Frazier et al.: Growth rates of Sphyrna tiburo estimated from tag-recapture data 
345 
Parsons, G. R. 
1987. Life history and bioenergetics of the bonnethead shark, 
Sphyrna tiburo (Linnaeus): a comparison of two popula- 
tions. Ph.D. diss., 167 p. Univ. S. Fla., Tampa, FL. 
1993. Age determination and growth of the bonnethead shark 
Sphyrna tiburo: a comparison of two populations. Mar. Biol. 
117:23-81. 
Passerotti, M. S., A. H. Andrews, J. K. Carlson, S. P. Wintner, 
K. J. Goldman, and L. J. Natanson. 
2014. Maximum age and missing time in the vertebrae of 
sand tiger shark (Carcharhinus taurus): validated lifes- 
pan from bomb radiocarbon dating in the western North 
Atlantic and southwestern Indian Oceans. Mar. Freshw. 
Res. 65:674—687. 
Pistevos, J. C. A., I. Nagelkerken, T. Rossi, M. Olmos, and 
S. D. Connell. 
2015. Ocean acidification and global warming impair shark 
hunting behaviour and growth. Sci. Rep. 5:16293. 
Portnoy, D. S., J. B. Puritz, C. M. Hollenbeck, J. Gelsleichter, 
D. Chapman, and J. R. Gold. 
2015. Selection and sex-biased dispersal in a coastal shark: 
the influence of philopatry on adaptive variation. Mol. Ecol. 
24:5877-5885. 
R Core Team. 
2019. R: a language and environment for statistical computing. 
R Foundation for Statistical Computing, Vienna, Austria. 
[Available from website, accessed November 2019.] 
Ricker, W. E. 
1975. Computation and interpretation of biological statistics 
of fish populations. Bull. Fish. Res. Board Can. 191, 333 p. 
Rigby, C. L., B. B. Wedding, S. Grauf, and C. A. Simpfendorfer. 
2014. The utility of near infrared spectroscopy for age esti- 
mation of deepwater sharks. Deep-Sea Res. Oceanogr., 1 
94:184-194. 
Saunders, R. L., and K. R. Allen. 
1967. Effects of tagging and fin-clipping on the survival and 
growth of Atlantic salmon between smolt and adult stages. 
J. Fish. Res. Board Can. 24:2595-2611. 
Scheirer, J. W., and D. W. Coble. 
1991. Effects of Floy FD-67 anchor tags on growth and condition 
of northern pike. North Am. J. Fish. Manage. 11:369-373. 
SEDAR (Southeast Data Assessment and Review). 
2013. SEDAR 34 stock assessment report: HMS bonnethead 
shark, 217 p. SEDAR, North Charleston, SC. [Available 
from website.] 
Simpfendorfer, C. A. 
2000. Growth rates of juvenile dusky sharks, Carcharhi- 
nus obscurus (Lesueur, 1818), from southwestern Aus- 
tralia estimated from tag-recapture data. Fish. Bull. 
98:811-822. 
Skomal, G., and D. Bernal. 
2010. Physiological responses to stress in sharks. Jn Sharks 
and their relatives II: biodiversity, adaptive physiology, 
and conservation (J. C. Carrier, J. A. Musick, and M. R. 
Heithaus, eds.), p. 459-490. CRC Press, Boca Raton, FL. 
Treble, M.A.,S. E. Campana, R. J. Wastle, C. M. Jones, and J. Boje. 
2008. Growth analysis and age validation of a deepwater 
Arctic fish, the Greenland halibut (Reinhardtius hippo- 
glossoides). Can. J. Fish. Aquat. Sci. 65:1047-1059. 
Ulrich, G. F., C. M. Jones, W. B. Driggers III, J. M. Drymon, 
D. Oakley, and C. Riley. 
2007. Habitat utilization, relative abundance, and season- 
ality of sharks in the estuarine and nearshore waters of 
South Carolina. Am. Fish. Soc. Symp. 50:125-139. 
Vinyard, E. A., B. S. Frazier, J. M. Drymon, J. J. Gelsleichter, and 
W. J. Bubley. 
2019. Age, growth, and maturation of the finetooth shark, 
Carcharhinus isodon, in the Western North Atlantic Ocean. 
Environ. Biol. Fish. 102:1499-1517. 
von Bertalanffy, L. 
1938. A quantitative theory of organic growth (inquiries on 
growth laws. II). Hum. Biol. 10:181—213. 
Vucic-Pestic, O., R. B. Ehnes, B. C. Rall, and U. Brose. 
2011. Warming up the system: higher predator feeding 
rates but lower energetic efficiencies. Global Chang. Biol. 
17:1301-1310. 
Welsford, D. C., and J. M. Lyle. 
2005. Estimates of growth and comparisons of growth rates 
determined from length- and age-based models for popu- 
lations of purple wrasse (Notolabrus fucicola). Fish. Bull. 
103:697-711. 
