Description
Giant Macrocybe Mushroom Plate Culture
Giant Macrocybe (Macrocybe crassa) Mushroom Plate Culture.
Each culture plate is a 100x15mm petri dish inoculated with fresh Giant Macrocybe (Macrocybe crassa) mycelium growing on malt extract agar (MEA), and will arrive actively colonizing.
Giant Macrocybe Mushroom Plate Culture Lab Notes
At Out-Grow's mycology lab, we have observed the following traits of this mushroom plate culture:
Giant Macrocybe (Macrocybe crassa) mycelium appears white on culture media, moderately dense and cottony with radial growth similar to other large saprotrophic agarics. Growth is moderate, typically colonizing a 100mm plate in approximately 7-14 days at an optimal temperature of 75–82°F. This tropical species prefers warmer conditions and richer media — PDA at mid-70s °F works well for reproducible biomass when targeting metabolite or nutritional studies.
Mushroom Plate Culture Use
Mushroom plate cultures, typically on MEA culture plates, are used to grow and preserve mycelium. In most cases, sterile transfers of agar wedges from this plate are used to inoculate fresh culture media or sterilized grain spawn.
Mushroom Plate Culture Storage
Your mushroom plate culture can be wrapped in parafilm and stored at normal room temps, in a sealed baggie, for up to 6 months. Out-Grow recommends you replate your mushroom plate culture every 6 months to ensure longevity of your purchase.
Transfer your Giant Macrocybe mycelium to fresh MEA every 2–3 months to keep your culture healthy and vigorous.
Mushroom Plate Cultures Are Made to Order
All mushroom culture plates are made to order. Once your order is received, Out-Grow will inoculate your plate within 1-3 days. Your mushroom plate culture will then be incubated in our mycology lab for approximately 7-14 days, or until clean healthy mycelium has been verified by our mycologist. Once verified, your order will be shipped promptly. Please allow an additional week for your mushroom plate culture to fully colonize upon arrival, as colonization time varies by species.
Description
Giant Macrocybe Mushroom Plate Culture
Giant Macrocybe (Macrocybe crassa) Mushroom Plate Culture.
Each culture plate is a 100x15mm petri dish inoculated with fresh Giant Macrocybe (Macrocybe crassa) mycelium growing on malt extract agar (MEA), and will arrive actively colonizing.
Giant Macrocybe Mushroom Plate Culture Lab Notes
At Out-Grow's mycology lab, we have observed the following traits of this mushroom plate culture:
Giant Macrocybe (Macrocybe crassa) mycelium appears white on culture media, moderately dense and cottony with radial growth similar to other large saprotrophic agarics. Growth is moderate, typically colonizing a 100mm plate in approximately 7-14 days at an optimal temperature of 75–82°F. This tropical species prefers warmer conditions and richer media — PDA at mid-70s °F works well for reproducible biomass when targeting metabolite or nutritional studies.
Mushroom Plate Culture Use
Mushroom plate cultures, typically on MEA culture plates, are used to grow and preserve mycelium. In most cases, sterile transfers of agar wedges from this plate are used to inoculate fresh culture media or sterilized grain spawn.
Mushroom Plate Culture Storage
Your mushroom plate culture can be wrapped in parafilm and stored at normal room temps, in a sealed baggie, for up to 6 months. Out-Grow recommends you replate your mushroom plate culture every 6 months to ensure longevity of your purchase.
Transfer your Giant Macrocybe mycelium to fresh MEA every 2–3 months to keep your culture healthy and vigorous.
Mushroom Plate Cultures Are Made to Order
All mushroom culture plates are made to order. Once your order is received, Out-Grow will inoculate your plate within 1-3 days. Your mushroom plate culture will then be incubated in our mycology lab for approximately 7-14 days, or until clean healthy mycelium has been verified by our mycologist. Once verified, your order will be shipped promptly. Please allow an additional week for your mushroom plate culture to fully colonize upon arrival, as colonization time varies by species.
