Environmental Engineering Reference
In-Depth Information
[23]
Justic D., Turner R.E. and Rabalais N.N. Climatic influences on riverine nitrate flux:
Implications for coastal marine eutrophication and hypoxia. Estuaries 2003; 26:1-11.
[24]
Kamykowski D. and Zentara S.J. Hypoxia in the world ocean as recorded in the historical
data set. Deep-Sea Res 1990; 37:1861-74.
[25]
Mallini L.J. Development of kinetic-colorimetric flow analysis techniques for determining
dissolved manganese and iron and an assessment of the behavior of dissolved manganese
in the far-field plume of the Mississippi River. Masters Thesis, University of Southern
Mississippi, 1992.
[26]
Meade R.H. ed. Contaminants in the Mississippi River, 1987-92. U.S. Geological Survey
Circular 1133. Denver, CO: U.S. Geological Survey, 1995.
[27]
Nixon S.W. Coastal marine eutrophication: A definition, social causes, and future con-
cerns. Ophelia 1995; 41:199-219.
[28]
Pokryfki L. and Randall R.E. Nearshore hypoxia in the bottom water of the northwestern
Gulf of Mexico from 1981 to 1984. Mar Environ Res 1987; 22:75-90.
[29]
Purcell J.E., Breitburg D.L., Decker M.B., Graham W.M. and Youngbluth M.J. “Pelagic
cnidarians and ctenophores in low dissolved oxygen environments.” In:
Coastal Hypoxia:
Consequences for Living Resources and Ecosystems
, Rabalais N.N., Turner R.E. eds.,
Coastal and Estuarine Studies 58, Washington, DC: American Geophysical Union, 2001.
[30]
Rabalais N.N. An Updated Summary of Status and Trends in Indicators of Nutrient
Enrichment in the Gulf of Mexico. Environmental Protection Agency Publ. No. EPA/800-
R-92-004. Stennis Space Center, MS: Gulf of Mexico Program, Nutrient Enrichment
Subcommittee, 1992.
[31]
Rabalais N.N., Harper D.E. Jr. and Turner R.E. “Responses of nekton and demersal and
benthic fauna to decreasing oxygen concentrations.” In:
Coastal Hypoxia: Consequences
for Living Resources and Ecosystems
, Rabalais N.N. and Turner R.E. eds., Coastal and
Estuarine Studies 58. Washington, DC: American Geophysical Union, 2001a.
Rabalais N.N., Smith L.E., Harper D.E. Jr. and Justic D. “Effects of Seasonal Hypoxia
on Continental Shelf Benthos.” In:
Coastal Hypoxia: Consequences for Living Resources
and Ecosystems
, Rabalais N.N. and Turner R.E. eds., Coastal and Estuarine Studies 58.
[32]
Washington, DC: American Geophysical Union, 2001b.
[33]
Rabalais N.N. and Turner R.E. “Hypoxia in the Northern Gulf of Mexico: Description,
causes and change.” In:
Coastal Hypoxia: Consequences for Living Resources and Ecosys-
tems
, Rabalais N.N., Turner R.E. eds., Coastal and Estuarine Studies 58, Washington, DC:
American Geophysical Union, 2001.
[34]
Rabalais N.N., Turner R.E., Dortch Q., Justic D., Bierman V.J. Jr. and Wiseman W.J. Jr.
Review. Nutrient-enhanced productivity in the northern Gulf of Mexico: past, present and
future. Hydrobiologia 2002b; 475/476:39-63.
[35]
Rabalais N.N., Turner R.E., Justic D., Dortch Q. and Wiseman W.J. Jr. Characterization
of Hypoxia: Topic 1 Report for the Integrated Assessment of Hypoxia in the Gulf of
Mexico. NOAA Coastal Ocean Program Decision Analysis Series No. 15. Silver Spring,
MD: NOAA Coastal Ocean Program, 1999.
[36]
Rabalais N.N., Turner R.E., Justic D., Dortch Q. and Wiseman W.J. Jr. Nutrient changes
in the Mississippi River and system responses on the adjacent continental shelf. Estuaries
1996; 19:386-407.
[37]
Rabalais N.N., Turner R.E. and Scavia D. Beyond science into policy: Gulf of Mexico
hypoxia and the Mississippi River. BioScience 2002a; 52:129-42.
