In Denver, Colorado, and under the broader Colorado state law following the passage of Proposition 122 (Natural Medicine Health Act of 2022), the personal cultivation, possession, and use of psilocybin-containing mushrooms, including Psilocybe tampanensis, have been decriminalized for adults 21 and over.

Key Points About the Law in Colorado (As of 2025):

✔️ Personal cultivation for private use is allowed.
✔️ Sharing (non-commercial) between adults is permitted.
Commercial sales (outside of licensed healing centers) are still illegal.
Public use or possession in certain areas may still lead to legal issues.

The strongest magic truffles are typically from the Psilocybe Hollandia and Psilocybe Utopia varieties. These truffles contain high levels of psilocybin and provide intense psychedelic effects, often comparable to a strong dose of magic mushrooms.

Strongest Magic Truffles:

  1. Psilocybe Hollandia – One of the most potent truffles, offering vivid visuals and deep introspection.

  2. Psilocybe Utopia – High psilocybin concentration, providing intense euphoria and altered perception.

  3. Psilocybe Atlantis – Strong, but slightly milder than Hollandia and Utopia; known for creative and visual experiences.

  4. Psilocybe Dragon’s Dynamite – A powerful variety, known for its energetic and mind-expanding effects.

If you're looking for the most intense experience, Hollandia and Utopia are the top choices. However, potency can vary based on freshness, dosage, and individual tolerance. Always start with a lower dose if you're unsure of the strength!

Psilocybe tampanensis ATL#7 can produce both mushrooms and truffles (sclerotia) depending on how it is cultivated.

What Does ATL#7 Produce?

✔️ Truffles (Sclerotia) – If grown in sealed jars with a nutrient-rich grain substrate (like rye or grass seed), the mycelium will form dense sclerotia inside the substrate over 3-6 months. These are the "truffles" (Philosopher’s Stones).

✔️ Mushrooms & Spores – If exposed to fresh air, humidity, and proper fruiting conditions (like a standard mushroom fruiting chamber), ATL#7 will grow mushrooms with caps, stems, and spore-producing gills. These mushrooms can drop spores, which can be collected for future cultivation.

How to Choose What to Grow?

  • Want Truffles? → Keep the mycelium in a sealed container with a grain-based substrate and wait several months.

  • Want Mushrooms & Spores? → Move colonized grain to a bulk substrate (like coco coir or manure) and provide proper fruiting conditions.

So yes, ATL#7 spores can produce both truffles and mushrooms, making it a versatile choice! 🍄🔥

Tidal Wave mushrooms are a hybrid strain of Psilocybe cubensis created by crossing two other popular mushroom strains: B+ and Penis Envy. Here's a breakdown of these parent strains:

  1. B+:

    • Known for its resilience and ease of cultivation.

    • Produces large, caramel-colored caps.

    • Has a relatively mild but balanced potency compared to other strains.

    Penis Envy:

    • Renowned for its high potency and unique appearance, with thick, bulbous stems and smaller caps.

    • Tends to have a slower growth cycle and is less prolific than other strains.

When these two strains were crossed, Tidal Wave mushrooms inherited characteristics from both:

  • The robust growth and large fruiting bodies of B+.

  • The potent effects and thick stems of Penis Envy.

Tidal Wave is celebrated for its potency and visual effects, making it a favored strain among enthusiasts.

Enigma mushrooms are a unique and fascinating variety of Psilocybe cubensis, but they differ significantly from typical strains due to their unusual growth and origin. Here's a detailed breakdown:

  1. Origin:

    • Enigma is a mutant phenotype derived from the Tidal Wave strain (itself a cross of B+ and Penis Envy).

    • Unlike traditional mushrooms, Enigma does not form caps or stems. Instead, it develops dense, brain-like structures called sclerotia.

  2. Appearance:

    • Grows as a blob-like, convoluted mass that resembles a brain or coral.

    • The unique morphology sets it apart from other Psilocybe cubensis strains.

  3. Potency:

    • Enigma is reported to be extremely potent, often exceeding the strength of its Tidal Wave parent.

    • This is due to its high psilocybin concentration, making it one of the strongest Psilocybe cubensis varieties.

  4. Growth Characteristics:

    • It has a slow growth cycle, often requiring patience to fully mature.

    • Because it doesn’t sporulate like typical mushrooms, it is propagated only through cloning, tissue culture, or liquid culture techniques.

  5. Effects:

    • Known for intense visuals, profound introspection, and long-lasting effects.

    • The high potency makes it popular among experienced users seeking a strong psychedelic journey.

Enigma is sought after in the mycology and psychedelic communities for its rarity, unusual appearance, and powerful effects.

Enigma mushrooms are considered one of the most potent Psilocybe cubensis variants, with potency levels often exceeding those of their parent strains, Penis Envy and Tidal Wave. Here's an analysis of their potency:

1. General Potency Range:

  • Psilocybin Content: Enigma mushrooms are reported to have significantly higher concentrations of psilocybin and psilocin compared to most Psilocybe cubensis strains.

    • Typical P. cubensis strains: ~0.5–1.0% psilocybin by dry weight.

    • Penis Envy: ~1.5–2.0% psilocybin by dry weight.

    • Enigma: Anecdotal reports suggest levels can surpass 2.0%, rivaling or even exceeding Penis Envy.

2. Why Enigma Is So Potent:

  • Concentrated Psilocybin Production: Enigma’s blob-like structure (similar to sclerotia) is composed of dense mycelium, which may concentrate psilocybin more effectively than traditional fruiting bodies with caps and stems.

  • Prolonged Growth Cycle: Enigma mushrooms grow slowly, allowing more time for psilocybin and psilocin to accumulate.

3. Effects of High Potency:

  • Intense Visuals: Vivid hallucinations, fractals, and enhanced perception of colors and patterns.

  • Profound Psychedelic Experience: Deep introspection, emotional breakthroughs, and a sense of ego dissolution are commonly reported.

  • Longer Duration: Higher potency often translates to extended trips, sometimes lasting 6–8 hours or more, depending on dosage.

4. Dosing Considerations:

Due to their potency, users are advised to start with lower doses compared to other P. cubensis strains:

  • Threshold dose: ~0.5g (dry).

  • Moderate dose: ~1–1.5g (dry).

  • High dose: 2g+ (dry) — considered very strong for Enigma.

5. Variability:

  • Potency can vary depending on cultivation conditions (e.g., substrate quality, growth environment) and specific Enigma samples. Lab testing is the only reliable way to determine exact psilocybin content.

Mutant strains of Psilocybe cubensis are highly prized for their unique appearances, growth patterns, or increased potency. Here are some notable mutant strains in the mycology world:

1. Enigma

  • Description: A blob-like, brain-shaped mutant derived from Tidal Wave (B+ x Penis Envy).

  • Unique Traits: No caps or stems, extreme potency, and dense mycelium structures. Does not produce spores.

2. Penis Envy Variants

  • Penis Envy itself is considered a mutant lineage due to its distinct features, but additional mutant variants have emerged, including:

    • Albino Penis Envy (APE):

      • A leucistic (partial loss of pigmentation) mutant of Penis Envy with white, bluish caps.

      • Known for its high potency and slower growth.

    • APE Revert:

      • A variant that reverted to producing larger caps but retains the potency of APE.

    • Penis Envy Uncut:

      • A variant with caps that do not fully open, maintaining a "closed" appearance throughout maturity.

3. Ghost

  • Description: A mutation derived from Albino Penis Envy (APE), featuring tiny, ghostly white fruiting bodies.

  • Unique Traits: Pure white, translucent appearance, high potency, and small but dense mushrooms.

4. Tidal Wave

  • Description: A hybrid mutant of B+ and Penis Envy.

  • Unique Traits: Known for its robust growth and strong potency, it’s also the parent strain of the Enigma mutation.

5. Melmac (Homestead Penis Envy)

  • Description: An original Penis Envy mutation from the Homestead company.

  • Unique Traits: Wavy caps and a slightly more "wild" appearance compared to standard Penis Envy. Very potent.

6. Yeti

  • Description: A mutant strain derived from Golden Teacher, exhibiting leucistic traits.

  • Unique Traits: White, thick stems and caps with significant potency and stable genetics.

7. True Albino Teacher (TAT) Lineage

  • Derived from the Golden Teacher strain, the TAT lineage includes several notable mutants:

    • TAT (True Albino Teacher): Fully albino fruiting bodies with white stems and caps.

    • White Teacher: A leucistic version of Golden Teacher.

    • TAT Syndicate Variants: Experimental mutants bred for unique features, like cap shapes or colorations.

8. Blue Meanie (Cubensis Variant)

  • Description: A mutant strain with slightly blue-tinted stems and caps.

  • Unique Traits: Known for bluish bruising and potent psychedelic effects.

9. Creeper

  • Description: A fast-growing strain with occasional mutations resulting in abnormally large or deformed caps.

  • Unique Traits: Noted for high yield and mild to moderate potency.

10. Z-Strain

  • Description: A highly aggressive strain with mutations producing unusually shaped fruit bodies.

  • Unique Traits: Dense stems and potent effects, often producing caps with irregular edges.

Why Mutant Strains Occur:

Mutations in Psilocybe cubensis arise naturally or through selective breeding under cultivation. Factors include:

  • Genetic Instability: Especially in hybrids like Tidal Wave or Penis Envy crosses.

  • Environmental Stress: Fluctuations in temperature, humidity, or substrate can trigger mutations.

  • Selective Breeding: Cultivators isolate unique traits to create stable mutant lineages.

These mutant strains represent the fascinating diversity of Psilocybe cubensis and the creativity of the mycology community in preserving and enhancing these unique phenotypes.

Mutant forms of Lion’s Mane (Hericium erinaceus), a highly regarded medicinal and edible mushroom, are less common than mutants in the Psilocybe cubensis world. However, they do exist and are generally the result of genetic mutations or environmental stress during cultivation. These mutations often lead to fascinating changes in morphology, growth patterns, or even improved medicinal properties. Here’s an overview:

Notable Mutant Types of Lion’s Mane:

1. Coral-Like Lion’s Mane:

  • Description: Instead of forming the traditional cascading spines (resembling a lion's mane), this mutant develops into a shape more like coral or cauliflower.

  • Cause: Often linked to environmental stressors (like low humidity or imbalanced CO2 levels) during the fruiting stage.

  • Unique Traits: The altered structure can sometimes result in more surface area for spore production, though it may be less visually appealing for culinary use.

2. Dwarf Lion’s Mane:

  • Description: Produces very small fruiting bodies with compact, stubby spines.

  • Cause: Genetic instability or poor substrate nutrition.

  • Unique Traits: Dense growth with concentrated biomass; could theoretically enhance medicinal compound content (like hericenones and erinacines).

3. Fused or Multi-Headed Lion’s Mane:

  • Description: Produces clusters where multiple fruiting bodies fuse into one large, irregular mass.

  • Cause: Genetic mutation or overcrowding during growth.

  • Unique Traits: A striking appearance with a higher yield from a single substrate block.

4. Albino Lion’s Mane:

  • Description: A rare mutation where the fruiting body appears pure white or even translucent.

  • Cause: Leucism (partial pigmentation loss) or genetic mutation.

  • Unique Traits: Aesthetic appeal for specialty markets; retains the same flavor and medicinal properties.

5. Spikeless Lion’s Mane:

  • Description: Forms blob-like or sclerotia-like growths instead of the traditional spines.

  • Cause: Likely caused by a mutation in genes controlling fruit body differentiation.

  • Unique Traits: Less culinary value but may concentrate active compounds (similar to sclerotia in other mushrooms).

Causes of Lion’s Mane Mutations:

  • Environmental Factors:

    • Imbalanced CO2 levels (too high often results in stubby spines or abnormal shapes).

    • Fluctuating temperatures or humidity.

    • Suboptimal substrate composition.

  • Genetic Factors:

    • Instability from over-cloning or repeated propagation.

    • Random mutations during spore germination or tissue culture.

  • Deliberate Breeding:

    • Cultivators might isolate and propagate mutations with desirable traits for niche markets.

Potential Benefits of Mutants:

  • Medicinal Value: Mutants with dense or altered structures might contain higher concentrations of beneficial compounds like hericenones and erinacines, known for their neuroprotective and cognitive-enhancing properties.

  • Culinary Diversity: Unique shapes or textures could appeal to chefs seeking distinctive ingredients.

  • Research Applications: Unusual mutants may provide insights into fungal genetics or novel cultivation techniques.

Cultivator's Note:

Mutant Lion’s Mane varieties often require more careful cultivation and monitoring to ensure consistent growth and quality. For those interested in exploring or stabilizing these mutants, tissue culture propagation is the most reliable method to replicate specific traits.

Mutants of Lion’s Mane demonstrate how even medicinal mushrooms can surprise cultivators with unexpected forms and potential benefits!

The production of hericenones and erinacines, the bioactive compounds in Hericium erinaceus (Lion’s Mane), is influenced by genetics, substrate, and environmental factors. While specific "mutant" strains have not been extensively analyzed for their concentrations of these compounds, some trends and insights can help identify which forms might be richest in hericenones and erinacines:

1. Differences in Hericenones and Erinacines:

  • Hericenones: Primarily found in the fruiting bodies (mushroom caps).

  • Erinacines: Predominantly produced in the mycelium.

2. Mutant Strains with Potential for High Hericenone/Erinacine Content:

Spikeless Lion’s Mane (Blob or Sclerotia-Like Mutant):

  • Reason: Dense, compact growth of the blob-like fruiting body might lead to increased biosynthesis of secondary metabolites, similar to how sclerotia in other fungi can concentrate bioactive compounds.

  • Target Compound: Could be higher in both hericenones (if resembling fruit bodies) and erinacines (due to the dense mycelial structure).

Fused or Multi-Headed Lion’s Mane:

  • Reason: The increased biomass and multiple growth points could lead to more surface area for metabolite production.

  • Target Compound: Likely higher hericenones, as these are concentrated in the fruiting body structures.

Albino Lion’s Mane:

  • Reason: Genetic mutations that impact pigmentation might also alter metabolic pathways, potentially leading to variations in hericenone and erinacine production. However, this is speculative and depends on the exact genetic mutation.

3. Factors That Influence Compound Levels in Mutants:

  • Substrate Composition: A lignin-rich substrate (hardwood sawdust, wheat bran) can enhance erinacine and hericenone synthesis.

  • Environmental Conditions: Precise control of temperature, humidity, and CO2 during cultivation can optimize compound production. Mutants may have specific needs due to altered physiology.

  • Growth Stage: Longer growth periods often allow for higher accumulation of bioactive compounds, especially in slower-growing mutants like spikeless or coral-like forms.

4. Current Research Limitations:

While no specific Lion's Mane mutant has been definitively proven to be the richest in hericenones or erinacines, spikeless and blob-like forms are promising due to their structural similarities to sclerotia, which in other fungi often show concentrated metabolite production. However, wild-type strains are currently the most studied.

5. How to Test for High-Compound Strains:

  • Cultivator Experiments: Grow several strains, including mutants, on identical substrates, and test the extracts for compound content using methods like HPLC (High-Performance Liquid Chromatography).

  • Lab Assistance: Partner with labs specializing in fungal bioactive compounds to analyze levels in different mutants.

Summary:

The spikeless/blobby Lion’s Mane mutant is the most likely candidate for high concentrations of both hericenones and erinacines due to its dense mycelial and fruiting body-like structure. However, substrate and cultivation techniques are equally critical in maximizing these compounds. Experimental testing is necessary to determine the exact concentrations in mutants versus wild-type forms.