Environmental Engineering Reference
In-Depth Information
[31]
Morris I., Glover H.E., Kaplan W.A., Kelly D.P. and Weightman A.L. Microbial activity
in the Cariaco Trench. Microbios 1985; 42:133-44.
[32]
Muller-Karger F., Varela R., Thunell R., Scranton M., Bohrer R., Taylor G., Capelo J.,
Astor Y., Tappa E., Ho T.-Y. and Walsh J.J. Annual cycle of primary production in the
Cariaco Basin: Response to upwelling and implications for vertical export. J Geophys
Res 2001; 106:4527-42.
[33]
Muller-Karger F., Varela R., Thunell R., Astor Y., Zhang H., Luerssen R. and Hu C.
Processes of coastal upwelling and carbon flux in the Cariaco Basin. Deep-Sea Res (pt.
II) 2004; 51:927-43.
[34]
Murray A.G. and Eldridge P. Marine viral ecology: incorporation of bacteriophage into
the microbial planktonic food web paradigm. J Plankton Res 1994; 16:627-41.
[35]
Murray J.W., Codispoti L.A. and Friedrich G.E. “Oxidation-reduction environments: The
suboxic zone in the Black Sea.” In:
Aquatic Chemistry: Interfacial and Interspecies
Processes
, Huang C.P., O'Melia C.R., Morgan J.J. eds., ACS Adv Chem Series, 1995.
[36]
Noble R.T. and Fuhrman J.A. Use of SYBR Green I for rapid epifluorescence counts of
marine viruses and bacteria. Aquat Microb Ecol 1998; 14:113-18.
[37]
Norland S. “The relationship between biomass and volume of bacteria.” In:
Handbook of
Methods in Aquatic Microbial Ecology
, Kemp P.F., Sherr B.F., Sherr E.B., Cole J.J. eds.,
Boca Raton, FL: Lewis Publishing, 1993.
[38]
Peterson L.C., Overpeck J.T., Kipp N.G. and Imbrie J. A high-resolution late Quaternary
upwelling record from the anoxic Cariaco Basin, Venezuela. Paleoceanography 1991;
6:99-119.
[39]
Repeta D.J., Simpson D.J., Jørgensen B.B. and Jannasch, H.W. Evidence for anoxygenic
photosynthesis from the distribution of bacteriochlorophylls in the Black Sea. Nature
1989; 342:69-72.
[40]
Richards F.A. The Cariaco Basin (Trench). Oceanogr Mar Biol Annu Rev 1975; 13:11-67.
[41]
Romankevich E.A.
Geochemistry of Organic Matter in the Ocean.
Berlin: Springer-
Verlag, 1984.
[42]
Scranton M.I. Temporal variations in the methane content of the Cariaco Trench. Deep-Sea
Res 1988; 35:1511-23.
[43]
Scranton M.I., Sayles F.L., Bacon M.P. and Brewer P.G. Temporal changes in the hydrog-
raphy and chemistry of the Cariaco Trench. Deep-Sea Res 1987; 34:945-63.
[44]
Scranton M.I., Astor Y., Bohrer R., Ho T.-Y. and Muller-Karger F. Controls on temporal
variability of the geochemistry of the deep Cariaco Basin. Deep-Sea Res 2001; 48:1605-
25.
[45]
Scranton M.I., McIntyre M., Taylor G.T. Muller-Karger F., Fanning K. and Astor Y.
“Temporal variability in the nutrient chemistry of the Cariaco Basin.” In:
Past and Present
Water Column Anoxia
, L.N. Neretin ed. Dordrecht: Springer, 2006.
[46]
Setala O. Ciliates in the anoxic water layer of the Baltic. Arch Hydrobiol 1991; 4:483-92.
[47]
Sharp J.H., Benner R., Bennett L., Carlson C.A., Fitzwater S.E., Peltzer E.T. and Tupas
L.M. Analyses of dissolved organic carbon in seawater - the JGOFS EQPAC methods
comparison. Mar Chem 1995; 48:91-108.
[48]
Simon M., Grossart H.-P., Schweitzer B. and Ploug H. Microbial ecology of organic
aggregates in aquatic ecosystems. Aquat Microb Ecol 2002; 28:175-211.
