SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2003171593> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W2003171593 endingPage "147" @default.
W2003171593 startingPage "138" @default.
W2003171593 abstract "We investigated photoredox transformations of oxygen, carbon, peroxides, and iron that accompany “photodissolution” of suspended marine particulate organic carbon (POC), a sunlight-induced process that transfers POC to the dissolved organic carbon (DOC) pool. During 18- to 24-hour photodissolution experiments with POC of varying composition, about 0.28 mol of O2 was consumed per mole POC photodissolved. Mean dissolved inorganic carbon (DIC) production was 6% of initial POC in suspended river delta sediments and 1% in algal membrane detritus. The mean O2 loss:DIC production ratio was − 1.3:1 in sediment suspensions, which slightly exceeds the typical range reported for DOC. The O2 loss:DIC production ratio was − 7.7:1 in suspensions of algal detritus, which implies significant oxygen incorporation into (oxygenation of) organic matter. Irradiated sediment suspensions rapidly achieved low, steady-state peroxide concentrations but rose more slowly with algal detritus. Elevated iron concentrations in the 0.7–8.0 μm particle size fraction after 24 h of irradiation are consistent with photoredox cycling of metals and/or with physical disintegration of organic-mineral aggregates driven by organic matter dissolution. These oxidation and oxygenation results differ from analogous reactions previously found for marine DOC, and estimates of DIC production in particle-rich environments will require incorporation of POC-specific information." @default.
W2003171593 created "2016-06-24" @default.
W2003171593 creator A5006302282 @default.
W2003171593 creator A5018001022 @default.
W2003171593 date "2010-10-01" @default.
W2003171593 modified "2023-10-03" @default.
W2003171593 title "Photooxidation of particulate organic matter, carbon/oxygen stoichiometry, and related photoreactions" @default.
W2003171593 cites W1968812268 @default.
W2003171593 cites W1974479504 @default.
W2003171593 cites W1975514528 @default.
W2003171593 cites W1977469383 @default.
W2003171593 cites W1981145769 @default.
W2003171593 cites W1981147917 @default.
W2003171593 cites W1985653295 @default.
W2003171593 cites W1985678544 @default.
W2003171593 cites W1990250430 @default.
W2003171593 cites W1992105471 @default.
W2003171593 cites W1994940124 @default.
W2003171593 cites W1996636739 @default.
W2003171593 cites W2002974466 @default.
W2003171593 cites W2011129404 @default.
W2003171593 cites W2012520735 @default.
W2003171593 cites W2016537301 @default.
W2003171593 cites W2029836832 @default.
W2003171593 cites W2032076428 @default.
W2003171593 cites W2034055209 @default.
W2003171593 cites W2034186049 @default.
W2003171593 cites W2037669529 @default.
W2003171593 cites W2038806024 @default.
W2003171593 cites W2041353926 @default.
W2003171593 cites W2044197201 @default.
W2003171593 cites W2048250472 @default.
W2003171593 cites W2048581382 @default.
W2003171593 cites W2053063529 @default.
W2003171593 cites W2058340149 @default.
W2003171593 cites W2063342880 @default.
W2003171593 cites W2071612694 @default.
W2003171593 cites W2071745388 @default.
W2003171593 cites W2074459409 @default.
W2003171593 cites W2074704891 @default.
W2003171593 cites W2078388384 @default.
W2003171593 cites W2080845404 @default.
W2003171593 cites W2083044683 @default.
W2003171593 cites W2091913250 @default.
W2003171593 cites W2098600868 @default.
W2003171593 cites W2102203332 @default.
W2003171593 cites W2102331688 @default.
W2003171593 cites W2108030872 @default.
W2003171593 cites W2113135961 @default.
W2003171593 cites W2128877724 @default.
W2003171593 cites W2137908330 @default.
W2003171593 cites W2150097491 @default.
W2003171593 cites W2154836565 @default.
W2003171593 cites W2155592285 @default.
W2003171593 cites W2163220162 @default.
W2003171593 cites W2163312637 @default.
W2003171593 cites W2328540835 @default.
W2003171593 cites W2896070049 @default.
W2003171593 doi "https://doi.org/10.1016/j.marchem.2010.06.003" @default.
W2003171593 hasPublicationYear "2010" @default.
W2003171593 type Work @default.
W2003171593 sameAs 2003171593 @default.
W2003171593 citedByCount "50" @default.
W2003171593 countsByYear W20031715932012 @default.
W2003171593 countsByYear W20031715932013 @default.
W2003171593 countsByYear W20031715932014 @default.
W2003171593 countsByYear W20031715932015 @default.
W2003171593 countsByYear W20031715932016 @default.
W2003171593 countsByYear W20031715932017 @default.
W2003171593 countsByYear W20031715932018 @default.
W2003171593 countsByYear W20031715932019 @default.
W2003171593 countsByYear W20031715932020 @default.
W2003171593 countsByYear W20031715932021 @default.
W2003171593 countsByYear W20031715932022 @default.
W2003171593 countsByYear W20031715932023 @default.
W2003171593 crossrefType "journal-article" @default.
W2003171593 hasAuthorship W2003171593A5006302282 @default.
W2003171593 hasAuthorship W2003171593A5018001022 @default.
W2003171593 hasConcept C104779481 @default.
W2003171593 hasConcept C107872376 @default.
W2003171593 hasConcept C127313418 @default.
W2003171593 hasConcept C140205800 @default.
W2003171593 hasConcept C151730666 @default.
W2003171593 hasConcept C158787203 @default.
W2003171593 hasConcept C159985019 @default.
W2003171593 hasConcept C178790620 @default.
W2003171593 hasConcept C185592680 @default.
W2003171593 hasConcept C18903297 @default.
W2003171593 hasConcept C192562407 @default.
W2003171593 hasConcept C24245907 @default.
W2003171593 hasConcept C2816523 @default.
W2003171593 hasConcept C36574619 @default.
W2003171593 hasConcept C48743137 @default.
W2003171593 hasConcept C540031477 @default.
W2003171593 hasConcept C63376196 @default.
W2003171593 hasConcept C86803240 @default.
W2003171593 hasConcept C88380143 @default.
W2003171593 hasConceptScore W2003171593C104779481 @default.