160 
Fishery Bulletin 109(2) 
Literature cited 
Bierman, V. L., S. C. Hinz, D -W. Zhu, W. J. Wiseman, N. N. 
Rabalais, and R. E. Turner. 
1994. A preliminary mass balance model of primary pro- 
ductivity and dissolved oxygen in the Mississippi River 
plume/inner Gulf shelf region. Estuaries 17:886-899. 
Britsch, L. D., and J. B. Dunbar. 
1993. Land loss rates: Louisiana coastal plain. J. 
Coastal Res. 9:324-338. 
Craig, J. K., and L. B. Crowder. 
2005. Hypoxia-induced habitat shifts and energetic con- 
sequences in Atlantic croaker and brown shrimp on the 
Gulf of Mexico shelf. Mar. Ecol. Progr. Ser. 294:79-94. 
Craig, J. K., L. B. Crowder, and T. A. Henwood. 
2005. Spatial distribution of brown shrimp ( Farfante - 
penaeus aztecus) on the northwestern Gulf of Mexico 
shelf: effects of abundance and hypoxia. Can. J. Fish. 
Aquat. Sci. 62:1295-1308. 
Das, A., D. Justic, and E. Swenson. 
2009. Modeling estuarine-shelf exchanges in a deltaic 
estuary: Implications for coastal carbon budgets and 
hypoxia. Ecol. Model. 221:978-985. 
Dagg M., J. Ammerman, R. Amon, W. Gardner, R. Green, and 
S. Lohrenz. 
2007. A review of water column processes influencing 
hypoxia in the northern Gulf of Mexico. Estuaries 
Coasts 30:735-752. 
Deegan, L. A., J. W. Day Jr., J. G. Gosselink, A. Yanez-Arancibia, 
G. Soberon-Chavez, and P. Sanchez-Gil. 
1986. Relationships among physical characteristics, 
vegetation distribution and fisheries yield in Gulf of 
Mexico estuaries. In Estuarine variability (D. A. Wolfe, 
ed.), p. 83-100. Academic Press, New York. 
Edwards, M. S., T. F. Turner, and Z. D. Sharp. 
2002. Short- and long term effects of fixation and preser- 
vation on stable isotope values (5 13 C, 5 15 N, d 34 S) of fluid- 
preserved museum specimens. Copeia 2002:1106-1112. 
Eldridge, P. M., and J. W. Morse. 
2008. Origins and temporal scales of hypoxia on the 
Louisiana shelf: Importance of benthic and sub- 
pycnocline water metabolism. Mar. Chem. 108:159-171. 
Fry, B. 
1981. Natural stable carbon isotope tag traces Texas 
shrimp migrations. Fish. Bull. 79:337-345. 
1983. Fish and shrimp migrations in the northern Gulf 
of Mexico analyzed using stable C, N, and S isotope 
ratios. Fish. Bull. 81:789-801. 
1996. 13 C/ 12 C fractionation by marine diatoms. Mar. 
Ecol. Progr. Ser. 134:283-294. 
2002. Conservative mixing of stable isotopes across 
estuarine salinity gradients: A conceptual framework 
for monitoring watershed influences on downstream 
fisheries production. Estuaries 25:264-271. 
2006. Stable isotope ecology, 308 p. Springer, New York. 
2007. Coupled N, C, and S isotope measurements using 
a dual column GC system. Rapid Comm. Mass Spectr. 
21:750-756. 
2008. Importance of open bays as nurseries for Louisiana 
brown shrimp. Estuaries Coasts 31:776-789. 
Fry, B., and Y. Allen. 
2003. Stable isotopes in zebra mussels as bioindica- 
tors of river-watershed linkages. Rivers Res. Appl. 
19:683-696. 
Fry, B., R. K. Andersen, L. Entzeroth, J. L. Bird, and P. L. Parker. 
1984. 13 C enrichment and oceanic food web structure 
in the northwestern Gulf of Mexico. Contrib. Mar. 
Sci. 27:49-63. 
Fry, B., and C. K. Arnold. 
1982. Rapid 13 C/ 12 C turnover during growth of brown 
shrimp (Penaeus aztecus). Oecologia (Berlin) 54:200- 
204. 
Fry, B., D. Baltz, M. Benfield, J. Fleeger, A. Gace, H. A. Haas, 
and Z. Quinones. 
2003. Chemical indicators of movement and residency 
for brown shrimp (Farfantepenaeus aztecus) in coastal 
Louisiana marshscapes. Estuaries 26:82-97. 
Fry, B., and B. Boyd. 
2010. Oxygen concentration and isotope studies of pro- 
ductivity and respiration on the Louisiana continental 
shelf, July 2007. In Earth, life, and isotopes (N. Ohk- 
ouchi, I. Tayasu, and K. Koba, eds.), p. 223-247. Kyoto 
University Press, Japan. 
Fry, B., and E. Sherr. 
1984. <5 13 C measurements as indicators of carbon flow 
in marine and freshwater ecosystems. Contrib. Mar. 
Sci. 27:13-47. 
Fry, B., and S. C. Wainright. 
1991. Diatom sources of 13C-rich carbon in marine food 
webs. Mar. Ecol. Progr. Ser. 76:149-157. 
Green, R. E., G. A. Breed, M. J. Dagg, and S. E. Lohrenz. 
2008. Modeling the response of primary production and 
sedimentation to variable nitrate loading in the Mis- 
sissippi River plume. Cont. Shelf Res. 28:1451-1465. 
Haas, H. L, K. A. Rose, B. Fry, T. J. Minello, and L. Rozas. 
2004. Brown shrimp on the edge: linking habitat to sur- 
vival using an individual-based simulation model. Ecol. 
Appl. 14:1232-1247. 
Hobson, K. A., and L. I. Wassenaar, eds. 
2008. Tracking animal migrations with stable isotopes. 
Terrestrial Ecology Series, vol. 1, 160 p. Elsevier Sci- 
ence, Maryland, MO. 
Howarth, R. W. 
1979. Pyrite — its rapid formation in a salt marsh and 
its importance in ecosystem metabolism. Science 
203:49-51. 
1984. The ecological significance of sulfur in the energy 
dynamics of salt marsh and coastal marine sedi- 
ments. Biogeochem. 1:5-27. 
Leakey, C. D. B., M. J. Attrill, S. Jennings, and M. F. Fitzsimons. 
2008. Stable isotopes in juvenile marine fishes and their 
invertebrate prey from the Thames Estuary, UK, and 
adjacent coastal regions. Estuar. Coast. Shelf Sci. 
77:513-522. 
Lin, S., and J. W. Morse. 
1991. Sulfate reduction and iron sulphide mineral 
formation in Gulf of Mexico anoxic sediments. Am. 
J. Sci. 291:55-89. 
McClelland, J. W., I. Valiela, and B. Michener. 
1997. Nitrogen-stable isotope signatures in estuarine 
food webs: A record of increasing urbanization in coastal 
watersheds. Limnol. Oceanogr. 42:930-937. 
McTigue, T. A., and R. J. Zimmerman. 
1998. The use of infauna by juvenile Penaeus aztecus Ives 
and Pe?iaeus setiferus (Linnaeus). Estuaries 21:160-175. 
Moore, D., H. A. Brusher, and L. Trent. 
1970. Relative abundance, seasonal distribution, and 
species composition of demersal fishes off Louisiana 
and Texas, 1962-1963. Contrib. Mar. Sci. 15:45-70. 
Peterson, B. J., and B. Fry. 
1987. Stable isotopes in ecosystem studies. Ann. Rev. 
Ecol. System. 18:293—320. 
