SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3023092783> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W3023092783 endingPage "e0232278" @default.
W3023092783 startingPage "e0232278" @default.
W3023092783 abstract "Peanut (Arachis hypogaea) is mainly grown for oil extraction and the remaining oil-free seed referred as peanut meal (PM) leaves with high protein content which can be a possible substitute for fishmeal in aqua-diets. This study evaluates the suitability of three types of processed peanut seeds, namely untreated PM (UPM), fermented PM (FPM), and germinated PM (GPM) from peanut seeds to replace fishmeal in barramundi (Lates calcarifer) diets cultured under a commercial production environment. Nine formulated diets having 3 inclusion levels from the 3 different peanuts (15%, 30% and 60% fishmeal replacement) were evaluated against a control without PM. The performance of various types and levels of PMs was assessed by examining the growth, gut and liver condition and survival of fish after eight weeks of feeding the test diets. The immunological responses of juvenile barramundi were assessed by exposing the fish to the hypoxic conditions for 4 hours. The results showed that fermentation and germination significantly (P<0.05) reduced the tannins and alkaloid contents in the PMs. The fish fed 15% GPM diet grew faster and had higher survival than fish fed control diet, while fish fed diet including 60% GPM showed a significant reduction in growth and survival, and an increase in food conversion rate (FCR). FPM and UPM at any inclusion levels did not alter the growth, survival and FCR. Histology analysis revealed that fish fed 60% GPM and UPM showed higher amount of lipid droplets in liver, myodigeneration in fish muscle and a decrease number of acidic mucins in distal gut compare to all other test diets. Stress caused by reduced dissolved oxygen did not change the sodium, potassium, chlorides and alanine aminotransferase concentrations of plasma of fish fed any diet. However, the stress did increase plasma cortisol significantly (P<0.05) in fish fed 60% GPM, 30% and 60% UPM diets. These results suggest that the PMs can partly replace the fishmeal in juvenile barramundi diet and the processing further improves the PMs quality by reducing its antinutritional factors which in turn can increase either its inclusion level in the barramundi diets or improved growth and health status of the species." @default.
W3023092783 created "2020-05-13" @default.
W3023092783 creator A5003169123 @default.
W3023092783 creator A5017903837 @default.
W3023092783 creator A5026768772 @default.
W3023092783 creator A5041261858 @default.
W3023092783 creator A5044607714 @default.
W3023092783 creator A5046858179 @default.
W3023092783 creator A5071282612 @default.
W3023092783 creator A5072873021 @default.
W3023092783 date "2020-04-30" @default.
W3023092783 modified "2023-10-18" @default.
W3023092783 title "Growth and health of juvenile barramundi (Lates calcarifer) challenged with DO hypoxia after feeding various inclusions of germinated, fermented and untreated peanut meals" @default.
W3023092783 cites W1499108408 @default.
W3023092783 cites W1530274573 @default.
W3023092783 cites W1871375625 @default.
W3023092783 cites W1967848538 @default.
W3023092783 cites W1974684074 @default.
W3023092783 cites W1977126291 @default.
W3023092783 cites W1987228708 @default.
W3023092783 cites W1988978658 @default.
W3023092783 cites W1993974126 @default.
W3023092783 cites W1994015005 @default.
W3023092783 cites W1998894959 @default.
W3023092783 cites W1999399146 @default.
W3023092783 cites W2000119188 @default.
W3023092783 cites W2002918277 @default.
W3023092783 cites W2011265605 @default.
W3023092783 cites W2012764379 @default.
W3023092783 cites W2016454423 @default.
W3023092783 cites W2018187329 @default.
W3023092783 cites W2020153062 @default.
W3023092783 cites W2027282508 @default.
W3023092783 cites W2027332108 @default.
W3023092783 cites W2029688343 @default.
W3023092783 cites W2030626828 @default.
W3023092783 cites W2034412153 @default.
W3023092783 cites W2036358461 @default.
W3023092783 cites W2038815210 @default.
W3023092783 cites W2041010936 @default.
W3023092783 cites W2043004658 @default.
W3023092783 cites W2047549251 @default.
W3023092783 cites W2048759600 @default.
W3023092783 cites W2055316019 @default.
W3023092783 cites W2055930925 @default.
W3023092783 cites W2056212042 @default.
W3023092783 cites W2068598187 @default.
W3023092783 cites W2070701346 @default.
W3023092783 cites W2072772849 @default.
W3023092783 cites W2076843306 @default.
W3023092783 cites W2091206126 @default.
W3023092783 cites W2092478622 @default.
W3023092783 cites W2102751228 @default.
W3023092783 cites W2105816476 @default.
W3023092783 cites W2119332961 @default.
W3023092783 cites W2125994459 @default.
W3023092783 cites W2132256143 @default.
W3023092783 cites W2137539909 @default.
W3023092783 cites W2143485383 @default.
W3023092783 cites W2144818127 @default.
W3023092783 cites W2146771371 @default.
W3023092783 cites W2167289805 @default.
W3023092783 cites W2291290302 @default.
W3023092783 cites W2341712838 @default.
W3023092783 cites W2469634135 @default.
W3023092783 cites W2505290441 @default.
W3023092783 cites W2591907221 @default.
W3023092783 cites W2883374152 @default.
W3023092783 cites W2901139154 @default.
W3023092783 cites W2923563493 @default.
W3023092783 cites W2933295700 @default.
W3023092783 cites W2988779057 @default.
W3023092783 doi "https://doi.org/10.1371/journal.pone.0232278" @default.
W3023092783 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7192418" @default.
W3023092783 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32352997" @default.
W3023092783 hasPublicationYear "2020" @default.
W3023092783 type Work @default.
W3023092783 sameAs 3023092783 @default.
W3023092783 citedByCount "14" @default.
W3023092783 countsByYear W30230927832020 @default.
W3023092783 countsByYear W30230927832021 @default.
W3023092783 countsByYear W30230927832022 @default.
W3023092783 countsByYear W30230927832023 @default.
W3023092783 crossrefType "journal-article" @default.
W3023092783 hasAuthorship W3023092783A5003169123 @default.
W3023092783 hasAuthorship W3023092783A5017903837 @default.
W3023092783 hasAuthorship W3023092783A5026768772 @default.
W3023092783 hasAuthorship W3023092783A5041261858 @default.
W3023092783 hasAuthorship W3023092783A5044607714 @default.
W3023092783 hasAuthorship W3023092783A5046858179 @default.
W3023092783 hasAuthorship W3023092783A5071282612 @default.
W3023092783 hasAuthorship W3023092783A5072873021 @default.
W3023092783 hasBestOaLocation W30230927831 @default.
W3023092783 hasConcept C100701293 @default.
W3023092783 hasConcept C134018914 @default.
W3023092783 hasConcept C140793950 @default.
W3023092783 hasConcept C147583825 @default.
W3023092783 hasConcept C204288101 @default.