Movements and behaviors of swordfish in the Atlantic and Pacific Oceans examined using pop-up satellite archival tags

Swordfish are highly specialized top‐level predators that have been challenging to study. In this paper, data from 31 pop‐up satellite archival tags attached to swordfish from (i) the eastern Pacific, (ii) central Pacific, and (iii) western North Atlantic‐Caribbean were analyzed. Common across locat...

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Bibliographic Details
Published in:Fisheries oceanography 2011-05, Vol.20 (3), p.219-241
Main Authors: DEWAR, HEIDI, PRINCE, ERIC D., MUSYL, MICHAEL K., BRILL, RICHARD W., SEPULVEDA, CHUGEY, LUO, JIANGANG, FOLEY, DAVID, ORBESEN, ERIC S., DOMEIER, MICHAEL L., NASBY-LUCAS, NICOLE, SNODGRASS, DERKE, MICHAEL LAURS, R., HOOLIHAN, JOHN P., BLOCK, BARBARA A., MCNAUGHTON, LIANNE M.
Format: Article
Language:English
Subjects:
Atlantic Ocean
deep sound scattering layer
diel migration
Marine
Pacific Ocean
satellite tags
swordfish
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Summary:Swordfish are highly specialized top‐level predators that have been challenging to study. In this paper, data from 31 pop‐up satellite archival tags attached to swordfish from (i) the eastern Pacific, (ii) central Pacific, and (iii) western North Atlantic‐Caribbean were analyzed. Common across locations was a pronounced diel vertical pattern with daytime hours spent primarily below the thermocline and nighttime hours spent in warmer waters, close to the surface. One exception to this pattern was periodic daytime basking events which were most common in cooler waters off California. Maximum daytime depths were significantly correlated with light penetration as measured by the diffuse attenuation coefficient at 490 nm. Temperature did not appear to influence daytime depths, and swordfish tolerated both extremely low temperatures (4°C) and rapid and dramatic temperature changes (>20°C). Temperature did appear to influence the nighttime depths in the Pacific where fish typically remained in the surface mixed layer. In contrast, in the warm tropical Atlantic this was not the case, and nighttime depths were much deeper. In all areas, nighttime depth increased around the full moon. Given the parallels between the vertical movement patterns of swordfish and those of the deep sound scattering layer we suggest that swordfish vertical distribution patterns, especially during daytime, are influenced largely by resource availability. At night, when swordfish are typically targeted by fisheries, both ambient light and temperature influence movements. Understanding vertical movement patterns of swordfish can help evaluate gear vulnerability, improve population assessments, and potentially reduce fisheries bycatch.
ISSN:1054-6006
1365-2419
DOI:10.1111/j.1365-2419.2011.00581.x