Toxicology Department, Centre for Radiation, Chemical and Environmental Hazards, Public Health England, Harwell Campus, Chilton, Oxfordshire, OX11 0RQ, UK.
Ecohealth. 2021 Sep;18(3):315-330. doi: 10.1007/s10393-021-01523-1. Epub 2021 Jun 5.
Soil microbes are important for public health. Increasing urbanisation is adversely affecting soil microbiota, which may be contributing to the global rise of immune-related diseases. Fungi are key components of urban environments that can be negatively impacted by altered land-use, land-management and climate change, and are implicated in the development and exacerbation of non-communicable diseases such as allergy, asthma and chronic inflammatory conditions. Fungal metagenomics is building knowledge on fungi within different environments (the environmental mycobiome), fungi on and within the human body (the human mycobiome), and their association with disease. Here, we demonstrate the added value of a multi-region metabarcoding approach to analyse soil mycobiomes from five urban greenspaces (lawns, parklands, bareground, young forest and old forest). While results were comparable across the three regions (ITS1, ITS2 and LSU), each identified additional fungal taxa that were unique to the region. Combining the results therefore provided a more comprehensive analysis across all fungal taxonomic ranks, identifying statistically significant differences in the fungal composition of the five soil types. Assignment of fungal taxa into ecological guilds revealed those differences of biological relevance to public health. The greatest differences were between the soil mycobiome of lawns and forests. Of most concern was the significant increase in the known human allergens Alternaria, Bipolaris, Cladosporium and Fusarium within urban lawn and parkland vs forest soils. By improving our understanding of local variations in fungal taxa across urban greenspaces, we have the potential to boost the health of local residents through improved urban planning.
土壤微生物对公众健康很重要。城市化的不断增加正在对土壤微生物群产生不利影响,这可能是导致全球免疫相关疾病增加的原因之一。真菌是城市环境的关键组成部分,其土地利用、土地管理和气候变化的改变会受到负面影响,并与过敏、哮喘和慢性炎症等非传染性疾病的发展和恶化有关。真菌宏基因组学正在为不同环境中的真菌(环境真菌组)、人体内外的真菌(人体真菌组)及其与疾病的关联建立知识。在这里,我们展示了一种多区域代谢组学方法的附加价值,该方法用于分析五个城市绿地(草坪、公园、裸地、幼林地和老林地)的土壤真菌组。虽然三个区域(ITS1、ITS2 和 LSU)的结果具有可比性,但每个区域都鉴定出了额外的独特真菌分类群。因此,将结果结合起来可以在所有真菌分类等级上进行更全面的分析,确定五种土壤类型中真菌组成的统计学显著差异。将真菌分类群分配到生态类群中,揭示了对公共健康具有生物学相关性的差异。草坪和森林土壤中的真菌组之间的差异最大。最令人担忧的是,已知的人类过敏原链格孢属、双极属、枝孢属和镰刀菌属在城市草坪和公园土壤中与森林土壤相比显著增加。通过提高我们对城市绿地中真菌分类群的局部变化的理解,我们有可能通过改善城市规划来提高当地居民的健康水平。
