SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4311459809> ?p ?o ?g. }

Showing items 1 to 100 of ±143 with 100 items per page.

W4311459809 endingPage "739155" @default.
W4311459809 startingPage "739155" @default.
W4311459809 abstract "The microbiota of recirculating aquaculture systems (RAS) is of major importance for optimal fish health. However, the microbial communities in commercial RAS are highly complex and more knowledge is needed to potentially control and maintain beneficial microbial communities for good fish production. In this study we monitored microbial communities in a commercial RAS producing Atlantic salmon fry (Salmo salar) during seven consecutive production batches. The water of rearing tanks and the water sump downstream of the biofilter/upstream of the UV, as well as biofilm of the wall of the rearing tanks and the fixed bed biofilter were analysed using 16S rRNA gene amplicon sequencing to elucidate the spatial-temporal microbial dynamics. The results showed that the microbiota composition of water and biofilm varied within and between the production batches, and that the fallowing periods had a substantial effect on the microbial communities. The correlation of the water and biofilm microbiota to fish presence in the system was confirmed by supervised machine learning. Shifts in the composition of the microbiota were identified in conjunction with variations in organic matter loading both during production and fallowing. In addition, variables like oxygen saturation, biomass, and feed type, showed good correlation with variations in the water microbiota composition. Although microbiota changed at fallowing, the microbiota returned to similar compositions during the production phases and was especially evident for the water microbiota. This indicates that the development of microbiota composition is strongly dictated by the similar selection pressure in the system. Nitrifying communities were dominated by Nitrospira, and the third most abundant Nitrospira OTUs were related to the comammox Nitrospira nitrificans. The microbial communities in the biofilter biofilm and water were significantly different but shared abundant taxa and followed the same temporal microbial dynamics and indicates an interaction between the biofilter biofilm and the suspended bacteria. CFU analysis showed that the fraction of rapid-growing bacteria was significantly higher in the rearing water than in the water sump upstream the UV disinfection, indicating that disinfection upstream the rearing tanks allowed for growth of opportunistic bacteria. A community with considerable potential for opportunistic regrowth can have consequences for the microbial water quality and the resistance against pathogen invasion The absence of an in-line disinfection step or placing the disinfection unit upstream the biofilter might provide better microbial water quality and a more resilient system against pathogen proliferation." @default.
W4311459809 created "2022-12-26" @default.
W4311459809 creator A5018631167 @default.
W4311459809 creator A5018781045 @default.
W4311459809 creator A5021284363 @default.
W4311459809 creator A5022501339 @default.
W4311459809 creator A5034049086 @default.
W4311459809 creator A5074200864 @default.
W4311459809 creator A5076618953 @default.
W4311459809 creator A5077050072 @default.
W4311459809 creator A5083253989 @default.
W4311459809 date "2023-02-01" @default.
W4311459809 modified "2023-10-14" @default.
W4311459809 title "Long-term microbial community structures and dynamics in a commercial RAS during seven production batches of Atlantic salmon fry (Salmo salar)" @default.
W4311459809 cites W1605650056 @default.
W4311459809 cites W1649740985 @default.
W4311459809 cites W1982523379 @default.
W4311459809 cites W1993584088 @default.
W4311459809 cites W1998292935 @default.
W4311459809 cites W1999371063 @default.
W4311459809 cites W1999466968 @default.
W4311459809 cites W2003028077 @default.
W4311459809 cites W2004678467 @default.
W4311459809 cites W2008525867 @default.
W4311459809 cites W2025868079 @default.
W4311459809 cites W2034665242 @default.
W4311459809 cites W2037581662 @default.
W4311459809 cites W2039102429 @default.
W4311459809 cites W2049684226 @default.
W4311459809 cites W2056889249 @default.
W4311459809 cites W2057867245 @default.
W4311459809 cites W2061715530 @default.
W4311459809 cites W2066653466 @default.
W4311459809 cites W2079696634 @default.
W4311459809 cites W2084022087 @default.
W4311459809 cites W2088833470 @default.
W4311459809 cites W2093482790 @default.
W4311459809 cites W2093586507 @default.
W4311459809 cites W2099053943 @default.
W4311459809 cites W2099577420 @default.
W4311459809 cites W2101537348 @default.
W4311459809 cites W2119173231 @default.
W4311459809 cites W2125020225 @default.
W4311459809 cites W2125846972 @default.
W4311459809 cites W2147618390 @default.
W4311459809 cites W2151350595 @default.
W4311459809 cites W2161301936 @default.
W4311459809 cites W2175951962 @default.
W4311459809 cites W2257240742 @default.
W4311459809 cites W2477663929 @default.
W4311459809 cites W2537263063 @default.
W4311459809 cites W2537935722 @default.
W4311459809 cites W2580573360 @default.
W4311459809 cites W2745656784 @default.
W4311459809 cites W2791680828 @default.
W4311459809 cites W2799524357 @default.
W4311459809 cites W2801951066 @default.
W4311459809 cites W2900673833 @default.
W4311459809 cites W2905521613 @default.
W4311459809 cites W2905877720 @default.
W4311459809 cites W2914273227 @default.
W4311459809 cites W2955331338 @default.
W4311459809 cites W2963276645 @default.
W4311459809 cites W2964567396 @default.
W4311459809 cites W2969844911 @default.
W4311459809 cites W3004567084 @default.
W4311459809 cites W3011016662 @default.
W4311459809 cites W3011629536 @default.
W4311459809 cites W3015645402 @default.
W4311459809 cites W3016979470 @default.
W4311459809 cites W3033999217 @default.
W4311459809 cites W3081048142 @default.
W4311459809 cites W3083523111 @default.
W4311459809 cites W3085045624 @default.
W4311459809 cites W3090189627 @default.
W4311459809 cites W3107193074 @default.
W4311459809 cites W3135436408 @default.
W4311459809 cites W3176925560 @default.
W4311459809 cites W3194507274 @default.
W4311459809 cites W4200305496 @default.
W4311459809 cites W4200553326 @default.
W4311459809 doi "https://doi.org/10.1016/j.aquaculture.2022.739155" @default.
W4311459809 hasPublicationYear "2023" @default.
W4311459809 type Work @default.
W4311459809 citedByCount "0" @default.
W4311459809 crossrefType "journal-article" @default.
W4311459809 hasAuthorship W4311459809A5018631167 @default.
W4311459809 hasAuthorship W4311459809A5018781045 @default.
W4311459809 hasAuthorship W4311459809A5021284363 @default.
W4311459809 hasAuthorship W4311459809A5022501339 @default.
W4311459809 hasAuthorship W4311459809A5034049086 @default.
W4311459809 hasAuthorship W4311459809A5074200864 @default.
W4311459809 hasAuthorship W4311459809A5076618953 @default.
W4311459809 hasAuthorship W4311459809A5077050072 @default.
W4311459809 hasAuthorship W4311459809A5083253989 @default.
W4311459809 hasBestOaLocation W43114598091 @default.
W4311459809 hasConcept C18903297 @default.
W4311459809 hasConcept C2776928589 @default.