SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2789682428> ?p ?o ?g. }

Showing items 1 to 100 of ±160 with 100 items per page.

W2789682428 endingPage "57" @default.
W2789682428 startingPage "49" @default.
W2789682428 abstract "This study characterized the kinetics of abiotic production of the greenhouse gas nitrous oxide (N2O) by chemical oxidation of the nitrification intermediate hydroxylamine (NH2OH) in seawater at circumneutral pH (6.2–8.3). The oxidant was birnessite, a ubiquitous manganese oxide mineral in a variety of marine environments. Experiments using microsensor electrodes for high-resolution measurements of N2O production combined with the simultaneous measurements of the removal of NH2OH using spectrophotometric techniques revealed that the reaction was overall first order with the rate law d[N2O]/dt = k[NH2OH]0.9[MnO2]0.3[H+]0 where k is 0.01 s−1. Birnessite consistently oxidized 80–100% of NH2OH to N2O within 3 min. Mass balance on nitrogen indicated rapid formation and disappearance of an intermediate species that was evidently involved in the formation of N2O. In the presence of a nitroxyl (HNO) scavenger, N2O production rates and yield were suppressed by 17–59% and ~50%, respectively, suggesting that HNO is an intermediate in NH2OH oxidation to N2O. These results support a mechanism whereby Mn(IV) is reduced to Mn(III) with the formation of an aminoxyl radical as the first product of NH2OH oxidation, which donates a second electron to another Mn(IV) center, or reduces the same Mn(III), to release Mn2+ and HNO in solution. The final step is predicted to be HNO dimerization to N2O given the complete oxidation of NH2OH to N2O at steady-state. The experimentally-derived second-order rate constant for the dimerization step suggests that adsorption of HNO onto the excess solid surface controls the rate of N2O formation. Our findings suggest that abiotic NH2OH oxidation could be an important source of N2O in coastal ecosystems such as open oceans and oxygen minimum zones as well as sediment ecosystems wherever nitrification occurs in the presence of particulate metal oxides." @default.
W2789682428 created "2018-03-29" @default.
W2789682428 creator A5027876811 @default.
W2789682428 creator A5060633895 @default.
W2789682428 creator A5065680117 @default.
W2789682428 creator A5083137322 @default.
W2789682428 date "2018-05-01" @default.
W2789682428 modified "2023-10-18" @default.
W2789682428 title "Kinetics of nitrous oxide production from hydroxylamine oxidation by birnessite in seawater" @default.
W2789682428 cites W1496307198 @default.
W2789682428 cites W1534025708 @default.
W2789682428 cites W1547121474 @default.
W2789682428 cites W1576460556 @default.
W2789682428 cites W1605383624 @default.
W2789682428 cites W1963872409 @default.
W2789682428 cites W1964058023 @default.
W2789682428 cites W1969253450 @default.
W2789682428 cites W1973490513 @default.
W2789682428 cites W1976901121 @default.
W2789682428 cites W1979735389 @default.
W2789682428 cites W1985005203 @default.
W2789682428 cites W1985809588 @default.
W2789682428 cites W1986517014 @default.
W2789682428 cites W1993344380 @default.
W2789682428 cites W1996439916 @default.
W2789682428 cites W2003106076 @default.
W2789682428 cites W2004666072 @default.
W2789682428 cites W2006338873 @default.
W2789682428 cites W2006786201 @default.
W2789682428 cites W2007774594 @default.
W2789682428 cites W2008845966 @default.
W2789682428 cites W2011583392 @default.
W2789682428 cites W2011909205 @default.
W2789682428 cites W2012305715 @default.
W2789682428 cites W2017849916 @default.
W2789682428 cites W2021621175 @default.
W2789682428 cites W2021699947 @default.
W2789682428 cites W2022433499 @default.
W2789682428 cites W2030243029 @default.
W2789682428 cites W2031815185 @default.
W2789682428 cites W2033761422 @default.
W2789682428 cites W2034546950 @default.
W2789682428 cites W2034916099 @default.
W2789682428 cites W2038634532 @default.
W2789682428 cites W2038869979 @default.
W2789682428 cites W2054029016 @default.
W2789682428 cites W2056240986 @default.
W2789682428 cites W2056865910 @default.
W2789682428 cites W2057104903 @default.
W2789682428 cites W2059589790 @default.
W2789682428 cites W2066070540 @default.
W2789682428 cites W2067387648 @default.
W2789682428 cites W2067841165 @default.
W2789682428 cites W2069758447 @default.
W2789682428 cites W2074146502 @default.
W2789682428 cites W2076613851 @default.
W2789682428 cites W2077677738 @default.
W2789682428 cites W2078494563 @default.
W2789682428 cites W2090147611 @default.
W2789682428 cites W2091195799 @default.
W2789682428 cites W2093962754 @default.
W2789682428 cites W2102680356 @default.
W2789682428 cites W2111165894 @default.
W2789682428 cites W2113507655 @default.
W2789682428 cites W2119624946 @default.
W2789682428 cites W2130582622 @default.
W2789682428 cites W2150691129 @default.
W2789682428 cites W2159182178 @default.
W2789682428 cites W2174626183 @default.
W2789682428 cites W2188556326 @default.
W2789682428 cites W2346039137 @default.
W2789682428 cites W2346975780 @default.
W2789682428 cites W2394660886 @default.
W2789682428 cites W2734889802 @default.
W2789682428 cites W2768371143 @default.
W2789682428 cites W3137752327 @default.
W2789682428 cites W4241573407 @default.
W2789682428 doi "https://doi.org/10.1016/j.marchem.2018.03.002" @default.
W2789682428 hasPublicationYear "2018" @default.
W2789682428 type Work @default.
W2789682428 sameAs 2789682428 @default.
W2789682428 citedByCount "16" @default.
W2789682428 countsByYear W27896824282018 @default.
W2789682428 countsByYear W27896824282019 @default.
W2789682428 countsByYear W27896824282020 @default.
W2789682428 countsByYear W27896824282021 @default.
W2789682428 countsByYear W27896824282022 @default.
W2789682428 countsByYear W27896824282023 @default.
W2789682428 crossrefType "journal-article" @default.
W2789682428 hasAuthorship W2789682428A5027876811 @default.
W2789682428 hasAuthorship W2789682428A5060633895 @default.
W2789682428 hasAuthorship W2789682428A5065680117 @default.
W2789682428 hasAuthorship W2789682428A5083137322 @default.
W2789682428 hasBestOaLocation W27896824281 @default.
W2789682428 hasConcept C104882015 @default.
W2789682428 hasConcept C111368507 @default.
W2789682428 hasConcept C121332964 @default.
W2789682428 hasConcept C127313418 @default.