A survey of urban households reveals how room layout and indoor lifestyle impacts the diversity of our tiniest roommates.
Carpet beetle © Matt Bertone of North Carolina State University
Booklouse © Matt Bertone of North Carolina State University
Paper wasp nest © Matt Bertone of North Carolina State University
Drs. Misha Leong and Michelle Trautwein © 2016 California Academy of Sciences
SAN FRANCISCO (November 10, 2017) – Humans have lived under the same roof with bugs since we first began building shelters 20,000 years ago. Now, scientists are studying how physical factors of our homes—from the floor plan and the number of windows to even how tidy we are—may play a role in the diversity of the multi-legged communities populating the indoor environment. Researchers from the California Academy of Sciences, North Carolina State University, and the Natural History Museum of Denmark published findings today in Scientific Reports revealing that a greater number of bug species can be found in high-traffic, ground-level, carpeted rooms with many windows and doors. (And a word of comfort for pet owners with messy habits: don’t worry, bugs don’t really care.)
“We are just beginning to realize—and study—how the home we create for ourselves also builds a complex, indoor habitat for bugs and other life,” says Dr. Misha Leong, lead author and postdoctoral researcher at the Academy. “We’re hoping to better understand this age-old coexistence, and how it may impact our physical and mental well-being.”
Humans spend the majority of their time indoors. Aside from pests, most life within the home—be it bacteria, fungi, or arthropods (a group that includes insects and their close relatives like spiders and millipedes)—has rarely been studied. The scientific team surveyed 50 urban homes in Raleigh, North Carolina to see what it is about a home that might lead to a buggier abode.
From the attic to the basement
Next time you climb the stairs, remember that insects, too, prefer lower levels. Survey findings revealed that as floor numbers increase, fewer types of insects thrive. Larger rooms, especially on the ground floor (or even below ground), harbored more insect diversity. More varied types of insects were also observed in carpeted rooms versus those with bare floors as well as “airier” rooms with more windows and doors offering greater accessibility to the outdoors. Species diversity within the home tends to mirror the life thriving outside, with neighborhood affluence playing an important and recently studied role.
“While the idea of uninvited insect roommates sounds unappealing, bugs in houses may contribute to health in a roundabout way,” says Dr. Michelle Trautwein, senior author and the Academy’s Schlinger Chair of Diptera. “A growing body of evidence suggests some modern ailments are connected with our lack of exposure to wider biological diversity, particularly microorganisms—and insects may play a role in hosting and spreading that microbial diversity indoors.”
Room to room
Bugs can also vary from room to room. An analysis of core representative species—like booklice, fruit flies, and ladybugs—revealed how common areas like living rooms hosted more diverse communities when compared to bathrooms, kitchens, and bedrooms. Basements also proved unique: these dark, damp, and cavernous spaces lent to diverse communities of cave-dwelling insects like spiders, mites, millipedes, camel crickets, and ground beetles.
Every room within the home revealed a complex ecological structure of predator and prey—with scavenger species, strays from the outdoors, and transient go-betweens all playing critical roles. The study also noted how indoor ecology is much like island ecology—a scientific discipline that examines what lives where, and why. Once species permeate inside, they tend to colonize their new “island” habitat and disperse across the household.
“We’re beginning to see how houses can be a passive go-between for insects traveling through the surrounding landscape,” says Trautwein. “The more numerous the entry points of windows and doors, the more diverse the community that thrives inside.”
No need to de-clutter; cats and pups are a-ok
For the messy among us, rest assured: study findings revealed that tidiness does not play a significant role in insect diversity except for the presence of cellar spiders—delicate, long-legged critters of the family Pholcidae typically spotted in damp crawl spaces. While more cluttered areas hosted a greater number of these web-spinners, on the whole human behavior played a minimal role in determining the composition of bug communities in the survey.
The presence of cats or dogs, houseplants, pesticides, and dust bunnies revealed no significant impact, suggesting that our indoor communities are more strongly influenced by the environment outside the window than how tidily we live inside with Fido and Kitty.
“Even though we like to think of our homes as shielded from the outdoors, wild ecological dramas may be unfolding right beside us as we go about our daily lives,” says Leong. “We’re learning more and more about these sometimes-invisible relationships and how the homes we choose for ourselves also foster indoor ecosystems all their own.”
This study is part of a seven-continent exploration to understand overlooked life in the home: how our tiniest roommates arrive and thrive, and the unknown impacts—both harmful and benign—that stem from living together in close quarters.
The Institute for Biodiversity Science and Sustainability at the California Academy of Sciences is at the forefront of efforts to understand two of the most important topics of our time: the nature and sustainability of life on Earth. Based in San Francisco, the Institute is home to more than 100 world-class scientists, state-of-the-art facilities, and nearly 46 million scientific specimens from around the world. The Institute also leverages the expertise and efforts of more than 100 international Associates and 400 distinguished Fellows. Through expeditions around the globe, investigations in the lab, and analysis of vast biological datasets, the Institute’s scientists work to understand the evolution and interconnectedness of organisms and ecosystems, the threats they face around the world, and the most effective strategies for sustaining them into the future. Through innovative partnerships and public engagement initiatives, they also guide critical sustainability and conservation decisions worldwide, inspire and mentor the next generation of scientists, and foster responsible stewardship of our planet.
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