News Release

Gut bacteria important factor in cockroach gathering

Peer-Reviewed Publication

North Carolina State University

Roach Aggregation

image: This is an aggregation of German cockroach nymphs. Gut bacteria play an important role in how roaches gather together, according to new research published in PNAS. view more 

Credit: Ayako Wada-Katsumata, NC State University

North Carolina State University research shows that bacteria in the gut of German cockroaches play a major role in how the cockroaches gather together, or aggregate. The findings could lead to more efficient roach baits and traps.

In a study published in the Proceedings of the National Academy of Sciences, NC State entomologists show that roach gut bacteria produce a wide variety of fatty acids that contribute to production of pheromones in roach feces. These fecal pheromones serve as a type of welcoming scent that attracts other roaches.

Lead author Ayako Wada-Katsumata, an NC State senior researcher, and corresponding author Coby Schal, Blanton J. Whitmire Distinguished Professor of Structural Pest Management, show that roaches won't aggregate when there is no welcoming scent - when they encounter feces without the chemical compounds produced by gut bacteria.

In the study, the researchers found 40 different chemical compounds in the feces of German cockroaches, but the feces of roaches without gut bacteria lacked 12 of these compounds and had only miniscule amounts of 24 of the other compounds.

"When you lose the gut bacteria, you lose the aggregation pheromones," Schal said.

The researchers tested newborn roaches, or nymphs, and older roaches both individually and in groups and found essentially the same result - aggregation when the chemical compounds were present in feces and little to no aggregation when those chemicals were absent or in low concentrations.

"The chemical compounds seem especially essential for nymphs," Wada-Katsumata said. "It's important for nymphs to determine a safe place, and these pheromones help do just that."

The study also used gas chromatography and mass spectrometry to identify the most attractive of the 40 chemicals present in the feces. Six particular compounds were the strongest attractants for the NC State roaches - stronger than a patented blend of attractant compounds developed elsewhere, in fact.

"Aggregation pheromones may drive colony fidelity," Schal said. "Different gut bacteria create different chemical profiles of aggregation pheromones, but many of these compounds overlap, depending on the food available to roaches. This suggests that aggregation is plastic, as compounds can be mixed and matched for different groups of roaches, depending on their environment."


Funding from the U.S. Department of Housing and Urban Development Healthy Homes program (awards NCHHU0001-11 and NCHHU0017-13), the Alfred P. Sloan Foundation (award 2013-5-35 MBE), the National Science Foundation (award IOS-1456973) and NC State's Blanton J. Whitmire endowment supported the work.

Note to editors: An abstract of the paper follows.

"Gut bacteria mediate aggregation in the German cockroach"

Authors: Ayako Wada-Katsumata, Godfrey Nalyanya and Coby Schal, North Carolina State University; Ludek Zurek, Kansas State University; Wendell Roelofs, Cornell University; Aijun Zhang, USDA Agricultural Research Service

Published: Online Dec. 7, 2015, in Proceedings of the National Academy of Sciences

DOI: 10.1073/pnas.1504031112

Abstract: Aggregation of the German cockroach, Blattella germanica, is regulated by fecal aggregation agents (pheromones), including volatile carboxylic acids (VCAs). We demonstrate that the gut microbial community contributes to production of these semiochemicals. Chemical analysis of the fecal extract of B. germanica revealed 40 VCAs. Feces from axenic cockroaches (no microorganisms in the alimentary tract) lacked 12 major fecal VCAs, and 24 of the remaining compounds were represented at extremely low amounts. Olfactory and aggregation bioassays demonstrated that nymphs strongly preferred the extract of control feces over the fecal extract of axenic cockroaches. Additionally, nymphs preferred a synthetic blend of 6 fecal VCAs over a solvent control or a previously identified VCA blend. To test whether gut bacteria contribute to the production of fecal aggregation agents, fecal aerobic bacteria were cultured, isolated, and identified. Inoculation of axenic cockroaches with individual bacterial taxa significantly rescued the aggregation response to the fecal extract, and inoculation with a mix of six bacterial isolates was more effective than with single isolates. The results indicate that the commensal gut microbiota contributes to production of VCAs that act as fecal aggregation agents and that cockroaches discriminate among the complex odors that emanate from a diverse microbial community. Our results highlight the pivotal role of gut bacteria in mediating insect-insect communication. Moreover, because the gut microbial community reflects the local environment, local plasticity in fecal aggregation pheromones enables colony-specific odors and fidelity to persistent aggregation sites.

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