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High — Propagation & Root Zone

Rhizoctonia Root & Crown Rot

Fungal & Oomycete Pathogens · Affects surface & substrate

The short answer

Rhizoctonia solani is a soilborne fungal pathogen that causes damping-off in seedlings and cuttings, crown lesions in established plants, and stem girdling that cuts off vascular flow to the entire plant above the infection. It's primarily a propagation-stage threat — clone rooms and propagation benches are the highest-risk environments because the pathogen spreads as mycelium across wet bench surfaces and infects cuttings through wounds at the stem base1. Unlike Pythium or Fusarium, Rhizoctonia doesn't require water-saturated conditions; it can establish on moist bench surfaces with limited free water. Reused pots, contaminated growing media, and wet benches between clone batches are the primary persistence sites. The pathogen survives between crops as sclerotia — dense hyphal aggregations that are highly resistant to environmental stress — and standard surface cleaning without oxidizing chemistry does not reliably eliminate them.

What causes Rhizoctonia outbreaks in cannabis propagation?

Rhizoctonia solani is a contact pathogen, its mycelium grows across surfaces and enters plant tissue through physical contact, wounds, and the natural openings at the base of cuttings. Unlike airborne pathogens, it doesn't need a vector to travel; it grows directly from infected substrate to healthy plant material.

In propagation environments, the transmission pathway is straightforward: contaminated rooting media or growing trays, wet bench surfaces colonized with mycelium, and reused containers that weren't fully decontaminated between clone batches. Rooting cubes and rockwool blocks placed on a contaminated surface provide direct contact between the pathogen and the cutting's base wound.

The pathogen is encouraged by warm, moist conditions (72–82°F), which is precisely the propagation room environment. High humidity, limited airflow, and closely packed cuttings on benches create exactly the conditions Rhizoctonia prefers.

What do Rhizoctonia symptoms look like?

Rhizoctonia produces several distinct symptom patterns depending on when infection occurs:

Distinguishing Rhizoctonia from Fusarium crown rot and Pythium root rot requires attention to the lesion character: Rhizoctonia lesions tend to be dry and reddish-brown with a clear margin, while Pythium-infected tissue is typically water-soaked and slimy, and Fusarium shows internal vascular discoloration that extends up the stem. Lab confirmation via plating or PCR is the most reliable diagnostic when multiple pathogens may be present.

Why are clone rooms and propagation benches the highest-risk sites?

Several structural features of propagation environments amplify Rhizoctonia risk:

How does Rhizoctonia persist between crop cycles?

Rhizoctonia forms sclerotia, compact aggregations of mycelium with a protective outer layer that resist desiccation, temperature extremes, and standard disinfectants. These structures can persist on bench surfaces, in growing media particles, in container walls, and in facility substrate for months to years without a living host.

This persistence is why recurring Rhizoctonia in a propagation room is not random, it reflects an inoculum reservoir that was never eliminated. Facilities that decontaminate bench surfaces but don't address growing media disposal, container reuse, or bench frames create conditions where sclerotia survive the sanitation step and reinfect the next batch.

The most reliable indicator that sclerotia are persisting in the environment is pattern: if Rhizoctonia damping-off recurs in the same area of the bench with each new batch, the inoculum source is local and structural, not being re-introduced from outside the facility.

What does an effective Rhizoctonia prevention program require?

Prevention requires eliminating the pathogen's persistence sites between batches.

Growing media: Never reuse growing media that has been in contact with infected plants. Rockwool, coco, and perlite carry sclerotia that don't disappear with drying or storage.

Container and tray decontamination: Rooting trays, net pots, and propagation domes require decontamination with an oxidizing chemistry between every batch, not just between full crop cycles. Rhizoctonia cycles with your clone batches if the interval is longer.

Bench surfaces: All surfaces that cutting bases contact require full decontamination between batches. Wet bench surfaces are a direct transmission route.

Cutting tool sanitization: Each cut should be made with a sterile blade. The base wound is an entry point, and tools carry mycelium between plants in an actively infected batch.

How CLEANTheory addresses this

Rhizoctonia is a surface and substrate persistence problem. The question is whether your sanitation protocol eliminates sclerotia before the next batch arrives.

PATHox™
Decontaminates surfaces, propagation bench hardware, trays, and equipment between cycles, addressing the persistence sites where Rhizoctonia sclerotia carry over from batch to batch. The chemistry needs to reach surface biofilm and organic residue in cracks and bench joints, not just the visible surface.
Consulting
CLEANTheory's facility assessment evaluates propagation room sanitation protocols specifically: bench design, media disposal practices, container reuse policies, and decontamination sequence. Recurring Rhizoctonia in established clone rooms almost always traces to a specific protocol gap, and the assessment identifies which one.
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Key takeaways

Sources

  1. Punja, Z.K. et al. — "Pathogens and Molds Affecting Production and Quality of Cannabis sativa L." Frontiers in Plant Science (2019). Multi-year survey of indoor and greenhouse cannabis production; Rhizoctonia solani identified as a propagation-stage pathogen causing damping-off in cuttings; transmission via contaminated bench surfaces and rooting media documented.
  2. Punja, Z.K. et al. — "Integrated Management of Pathogens and Microbes in Cannabis sativa L. under Greenhouse Conditions." PMC / Frontiers (2024). Documents Rhizoctonia management in the context of an integrated program; sclerotia persistence on surfaces and rooting media; surface decontamination between propagation batches as the primary intervention.

Stop contamination before it stops your harvest.

CLEANTheory works with licensed indoor cultivators nationwide. Book a free assessment and we'll identify your highest-risk contamination vectors and prescribe a program across water, surface, and air.

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