Large-scale farming of mushrooms calls for cultivating mushrooms in high volumes and counts on modern technology to optimize the growth conditions unique for different species of mushrooms and increase healthy yield. China, USA, Japan, South Korea, India, Canada and Germany play a significant role in large-scale mushroom production. Modern technologies involve precise control of environmental factors such as temperature, humidity and CO2 levels, as well as automation of processes such as substrate preparation and sterilization. Modern techniques also employ automated irrigation and lightning systems, mycelium propagation technology, automated harvesting, packing and specialized technical applications such as bioreactors focusing large-scale mycelial production. For healthy and rich yield of mushrooms of large-scale production, further focus is on wasteWastes management, value addition and energy-efficientEfficient systems. Substrate preparation, climate-controlled cultivation, casing and harvesting are the major processes which drive the life cycle of mushroom production, while wasteWastes valorization, energy use, composting processes and resource efficiency are the other key environmentalImpact impactEnvironmental impact contributors for sustainable maintenance of large-scale mushroom cultivation.

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Mushroom Technology: Large-Scale Cultivation and Its Life Cycle Assessment

  • Aseni.N. Ediriweera,
  • Samantha C. Karunarathna,
  • Niranjan Gunasekara,
  • Minura peiris

摘要

Large-scale farming of mushrooms calls for cultivating mushrooms in high volumes and counts on modern technology to optimize the growth conditions unique for different species of mushrooms and increase healthy yield. China, USA, Japan, South Korea, India, Canada and Germany play a significant role in large-scale mushroom production. Modern technologies involve precise control of environmental factors such as temperature, humidity and CO2 levels, as well as automation of processes such as substrate preparation and sterilization. Modern techniques also employ automated irrigation and lightning systems, mycelium propagation technology, automated harvesting, packing and specialized technical applications such as bioreactors focusing large-scale mycelial production. For healthy and rich yield of mushrooms of large-scale production, further focus is on wasteWastes management, value addition and energy-efficientEfficient systems. Substrate preparation, climate-controlled cultivation, casing and harvesting are the major processes which drive the life cycle of mushroom production, while wasteWastes valorization, energy use, composting processes and resource efficiency are the other key environmentalImpact impactEnvironmental impact contributors for sustainable maintenance of large-scale mushroom cultivation.