Abstract
Reproduction is a fundamental aspect of a species' life history that is energetically costly, yet critical for population sustainability and genetic diversity. Wild turkeys exhibit high rates of nest loss and female mortality during reproduction, prompting females to make decisions related to spatial and movement decisions during nesting. Using GPS data from eastern wild turkeys (Meleagris gallopavo silvestris ), we assessed female movements and space use during laying and evaluated potential impacts of those metrics on nest success and female survival during incubation. We used a Bayesian logistic regression to estimate nest success and female survival based on space use, daily movements, and range overlap with conspecifics during the laying period. We found that with each increase of ~700 m in average daily distance traveled during laying, there was a 1.73% decrease in the probability of nest success. We also found that having a greater number of conspecific females with overlapping core areas had a positive influence on nest fate. Specifically, an increase of 1 overlapping female (one standard deviation) was associated with a 4.76% increase in the probability of nest success. Conversely, we found weak support that female survival was positively related to increasing average daily distances traveled. Our findings suggest that female wild turkeys perceive reproductive advantages to sharing space with conspecifics during the laying period. Conversely, our findings suggest that movements of female wild turkeys within their reproductive period may only weakly influence metrics of reproductive success during both laying and incubation.