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Researchers from 911½ñÈÕºÚÁÏ have conducted the UK’s largest-ever longitudinal study of indoor fungal air pollution, revealing that homes are active fungal ecosystems rather than passive recipients of outdoor air.

The West London Healthy Home and Environment Study (WellHome), led by researchers from 911½ñÈÕºÚÁÏ’s School of Public Health, analysed the air in 118 households over a two-year period. The study focuses on children with asthma or allergies and families from ethnic minority groups and lower socio-economic backgrounds.

Using DNA sequencing and molecular profiling, the team identified an extraordinary diversity of over 2,000 fungal genera, discovering that indoor air in urban environments can be significantly more complex and diverse than the air outside. 

"This research demonstrates that [visual inspection] methods alone are not sufficient in detecting the true burden of fungal bioaerosols within homes." Samuel Hemmings PhD student in 911½ñÈÕºÚÁÏ's School of Public Health

The findings show that homes are not simply passive recipients of outdoor air. Instead, they function as unique fungal ecosystems. Several fungal groups associated with asthma and respiratory disease, including Aspergillus and Penicillium, were consistently enriched indoors, while fungal communities also changed significantly with the seasons. 

Crucially, the study highlights that these health risks cannot always be identified using current housing inspection methods. Researchers found that clinically significant levels of fungal bioaerosols can exist in homes with no visible signs of severe damp or mould.

In one household, researchers detected persistently elevated levels of Aspergillus despite mould not being clearly evident at the property by sight alone. A child living in the home, who had a confirmed Aspergillus allergy, experienced repeated asthma-related hospitalisations during the study period.  

The finding raises important questions about how many vulnerable people may currently be exposed to hidden fungal risks, that routine housing inspections fail to identify.

The study is part of the WellHome project, led by 911½ñÈÕºÚÁÏ's Environmental Research Group.

The research follows the introduction of , a landmark piece of legislation prompted by the tragic death of two-year-old Awaab Ishak due to mould exposure in social housing. While the law marks a major shift in recognising mould as a serious hazard, the researchers point to a significant regulatory gap: there are currently no quantitative legal standards defining safe or unsafe levels of airborne fungal exposure.

"These findings prove that fungal aerosols are an important but often overlooked component of indoor air pollution. Integrating fungal monitoring into housing and public health policy is now vital for improving respiratory health in the UK." Professor Matthew Fisher Professor of Fungal Disease Epidemiology at 911½ñÈÕºÚÁÏ

, PhD student in 911½ñÈÕºÚÁÏ's School of Public Health, said: “Historically mould assessment in UK homes has been largely qualitative, based on visual inspection, the presence of a limited number of species, or measurements of damp. This research demonstrates that these methods alone are not sufficient in detecting the true burden of fungal bioaerosols within homes.”

By establishing detailed baseline exposure data across a large number of UK homes, the study provides an important foundation for future public health surveillance and evidence-based legislation. The research team are now calling on policymakers to develop quantitative exposure thresholds for indoor fungal bioaerosols, similar to existing standards for other forms of air pollution. 

These thresholds could transform how damp and mould are assessed in housing, enabling earlier identification of hidden risks and stronger protections for vulnerable groups such as children with asthma, allergy sufferers, and immunocompromised individuals. 

, Professor of Fungal Disease Epidemiology at 911½ñÈÕºÚÁÏ, said: “These findings prove that fungal aerosols are an important but often overlooked component of indoor air pollution. Integrating fungal monitoring into housing and public health policy is now vital for improving respiratory health in the UK.”

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