plant species resistance to fungal pathogen attack. In the case of powdery mildew and phytophthora, disease attack was delayed in silicon treated zinnia, rose, sunflower, cucumber (all powdery mildew) and gerbera (phytophthora), but after 1-3 weeks both silicon treated and untreated plants had the same amount of disease. The modes of action for most of these benefits are uncertain and more research needs to verify these benefits.

Deficiency: Since silicon is not considered an essential element, most plants will grow normally without it. However a few plants have shown deleterious effects if silicon is withheld. As stated above, rice, wheat and other graminaceous crops exhibit reduced incidence of lodging when silicon is provided. Tomatoes can have abnormal flower development and, along with cucumber and strawberry, have reduced fruit set and possibly malformed fruit. Deficiency of silicon may also increase the potential for manganese, copper or iron toxicity in certain plants.

Toxicity: Although uncommon, excess levels of silicon can possibly compete with uptake of other nutrients. In gerbera and sunflower, high levels of silicon were found to deform flowers. Plants that are considered “non-accumulators” of silicon are more sensitive to excess silicon vs. those that are “accumulators” (see the following table).



In the above table, plants are categorized based on their tendency to accumulate silicon. “Accumulators” accumulate high levels of silicon in their tissue; “intermediate” accumulate moderate levels and “non-accumulators”, low levels in the tissue. The percentage of silicon that accumulates in the tissue is also listed under each plant category.

Where to Find Silicon? Silicon is not included in the formulation of most fertilizers, but many contain some as a contaminant. Water sources typically provide silicon as well as the growing medium components and even dust contains useable silicon. Although each source of useable silicon may not provide significant levels for a crop, added together there may be enough silicon to negate the necessity to supplement with a separate silicon fertilizer, especially for non-accumulators.

However if a silicon fertilizer is used, research shows that potassium silicate or calcium silicate can be injected at a constant feed rate of 50 ppm silicon or once per week at a rate of 100 ppm. Do not exceed 200 ppm as it may cause phytotoxicity in some non-accumulators as was seen in gerbera and sunflower. Test the silicon fertilizer on a small percentage of several crops and do a side by side comparison to check for potential phytotoxicity as well as crop benefits. Like other fertilizer elements, silicon needs to be supplied throughout the crop cycle.

Please note silicon fertilizers are very alkaline and greatly increase the pH of the stock solution. This reduces the solubility of micronutrients and silicon can form precipitates in the stock tank. To err on the side of caution, it is best to have separate stock tanks for a silicon fertilizer and your standard fertilizer.

Is Silicon Needed? The research does show benefits of using silicon with certain agricultural crops (rice, wheat, sugarcane, etc.), especially if grown in poor quality soils; however, there are only limited studies that indicate there may be benefits for greenhouse crops. For the crops tested, there may be benefit of using silicon for intermediate and accumulator plants. For non-accumulators, there is conflicting information as to whether they benefit. For example, tomato, which is a non-accumulator, had increased flowering and fruit set when given additional silicon. However, powdery mildew and nutrient toxicity studies showed there was no significant suppression of either in non-accumulators treated with silicon.

As stated above, crop inputs such as water, fertilizer and growing medium may supply sufficient silicon for non-accumulators and perhaps intermediate accumulators. If not, intermediate accumulators may benefit from additional supplementation with silicon. Unfortunately silicon is not tested by most labs, so it is unknown if a grower’s inputs already provide enough usable silicon to benefit crops.

For more information about the use of silicon in crop production, please feel free to contact your Premier Tech Horticulture Grower Services representative.

For more information
Premier Tech Horticulture Office
1, avenue Premier
Rivière-du-Loup (Québec)
Canada G5R 6C1
T: +1 418 867-8883
Toll free: +1 855 867-5407
Email: [email protected]
www.pthorticulture.com

Publication date: