FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313201341> ?p ?o ?g. }

• W4313201341 endingPage "739171" @default.
• W4313201341 startingPage "739171" @default.
• W4313201341 abstract "The Thau lagoon is a Mediterranean coastal lagoon used for shellfish farming. It is periodically affected by anoxia events that trigger oyster mortality. To investigate the effects of an anoxia event focussed on nutrient dynamics and the responses of the microbial planktonic communities a 13-day in situ experiment was performed in September 2020. Transparent mesocosms (270 L) were placed at a depth of 4 m, inserted in the sediment, and kept closed throughout the experiment. The experiment comprised three treatments: i) Natural environment (N), i.e. in the natural water outside the mesocosms containing a rope of 30 oysters (Crassostrea gigas), ii) Control mesocosm (C) filled with natural water with no oysters, and iii) Oyster mesocosm (O) filled with natural water containing a rope of 30 oysters. Oyster respiration in the oyster mesocosm depleted oxygen after 54 h. All the oysters from O mesocosm were dead after nine days and decomposition of their flesh combined with releases from the water-sediment interface increased dissolved inorganic nitrogen (dominated by ammonium), phosphates, and ∑H2S up to 390, 17 and 295 μmol·L−1, respectively. Phytoplankton biomass consequently increased by 20 (11.8 μg chlal −1) and abundance by 4.5 (186 × 106 cells·L1) dominated largely by green algae <5 μm. During the oyster mortality period (day 6 to day 9) high abundances of heterotrophic flagellates and large ciliate specimens were observed. This shift in the community towards small phytoplankton favours the microbial loop and is detrimental to shellfish farming. In a context of global warming in which the risk of anoxia is higher, the results of the present investigation demonstrate that anoxia triggers shellfish mortality and that the change in the plankton community disrupts the normal functioning of the ecosystem, causing serious financial losses. In this context, it is crucial to predict possible hypoxia and anoxia events using high frequency measurements of dissolved oxygen, by avoiding using shallow zones for oyster production and by reducing shellfish stocks, or by mechanically lifting the oysters out of the water during the night to reduce oxygen respiration in the ecosystem." @default.
• W4313201341 created "2023-01-06" @default.
• W4313201341 creator A5006454501 @default.
• W4313201341 creator A5007371270 @default.
• W4313201341 creator A5013095000 @default.
• W4313201341 creator A5013776697 @default.
• W4313201341 creator A5039025104 @default.
• W4313201341 creator A5045910882 @default.
• W4313201341 creator A5055601465 @default.
• W4313201341 creator A5061123990 @default.
• W4313201341 creator A5064049896 @default.
• W4313201341 creator A5065887410 @default.
• W4313201341 creator A5088377802 @default.
• W4313201341 creator A5089177748 @default.
• W4313201341 date "2023-03-01" @default.
• W4313201341 modified "2023-10-06" @default.
• W4313201341 title "Impact of anoxia and oyster mortality on nutrient and microbial planktonic components: A mesocosm study" @default.
• W4313201341 cites W1571649583 @default.
• W4313201341 cites W1592418946 @default.
• W4313201341 cites W1972971710 @default.
• W4313201341 cites W1980934656 @default.
• W4313201341 cites W1998672752 @default.
• W4313201341 cites W1998954638 @default.
• W4313201341 cites W2006906072 @default.
• W4313201341 cites W2019203956 @default.
• W4313201341 cites W2021101962 @default.
• W4313201341 cites W2030781959 @default.
• W4313201341 cites W2034355151 @default.
• W4313201341 cites W2042162517 @default.
• W4313201341 cites W2047019206 @default.
• W4313201341 cites W2051001888 @default.
• W4313201341 cites W2052407319 @default.
• W4313201341 cites W2053815728 @default.
• W4313201341 cites W2054645658 @default.
• W4313201341 cites W2064082532 @default.
• W4313201341 cites W2064530874 @default.
• W4313201341 cites W2071365677 @default.
• W4313201341 cites W2076671330 @default.
• W4313201341 cites W2079905572 @default.
• W4313201341 cites W2082065025 @default.
• W4313201341 cites W2083178991 @default.
• W4313201341 cites W2088706989 @default.
• W4313201341 cites W2097637122 @default.
• W4313201341 cites W2098920249 @default.
• W4313201341 cites W2099263747 @default.
• W4313201341 cites W2102126601 @default.
• W4313201341 cites W2112078834 @default.
• W4313201341 cites W2114032858 @default.
• W4313201341 cites W2119315874 @default.
• W4313201341 cites W2121382521 @default.
• W4313201341 cites W2122102666 @default.
• W4313201341 cites W2124579204 @default.
• W4313201341 cites W2130231032 @default.
• W4313201341 cites W2142230391 @default.
• W4313201341 cites W2150322795 @default.
• W4313201341 cites W2153576374 @default.
• W4313201341 cites W2157281339 @default.
• W4313201341 cites W2162406675 @default.
• W4313201341 cites W2164711182 @default.
• W4313201341 cites W2167161112 @default.
• W4313201341 cites W2169503277 @default.
• W4313201341 cites W2169645301 @default.
• W4313201341 cites W2254922850 @default.
• W4313201341 cites W229041816 @default.
• W4313201341 cites W2588770771 @default.
• W4313201341 cites W2597811760 @default.
• W4313201341 cites W2603268779 @default.
• W4313201341 cites W2781567654 @default.
• W4313201341 cites W2902304965 @default.
• W4313201341 cites W2909798685 @default.
• W4313201341 cites W3022895510 @default.
• W4313201341 cites W3023534588 @default.
• W4313201341 cites W3107822349 @default.
• W4313201341 cites W3169807262 @default.
• W4313201341 cites W325023061 @default.
• W4313201341 cites W4294718622 @default.
• W4313201341 doi "https://doi.org/10.1016/j.aquaculture.2022.739171" @default.
• W4313201341 hasPublicationYear "2023" @default.
• W4313201341 type Work @default.
• W4313201341 citedByCount "1" @default.
• W4313201341 countsByYear W43132013412023 @default.
• W4313201341 crossrefType "journal-article" @default.
• W4313201341 hasAuthorship W4313201341A5006454501 @default.
• W4313201341 hasAuthorship W4313201341A5007371270 @default.
• W4313201341 hasAuthorship W4313201341A5013095000 @default.
• W4313201341 hasAuthorship W4313201341A5013776697 @default.
• W4313201341 hasAuthorship W4313201341A5039025104 @default.
• W4313201341 hasAuthorship W4313201341A5045910882 @default.
• W4313201341 hasAuthorship W4313201341A5055601465 @default.
• W4313201341 hasAuthorship W4313201341A5061123990 @default.
• W4313201341 hasAuthorship W4313201341A5064049896 @default.
• W4313201341 hasAuthorship W4313201341A5065887410 @default.
• W4313201341 hasAuthorship W4313201341A5088377802 @default.
• W4313201341 hasAuthorship W4313201341A5089177748 @default.
• W4313201341 hasConcept C108469399 @default.
• W4313201341 hasConcept C142796444 @default.
• W4313201341 hasConcept C158278297 @default.
• W4313201341 hasConcept C180553826 @default.

• next