Systems Biogeochemistry of Major Marine Biomes. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
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Жанр произведения: Физика
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isbn: 9781119554363
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advection from the south, from the Red Sea and from the Persian Gulf (Naqvi et al., 2006). The prolonged ventilation times 7–8 years for RSW and (2–3 years) for PGW in the EAS compared with the ventilation time of (3–4 years and 1–2 years, respectively, in WAS lead to more significant DO depletion in the EAS (Schmidt et al., 2020a)

       physical processes such as mesoscale eddies prevailing in the WAS are expected to contribute towards effective oxygen renewal in the water column (McCreary et al., 2013; Schmidt et al., 2020b);

        the cross‐shelf transport of organic‐rich sediments from the western continental shelf of India (Somayajulu et al., 1996; Sarma et al., 2020) and subsequent respiration, causing suboxia in the EAS.

       the warming of the PGW. Recent observations have seen warming of the PGW (shallow semi‐enclosed sea with an average depth of 35 m) at a rate of two to three times faster than the global average rate, increasing its buoyancy and may lead to poor, intermediate water ventilation (Lachkar et al., 2019).

      In addition to the perennial OMZ (pOMZ), the AS experiences seasonal suboxia and denitrification over the inner and mid‐shelf off the west coast of India during and shortly after the southwest monsoon (Sharma, 1978; Shetye et al., 1990; Naqvi et al., 2000, 2006). This coastal oxygen‐deficient zone is separated from the pOMZ in the central AS by the presence of slightly more oxygenated waters of the WIUC that flow poleward (Naqvi et al., 2006). During the peak of upwelling season (in September), almost the entire Indian shelf (and some of the Pakistan shelf) is severely hypoxic having an O2 concentration <0.5 ml l–1 covering an area of about 180 000 km2 (Naqvi et al., 2000). The seasonal suboxia (even anoxia) reported in this region occurs because of coastal upwelling occurring along the western Indian shelf during June to November. Upwelling begins in April, along the southwest coast of India (along with Kerala), and gradually moves northward. The intense DO depletion in both the seasonal OMZ (sOMZ) and pOMZ enhances the deposition of organic matter in the underlying sediments as a result of a combination of high (upwelling‐driven) primary productivity and inefficient degradation during sinking in the oxygen‐depleted water column (Paropkari et al., 1992, 1993; Cowie, 2005). The intense DO depletion has a profound influence on the underlying sediments, with respect to the redox conditions, microbial community, nature and activity of benthic communities, pore water redox processes, and consequently on the diagenetic pathways (e.g. Cowie, 2005).

      1.1.2. The Bay of Bengal Oxygen Minimum Zone

Schematic illustration of vertical distribution of oxygen (solid blue circle) and nitrite concentrations (solid red circle) over the Central–northeast Arabian Sea, Omani Shelf and the Bay of Bengal. Schematic illustration of global distribution pattern of particulate carbon flux to the seafloor.

      Source: Reimers (2007) with permission from American Chemical Society.

      Remineralization of the partly degraded organic matter is strongly influenced by benthic biotic activity controlled by sediment–water interface conditions such as DO concentration, diffusion of CH4/H2S, sedimentation rate, organic matter content, and sediment grain size. The upper and lower boundaries of the ASOMZ have a lower TOC content than the OMZ core, which is attributed to lack of bioturbation 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.