Movement patterns and site fidelity of sharks and giant trevally around Midway Atoll
Brad Wetherbee – Department of Biological Sciences, University of Rhode Island
Chris Lowe – Department of Biological Sciences, Cal State University Long Beach
Carl Meyer – Hawaii Institute of Marine Biology, University of Hawaii
The Northwestern Hawaiian Islands (NWHI) host a variety of large vertebrate animals including sea birds, green sea turtles (Chelonia mydas), Hawaiian monk seals (Monanchusschauislandi) and large teleost fish such as trevally (FamilyCarangidae) and several species of sharks. The air-breathing vertebrates have been the subject of relatively continuous and well-funded research programs over the past several decades, and many aspects of their biology in the NWHI has been fairly well documented. However, studies directed at understanding the biology and ecology of large teleost fish and sharks in the NWHI have lagged substantially behind research conducted on birds, turtles and seals. During the summer of 2001 we began a study at Midway Atoll to monitor movements of Galapagos sharks (Carcharhinus galapagensis) near seal hauloutbeaches and to examine survivorship and behavior of gianttrevally (Caranx ignobilis) captured and released in a commercial sport fishing operation conducted within the Midway National Wildlife Refuge. Movements and residence of tiger sharks (Galeocerdo cuvier) were also investigated at Midway. For each study experimental animals were captured and surgically fitted with long-life, individually coded acoustic transmitters and their movements monitored with an array of automated acoustic monitors deployed at various locations in the atoll. During two years of deployment at Midway, hundreds of detections of transmittered sharks and fish were recorded on the monitors. These data enabled an assessment of long-term movement patterns of these large predators at Midway and within the NWHI. Each species investigated demonstrated somewhat repeated and predictable behavioral patterns that provide a basis for improved understanding of determinants of behavior and for enhanced management of these animals and prey (birds, seals, turtles) with which they may interact.