SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2598104633> ?p ?o ?g. }

Showing items 1 to 100 of ±153 with 100 items per page.

W2598104633 endingPage "1569" @default.
W2598104633 startingPage "1552" @default.
W2598104633 abstract "During the summers of 2009 and 2013, seawater pH and concentrations of dissolved oxygen, inorganic carbon, and nutrients were measured off the Changjiang estuary in the East China Sea. The 2009 cruise captured the effects of Typhoon Morakot; the 2013 cruise sampled more typical conditions (no typhoon). Data from both years indicate a close correlation between high primary productivity in surface waters and hypoxia in bottom waters. Based on these observations, we developed a conceptual model to guide an exploration of processes contributing to the formation of summertime bottom hypoxia. A mixing-model analysis of the 2009 data identified a surface diatom bloom as the major (70–80%) source of the organic carbon that decomposed and ultimately led to bottom water hypoxia. Within the Changjiang River plume, depth-integrated net biological production in the water column was 1.8 g C m−2 d−1, indicating strong autotrophic production, which in turn led to a high respiration rate of 1.2 g C m−2 d−1 in the bottom water. During both cruises, strong surface-to-bottom physical and metabolic coupling was evident. In 2009, storm-driven inputs of nutrients from elevated river discharge and strong vertical mixing helped to fuel the rapid development of a surface diatom bloom. Afterwards, stratified conditions re-established, newly formed labile organic matter sank, and bottom water oxygen was quickly consumed to an extent that hypoxia and acidification developed. To our knowledge, the observed rate of hypoxia and acidification development (within 6 d) is the fastest yet reported for the Changjiang River plume." @default.
W2598104633 created "2017-04-07" @default.
W2598104633 creator A5005787932 @default.
W2598104633 creator A5045329690 @default.
W2598104633 creator A5051208510 @default.
W2598104633 creator A5062468987 @default.
W2598104633 creator A5063540755 @default.
W2598104633 creator A5087366557 @default.
W2598104633 date "2017-03-22" @default.
W2598104633 modified "2023-10-11" @default.
W2598104633 title "Diatom bloom‐derived bottom water hypoxia off the Changjiang estuary, with and without typhoon influence" @default.
W2598104633 cites W1514927525 @default.
W2598104633 cites W1574902380 @default.
W2598104633 cites W1575819718 @default.
W2598104633 cites W1599188840 @default.
W2598104633 cites W1821054567 @default.
W2598104633 cites W1845687241 @default.
W2598104633 cites W1850139968 @default.
W2598104633 cites W1858939587 @default.
W2598104633 cites W1876780754 @default.
W2598104633 cites W1914782372 @default.
W2598104633 cites W1969601666 @default.
W2598104633 cites W1979245770 @default.
W2598104633 cites W1980807822 @default.
W2598104633 cites W1984127418 @default.
W2598104633 cites W1986790553 @default.
W2598104633 cites W1987778021 @default.
W2598104633 cites W1988255721 @default.
W2598104633 cites W1991531753 @default.
W2598104633 cites W1992112309 @default.
W2598104633 cites W1994704355 @default.
W2598104633 cites W1995163974 @default.
W2598104633 cites W2001665552 @default.
W2598104633 cites W2003812648 @default.
W2598104633 cites W2005774098 @default.
W2598104633 cites W2006988469 @default.
W2598104633 cites W2008810686 @default.
W2598104633 cites W2010213872 @default.
W2598104633 cites W2011098736 @default.
W2598104633 cites W2016024322 @default.
W2598104633 cites W2016366735 @default.
W2598104633 cites W2019264376 @default.
W2598104633 cites W2020688711 @default.
W2598104633 cites W2021687116 @default.
W2598104633 cites W2021738200 @default.
W2598104633 cites W2026744425 @default.
W2598104633 cites W2029150901 @default.
W2598104633 cites W2033749163 @default.
W2598104633 cites W2035503922 @default.
W2598104633 cites W2053543940 @default.
W2598104633 cites W2054474663 @default.
W2598104633 cites W2058169773 @default.
W2598104633 cites W2058313034 @default.
W2598104633 cites W2060425809 @default.
W2598104633 cites W2067470833 @default.
W2598104633 cites W2073040516 @default.
W2598104633 cites W2088089964 @default.
W2598104633 cites W2090694066 @default.
W2598104633 cites W2091200905 @default.
W2598104633 cites W2102950893 @default.
W2598104633 cites W2109338631 @default.
W2598104633 cites W2112448118 @default.
W2598104633 cites W2115185593 @default.
W2598104633 cites W2119437482 @default.
W2598104633 cites W2124081117 @default.
W2598104633 cites W2125240672 @default.
W2598104633 cites W2125438596 @default.
W2598104633 cites W2125501690 @default.
W2598104633 cites W2128415293 @default.
W2598104633 cites W2130231032 @default.
W2598104633 cites W2133377555 @default.
W2598104633 cites W2134029390 @default.
W2598104633 cites W2138465606 @default.
W2598104633 cites W2142135410 @default.
W2598104633 cites W2144920118 @default.
W2598104633 cites W2145011030 @default.
W2598104633 cites W2149105527 @default.
W2598104633 cites W2150639122 @default.
W2598104633 cites W2152777025 @default.
W2598104633 cites W2157200173 @default.
W2598104633 cites W2159816121 @default.
W2598104633 cites W2169543125 @default.
W2598104633 cites W2170831368 @default.
W2598104633 cites W2277215776 @default.
W2598104633 cites W2332997710 @default.
W2598104633 cites W2986738873 @default.
W2598104633 cites W3182875964 @default.
W2598104633 cites W876659790 @default.
W2598104633 doi "https://doi.org/10.1002/lno.10517" @default.
W2598104633 hasPublicationYear "2017" @default.
W2598104633 type Work @default.
W2598104633 sameAs 2598104633 @default.
W2598104633 citedByCount "85" @default.
W2598104633 countsByYear W25981046332017 @default.
W2598104633 countsByYear W25981046332018 @default.
W2598104633 countsByYear W25981046332019 @default.
W2598104633 countsByYear W25981046332020 @default.
W2598104633 countsByYear W25981046332021 @default.