Reconstructing the history of euxinia in a coastal sea
Publication date
2013
Authors
Slomp, C.P.
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Article
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(c) UU Universiteit Utrecht, 2013
Abstract
Areas of the coastal ocean where oxygen is low or absent in bottom
waters, so-called dead zones, are expanding worldwide (Diaz and Rosenberg,
2008). Increased inputs of nutrients from land are enhancing algal
blooms, and the sinking of this organic matter to the seafl oor and subsequent
decay leads to a high oxygen demand in bottom waters. Depending
on the physical characteristics of the coastal system, this may initiate periodic
or permanent water column anoxia and euxinia, with the latter term
implying the presence of free sulfi de (Kemp et al., 2009). Global warming
is expected to exacerbate the situation, through its effects on oxygen solubility
and water column stratifi cation. In many modern coastal systems,
anthropogenic changes are superimposed on natural variation and lack of
knowledge of such variation makes the prediction of future changes in
water column oxygen challenging (e.g., Grantham et al., 2004). That natural
drivers alone can be the cause of widespread coastal anoxia is evident
from studies of greenhouse periods in Earth’s past, including the oceanic
anoxic events of the Cretaceous and Toarcian (Jenkyns, 2010).