Comparison of Growth, Yield, and Carbon Dioxide Emission After Cultivation of Five Edible Mushrooms

Comparison of Growth, Yield, and Carbon Dioxide Emission After Cultivation of Five Edible Mushrooms

The increasing problem of carbon dioxide emissions has become a significant concern, with mushroom production identified as one of the contributing factors. This is because the mushroom production process emits carbon dioxide through respiration, and the carbon dioxide emitted by the mushrooms contr...

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Bibliographic Details
Main Authors: Preuk Chutimanukul, Pawarisa Phetkaew, Siripong Sukdee, Ornprapa Thepsilvisut, Hiroshi Ehara
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Resources
Subjects:
edible mushrooms
growth
yield
carbon dioxide emission
Online Access:https://www.mdpi.com/2079-9276/14/4/55
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Summary:The increasing problem of carbon dioxide emissions has become a significant concern, with mushroom production identified as one of the contributing factors. This is because the mushroom production process emits carbon dioxide through respiration, and the carbon dioxide emitted by the mushrooms contributes to an increase in greenhouse gases. The carbon dioxide emitted by mushrooms can be utilized in various applications, such as supporting vegetable cultivation in greenhouses. However, the amount of carbon dioxide emitted by mushrooms varies. Thus, this study aimed to investigate the growth, yield, and carbon dioxide emissions in five edible mushrooms, namely <i>Pleurotus pulmonarius</i>, <i>Lentinus squarrosulus</i>, <i>P. ostreatus</i>, <i>P. citrinopileatus</i>, and <i>P. cystidiosus</i>. The experiment found that the fresh weight, dry weight, and biological efficiency percentage of <i>P. ostreatus</i> were the highest at 65.71, 11.18 g, and 28.22 percent, respectively. In contrast, the fresh weight, dry weight, and biological efficiency percentage of <i>L. squarrosulus</i> were the lowest, at 24.90, 3.80 g, and 9.90 percent, respectively. On the other hand, the carbon dioxide emitted from <i>L. squarrosulus</i> was the highest, ranging from 854.00 to 8369.67 ppm, while the carbon dioxide emitted from <i>P. cystidiosus</i> was the lowest, ranging from 606.00 to 861.00 ppm.
ISSN:2079-9276

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