Anthropogenic noise is a ubiquitous feature of the American landscape, and is a known stressor for many bird species, leading to negative effects in behavior, physiology, reproduction, and ultimately fitness. While a number of studies have examined how anthropogenic noise affects avian fitness, there are few that simultaneously examine how anthropogenic noise impacts the relationship between parental care behavior and nestling fitness. We conducted Brownian noise playbacks for six hours a day during the nesting cycle on Eastern Bluebird (Sialia sialis) nest boxes to investigate if experimentally elevated noise affected parental care behavior, nestling body conditions, and nestling stress indices. We documented nest attendance by adult females using radio frequency identification (RFID), and we assessed nestling stress by measuring baseline corticosterone levels and telomere lengths. Based on the RFID data collected during individual brood cycles, adult bluebirds exposed to noise had significantly higher feeding rates earlier in the brood cycle than adults in the control group, but reduced feeding rates later in the cycle. Nestlings exposed to noise had higher body conditions than the control nestlings at eleven days of age, but conditions equalized between treatments by day fourteen. We found no differences in nestling baseline corticosterone levels or nestling telomere lengths between the two treatment groups. Our results revealed that noise altered adult behavior, which corresponded with altered nestling body condition. However, the absence of indicators of longer-term effects of noise on offspring suggests adult behavior may have been a short-term response.

See Pandit et al. 2021. Anthropogenic noise alters parental behavior and nestling development patterns, but not fledging condition. Behavioral Ecology. In press.

The data uploaded to Dryad is the clean version. The R scripts on summarizing the radio frequency identification (RFID) data have been commented out, and the rest of the code focuses on creating and analyzing linear mixed models on the RFID data.

The adult and nestling CORT data has excluded individuals that took longer than 3 min to bleed due to CORT levels increasing after this time period.

The telomere dataset excludes individuals that had degraded DNA samples.