Valeria Alejandra Pinto-Duarte, Natalia Marcela Hérnandez-Arango, Benyi Juliana Marin-Gallego, Paola Andrea Toloza-Beltrán, Fabiana María Lora-Suarez, Jorge Enrique Gómez-Marín
{"title":"哥伦比亚Quindío河流域土壤和水样中贾第鞭毛虫和刚地弓形虫的检测","authors":"Valeria Alejandra Pinto-Duarte, Natalia Marcela Hérnandez-Arango, Benyi Juliana Marin-Gallego, Paola Andrea Toloza-Beltrán, Fabiana María Lora-Suarez, Jorge Enrique Gómez-Marín","doi":"10.1016/j.fawpar.2022.e00175","DOIUrl":null,"url":null,"abstract":"<div><p>Two zoonotic protozoan pathogens, <em>Giardia duodenalis</em> and <em>Toxoplasma gondii</em>, are important causes of waterborne infections in the Quindío region in Colombia. No previous data exist on how contamination occurs at the source for drinking water consumed by the human population in this region. Our aim was to describe the frequency of <em>G. duodenalis</em> and <em>T. gondii</em> DNA in 11 sampling points during a five-month period in water and adjacent soil at the Quindío River basin (Andean region in the central western part of Colombia). The study employed nested PCR for <em>T. gondii</em>, using the B1 gene as the amplification target, and single-round PCR for <em>G. duodenalis</em> assemblage A and assemblage B, amplifying the <em>gdh</em> gene, followed by DNA sequencing. In 50 soil samples, 28% (14/50) were positive for <em>T. gondii.</em> For <em>G. duodenalis</em>, distribution was in equal parts for assemblage A (8%; 4/50) and assemblage B (8%, 4/50). Genotyping of <em>T. gondii</em> sequences showed two soil samples with type I strain, another two samples of soil with type III strain, but most samples were of unidentified strains. In water samples, <em>T. gondii</em> was detected in 9.1% (5/55), <em>G. duodenalis</em> assemblage A in 34.5% (19/55), and <em>G. duodenalis</em> assemblage B in 12.7% (7/55). <em>T. gondii</em> DNA positivity was associated with lower soil temperature (<em>p</em> = 0.0239). Presence of <em>G. duodenalis</em> and <em>T. gondii</em> was evidenced in soil and water samples in the Quindío River basin, indicating soil as the potential source of contamination for the river that it is destined for human consumption. Monitoring these protozoa in drinking water is necessary to prevent public health risks in human populations.</p></div>","PeriodicalId":37941,"journal":{"name":"Food and Waterborne Parasitology","volume":null,"pages":null},"PeriodicalIF":2.9000,"publicationDate":"2022-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://ftp.ncbi.nlm.nih.gov/pub/pmc/oa_pdf/7c/39/main.PMC9399255.pdf","citationCount":"2","resultStr":"{\"title\":\"Detection of Giardia duodenalis and Toxoplasma gondii in soil and water samples in the Quindío River basin, Colombia\",\"authors\":\"Valeria Alejandra Pinto-Duarte, Natalia Marcela Hérnandez-Arango, Benyi Juliana Marin-Gallego, Paola Andrea Toloza-Beltrán, Fabiana María Lora-Suarez, Jorge Enrique Gómez-Marín\",\"doi\":\"10.1016/j.fawpar.2022.e00175\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Two zoonotic protozoan pathogens, <em>Giardia duodenalis</em> and <em>Toxoplasma gondii</em>, are important causes of waterborne infections in the Quindío region in Colombia. No previous data exist on how contamination occurs at the source for drinking water consumed by the human population in this region. Our aim was to describe the frequency of <em>G. duodenalis</em> and <em>T. gondii</em> DNA in 11 sampling points during a five-month period in water and adjacent soil at the Quindío River basin (Andean region in the central western part of Colombia). The study employed nested PCR for <em>T. gondii</em>, using the B1 gene as the amplification target, and single-round PCR for <em>G. duodenalis</em> assemblage A and assemblage B, amplifying the <em>gdh</em> gene, followed by DNA sequencing. In 50 soil samples, 28% (14/50) were positive for <em>T. gondii.</em> For <em>G. duodenalis</em>, distribution was in equal parts for assemblage A (8%; 4/50) and assemblage B (8%, 4/50). Genotyping of <em>T. gondii</em> sequences showed two soil samples with type I strain, another two samples of soil with type III strain, but most samples were of unidentified strains. In water samples, <em>T. gondii</em> was detected in 9.1% (5/55), <em>G. duodenalis</em> assemblage A in 34.5% (19/55), and <em>G. duodenalis</em> assemblage B in 12.7% (7/55). <em>T. gondii</em> DNA positivity was associated with lower soil temperature (<em>p</em> = 0.0239). Presence of <em>G. duodenalis</em> and <em>T. gondii</em> was evidenced in soil and water samples in the Quindío River basin, indicating soil as the potential source of contamination for the river that it is destined for human consumption. 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Detection of Giardia duodenalis and Toxoplasma gondii in soil and water samples in the Quindío River basin, Colombia
Two zoonotic protozoan pathogens, Giardia duodenalis and Toxoplasma gondii, are important causes of waterborne infections in the Quindío region in Colombia. No previous data exist on how contamination occurs at the source for drinking water consumed by the human population in this region. Our aim was to describe the frequency of G. duodenalis and T. gondii DNA in 11 sampling points during a five-month period in water and adjacent soil at the Quindío River basin (Andean region in the central western part of Colombia). The study employed nested PCR for T. gondii, using the B1 gene as the amplification target, and single-round PCR for G. duodenalis assemblage A and assemblage B, amplifying the gdh gene, followed by DNA sequencing. In 50 soil samples, 28% (14/50) were positive for T. gondii. For G. duodenalis, distribution was in equal parts for assemblage A (8%; 4/50) and assemblage B (8%, 4/50). Genotyping of T. gondii sequences showed two soil samples with type I strain, another two samples of soil with type III strain, but most samples were of unidentified strains. In water samples, T. gondii was detected in 9.1% (5/55), G. duodenalis assemblage A in 34.5% (19/55), and G. duodenalis assemblage B in 12.7% (7/55). T. gondii DNA positivity was associated with lower soil temperature (p = 0.0239). Presence of G. duodenalis and T. gondii was evidenced in soil and water samples in the Quindío River basin, indicating soil as the potential source of contamination for the river that it is destined for human consumption. Monitoring these protozoa in drinking water is necessary to prevent public health risks in human populations.
期刊介绍:
Food and Waterborne Parasitology publishes high quality papers containing original research findings, investigative reports, and scientific proceedings on parasites which are transmitted to humans via the consumption of food or water. The relevant parasites include protozoa, nematodes, cestodes and trematodes which are transmitted by food or water and capable of infecting humans. Pertinent food includes products of animal or plant origin which are domestic or wild, and consumed by humans. Animals and plants from both terrestrial and aquatic sources are included, as well as studies related to potable and other types of water which serve to harbor, perpetuate or disseminate food and waterborne parasites. Studies dealing with prevalence, transmission, epidemiology, risk assessment and mitigation, including control measures and test methodologies for parasites in food and water are of particular interest. Evidence of the emergence of such parasites and interactions among domestic animals, wildlife and humans are of interest. The impact of parasites on the health and welfare of humans is viewed as very important and within scope of the journal. Manuscripts with scientifically generated information on associations between food and waterborne parasitic diseases and lifestyle, culture and economies are also welcome. Studies involving animal experiments must meet the International Guiding Principles for Biomedical Research Involving Animals as issued by the Council for International Organizations of Medical Sciences.
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