In order to understand the early diagenesis processes occurring in continen
tal margin environment, modern sediments collected in six different sites f
rom the Bay of Biscay have been studied. These sites can be separated into
two groups. In the shallowest stations, where sediments are highly bioturba
ted, organic carbon levels are higher than 2%. In the deepest stations, sed
iments are much less bioturbated, and organic carbon levels are lower. In a
ll sites, the vertical distribution of redox sensitive species can be expla
ined by the well-established depth sequence of redox reactions, based on th
e bacterially mediated oxidation of organic matter. We have considered some
alternative reaction pathways to explain the profiles of Fe, Mn, and N spe
cies. These reactions deal with the ammonia oxidation by manganese oxide, t
he aerobic denitrification and the oxidation of dissolved iron (II) by nitr
ate or Mn-oxides. Vertical flux calculations with a simple diffusion model
indicate that these reactions could account for the reduction of all the Mn
-oxides and the oxidation of all the upward diffusing Fe(II). They may also
be responsible for a significant part of the total dinitrogen production.
The relative importance of these pathways on early diagenetic processes and
benthic fluxes has: not been determined and must be examined with addition
al experimental works. Our study suggests, however, that the coupling betwe
en the benthic cycles of iron, manganese and nitrogen could strongly influe
nce the carbon cycling at the ocean floor. (C) 2001 Elsevier Science B.V. A
ll rights reserved.