The Viagrow horticultural grade perlite increases drainage & aeration when added to soil & soilless growing media. Viagrow horticultural perlite is commonly used alone for a completely inert hydroponic medium with good capillary & air retention properties, perlite can be added to any medium to support texture, air to water ratio, and create a healthier growing medium. Viagrow perlite is a perfect horticulture mix to combine with coir (coconut fiber) VCCB5 or VCCF50 & bulk granular fertilizers for a customized planting medium or can be utilized for compost aeration. Perlite has all kinds of applications such as hydroponics, aeroponics, raised bed gardening, container gardens, roof top gardening, makes a great soil additive, square foot gardening, potting soil for indoor plants, orchid potting mix, potting soil for outdoor plant, and much more! Viagrow perlite is mined, heated, and packaged in america.
Make sure this fits by entering your model number.
[SUSTAINABLE, MADE IN AMERICA] Viagrow Perlite is without doubt one of the most sustainable substrates, perfect for greenhouse propagation and growing. Perlite is a naturally mined mineral that is heated all the way through processing, causing its particles to pop and expand in volume. The result is a great, inorganic, soilless media. All Viagrow Perlite is mined, heated, and packaged in the united statesA.
[NEURTAL pH] Viagrow Perlite is clean, sterile, Non-Flammable, pH neutral, odorless, nontoxic and does not decay nor shrink.
[MIXING] Viagrow Perlite will also be mixed with organic compost, natural soils, or composted bark, assists in anchoring the roots of young plants so they grow healthy and strong.
[DRAINAGE] Viagrow Horticultural Perlite retains water and food for the growing plants, it is best used for drainage purposes. Good potting soils usually contain at least 25 percent perlite for proper drainage.
[LIGHTWEIGHT] Viagrow horticultural perlite is a lightweight substitute for sand, is especially useful in hydroponic gardening systems, it is perfect for seed germination, and cutting propagation.
Reviews