Biosafety of human environments can be supported by effective use of renewable biomass

Preventing pathogenic viral and bacterial transmission in the human environment is critical, especially in potential outbreaks that may be caused by the release of ancient bacteria currently trapped in the permafrost. Existing commercial disinfectants present issues such as a high carbon footprint....

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Main Authors: Yu, Fengbo, Zhao, Wei, Qin, Tao, Zhao, Wang, Chen, Yulian, Miao, Xinyu, Lin, Litao, Shang, Hua, Sui, Guodong, Peng, Daxin, Yang, Yi, Zhu, Yongguan, Zhang, Shicheng, Zhu, Xiangdong
Format: Report
Language:unknown
Published: 2022
Subjects:
permafrost
Online Access:https://ir.rcees.ac.cn/handle/311016/47206
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spelling ftchacadscircees:oai:/ir.rcees.ac.cn:311016/47206 2023-06-11T04:15:57+02:00 Biosafety of human environments can be supported by effective use of renewable biomass Yu, Fengbo Zhao, Wei Qin, Tao Zhao, Wang Chen, Yulian Miao, Xinyu Lin, Litao Shang, Hua Sui, Guodong Peng, Daxin Yang, Yi Zhu, Yongguan Zhang, Shicheng Zhu, Xiangdong 2022-01-18 https://ir.rcees.ac.cn/handle/311016/47206 unknown PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA https://ir.rcees.ac.cn/handle/311016/47206 cn.org.cspace.api.content.CopyrightPolicy@147c7bad 期刊论文 2022 ftchacadscircees 2023-05-28T12:17:08Z Preventing pathogenic viral and bacterial transmission in the human environment is critical, especially in potential outbreaks that may be caused by the release of ancient bacteria currently trapped in the permafrost. Existing commercial disinfectants present issues such as a high carbon footprint. This study proposes a sustainable alternative, a bioliquid derived from biomass prepared by hydrothermal liquefaction. Results indicate a high inactivation rate of pathogenic virus and bacteria by the as-prepared bioliquid, such as up to 99.99% for H1N1, H5N1, H7N9 influenza A virus, and Bacillus subtilis var. niger spores and 99.49% for Bacillus anthracis. Inactivation of Escherichia coli and Staphylococcus epidermidis confirmed that low-molecular-weight and low-polarity compounds in bioliquid are potential antibacterial components. High temperatures promoted the production of antibacterial substances via depolymerization and dehydration reactions. Moreover, bioliquid was innoxious as confirmed by the rabbit skin test, and the cost per kilogram of the bioliquid was $0.04427, which is notably lower than that of commercial disinfectants. This study demonstrates the potential of biomass to support our biosafety with greater environmental sustainability. Report permafrost Research Center for Eco-Environmental Sciences: RCEES OpenIR (Chinese Academy of Sciences)
institution Open Polar
collection Research Center for Eco-Environmental Sciences: RCEES OpenIR (Chinese Academy of Sciences)
op_collection_id ftchacadscircees
language unknown
description Preventing pathogenic viral and bacterial transmission in the human environment is critical, especially in potential outbreaks that may be caused by the release of ancient bacteria currently trapped in the permafrost. Existing commercial disinfectants present issues such as a high carbon footprint. This study proposes a sustainable alternative, a bioliquid derived from biomass prepared by hydrothermal liquefaction. Results indicate a high inactivation rate of pathogenic virus and bacteria by the as-prepared bioliquid, such as up to 99.99% for H1N1, H5N1, H7N9 influenza A virus, and Bacillus subtilis var. niger spores and 99.49% for Bacillus anthracis. Inactivation of Escherichia coli and Staphylococcus epidermidis confirmed that low-molecular-weight and low-polarity compounds in bioliquid are potential antibacterial components. High temperatures promoted the production of antibacterial substances via depolymerization and dehydration reactions. Moreover, bioliquid was innoxious as confirmed by the rabbit skin test, and the cost per kilogram of the bioliquid was $0.04427, which is notably lower than that of commercial disinfectants. This study demonstrates the potential of biomass to support our biosafety with greater environmental sustainability.
format Report
author Yu, Fengbo
Zhao, Wei
Qin, Tao
Zhao, Wang
Chen, Yulian
Miao, Xinyu
Lin, Litao
Shang, Hua
Sui, Guodong
Peng, Daxin
Yang, Yi
Zhu, Yongguan
Zhang, Shicheng
Zhu, Xiangdong
spellingShingle Yu, Fengbo
Zhao, Wei
Qin, Tao
Zhao, Wang
Chen, Yulian
Miao, Xinyu
Lin, Litao
Shang, Hua
Sui, Guodong
Peng, Daxin
Yang, Yi
Zhu, Yongguan
Zhang, Shicheng
Zhu, Xiangdong
Biosafety of human environments can be supported by effective use of renewable biomass
author_facet Yu, Fengbo
Zhao, Wei
Qin, Tao
Zhao, Wang
Chen, Yulian
Miao, Xinyu
Lin, Litao
Shang, Hua
Sui, Guodong
Peng, Daxin
Yang, Yi
Zhu, Yongguan
Zhang, Shicheng
Zhu, Xiangdong
author_sort Yu, Fengbo
title Biosafety of human environments can be supported by effective use of renewable biomass
title_short Biosafety of human environments can be supported by effective use of renewable biomass
title_full Biosafety of human environments can be supported by effective use of renewable biomass
title_fullStr Biosafety of human environments can be supported by effective use of renewable biomass
title_full_unstemmed Biosafety of human environments can be supported by effective use of renewable biomass
title_sort biosafety of human environments can be supported by effective use of renewable biomass
publishDate 2022
url https://ir.rcees.ac.cn/handle/311016/47206
genre permafrost
genre_facet permafrost
op_relation PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
https://ir.rcees.ac.cn/handle/311016/47206
op_rights cn.org.cspace.api.content.CopyrightPolicy@147c7bad
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