棉花糖直播

How Urban Microbiomes Contribute to the Ecology of City Life

Aug. 5, 2021

Every city has a microbiome. In fact, that populate everything from the soil and air to wastewater and building interiors and exteriors. The composition of . Importantly, city-dwelling microbes play numerous, largely unexplored, roles in the structure and function of urban spaces and the health of those who inhabit them. A better understanding of urban microbiomes could facilitate the design of cities with microbes and their importance for city and citizen well-being in mind.

Urban microbiomes are comprised of microbial communities that inhabit reservoirs throughout cities.
Urban microbiomes are comprised of microbial communities that inhabit reservoirs throughout cities.
Source: Madeline Barron

Like the human microbiome consists of microbial consortia inhabiting regions throughout the body (i.e., the gut, skin, lungs, etc.), urban microbiomes are a collection of microbial communities that occupy diverse reservoirs throughout city landscapes, from the depths of sewers to the tops of buildings. As such, there are several reservoirs with known and emerging roles in the health and function of cities and their residents.

Soil

Soil is one of the most microbially dense and diverse substances on the planet, and microbial ecologists have been uncovering the wonders of the soil microbiome for decades. Urban soils (particularly those in green spaces, like parks) contain considerable biodiversity—in fact, New York City's Central Park on par with that of natural landscapes across the world, including tropical and desert soils. As in natural settings, soil microbes for the urban ecosystem, including facilitating nutrient cycling and carbon storage.

Beyond these functions, urban soil microbes may affect the health of city inhabitants. It is well established that interactions with environmental microbes, including , are necessary for proper immune system development and function. Urban soils can also from contamination by sewage and other waste, as well as with therapeutic potential. Microbial genes predicted to encode a number of therapeutically relevant natural products, including the anti-cancer agent epothilone and the antibiotic erythromycin, were throughout New York City.

Air

The air whose compositions vary depending on land use (e.g., how much of the landscape is covered by vegetation versus concrete). Microbes that and help shape "aerobiome" composition. As such, are compositionally distinct from, and more diverse than, those over parking lots. Moreover, the influences the diversity of urban aerobiomes, with greater microbial diversity observed in tree-rich regions compared to grassy areas.

From a health standpoint, studies have outcomes relative to rural areas, including an increased prevalence of conditions like asthma and allergies. This may be due to the increased microbial abundance and diversity in rural air relative to urban areas, though only a few studies have experimentally assessed the link between rural/urban aerobiomes and human health. , relative to urban spaces, rural aerobiomes direct the immune response toward a T-regulatory and Th1-type response rather than an allergy/asthma-associated Th2 response. Nevertheless, there is a into factors shaping airborne microbial communities and their effects on city-dwellers.

Sewage

Beneath bustling cities lie networks of sewage pipes; through these pipes . Sewage systems that maintain taxa of source communities (e.g., microbes derived from human feces), yet also differ from such sources, suggesting adaptation of microbes to the nutritionally and chemically distinct environment of the sewage system. Moreover, from transient populations within flowing waste, emphasizing habitat diversity within the sewage system itself. Notably, sewage can be used to monitor the prevalence and spread of disease-causing microbes, including , as well as . Microbes are also beneficial when it comes to waste purification; wastewater treatment plants enrich for microorganisms that digest sludge (i.e., sewage filtered to remove grit) for subsequent water purification steps.

Buildings

Cities are not called "concrete jungles" for nothing—man-made surfaces are the foundations of urban living. largely derived from humans, like those on the skin, as well as those introduced via air, soil and water. can potentially lead to acquisition of pathogenic and beneficial microbes alike.

Building exteriors, which interface with the air and other reservoirs, harbor microbial communities that influence the structural integrity of the city. For instance, sulfide oxidizing bacteria deposited on building surfaces , whereas certain fungi . On the other hand, microbes can also be protective against such degradation and destruction. For example, some non-corrosive microbes . Better insight into structural and functional attributes of communities inhabiting the 'built' environment may promote the application of microbiological methods for preserving city architecture, including .

Although each of the above reservoirs is characterized by its own microbial profile, the urban microbiome as a whole is a collection of those associated with its soil, atmosphere, water and surfaces. Microbial communities within reservoirs intersect with one another to shape the city-wide microbial ecosystem. Moreover, there are reservoirs beyond those discussed here, such as animals and humans, that contribute to the microbial assemblages of urban landscapes.

The Composition of Urban Microbiomes Is City-Specific

There is considerable variation in the composition of urban microbiomes throughout the world. Factors like the abundance of green space and soil exposure, city architecture and wastewater composition vary between cities. Other factors like geography and climate also influence the type of microbes that survive within urban landscapes. As a result, no 2 cities have the same microbiome. When scientists conducted microbiome analyses on samples collected from various surfaces in office buildings throughout Toronto, Canada; Flagstaff, Ariz.; and San Diego, Calif., they found that .

Cities throughout the world harbor their own unique microbiomes.
Cities throughout the world harbor their own unique microbiomes.
Source: Madeline Barron

More recently, (and on a broader scale), metagenomic sequencing of samples swabbed from public transit stations in 60 cities across the world, from Denver to Tokyo, . Importantly, such fingerprints were not direct reflections of human or soil microbiomes, illustrating that the urban microbiome as a whole is more than the sum of its parts. Moreover, the researchers identified 750 bacteria and more than 10,900 viruses whose sequences did not match any reference database, underscoring that much of the microbial life inhabiting urban spaces, and their functional implications in terms of city structure and resident health, remains to be explored. This microbial variation provides an excellent opportunity to understand how city location, design and operations influence its microbiome, which could lend insight into how cities can shape their microbiomes for maximum functional benefit.

Moving Toward a Functional Understanding of Urban Microbiomes

Technological advancements have made the complexity, dynamism and potential significance of urban microbiomes increasingly apparent, and there are . For example, does the relative importance of specific microbial reservoirs (e.g., soil, air, etc.) within the urban landscape vary depending on city and time? How do microbial populations within these reservoirs interact with and influence one another? A greater understanding of these interactions would provide a more nuanced view of the complex microbial networks that define urban microbiomes as a whole.

Additionally, much of what is known about urban microbiomes comes from analyses of microbial (primarily bacterial) nucleic acids scattered throughout urban spaces. While this approach provides insight into the composition and potential functions of microbial communities, it does little to reveal the actual biological and ecological functions of urban microbes and what they mean for human health. Detecting the DNA fragments of pathogens, for example, does not necessarily mean they are widely prevalent, or even alive. Indeed, a (bacteria that cause plague and anthrax, respectively), though the lack of reported plague or anthrax cases in the city suggests that these pathogens do not pose a clear health risk to humans. Ultimately, gaining phenotypic insights into urban microbial communities, coupled with comprehensive investigations into if and how they interact with humans and infrastructure, would shed light on the role and potential use of such microbes in modulating the health of our cities.
 


Interested in learning more about microbial city-dwellers? This next article investigates the underexplored microbiome of our subways and public transportation systems.
 

Author: Madeline Barron, Ph.D.

Madeline Barron, Ph.D.
Madeline Barron, Ph.D., is the Science Communications Specialist at 棉花糖直播. She obtained her Ph.D. from the University of Michigan in the Department of 棉花糖直播 and Immunology.