Estimates of daily mortality from a neascus trematode in age-0 shortnose sucker (Chasmistes brevirostris) and the potential impact of avian predation

Abstract

Parasites may be an important component of early life mortality in fishes, but assigning part of total mortality to parasites is difficult. The Chapman-Robson mortality estimator is a robust and potentially valuable way to quantify the added mortality of parasites when age data are available. We used daily age data and the Chapman-Robson catch-curve procedure to estimate daily mortality for 15 years in juvenile age-0 shortnose suckers (Chasmistes brevirostris), and for 6 years, the daily mortality of fish with and without black spot infection, a trematode whose final host is a piscivorous bird. Infected fish always had higher mortality rates than uninfected fish, and for 3 years when those differences were significant, the added daily mortality for infected fish was 3.6–3.7 %. Based on the proportion infected each year, and for durations of 15–50 d, juvenile populations were 18.3–38.6 % lower than they would have been without black spot infections. There were no significant differences in growth between infected and uninfected fish in most years and little indication of a direct metabolic impact of infections. Thus, this added mortality, primarily in July and August, seemed unlikely to be an indirect result of infection and was most likely due to predation. The source of that predation is unknown but the parasite’s final hosts, piscivorous birds, seemed the most obvious candidate for this added mortality.