Eazy Block: stronger and faster rooting than anything else on the market
The Eazy Block is the next evolution in sustainable growing media. Enhancing all of the superb characteristics of the Eazy Plug. From its predetermined and buffered pH and EC values, to its self-regulating air-to-water ratio. It is extremely versatile and will perform in any application and in all available cultivating system. And the wonderful thing is, it is veryeasy to use.
Due to air pruning the root structure will be very dense
Eazy Block is very well bonded, so it needs no plastic wrapping. Without the plastic covering the roots stop growing when reaching the outside of the block. At this point air pruningtakes place. This means that the primary roots stop growing beyond the Eazy Block because they get exposed to the relatively dry air and die back. That will stimulate an abundant growth of secondary roots and root hair, that wil spread throughout the entire Eazy Block. The effect will generate a very well-developed root system with a maximized absorption capability for the best possible intake of nutrients and fluids. There is no doubt that in this fully natural environment your plant will have the strongest and healthiest start possible.
It has an unlimited shelf live
The Eazy Block is supplied dried, so it is very lightweight and clean. Accordingly, there is no risk of molds and shelf life is unlimited. The dry Eazy Block is designed to absorb water very easily and it does it astonishingly quickly, whilst preserving all of its original characteristics.
Specifications:
Model : block
Weight dried : 35 gr
Volume : 0.35 L
EC : 1.0 *
pH : 5.8 *
Air-to-water ratio : 20-80
Weight moist : 195 gr
Size : 7.5 x 7.5 x 6.5 cm
Compatibility all known growing media, like Rock Wool, coir pith, black and white peat, garden soil, potting soil, soil-less mixes, bark fines and wood mulch, sand and grit, wood fibers, perlite, pumice, clay and vermiculite.
Composting 100% in normal composting conditions, no industrial composting necessary. Declared: bonding of components has no discernible effect on compostability.
