Alejandra Paula Espinosa Texis, D. Hernández, M. Hernandez, F. H. Hernández
{"title":"Presencia de agentes potenciales causantes de infecciones subcutáneas humanas en suelo y plantas en el estado de Puebla, México","authors":"Alejandra Paula Espinosa Texis, D. Hernández, M. Hernandez, F. H. Hernández","doi":"10.28940/TERRA.V35I2.139","DOIUrl":null,"url":null,"abstract":"Microscopic fungi and actinomycetes associated with human infections are widely distributed in nature. Soil and plants are the habitat of numerous fungi and bacteria. Farmers are highly vulnerable as they often sustain wounds contaminated by these microorganisms. In order to determine the number of natural colonies of fungi and actinomycetes that cause human subcutaneous infections, the respective microorganisms from soil and plants in 11 municipalities in the State of Puebla were isolated. Fifty samples from each municipality were taken, each consisting of 10 g of soil and 10 g of leaves of the nearest plant. Suspensions were prepared, inoculated on Sabouraud dextrose agar, incubated at 28 °C, and periodically examined to identify the microorganisms of interest based on their morphological characteristics. Of 1100 samples processed, 441 isolates were obtained, of which 281 were fungi (133 from soil and 148 from plants) and 160 were actinomycetes (96 from soil and 64 from plants). Fungi were identified by their macroscopic and microscopic morphology. Actinomycetes were identified by their macroscopic and microscopic morphology, and by biochemical tests. The main microorganisms isolated were agents of chromoblastomycosis (Fonsecaea pedrosoi and Cladophialophora verrucosa), followed by the agent of sporotrichosis (Sporothrix schenckii) and agents of actinomycetoma (Nocardia brasiliensis and N. otitidis-caviarum). The soil and plants from Cholula and Tecali de Herrera had the highest density of fungal isolates. From the soil and plants in Chignahuapan and Izucar de Matamoros the highest number of actinomycetes was obtained. In soils from 11 municipalities in the state of Puebla, we found a high diversity of fungi and actinomycetes that cause subcutaneous infections in humans in plants and in proportions similar to the frequency of the respective pathologies reported in the Mexican literature.","PeriodicalId":52301,"journal":{"name":"Terra Latinoamericana","volume":null,"pages":null},"PeriodicalIF":0.3000,"publicationDate":"2017-04-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Terra Latinoamericana","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.28940/TERRA.V35I2.139","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"AGRONOMY","Score":null,"Total":0}
引用次数: 1
Abstract
Microscopic fungi and actinomycetes associated with human infections are widely distributed in nature. Soil and plants are the habitat of numerous fungi and bacteria. Farmers are highly vulnerable as they often sustain wounds contaminated by these microorganisms. In order to determine the number of natural colonies of fungi and actinomycetes that cause human subcutaneous infections, the respective microorganisms from soil and plants in 11 municipalities in the State of Puebla were isolated. Fifty samples from each municipality were taken, each consisting of 10 g of soil and 10 g of leaves of the nearest plant. Suspensions were prepared, inoculated on Sabouraud dextrose agar, incubated at 28 °C, and periodically examined to identify the microorganisms of interest based on their morphological characteristics. Of 1100 samples processed, 441 isolates were obtained, of which 281 were fungi (133 from soil and 148 from plants) and 160 were actinomycetes (96 from soil and 64 from plants). Fungi were identified by their macroscopic and microscopic morphology. Actinomycetes were identified by their macroscopic and microscopic morphology, and by biochemical tests. The main microorganisms isolated were agents of chromoblastomycosis (Fonsecaea pedrosoi and Cladophialophora verrucosa), followed by the agent of sporotrichosis (Sporothrix schenckii) and agents of actinomycetoma (Nocardia brasiliensis and N. otitidis-caviarum). The soil and plants from Cholula and Tecali de Herrera had the highest density of fungal isolates. From the soil and plants in Chignahuapan and Izucar de Matamoros the highest number of actinomycetes was obtained. In soils from 11 municipalities in the state of Puebla, we found a high diversity of fungi and actinomycetes that cause subcutaneous infections in humans in plants and in proportions similar to the frequency of the respective pathologies reported in the Mexican literature.
与人类感染有关的微小真菌和放线菌在自然界中广泛分布。土壤和植物是许多真菌和细菌的栖息地。农民非常脆弱,因为他们的伤口经常受到这些微生物的污染。为了确定引起人类皮下感染的真菌和放线菌的自然菌落数量,从普埃布拉州11个城市的土壤和植物中分离出相应的微生物。从每个城市采集了50个样本,每个样本由10克土壤和10克最近植物的叶子组成。制备悬浮液,接种于Sabouraud葡萄糖琼脂上,在28°C下孵育,并根据其形态特征定期检查以识别感兴趣的微生物。1100份样品分离得到441株,其中真菌281株(土壤133株,植物148株),放线菌160株(土壤96株,植物64株)。真菌通过其宏观和微观形态进行鉴定。对放线菌进行了宏观、微观形态鉴定和生化鉴定。分离到的主要微生物是嗜铬菌病病原(褐索菌和疣状Cladophialophora verrucosa),其次是孢子丝菌病病原(schenckisporothrix)和放线菌瘤病原(巴西诺卡菌和中耳诺卡菌-鱼子蟹)。土壤和植物真菌分离密度最高的地区为乔卢拉和泰卡利。从Chignahuapan和Izucar de Matamoros的土壤和植物中获得的放线菌数量最多。在普埃布拉州11个城市的土壤中,我们发现了高度多样性的真菌和放线菌,这些真菌和放线菌导致人类和植物的皮下感染,其比例与墨西哥文献中报道的相应病理的频率相似。