Overcoming China’s animal waste disposal challenge brought by elevated levels of veterinary antimicrobial residues and antimicrobial resistance

[Display omitted] •Animal manures in China contain high levels of antimicrobials due to overuse in CAFOs.•Manure-based fertilizers are a major source of antimicrobials and AMR in farmlands.•China tried but failed to limit the contents of antimicrobials in organic fertilizers.•Stopping overuse of ant...

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Vydané v:Environment international Ročník 191; s. 109009
Hlavní autori: Cheng, Grace M., Cheng, Hefa
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Netherlands Elsevier Ltd 01.09.2024
Elsevier
Predmet:
Animal Husbandry - methods
Animal manure
Animal waste management
Animals
Anti-Infective Agents
Antimicrobial
Antimicrobial resistance
China
Drug Resistance, Microbial
Fertilizers
Humans
Livestock
Manure
Manure-based organic fertilizer
Refuse Disposal - methods
Veterinary antimicrobial stewardship
Veterinary Drugs - analysis
Waste Management - methods
China
Antimicrobial
Animal manure
Animal waste management
Antimicrobial resistance
Veterinary antimicrobial stewardship
Manure-based organic fertilizer
ISSN:0160-4120, 1873-6750, 1873-6750
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Abstract [Display omitted] •Animal manures in China contain high levels of antimicrobials due to overuse in CAFOs.•Manure-based fertilizers are a major source of antimicrobials and AMR in farmlands.•China tried but failed to limit the contents of antimicrobials in organic fertilizers.•Stopping overuse of antimicrobials is the ultimate solution to reduce their residues.•Concerted measures are recommended to reduce antimicrobial use in CAFOs and curb AMR. Direct application of animal waste on farmlands was banned in China recently, rendering organic fertilizer production a sound solution for disposing of animal manures and recycling their materials and nutrients. Due to the overuse of antimicrobials in livestock and poultry farms, manure-based organic fertilizers often contain elevated residues of antimicrobials and abundant antimicrobial resistance genes. Land application of such products has caused significant concerns on the environmental pollution of antimicrobials, and the transmission and development of antimicrobial resistance (AMR), which is a major global health challenge. China’s recent attempt to restrict the contents of antimicrobial residues in organic fertilizers encountered strong resistance from the industry as it would hinder the utilization of animal manures as a raw material. Reducing and even eliminating the use of antimicrobials in animal farms is the ultimate solution to the challenge of manure disposal posed by the elevated levels of antimicrobial residues and AMR. Phasing out the non-therapeutic use of antimicrobials, developing substitutes of antimicrobials, enhancing animal welfare in farms, promoting diversification of animal farms, and developing antimicrobial removal and disinfection technologies for animal waste are recommended to improve the veterinary antimicrobial stewardship and manure management in China’s animal agriculture. These concerted measures would enhance the sustainability of crop and animal farming systems in China and mitigate the impact of antimicrobials and AMR to agro-environmental quality and human health.
AbstractList Direct application of animal waste on farmlands was banned in China recently, rendering organic fertilizer production a sound solution for disposing of animal manures and recycling their materials and nutrients. Due to the overuse of antimicrobials in livestock and poultry farms, manure-based organic fertilizers often contain elevated residues of antimicrobials and abundant antimicrobial resistance genes. Land application of such products has caused significant concerns on the environmental pollution of antimicrobials, and the transmission and development of antimicrobial resistance (AMR), which is a major global health challenge. China's recent attempt to restrict the contents of antimicrobial residues in organic fertilizers encountered strong resistance from the industry as it would hinder the utilization of animal manures as a raw material. Reducing and even eliminating the use of antimicrobials in animal farms is the ultimate solution to the challenge of manure disposal posed by the elevated levels of antimicrobial residues and AMR. Phasing out the non-therapeutic use of antimicrobials, developing substitutes of antimicrobials, enhancing animal welfare in farms, promoting diversification of animal farms, and developing antimicrobial removal and disinfection technologies for animal waste are recommended to improve the veterinary antimicrobial stewardship and manure management in China's animal agriculture. These concerted measures would enhance the sustainability of crop and animal farming systems in China and mitigate the impact of antimicrobials and AMR to agro-environmental quality and human health.Direct application of animal waste on farmlands was banned in China recently, rendering organic fertilizer production a sound solution for disposing of animal manures and recycling their materials and nutrients. Due to the overuse of antimicrobials in livestock and poultry farms, manure-based organic fertilizers often contain elevated residues of antimicrobials and abundant antimicrobial resistance genes. Land application of such products has caused significant concerns on the environmental pollution of antimicrobials, and the transmission and development of antimicrobial resistance (AMR), which is a major global health challenge. China's recent attempt to restrict the contents of antimicrobial residues in organic fertilizers encountered strong resistance from the industry as it would hinder the utilization of animal manures as a raw material. Reducing and even eliminating the use of antimicrobials in animal farms is the ultimate solution to the challenge of manure disposal posed by the elevated levels of antimicrobial residues and AMR. Phasing out the non-therapeutic use of antimicrobials, developing substitutes of antimicrobials, enhancing animal welfare in farms, promoting diversification of animal farms, and developing antimicrobial removal and disinfection technologies for animal waste are recommended to improve the veterinary antimicrobial stewardship and manure management in China's animal agriculture. These concerted measures would enhance the sustainability of crop and animal farming systems in China and mitigate the impact of antimicrobials and AMR to agro-environmental quality and human health.
Direct application of animal waste on farmlands was banned in China recently, rendering organic fertilizer production a sound solution for disposing of animal manures and recycling their materials and nutrients. Due to the overuse of antimicrobials in livestock and poultry farms, manure-based organic fertilizers often contain elevated residues of antimicrobials and abundant antimicrobial resistance genes. Land application of such products has caused significant concerns on the environmental pollution of antimicrobials, and the transmission and development of antimicrobial resistance (AMR), which is a major global health challenge. China’s recent attempt to restrict the contents of antimicrobial residues in organic fertilizers encountered strong resistance from the industry as it would hinder the utilization of animal manures as a raw material. Reducing and even eliminating the use of antimicrobials in animal farms is the ultimate solution to the challenge of manure disposal posed by the elevated levels of antimicrobial residues and AMR. Phasing out the non-therapeutic use of antimicrobials, developing substitutes of antimicrobials, enhancing animal welfare in farms, promoting diversification of animal farms, and developing antimicrobial removal and disinfection technologies for animal waste are recommended to improve the veterinary antimicrobial stewardship and manure management in China’s animal agriculture. These concerted measures would enhance the sustainability of crop and animal farming systems in China and mitigate the impact of antimicrobials and AMR to agro-environmental quality and human health.
[Display omitted] •Animal manures in China contain high levels of antimicrobials due to overuse in CAFOs.•Manure-based fertilizers are a major source of antimicrobials and AMR in farmlands.•China tried but failed to limit the contents of antimicrobials in organic fertilizers.•Stopping overuse of antimicrobials is the ultimate solution to reduce their residues.•Concerted measures are recommended to reduce antimicrobial use in CAFOs and curb AMR. Direct application of animal waste on farmlands was banned in China recently, rendering organic fertilizer production a sound solution for disposing of animal manures and recycling their materials and nutrients. Due to the overuse of antimicrobials in livestock and poultry farms, manure-based organic fertilizers often contain elevated residues of antimicrobials and abundant antimicrobial resistance genes. Land application of such products has caused significant concerns on the environmental pollution of antimicrobials, and the transmission and development of antimicrobial resistance (AMR), which is a major global health challenge. China’s recent attempt to restrict the contents of antimicrobial residues in organic fertilizers encountered strong resistance from the industry as it would hinder the utilization of animal manures as a raw material. Reducing and even eliminating the use of antimicrobials in animal farms is the ultimate solution to the challenge of manure disposal posed by the elevated levels of antimicrobial residues and AMR. Phasing out the non-therapeutic use of antimicrobials, developing substitutes of antimicrobials, enhancing animal welfare in farms, promoting diversification of animal farms, and developing antimicrobial removal and disinfection technologies for animal waste are recommended to improve the veterinary antimicrobial stewardship and manure management in China’s animal agriculture. These concerted measures would enhance the sustainability of crop and animal farming systems in China and mitigate the impact of antimicrobials and AMR to agro-environmental quality and human health.
ArticleNumber 109009
Author Cheng, Grace M.
Cheng, Hefa
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  surname: Cheng
  fullname: Cheng, Hefa
  email: hefac@umich.edu
  organization: MOE Key Laboratory for Earth Surface Processes, College of Urban and Environmental Sciences, Peking University, Beijing 100871, China
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Keywords Antimicrobial
Animal manure
Animal waste management
Antimicrobial resistance
Veterinary antimicrobial stewardship
Manure-based organic fertilizer
Language English
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Snippet [Display omitted] •Animal manures in China contain high levels of antimicrobials due to overuse in CAFOs.•Manure-based fertilizers are a major source of...
Direct application of animal waste on farmlands was banned in China recently, rendering organic fertilizer production a sound solution for disposing of animal...
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SubjectTerms Animal Husbandry - methods
Animal manure
Animal waste management
Animals
Anti-Infective Agents
Antimicrobial
Antimicrobial resistance
China
Drug Resistance, Microbial
Fertilizers
Humans
Livestock
Manure
Manure-based organic fertilizer
Refuse Disposal - methods
Veterinary antimicrobial stewardship
Veterinary Drugs - analysis
Waste Management - methods
Title Overcoming China’s animal waste disposal challenge brought by elevated levels of veterinary antimicrobial residues and antimicrobial resistance
URI https://dx.doi.org/10.1016/j.envint.2024.109009
https://www.ncbi.nlm.nih.gov/pubmed/39278046
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