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vided technical assistance for this study. Funding was provided by the Max-
Planck Society, the DFG Research Center Ocean Margins at the University
of Bremen, the BMBF and DFG programme GEOTECHNOLOGIEN, the
DFG priority programme 516 (Meteor expeditions), the Benguela Environment
Fisheries Interaction and Training Programme BENEFIT, and the Ministry of
Fisheries, Namibia. This is publication no. GEOTECH-175 of the GEOTECH-
NOLOGIEN programme of BMBF and DFG, Grant 03G0580B NAMIBGAS.
References
[1]
Aller R.C. and Rude P.D. Complete oxidation of solid phase sulfides by manganese and
bacteria in anoxic marine sediments. Geochim Cosmochim Ac 1988; 52:751-65.
[2]
Bailey G.W., Boyd A.J., Duncombe Rae C.R., Mitchell-Innes B. and van der Plas A.
Synthesis of marine science research in the Benguela Current system during cruises
linked to the BENEFIT training programme in 1999. S Afr J Sci 2001; 97:271-74.
[3]
Berg P., Petersen-Risgaard N. and Rysgaard S. Interpretation and measured concentration
profiles in sediment pore water. Limnol Oceanogr 1998; 43:1500-10.
[4]
Bleil U. Report and Preliminary Results of METEOR Cruise 34/1, Cape Town - Walvis Bay,
31.01.1996 -25.01.1996. Bremen, Berichte Fachbereich Geowissenschaften, Universitat
Bremen, 1996.
[5]
Borchers S.L., Schnetger B., Boning P. and Brumsack H.-J. Geochemical signatures of
the Namibian diatom belt: Perennial upwelling and intermittent anoxia . Geochem Geophy
Geosy 2005; 6:1-20.
[6]
Boyd A.J. Intensive study of the currents, winds and hydrology at a coastal site off
central South West Africa, June/July 1978. Investigational Report, Sea Fisheries Institute,
Republic of South Africa, 1983; 1-47.
[7]
Br uchert V., Jørgensen B.B., Neumann K., Riechmann D., Schlosser M. and Schulz
H. Regulation of bacterial sulfate reduction and hydrogen sulfide fluxes in the central
Namibian coastal upwelling zone. Geochim Cosmochim Ac 2003; 67:4505-18.
Br uchert V., Perez M.E. and Lange C.B. Coupled primary production, benthic
foraminiferal assemblage, and sulfur diagenesis in organic-rich sediments of the Benguela
upwelling system. Mar Geol 2000; 163:27-40.
[8]
[9]
Campillo-Campbell C. and Gordoa A. Physical and biological variability in the Namibian
upwelling system: October 1997-October 2001. Deep-Sea Res 2004; 51:147-58.
[10]
Carr M.-E. Estimation of potential productivity in Eastern Boundary Currents using
remote sensing. Deep-Sea Res 2002; 49:59-80.
[11]
Chapman P. and Shannon L.V. The Benguela Ecosystem Part II. Chemistry and related
processes. Oceanogr Mar Biol Ann Rev 1985; 23:183-251.
[12]
Cline J.D. Spectrophotometric determination of hydrogen sulfide in natural waters. Limnol
Oceanogr 1969; 14:454-59.
[13]
Emeis K.-C., Bening G., Berger J., Bruchert V., Currie B., Endler R., Ferdelman T., Finke
N., Graco M., Haferburg G., Heyn T., Kiessling A., Lage S., Leipe T., Mollenhauer G.,
Neumann K., Nickel G., Noli K., Riechmann D., Schippers A., Schneider R., Schulz H.,
Shidjuu A., Sonnabend H., Stregel S., Struck U., Treppke U., Vogt T. and Zemskaya T.
Cruise Report Meteor Expedition M48-2, Walvis Bay - Walvis Bay, August 8 - August 23,
2000 . Bremen, Berichte Fachbereich Geowissenschaften Universitat , 2002.
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