Publication Date:
2018-05-25
Description:
Field data collected for the North Sea indicate a prominent seasonal variation in the vertical distribution of total
organic carbon (TOC) and macrobenthic biomass in sediments. The vertical TOC profiles classify into three
modes, with maximum at surface, middle and deep part of sediments, respectively. We here present a mechanistic
model to quantify, for the first time, the dynamic interaction between sedimentary TOC and benthic fauna. The
major model principles include that (i) the vertical distribution of macrobenthic biomass is a trade-off between
nutritional benefit (quantity and quality of TOC) and the costs of burial (respiration) and mortality, and (ii) the
vertical transport of TOC is in turn modulated by macrobenthos through bioturbation. A novelty of our model
is that bioturbation is resolved dynamically depending on variation of local food resources and macrobenthic
biomass. This allows capturing of the benthic response to both depositional and erosional conditions and improving
estimates of the material exchange flux at the sediment-water interface. The coupling of the TOC-benthos
model with 3D hydrodynamic-ecological simulations reveals that the three profile modes of sedimentary TOC
(in both quantify and quality) can be explained as a combined response to pelagic conditions (shear stress and
primary production) and the synergy between bioturbation, vertical redistribution of higher quality TOC and
vertical positioning of benthic organisms.
A model reconstruction of the benthic status in the North Sea from 1950s to 2010s indicates that despite a
relatively stable pattern at decadal and regional scales, significant variations exist at smaller scales characterized
by seasons and local areas. In addition, inter-annual and multi-year cycle-like variations are also prominent
especially in coastal areas.
Repository Name:
EPIC Alfred Wegener Institut
Type:
Conference
,
notRev
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