Choose something short and descriptive that is easy for people with a non-technical/research background to understand. It should be fewer than 90 characters, including spaces
已发布 25 三月, 2024
This should include quotes from at least one of the authors. Begin with anything new you have learned and explain your results simply. Provide context; for example, do your findings improve an existing process? What do they change/shine a new light on? Include points of interest; e.g., surprises you encountered or unusual methods used. Try to keep the word count below 400 words.
Antibiotic resistance genes (ARGs) have been widely detected in water, sediment, gut and even the phycosphere of algae. In strong anthropogenic activity areas, antibiotic resistance caused by ARGs can pose a significant threat to human health. Despite the numerous published studies on the occurrence and distribution of ARGs in these areas, there is a dearth of literature on the presence and dispersal of ARGs in remote and pristine environments with limited antibiotic usage..
Qinghai Lake, located in the northeastern part of the Qinghai-Tibet Plateau, is the largest saltwater lake in mainland China. Notably, it is an important water body for maintaining ecological security. The typical geographical and humanistic features of the Qinghai Lake basin, especially in the northern region, are high altitude (more than 3,000 m), oxygen-deficient environment, low temperature, and sparse human population. Due to governmental protection and national nature reserve policies, the Qinghai Lake basin is less affected by anthropogenic activity. Nevertheless, it must be acknowledged that the Qinghai Lake basin is a closed watershed with no river outflow. As such, the lake can easily become a sink of ARGs from the watershed and surrounding rivers. In light of this unique geographical background, no prior investigations have explored the occurrence and transmission of ARGs under varied nutrient conditions within the Qinghai Lake basin.
To that end, a team of researchers in China investigated the microbial community and ARGs in two typical river of the western Qinghai Lake basin.
“We found that the microbial community was unique in the western Qinghai Lake basin,” shares Chenxi Wu, corresponding author of the study. “Specifically, cold-resistant Planomicrobium sp. was the predominant genus due to the low temperature.”
Furthermore, the team noted that although ARGs in the western Qinghai Lake basin were significantly lower than that in strong anthropogenic activity areas, a strong correlation between ARGs and intI1 indicated the potential rapid proliferation and spread of ARGs through cross- or co-selection if antibiotic pollution occurs in that area.
The team’s findings, published in the KeAi journal Water Biology and Security, emphasized the adaptation of bacteria to the environment and the facilitation of anthropogenic activity in the propagation of ARGs in natural environments.
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Nitrate increased the diversity and abundances of microbial community in water ecosystem of the western Qinghai Lake basin, but has no effect on the distribution of ARGs. In contrast to microbiology, intI1 promoted the spread of ARGs in that water ecosystem.
Contact author name, affiliation, email address:
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Jia Jia & Chenxi Wu, Institute of Hydrobiology, Chinese Academy of Sciences, Wuhan, 430072, China, jia263319@ihb.ac.cn; chenxi.wu@ihb.ac.cn
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This work was supported by the Qinghai Province key research and development and transformation plan (2022-QY-204), the Second Comprehensive Scientific Expedition to the Qinghai-Tibet Plateau (2019QZKK0405), and the Qinghai Province science and technology plan (2023-ZJ-905T).
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The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. Chenxi Wu is an editorial board member for Water Biology and Security and was not involved in the editorial review or the decision to publish this article.
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Cite the article here – include the DOI.https://doi.org/10.1016/j.watbs.2024.100249