Abstract
We combined a high-resolution acoustic telemetry array with presence/absence receivers to conduct a preliminary study of the seasonal movements, activity patterns, and habitat associations of the newly described Deacon Rockfish (Sebastes diaconus). Eleven mature female Deacon Rockfish were tagged and monitored during an 11-month period, at a nearshore rocky reef off Seal Rock, Oregon, USA, an area of recurring seasonal hypoxia (defined as dissolved oxygen concentration [DO] < 2 mg l−1). Two tags were detected leaving the study area by day 35, indicating predation or emigration. Three tags became inactive within the array, indicating tag loss or fish death. Six “resident” fish inhabited the array for 246–326 days. Resident fish exhibited high site fidelity, small home ranges (mean 95% KDE = 4907 m2), and consistent activity patterns for the duration of the summertime high-resolution array (5 months), except during seasonal hypoxia. Resident fish were strongly diurnal in summer, with high levels of daytime activity above the bottom in relatively rugose habitat, followed by nighttime rest periods in deeper, less rugose habitat. During summertime hypoxia, resident fish exhibited less daytime activity during daytime hours with no rest periods at night, inhabited shallower water depths, and moved well away from their core activity areas on long, erratic forays. During the winter, diel patterns were less evident with higher activity levels at night (than in the summer) and lower activity levels in the day (than in the summer). We propose that some Deacon Rockfish continuously inhabit nearshore reefs throughout the year, but that daily/seasonal movement patterns, seasonally occurring hypoxia, and prey preferences for planktonic organisms influence relocation.
Highlights
The spatiotemporal scales of movement patterns for marine fishes are highly variable (Pittman and McAlpine 2003), with tunas and other large pelagics making migrations on the order of thousands of kilometers (Galuardi et al 2010; Kraus et al 2011) and other organisms remaining relatively sedentary in a singular spot (Bryars et al 2012; Buston 2004)
We propose that some Deacon Rockfish continuously inhabit nearshore reefs throughout the year, but that daily/seasonal movement patterns, seasonally occurring hypoxia, and prey preferences for planktonic organisms influence relocation
The dates assigned for the 11-day comparison periods were: (a) hypoxia; July 20–30 (DO range 0.63– 2.40 mg l−1, mean Dissolved oxygen (DO) = 1.4 mg l−1, mean T = 7.91 °C), (b) normoxia; August 16–26 (DO range 2.43– 5.60 mg l−1, mean DO = 3.19 mg l−1, mean T = 7.90 °C). (Fig. 2)
Summary
The spatiotemporal scales of movement patterns for marine fishes are highly variable (Pittman and McAlpine 2003), with tunas and other large pelagics making migrations on the order of thousands of kilometers (Galuardi et al 2010; Kraus et al 2011) and other organisms remaining relatively sedentary in a singular spot (Bryars et al 2012; Buston 2004). Fish movements vary within the same genera leading to niche partitioning (Sbragaglia et al 2019). In the event that the species are caught in fisheries, understanding the movement dynamics, especially in mixed stock fisheries, is essential for sustainable management (Peer and Miller 2014; Ogburn et al 2017)
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
