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Data from: Season and site fidelity determine home range of dispersing and resident juvenile Greenland cod (Gadus ogac) in a Newfoundland fjord
Dryad
Shapiera, Melanie; Gregory, Robert S.; Morris, Corey J.; Pennell, Curtis J.; Snelgrove, Paul V. R.; Gregory, RS; Morris, CJ; Pennell, CJ; Snelgrove, PVR 2015-02-17 We used acoustic telemetry to track age 1 juvenile Greenland cod Gadus ogac in Newman Sound, Newfoundland, from October 2010 to November 2012, in 2 consecutive 1 yr experiments. Using single (Year 1) and reciprocal (Year 2) transplant study designs, we investigated seasonal dispersal, home range area, and potential homing behaviour between coves ~3.5 km apart. We tracked individuals moving at metre to kilometre scales, using a network of 26 to 32 hydrophones. We converted tag detections to position estimates in order to calculate seasonal home ranges and individual movement patterns. Home range increased significantly with season (pre-winter, winter, and post-winter) in both study years. Mean seasonal home range area ranged from 0.29 to 3.47 km2 in Year 1 and 0.43 to 1.72 km2 in Year 2. In contrast, fish size-at-capture, capture location, and release location had no significant effect on seasonal home range. Increased movement distance during the winter and post-winter season suggests a reduction in predation pressure on age 1 juveniles at these times, challenging previous assumptions about their vulnerability. We observed variable behaviour spanning residency to kilometre-scale dispersal movements, which represent greater distances than previously assumed. Similar proportions of control and transplant fish visited the other cove, indicating an absence of homing behaviour among dispersing individuals. Juveniles of marine fishes are often characterized as key life history transition stages between vulnerable larvae and older, larger individuals which are less susceptible to predators. Our results indicate that early juvenile life stages may be substantially more mobile than presupposed and contribute to population connectivity in temperate fishes in ways not well described previously.
University of Victoria Dataverse Logo
Data from: Food and initial size influence overwinter survival and condition of a juvenile marine fish (age-0 Atlantic cod)
Borealis
Emilie A. Geissinger; Gregory, Robert S.; Laurel, Benjamin J.; Snelgrove, Paul V.R. 2020-01-27 To examine the consequences of size variation on overwintering success under contrasting food scenarios, we collected demersal age-0 cod from Newman Sound, Newfoundland and brought them to the laboratory for 114-day feeding trials at ambient overwinter sea temperatures. From January to April 2017, we reared two size-classes of juvenile cod under four daily ration levels (starvation, 2.5%, 5%, 10% dry body weight). We then used Fulton’s K condition factor to interpret how food availability and fish size interact to impact survival during the critical overwinter period. Size, weight, temperature, survial, and food consumption were measured throughout the 114-day experiment. This research is sponsored by the NSERC Canadian Healthy Oceans Network and its Partners: Department of Fisheries and Oceans Canada and INREST (representing the Port of Sept-Îles and City of Sept-Îles).
University of Victoria Dataverse Logo
Data for: High site-fidelity and low mortality of juvenile Atlantic cod (Gadus morhua) in subarctic coastal Newfoundland during their first winter
Borealis
Emilie A. Geissinger; Gregory, Robert S.; Laurel, Benjamin J.; Snelgrove, Paul V. R. 2021-12-01 <p>This dataset contains capture-mark-recapture data of juvenile Atlantic cod (<i>Gadus morhua</i>) in subarctic coastal Newfoundland during their first winter. </p> <p>We evaluated size-structured overwinter mortality and movement using mark-recapture and condition metrics by marking 226 cod in two batches one week apart, in October 2016. We estimated fall and overwinter mortality, and documented movement of fish recaptured in May 2017 using Cormack-Jolly-Seber models. We applied fluorochrome markers – calcein (Sigma-Aldrich: C0875-25G) or alizarin red S (Sigma-Aldrich: A5533-25G) – to batch mark otoliths (Schmitt, 1982; Vigliola, 1997). A subsample of 60 otoliths from May 2017 recaptures was used for trace element analysis using secondary ion mass spectrometry (SIMS). See the ReadMe file for more information on the method of data collection. </p> <p>All R code is available at <a href="https://github.com/eageissinger/CHONe-1.2.1">CHONe-1.2.1 GitHub repository</a>.</p>

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(Author: Gregory, Robert S.)

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