Research Topic: Temperature effects

Comprehensive review on oyster mushroom species (Agaricomycetes): Morphology, nutrition, cultivation and future aspects

mycolabadmin

Oyster mushrooms are increasingly popular edible fungi that can be grown on agricultural waste materials like rice and wheat straw. These nutritious mushrooms are rich in protein, vitamins, and minerals while containing compounds with health benefits including antioxidant and anti-inflammatory properties. Their cultivation offers an environmentally friendly solution to waste management while producing highly nutritious food that could help address global food security challenges.

Read More »

Identification of a pathogen causing fruiting body rot of Sanghuangporus vaninii

mycolabadmin

Sanghuang, a valuable medicinal mushroom grown in China, was suffering from a disease that damaged fruiting bodies and reduced production. Researchers identified the cause as a green mold fungus called Trichoderma virens. The fungus grows best at 25°C and strongly inhibits the mushroom’s growth. Understanding this pathogen is the first step toward developing better ways to prevent the disease and protect this important medicinal crop.

Read More »

Optimizing laboratory cultivation of wood-inhabiting fungi with emphasis on applied conservation

mycolabadmin

Researchers studied how to grow seven rare and endangered wood-dwelling mushrooms in the laboratory, which is important for saving these species from extinction. They tested different growing conditions including adding sawdust to growth media, adjusting temperatures, adding vermiculite to grain-based substrates, and using different types of wood. The study found that simple and inexpensive modifications like using birch wood and adding vermiculite significantly improved mushroom growth, making conservation and commercial cultivation more practical and affordable.

Read More »

Effect of Temperature, Relative Humidity, and Incubation Time on the Mycotoxin Production by Fusarium spp. Responsible for Dry Rot in Potato Tubers

mycolabadmin

This research examines how temperature and humidity during potato storage affect the growth of disease-causing fungi and their toxic byproducts. The study found that warmer, more humid storage conditions dramatically increase both fungal growth and dangerous toxin production in potatoes. Certain potato varieties became more susceptible to disease as they were stored longer. The toxin levels detected exceeded European safety limits, suggesting contaminated potatoes should be removed to protect consumer health.

Read More »
Scroll to Top