Browsing by Author "Vikesland, Peter J."
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- 2023 outstanding papers published in the Environmental Science journals of the Royal Society of ChemistryPublication . Cai, Zongwei; Donahue, Neil; Gagnon, Graham; Jones, Kevin C.; Manaia, Célia; Sunderland, Elsie; Vikesland, Peter J.
- 2023 outstanding papers published in the Environmental Science journals of the Royal Society of ChemistryPublication . Cai, Zongwei; Donahue, Neil; Gagnon, Graham; Jones, Kevin C.; Manaia, Célia; Sunderland, Elsie; Vikesland, Peter J.
- Best Papers from 2022 published in the Environmental Science journals of the Royal Society of ChemistryPublication . Cai, Zongwei; Donahue, Neil; Jones, Kevin C.; McNeill, Kristopher; Manaia, Célia; Novak, Paige J.; Vikesland, Peter J.
- Best Papers from 2022 published in the Environmental Science journals of the Royal Society of ChemistryPublication . Cai, Zongwei; Donahue, Neil; Jones, Kevin C.; McNeill, Kristopher; Manaia, Célia; Novak, Paige J.; Vikesland, Peter J.
- Toward a comprehensive strategy to mitigate dissemination of environmental sources of antibiotic resistancePublication . Vikesland, Peter J.; Pruden, Amy; Alvarez, Pedro J. J.; Aga, Diana; Bürgmann, Helmut; Li, Xiang-dong; Manaia, Célia M.; Nambi, Indumath; Wigginton, Krista; Zhang, Tong; Zhu, Yong-GuanAntibiotic resistance is a pervasive global health threat. To combat the spread of resistance, it is necessary to consider all possible sources and understand the pathways and mechanisms by which resistance disseminates. Best management practices are urgently needed to provide barriers to the spread of resistance and maximize the lifespan of antibiotics as a precious resource. Herein we advise upon the need for coordinated national and international strategies, highlighting three essential components: (1) Monitoring, (2) Risk Assessment, and (3) Mitigation of antibiotic resistance. Central to all three components is What exactly to monitor, assess, and mitigate? We address this question within an environmental framework, drawing from fundamental microbial ecological processes driving the spread of resistance.