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Autori principali: Yang, Ya-Ting, Li, Xin-Peng, Gao, Li-Cheng, Hu, Wen-Xiao, Zhao, Xian-Yan, Hu, Da-Gang, Liu, Jiao, Qiu, Lei
Natura: Artículo científico
Lingua:en
Pubblicazione: Scientific reports 2025
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/40011666/
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author Yang, Ya-Ting
Li, Xin-Peng
Gao, Li-Cheng
Hu, Wen-Xiao
Zhao, Xian-Yan
Hu, Da-Gang
Liu, Jiao
Qiu, Lei
author_facet Yang, Ya-Ting
Li, Xin-Peng
Gao, Li-Cheng
Hu, Wen-Xiao
Zhao, Xian-Yan
Hu, Da-Gang
Liu, Jiao
Qiu, Lei
Yang, Ya-Ting
Li, Xin-Peng
Gao, Li-Cheng
Hu, Wen-Xiao
Zhao, Xian-Yan
Hu, Da-Gang
Liu, Jiao
Qiu, Lei
collection PubMed - marine biology
contents Optimization, application effects and improved microecology of a composite microbial agent containing oyster shells. Yang, Ya-Ting Li, Xin-Peng Gao, Li-Cheng Hu, Wen-Xiao Zhao, Xian-Yan Hu, Da-Gang Liu, Jiao Qiu, Lei Animals Ostreidae Soil Microbiology Animal Shells Solanum lycopersicum Beauveria Chitosan Microbiota Oysters are one of the largest marine shellfish species worldwide. However, oyster shells are treated as waste, accumulating on coastal shores and seriously polluting the ecosystem. In this study, a composite microbial agent was developed using calcined oyster shell powder, Beauveria bassiana spore powder, and ecological chitosan. To release the active ingredients, oyster shells were treated by calcination. The optimal application ratio of the agent was determined by detecting tomato growth indicators. Application of the optimized agent to vineyards increased 100-grain weight, carotenoids, and total amino acids by 10.55%, 8.71%, and 29.40%, respectively. Further detection of soil microbial population changes showed that the application of the agent increased the abundance and diversity of soil microbial populations, promoting the metabolism of bacterial amino acids, polysaccharides. These findings suggest that the agent not only enhanced plant growth and fruit quality, but also enriched the diversity and abundance of soil microbial communities.
format Artículo científico
id pubmed_40011666
institution PubMed
language en
publishDate 2025
publisher Scientific reports
record_format pubmed
spellingShingle Optimization, application effects and improved microecology of a composite microbial agent containing oyster shells.
Yang, Ya-Ting
Li, Xin-Peng
Gao, Li-Cheng
Hu, Wen-Xiao
Zhao, Xian-Yan
Hu, Da-Gang
Liu, Jiao
Qiu, Lei
Animals
Ostreidae
Soil Microbiology
Animal Shells
Solanum lycopersicum
Beauveria
Chitosan
Microbiota
Optimization, application effects and improved microecology of a composite microbial agent containing oyster shells. Yang, Ya-Ting Li, Xin-Peng Gao, Li-Cheng Hu, Wen-Xiao Zhao, Xian-Yan Hu, Da-Gang Liu, Jiao Qiu, Lei Animals Ostreidae Soil Microbiology Animal Shells Solanum lycopersicum Beauveria Chitosan Microbiota Oysters are one of the largest marine shellfish species worldwide. However, oyster shells are treated as waste, accumulating on coastal shores and seriously polluting the ecosystem. In this study, a composite microbial agent was developed using calcined oyster shell powder, Beauveria bassiana spore powder, and ecological chitosan. To release the active ingredients, oyster shells were treated by calcination. The optimal application ratio of the agent was determined by detecting tomato growth indicators. Application of the optimized agent to vineyards increased 100-grain weight, carotenoids, and total amino acids by 10.55%, 8.71%, and 29.40%, respectively. Further detection of soil microbial population changes showed that the application of the agent increased the abundance and diversity of soil microbial populations, promoting the metabolism of bacterial amino acids, polysaccharides. These findings suggest that the agent not only enhanced plant growth and fruit quality, but also enriched the diversity and abundance of soil microbial communities.
title Optimization, application effects and improved microecology of a composite microbial agent containing oyster shells.
topic Animals
Ostreidae
Soil Microbiology
Animal Shells
Solanum lycopersicum
Beauveria
Chitosan
Microbiota
url https://pubmed.ncbi.nlm.nih.gov/40011666/