Labor issues nationwide are requiring growers to save time while maintaining the same quality. One way this could be done is by moving away from soluble fertilizers. This move may not be the right answer for larger growers with more labor and highly skilled growers. If you are a smaller grower, hobby grower or managing a school greenhouse where growing is not your primary job this move could provide some potential time savings.
Often referred to as controlled release fertilizer these products can be a complete fertilizer (having N-P-K) with wide ranges in nutrient availabilities. They also can be used in various stages of plant production, propagation/starting, growing, finishing, bloom are common examples. You may hear the term slow release used interchangeably with controlled release. Slow-release products are mainly organic in nature where controlled release tend to be coated or chemically reacted products that ensure a certain nutrient release curve.
Controlled release products can be the sole source of fertility for growing greenhouse plants. The product can be incorporated (lbs/cu yd) into the growing media at planting. This puts all the nutrients a crop needs in the pot at one time without regular follow-up soluble applications, saving the smaller grower time. One key is making sure that the appropriate rate is mixed into the media at planting. In the Education GEMS (below) rates will be discussed further.
Controlled release products can also be top-dressed on the top of the crop, this technique is more common as a supplemental application in outdoor nursery crops or mother cutting stock in greenhouses. Some growers don’t like the lack of nutrient control, so they use a combined method of applications; mix in half the recommended rate of controlled release fertilizer then supplement with soluble fertilizer applications occasionally based on visual and plant media testing. This too can save time by not requiring weekly soluble fertilizer applications. The grower also gets the advantage of maintaining some nutrient control. Controlled release products normally will also provide some micronutrients, have low burn potential. Plants can be over fertilized with controlled release products just like when using soluble products if excessive rates are applied.
Label rates on fertilizer bags are generic suggestions to cover a wide range of situations. ICL-SF bases these values on in-house research and published research data. However, many environmental factors, including irrigation water quality, production practices and crop needs will impact the success of your fertilizer program. The application rates listed on ICL-SF bag labels are intended as a guideline in developing a fertilization program. These rates may or may not apply to your area or growing conditions, and these suggestions should only serve as starting points for growers.
It is the responsibility of the grower to determine the most appropriate rate. The best rate for any individual operation may be higher or lower than suggested on the bag based on your growing conditions. Only you can determine the best rate for your operation with well-designed production trials that use controls.
Product selection and application rates should be based on individual grower practices. Below are some general cultural factors that can influence product rate.
Use a lower rate with plants that are:
Osmocote Plus 15-9-12
Osmocote Bloom 12-7-18
Clean ventilation fans after the summer of constant use. According to the University of Florida as little a few ounces of debris on fan blades and shutters can reduce efficiency by as much as 30%.
After turning the power off to the fans remove the cage fans and clean. Clean and lubricate the ventilation shutters for free movement.
Check blades for proper connection, rotation, clean and lubricate. Check fan belt for cracks and wear. Make sure the motor is secure to the fan frame. Check belt tightness over both the motor and fan blade pulleys. Belt should not flop while in operation. If your fan has excessive squealing the belt could need adjustment, or the motor bearings are worn and need attention. If your motor allows the bearings to be lubricated do so.
HAF fans work hard year-round also and need attention as well. The same process describe for exhaust fans can be followed. One main difference is HAF fans typically are direct mounted to the motor and don’t have belts. By regularly cleaning and inspecting ventilation fans you will improve temperature controls in your greenhouse.
Lastly, remove any obstructions inside or outside your greenhouse that would limit air to move freely inside and out of the greenhouse.
Maintenance Guide for Greenhouse Ventilation & Evaporative Cooling Heating Systems
Week 9 – (October 4)
Week 10 – (October 11)
Week 11 – (October 18)
Week 12 – (October 25)