Abstract
We observed that teneral adults (<1 h post-molt) of Cimex lectularius L. appeared more adept at climbing a smooth surface compared to sclerotized adults. Differences in climbing ability on a smooth surface based on sclerotization status were quantified by measuring the height to which bed bugs climbed when confined within a glass vial. The average maximum height climbed by teneral (T) bed bugs (n = 30, height climbed = 4.69 cm) differed significantly (P< 0.01) from recently sclerotized (RS) bed bugs (n = 30, height climbed = 1.73 cm at ~48 h post molt), sclerotized group 1 (S1) bed bugs (n = 30, S1 = 2.42 cm at >72 h), and sclerotized group 2 (S2) bed bugs (n = 30, height climbed = 2.64 cm at >72 h post molt). When heights from all climbing events were summed, teneral bed bugs (650.8 cm climbed) differed significantly (P< 0.01) from recently sclerotized (82 cm climbed) and sclerotized (group 1 = 104.6 cm climbed, group 2 = 107.8 cm climbed) bed bugs. These findings suggested that the external surface of teneral bed bug exoskeletons possess an adhesive property. Using atomic force microscopy (AFM), we found that adhesion force of an exoskeletal (presumably molting) fluid decreased almost five-fold from 88 to 17 nN within an hour of molting. Our findings may have implications for laboratory safety and the effectiveness of bed bug traps, barriers, and biomimetic-based adhesives.
Highlights
The common bed bug (Cimex lectularius L.) has been a blood-feeding ectoparasite of humans for at least 4,000 years [1]
Regardless of the tibial or tarsal structures used, we suggest that an exoskeletal fluid enables teneral bed bugs to cling to smoother surfaces
We suggest that this fluid probably is residual molting fluid
Summary
The common bed bug (Cimex lectularius L.) has been a blood-feeding ectoparasite of humans for at least 4,000 years [1]. Despite this long-association, bed bugs were almost eliminated from the developed world in the mid-20th century due to the development and widespread use of DDT [2]. Beginning in the early 1990s, pest management professionals began seeing an increasing number of bed bug infestations throughout the country [3]. Assessing bed bug climbing using behavioral assays and atomic force microscopy
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