Spanik et al.: Using DNA barcoding to improve taxonomic resolution of the diet of Lutianus campechanus 133 
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tribution number 546 of the College of Charleston Grice 
Marine Laboratory. 
Literature cited 
Aguilar, R., M. B. Ogburn, A. C. Driskell, L. A. Weigt, M. C. Groves, 
and A. H. Hines. 
2017. Gutsy genetics: identification of digested piscine prey 
items in the stomach contents of sympatric native and 
introduced warmwater catfishes via DNA barcoding. Envi- 
ron. Biol. Fishes 100:325-336. 
Altschul, S. F., W. Gish, W. Miller, E. W. Myers, and D. J. Lipman. 
1990. Basic local alignment search tool. J. Mol. Biol. 
215:403-410. 
Berens, E. J., and D. J. Murie. 
2008. Differential digestion and evacuation rates of prey in 
a warm-temperate grouper, gag Mycteroperca microlepis. 
J. Fish Biol. 72:1406-1426. 
Bizzarro, J. J., W. D. Smith, J. L. Castillo-Géniz, A. Ocampo-Torres, 
J. F. Marquez-Farias, and R. E. Hueter. 
2009. The seasonal importance of small coastal sharks and 
rays in the artisanal elasmobranch fishery of Sinaloa, 
Mexico. Pan-Am. J. Aquat. Sci. 4:513-531. 
Buckel, J. A., D. O. Conover, N. D. Steinberg, and K. A. McKown. 
1999. Impact of age-0 bluefish (Pomatomus saltatrix) preda- 
tion on age-0 fishes in the Hudson River estuary: evidence 
for density-dependent loss of juvenile striped bass (Morone 
saxatilis). Can. J. Fish. Aquat. Sci. 56:275-287. 
Byron, C. J., and J. S. Link. 
2010. Stability in the feeding ecology of four demersal fish 
predators in the US Northeast shelf large marine ecosys- 
tem. Mar. Ecol. Prog. Ser. 406:239-—250. 
Cortés, E. 
1997. A critical review of methods of studying fish feeding 
based on analysis of stomach contents: application to elas- 
mobranch fishes. Can. J. Fish. Aquat. Sci. 54:726—738. 
Dahl, K. A., W. F. Patterson, A. Robertson, and A. C. Ortmann. 
2017. DNA barcoding significantly improves resolution of 
invasive lionfish diet in the Northern Gulf of Mexico. Biol. 
Invasions 19:1917—-1933. 
Essington, T. E., and A. E. Punt. 
2011. Implementing ecosystem-based fisheries management: 
advantages, challenges and emerging tools. Fish Fish. 
12:123-124. 
Federal Register. 
2021. Fisheries of the Caribbean, Gulf of Mexico, and South 
Atlantic; dolphin and wahoo fishery of the Atlantic; 
Amendment 12. Fed. Regist. 86:24742-24745. [Available 
from website.] 
Granadeiro, J. P., and M. A. Silva. 
2000. The use of otoliths and vertebrae in the identifica- 
tion and size-estimation of fish in predator-prey studies. 
Cybium 24:383-393. 
Hanson, J. M., and G. A. Chouinard. 
2002. Diet of Atlantic cod in the system of Gulf of St Law- 
rence as an index of ecosystem change, 1959-2000. J. Fish 
Biol. 60:902-922. 
Heltshe, J. F., and N. E. Forrester. 
1983. Estimating species richness using the jackknife proce- 
dure. Biometrics 39:1—-11. 
Hixon, M.A., and G. P. Jones. 
2005. Competition, predation, and density-dependent mortal- 
ity in demersal marine fishes. Ecology 86:2847—2859. 
Hyslop, E. J. 
1980. Stomach content analysis—a review of methods and 
their application. J. Fish Biol. 17:411—429. 
Kruse, G. H., H. I. Browman, K. L. Cochrane, D. Evans, 
G.S. Jamieson, P. A. Livingston, D. Woodby, and C. I. Zhang (eds.). 
2012. Global progress in ecosystem-based fisheries manage- 
ment. Alaska Sea Grant Coll. Prog. AK-SG-12-01, 396 p. 
Univ. Alaska Fairbanks, Fairbanks, AK. 
Lambert, Y., and J.-D. Dutil. 
2000. Energetic consequences of reproduction in Atlantic cod 
(Gadus morhua) in relation to spawning level of somatic 
energy reserves. Can. J. Fish. Aquat. Sci. 57:815-825. 
Longenecker, K. 
2007. Devil in the details: high-resolution dietary analysis 
contradicts a basic assumption of reef-fish diversity models. 
Copeia 2007:543-555. 
Longley, W. H., and S. F. Hildebrand. 
1941. Systematic catalogue of the fishes of Tortugas, Florida, 
with observations on color, habitat, and local distribu- 
tion. Carnegie Inst. Wash. Publ. 535, 331 p. Carnegie Inst. 
Wash., Washington, DC. 
MAFMC (Mid-Atlantic Fisheries Management Council). 
2017. Unmanaged forage omnibus amendment, 222 p. Mid-Atl. 
Fish. Manage. Counc., Dover, DE. [Available from website.] 
McCawley, J. R., and J. H. Cowan Jr. 
2007. Seasonal and size specific diet and prey demand of red 
snapper on Alabama artificial reefs. Am. Fish. Soc. Symp. 
60:77-104. 
Oksanen, J., F. G. Blanchet, M. Friendly, R. Kindt, P. Legendre, 
D. McGlinn, P. R. Minchin, R. B. O'Hara, G. L. Simpson, 
P. Solymos, et al. 
2018. vegan: community ecology package. R package, vers. 
2.5-2. [Available from website, accessed December 2018.] 
Pope, J. G. 
1979. Stock assessment in multispecies fisheries, with special 
reference to the trawl fishery in the Gulf of Thailand. South 
China Sea Fish. Dev. Coord. Prog. SCS/DEV/79/19, 106 p. 
Preti, A., C. U. Soykan, H. Dewar, R. J. D. Wells, N. Spear, and 
S. Kohin. 
2012. Comparative feeding ecology of shortfin mako, blue and 
thresher sharks in the California Current. Environ. Biol. 
Fishes 95:127-146. 
R Core Team. 
2018. R: a language and environment for statistical com- 
puting. R Foundation for Statistical Computing, Vienna, 
Austria. [Available from website, accessed December 2018.] 
SEDAR (Southeast Data, Assessment, and Review). 
2020. SEDAR 69—Atlantic menhaden ecological reference 
points stock assessment report, 560 p. SEDAR, North 
Charleston, SC. [Available from website.] 
Sissenwine, M. P. 
1984. Why do fish populations vary? In Exploitation of 
marine communities. Dahlem Workshop Report, vol. 32 
(R. M. May, ed.), p. 59-94. Springer, Berlin, Germany. 
Skern-Mauritzen, M., G. Ottersen, N. O. Handegard, G. Huse, 
G. E. Dingsgr, N. C. Stenseth, and O. S. Kjesbu. 
2016. Ecosystem processes are rarely included in tactical 
fisheries management. Fish Fish. 17:165-175. 
Smith, P. J.,S. M. McVeagh, V. Allain, and C. Sanchez. 
2005. DNA identification of gut contents of large pelagic 
fishes. J. Fish Biol. 67:1178-1183. 
Stavrou, A. A., V. Mixdo, T. Boekhout, and T: Gabaldon. 
2018. Misidentification of genome assemblies in public data- 
bases: the case of Naumovozyma dairenensis and proposal 
of a protocol to correct misidentifications. Yeast 35:425—429. 
