Oscar Victor Cardenas-Alegria, Victor Benedito Costa Ferreira, Wylerson Guimarães Noguera, David Tavares Martins, Artur Pedro Martins Neto, Paulo Rógenes Monteiro Pontes, Rosane Barbosa Lopes Cavalcante, Sandy Ingrid Aguiar Alves, Artur Luiz da Costa da Silva, Rosilene Gomes Costa, Edian Franklin Franco de Los Santos, Vasco Ariston de Carvalho Azevedo, Rommel Thiago Juca Ramos
{"title":"对亚马逊乌拉伊姆河进行微生物组分析,并进行地理坐标分析,以确定与土地使用的人为影响之间的相关性","authors":"Oscar Victor Cardenas-Alegria, Victor Benedito Costa Ferreira, Wylerson Guimarães Noguera, David Tavares Martins, Artur Pedro Martins Neto, Paulo Rógenes Monteiro Pontes, Rosane Barbosa Lopes Cavalcante, Sandy Ingrid Aguiar Alves, Artur Luiz da Costa da Silva, Rosilene Gomes Costa, Edian Franklin Franco de Los Santos, Vasco Ariston de Carvalho Azevedo, Rommel Thiago Juca Ramos","doi":"10.3389/fenvs.2024.1404230","DOIUrl":null,"url":null,"abstract":"One of the primary challenges in the spread of infectious diseases is the consumption of poorly or untreated water, which is increasingly being used due to the growth of different human activities and the effect of urbanization on freshwater sources, which are often used for consumption purposes. The determination of pathogenic bacteria in freshwater rivers influenced by anthropogenic activities allows for the assessment of the impact these factors have on water quality. Thus, the purpose of this study was to identify the diversity of pathogenic bacteria and virulence genes in the Uraim River in the northern region of Brazil. For this purpose, surface water was collected from five points with varying degrees of anthropogenic impact along the Uraim River. <jats:italic>In situ</jats:italic> measurements of physicochemical components were conducted, and metagenomic analysis was used for the identification of pathogenic bacteria and virulence genes. Regarding the physicochemical parameters, variability was observed among the different analysis points, as well as diversity among bacteria and virulence genes. Notably, enterobacteria and the ESKAPE group were highlighted among the bacteria, with significant negative associations found between dissolved oxygen and the diversity of virulence genes and between deforestation and population density with the presence of ESKAPE group bacteria.","PeriodicalId":12460,"journal":{"name":"Frontiers in Environmental Science","volume":"213 6 1","pages":""},"PeriodicalIF":3.3000,"publicationDate":"2024-08-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Microbiome analyses of the Uraim River in the Amazon and georeferencing analyses to establish correlation with anthropogenic impacts of land use\",\"authors\":\"Oscar Victor Cardenas-Alegria, Victor Benedito Costa Ferreira, Wylerson Guimarães Noguera, David Tavares Martins, Artur Pedro Martins Neto, Paulo Rógenes Monteiro Pontes, Rosane Barbosa Lopes Cavalcante, Sandy Ingrid Aguiar Alves, Artur Luiz da Costa da Silva, Rosilene Gomes Costa, Edian Franklin Franco de Los Santos, Vasco Ariston de Carvalho Azevedo, Rommel Thiago Juca Ramos\",\"doi\":\"10.3389/fenvs.2024.1404230\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"One of the primary challenges in the spread of infectious diseases is the consumption of poorly or untreated water, which is increasingly being used due to the growth of different human activities and the effect of urbanization on freshwater sources, which are often used for consumption purposes. The determination of pathogenic bacteria in freshwater rivers influenced by anthropogenic activities allows for the assessment of the impact these factors have on water quality. Thus, the purpose of this study was to identify the diversity of pathogenic bacteria and virulence genes in the Uraim River in the northern region of Brazil. For this purpose, surface water was collected from five points with varying degrees of anthropogenic impact along the Uraim River. <jats:italic>In situ</jats:italic> measurements of physicochemical components were conducted, and metagenomic analysis was used for the identification of pathogenic bacteria and virulence genes. Regarding the physicochemical parameters, variability was observed among the different analysis points, as well as diversity among bacteria and virulence genes. 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Microbiome analyses of the Uraim River in the Amazon and georeferencing analyses to establish correlation with anthropogenic impacts of land use
One of the primary challenges in the spread of infectious diseases is the consumption of poorly or untreated water, which is increasingly being used due to the growth of different human activities and the effect of urbanization on freshwater sources, which are often used for consumption purposes. The determination of pathogenic bacteria in freshwater rivers influenced by anthropogenic activities allows for the assessment of the impact these factors have on water quality. Thus, the purpose of this study was to identify the diversity of pathogenic bacteria and virulence genes in the Uraim River in the northern region of Brazil. For this purpose, surface water was collected from five points with varying degrees of anthropogenic impact along the Uraim River. In situ measurements of physicochemical components were conducted, and metagenomic analysis was used for the identification of pathogenic bacteria and virulence genes. Regarding the physicochemical parameters, variability was observed among the different analysis points, as well as diversity among bacteria and virulence genes. Notably, enterobacteria and the ESKAPE group were highlighted among the bacteria, with significant negative associations found between dissolved oxygen and the diversity of virulence genes and between deforestation and population density with the presence of ESKAPE group bacteria.
期刊介绍:
Our natural world is experiencing a state of rapid change unprecedented in the presence of humans. The changes affect virtually all physical, chemical and biological systems on Earth. The interaction of these systems leads to tipping points, feedbacks and amplification of effects. In virtually all cases, the causes of environmental change can be traced to human activity through either direct interventions as a consequence of pollution, or through global warming from greenhouse case emissions. Well-formulated and internationally-relevant policies to mitigate the change, or adapt to the consequences, that will ensure our ability to thrive in the coming decades are badly needed. Without proper understanding of the processes involved, and deep understanding of the likely impacts of bad decisions or inaction, the security of food, water and energy is a risk. Left unchecked shortages of these basic commodities will lead to migration, global geopolitical tension and conflict. This represents the major challenge of our time. We are the first generation to appreciate the problem and we will be judged in future by our ability to determine and take the action necessary. Appropriate knowledge of the condition of our natural world, appreciation of the changes occurring, and predictions of how the future will develop are requisite to the definition and implementation of solutions.
Frontiers in Environmental Science publishes research at the cutting edge of knowledge of our natural world and its various intersections with society. It bridges between the identification and measurement of change, comprehension of the processes responsible, and the measures needed to reduce their impact. Its aim is to assist the formulation of policies, by offering sound scientific evidence on environmental science, that will lead to a more inhabitable and sustainable world for the generations to come.
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