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W3119478655 abstract "This work focuses on sediments of a shallow water lagoon, located in a densely populated area undergoing multiple stressors, with the goal of increasing the understanding of the links between diagenetic processes occurring in sediments, the dynamics of dissolved oxygen (DO) in the water column, and potential consequences of hypoxia. Sediment data were collected over three consecutive years, from 2015 to 2017, during spring–summer, at five stations. Measured variables included: sediment porosity, grain size and organic carbon content, porewater microprofiles of O 2 , pH and H 2 S, porewater profiles of dissolved inorganic carbon (DIC), total alkalinity (TA), NH 4 + , NO 3 – , dissolved Fe, and SO 4 2– . In addition, long-term time series of oxygen saturations in the water column (years 2005–2017) were utilized in order to identify the occurrence and duration of hypoxic periods. The results show that the median DO saturation value in summer months was below 50% (around 110 μmol L –1 ), and that saturation values below 25% (below the hypoxic threshold) can persist for more than 1 week. Sediment stations can be divided in two groups based on their diagenetic intensity: intense and moderate. At these two groups of stations, the average DIC net production rates, estimated trough a steady-state model (Profile) were, respectively, of 2.8 and 1.0 mmol m –2 d –1 , SO 4 2– consumption rates were respectively 1.6 and 0.4 mmol m –2 d –1 , while diffusive oxygen uptake fluxes, calculated from the sediment microprofile data, were of 28.5 and 17.5 mmol m –2 d –1 . At the stations characterized by intense diagenesis, total dissolved sulfide accumulated in porewaters close to the sediment-water interface, reaching values of 0.7 mM at 10 cm. Considering the typical physico-chemical summer conditions, the theoretical time required to consume oxygen down to the hypoxic level by sediment oxygen demand ranges between 5 and 18 days, in absence of mixing and re-oxygenation. This estimation highlights that sediment diagenesis may play a crucial role in triggering and maintaining hypoxia of lagoon waters during the summer season in specific high intensity diagenesis zones. This role of the sediment could be enhanced by changes in regional climate conditions, such as the increase in frequency of summer heat waves." @default.
W3119478655 created "2021-01-18" @default.
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W3119478655 date "2021-01-05" @default.
W3119478655 modified "2023-10-16" @default.
W3119478655 title "Early Diagenesis in Sediments of the Venice Lagoon (Italy) and Its Relationship to Hypoxia" @default.
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W3119478655 cites W1964126829 @default.
W3119478655 cites W1967277770 @default.
W3119478655 cites W1969258229 @default.
W3119478655 cites W1976403158 @default.
W3119478655 cites W1976566610 @default.
W3119478655 cites W1977768758 @default.
W3119478655 cites W1982016758 @default.
W3119478655 cites W1982869245 @default.
W3119478655 cites W1983952479 @default.
W3119478655 cites W1985667871 @default.
W3119478655 cites W1988363355 @default.
W3119478655 cites W1999996724 @default.
W3119478655 cites W2003351828 @default.
W3119478655 cites W2007477234 @default.
W3119478655 cites W2008772238 @default.
W3119478655 cites W2009323856 @default.
W3119478655 cites W2014744441 @default.
W3119478655 cites W2015553337 @default.
W3119478655 cites W2019783549 @default.
W3119478655 cites W2031521906 @default.
W3119478655 cites W2039423093 @default.
W3119478655 cites W2042462160 @default.
W3119478655 cites W2048829317 @default.
W3119478655 cites W2056571674 @default.
W3119478655 cites W2076222070 @default.
W3119478655 cites W2080072001 @default.
W3119478655 cites W2083870025 @default.
W3119478655 cites W2091913250 @default.
W3119478655 cites W2097637122 @default.
W3119478655 cites W2098920249 @default.
W3119478655 cites W2112260599 @default.
W3119478655 cites W2114198281 @default.
W3119478655 cites W2116229933 @default.
W3119478655 cites W2130231032 @default.
W3119478655 cites W2139312273 @default.
W3119478655 cites W2141159657 @default.
W3119478655 cites W2146203182 @default.
W3119478655 cites W2146771742 @default.
W3119478655 cites W2152777025 @default.
W3119478655 cites W2153576374 @default.
W3119478655 cites W2156832355 @default.
W3119478655 cites W2171802039 @default.
W3119478655 cites W2213166353 @default.
W3119478655 cites W2283682732 @default.
W3119478655 cites W2526506939 @default.
W3119478655 cites W2607473889 @default.
W3119478655 cites W2612933070 @default.
W3119478655 cites W2615896955 @default.
W3119478655 cites W2781567654 @default.
W3119478655 cites W2900797831 @default.
W3119478655 cites W2943726727 @default.
W3119478655 cites W2987347936 @default.
W3119478655 cites W2994746418 @default.
W3119478655 cites W2995667300 @default.
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W3119478655 cites W3027398174 @default.
W3119478655 cites W4242216524 @default.
W3119478655 cites W4250657522 @default.
W3119478655 cites W4289875164 @default.
W3119478655 cites W1982644643 @default.
W3119478655 doi "https://doi.org/10.3389/fmars.2020.575547" @default.
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