Litcius/Paper detail

The potential importance of the built-environment microbiome and its impact on human health

Thomas C. G. Bosch, Mark Wigley, Beatriz Colomina, Brendan J. M. Bohannan, Forrest Meggers, Katherine R. Amato, Meghan B. Azad, Martin J. Blaser, Kate Brown, Maria Gloria Domínguez-Bello, S. Dusko Ehrlich, Eran Elinav, B. Brett Finlay, Kate Geddie, Naama Geva‐Zatorsky, Tamara Giles‐Vernick, Philippe Gros, Karen Guillemin, Louis‐Patrick Haraoui, Elizabeth L. Johnson, Frédéric Keck, Jamie Lorimer, Margaret McFall‐Ngai, Mark Nichter, Sven Pettersson, Hendrik N. Poinar, Tobias Rees, Carolina Tropini, Eduardo A. Undurraga, Liping Zhao, Melissa K. Melby

2024Proceedings of the National Academy of Sciences49 citationsDOIOpen Access PDF

Abstract

There is increasing evidence that interactions between microbes and their hosts not only play a role in determining health and disease but also in emotions, thought, and behavior. Built environments greatly influence microbiome exposures because of their built-in highly specific microbiomes coproduced with myriad metaorganisms including humans, pets, plants, rodents, and insects. Seemingly static built structures host complex ecologies of microorganisms that are only starting to be mapped. These microbial ecologies of built environments are directly and interdependently affected by social, spatial, and technological norms. Advances in technology have made these organisms visible and forced the scientific community and architects to rethink gene-environment and microbe interactions respectively. Thus, built environment design must consider the microbiome, and research involving host-microbiome interaction must consider the built-environment. This paradigm shift becomes increasingly important as evidence grows that contemporary built environments are steadily reducing the microbial diversity essential for human health, well-being, and resilience while accelerating the symptoms of human chronic diseases including environmental allergies, and other more life-altering diseases. New models of design are required to balance maximizing exposure to microbial diversity while minimizing exposure to human-associated diseases. Sustained trans-disciplinary research across time (evolutionary, historical, and generational) and space (cultural and geographical) is needed to develop experimental design protocols that address multigenerational multispecies health and health equity in built environments.

Topics & Concepts

Built environmentMicrobiomeHuman healthDiversity (politics)Human microbiomeBiologyEcologyData scienceComputer scienceSociologyEnvironmental healthMedicineGeneticsAnthropologyGut microbiota and healthIndoor Air Quality and Microbial ExposureHuman-Animal Interaction Studies