Systems Biogeochemistry of Major Marine Biomes. Группа авторов
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Название: Systems Biogeochemistry of Major Marine Biomes

Автор: Группа авторов

Издательство: John Wiley & Sons Limited

Жанр: Физика

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isbn: 9781119554363

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СКАЧАТЬ and high organic matter flux from the DO‐depleted water column in the latter (Fernandes et al., 2018). In contrast, the upper and lower edges of the OMZ are associated with a relatively high remineralization rate due to higher DO availability.

      The AOM involves a syntrophic consortium of sulfate‐reducing bacteria and methanotrophic archaea (Boetius et al., 2000; Knittel and Boetius, 2009). The AOM process results in the formation of SMTZ, which is a redox interface in the sediment where porewater SO4 2– and CH4 intersect and are depleted to near‐zero levels (Treude et al., 2005; Sultan et al., 2016). The depth of SMTZ depends on the organic matter availability, oxygen exposure time (OET) of organic matter, flux of CH4 and SO4 2–, and the activity of sulfate‐reducing bacteria and methanotrophic archaea and bioturbation (Niewöhner et al., 1998; Hong et al., 2014; Komada et al., 2016; Lin et al., 2016; Hu et al., 2017). The AOM process at the SMTZ leads to high pore water alkalinity owing to bicarbonate (HCO3 ) and hydrogen sulfide (HS) production. The sulfate reduction rates in marine sediment pore waters are controlled by the availability of labile organic matter, SO4 2– concentration, bottom water temperature (OET), bioturbation, bacterial distribution, and abundance (Aller, 1994; Kristensen, 2000; Hedges and Keil, 1995; Nierop et al., 2017; Jessen et al., 2017). Depth integrated sulfate reduction rates have been reported to be maximum around continental margins (Bowles et al., 2014), apparently linked to the higher deposition/preservation of organic carbon in these areas of the global ocean (Dean et al., 1994; Littke et al., 1997; Van der Weijden et al., 1999; Böning et al., 2004; Seiter et al., 2004, 2005; Rasiq et al., 2016; Dale et al., 2015; Fernandes et al., 2018).

      Bottom water DO depletion and high preservation of reactive organic matter within the OMZ sediment led to considerably higher sulfate reduction rates. The higher sulfate reduction rate is associated with higher porewater NH4 + and dissolved inorganic carbon (DIC) concentrations and shallow SMTZ (Mazumdar et al., 2009, 2012; Fernandes et al., 2018; Fernandes et al., 2020).

Area OMZ water depth (mbsl) SRR (mmol cm–2 yr–1) Reference
Eastern Arabian Sea OMZ 200–1200 0.0008–0.0113 Fernandes et al. (2018)
Pakistan margin 200–1200 0.00036–0.01642 Law et al. (2009)
Oman margin 200–1000 0.000035–0.00011 Pedersen and Shimmield (1991)
Off central Chile 70–450 0.3504–1.09135 Ferdelman et al., (1997), Thamdrup СКАЧАТЬ