Canna Aqua Clay Pebbles

Canna Aqua Clay Pebbles are high-quality, kiln-fired clay pellets specifically engineered for hydroponic growing systems. These pebbles feature a hard outer shell and a porous interior that ensures optimal water drainage and root aeration, making them ideal for use in ebb & flow, drip irrigation, and recirculating hydro systems.

Each pellet is uniform in size and shape to provide excellent stability for root zones, preventing compaction while still holding enough moisture to keep roots hydrated between feeds. Canna’s clay pebbles are low in salt, pH-stable, and thoroughly rinsed, ready for immediate use with minimal pre-treatment.

Key Features:

• Provides excellent drainage and oxygen access to roots

• Made from purified, expanded clay – clean and pH neutral

• Hard, durable shell reduces dust and maintains structure

• Low EC and pre-rinsed for hydroponic compatibility

• Suitable for hydroponics, aquaponics, and aeroponic systems

• Reusable – can be cleaned and sterilised between cycles

• Ideal for use in pots, flood & drain trays, or mixed media

How to Use:

1. Rinse thoroughly before first use to remove any residual dust.

2. Fill pots, trays, or hydro system containers with clay pebbles.

3. Use as a stand-alone medium or layer beneath coco/soil to improve drainage.

4. Maintain appropriate irrigation and nutrient schedules for your grow system.

5. After harvest, clean with warm water and sterilise if reusing.

Specifications:

• Product Type: Expanded clay media

• Brand: Canna

• Sizes Available: Commonly in 10L and 45L bags

• Material: Kiln-fired expanded clay

• pH: Stable and neutral (approx. 6.0–7.0)

• EC: Very low – pre-washed

• Reusable: Yes – with proper cleaning

• System Compatibility: Ebb & flow, drip, aquaponics, etc.

Recommended Use:
Perfect for hydroponic growers who need a clean, stable, and oxygen-rich substrate. Canna Aqua Clay Pebbles are a reliable choice for promoting healthy root development, reducing compaction, and improving overall plant performance in active systems.