Abstract
For animals discarded after fishing capture (unwanted bycatch), the effects of fishing-capture stress can extend beyond immediate or delayed death, causing long-term, sub-lethal effects such as injuries and physiological, behavioral, immune, energetic, and reproductive consequences. Given the importance of successful reproduction for population recruitment, investigating reproductive impairment is essential, even more so for animals with low reproductive rates such as chondrichthyans. However, data for these species are lacking, even though the poor conservation status of many chondrichthyan populations and the threats from overexploitation and discard require a better understanding of fishing-capture stress consequences. In this study, we investigated the reproductive consequences of trawling and air exposure stress when experienced by southern fiddler rays (Trygonorrhina dumerilii) during late pregnancy, with a focus on neonatal traits. Compared with neonates from unstressed mothers, neonates born from mothers subjected to capture simulation had significantly lower body mass and yolk sac volume at birth, showed a granulocyte-to-lymphocyte ratio indicative of a stressed condition, reduced growth, altered burying behavior, reduced boldness, and swam for shorter distances after a simulated predator attack. Smaller size and lower growth rate might expose neonates to a higher rate of predation, and similarly, the altered burying and swimming behaviors may reduce their ability to escape from predators. Decreased boldness could impact neonate survival by reducing their ability to compete and obtain food and resources. Further investigations are needed, but these initial results suggest that capture stress suffered by pregnant rays may alter traits and survival of their offspring with consequences for recruitment and population abundance.
Highlights
Chondrichthyans are among the most threatened groups of vertebrates (Dulvy et al, 2008, 2014; IUCN, 2020)
Given the importance of successful reproduction to the maintenance of sustainable populations, reproductive impairments that affect the individuals’ ability to contribute to increasing population abundance through recruitment or affect the survival of their offspring need to be understood (Schreck et al, 2001; Sopinka et al, 2016a). This is especially important for chondrichthyans, because of the poor conservation status of many populations and because of the generally large energy investment in a single reproductive event (Hamlett et al, 2005; Trinnie et al, 2012) and long reproductive cycles
Given that successful reproduction is essential in maintaining sustainable populations, studying the reproductive consequences of stress is important, especially for chondrichthyans given their poor conservation status (Dulvy et al, 2014) and low reproductive rates (Camhi et al, 1998)
Summary
Chondrichthyans (sharks, rays, and chimeras) are among the most threatened groups of vertebrates (Dulvy et al, 2008, 2014; IUCN, 2020). Given the importance of successful reproduction to the maintenance of sustainable populations, reproductive impairments that affect the individuals’ ability to contribute to increasing population abundance through recruitment or affect the survival of their offspring need to be understood (Schreck et al, 2001; Sopinka et al, 2016a) This is especially important for chondrichthyans, because of the poor conservation status of many populations and because of the generally large energy investment in a single reproductive event (Hamlett et al, 2005; Trinnie et al, 2012) and long reproductive cycles (up to 3 years in school shark Galeorhinus galeus; Hamlett et al, 2005; Walker, 2005b). Reproductive impairments could jeopardize the large investment already allocated to reproduction over the several prior years, further hindering population recovery
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
