Dynamics, Reactive Chemistry and Short-Term Risk of Indoor Pollutants . . . Air pollution from indoor sources is increasing due to massive participation of reactive chemistry and microbial transformations on existing pollutants Since 90% of the world population spends their time indoors, the subject matter becomes salient
Toilet hygiene—review and research needs - Oxford Academic Cleaning with soaps and detergents without the use of disinfectants in public restrooms may spread bacteria and viruses throughout the restroom Odours in restrooms are largely controlled by ventilation and flushing volume in toilet urinals However, this results in increased energy and water usage
Longitudinal analysis of microbial interaction between humans and the . . . Here, we present an intensive longitudinal analysis of the microbial communities associated with the home environment and present evidence for substantial interaction among human, home, and pet microbiota Such interactions could have considerable human and animal health implications
The sanitary indoor environment—a potential source for intact human . . . As has been identified in other studies, we identified that the highest overlap occurred between human skin and the indoor microbes, whereby the skin shared on average 29% and 32% of the microbial signatures with non-PMA and PMA samples from the bathroom, respectively
The indoors microbiome and human health - Nature In this Review, Gilbert and Hartmann examine the microbial ecology of indoor spaces, the factors that influence the microbiome of the built environment, and their influence on human health