បង្ហាញកំណត់ត្រាសាមញ្ញសម្រាប់ធាតុ

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dc.contributor.authorTendencia, Eleonor
dc.contributor.authordela Peña, Milagros R.
dc.contributor.authorChoresca, Casiano H., Jr.
dc.date.accessioned2014-05-15T01:42:32Z
dc.date.available2014-05-15T01:42:32Z
dc.date.issued2006
dc.identifier.citationTendencia, E. A., dela Peña, M. R., & Choresca Jr., C. H. (2006). Effect of shrimp biomass and feeding on the anti-Vibrio harveyi activity of Tilapia sp. in a simulated shrimp–tilapia polyculture system. Aquaculture, 253(1-4), 154-162.en
dc.identifier.issn0044-8486
dc.identifier.urihttp://hdl.handle.net/10862/2051
dc.description.abstractThe efficiency of Tilapia hornorum to control luminous bacteria in a simulated shrimp farm environment has been reported. However, the effects of different factors such as feed input and the shrimp biomass were not taken into consideration. This study investigated the effect of feeding and increased shrimp biomass on the efficiency of tilapia to inhibit the growth of luminous bacteria. Results showed that feeding enhances the antibacterial activity or improves the efficiency of tilapia to inhibit the growth of luminous bacteria. However, the efficiency of tilapia at a biomass of 500 g/m3 is reduced if the shrimp biomass is greater than 80 g/m3. This explains the discrepancies in the results obtained in the use of tilapia to control luminous bacterial disease in shrimp ponds. The effect of starvation on the bacterial load of tilapia, grouper and milkfish feces and the amount of feces in the intestine was also investigated. Results showed that total bacterial and presumptive Vibrio count of fish feces decreased after 1 week of starvation except for the presumptive Vibrio count of grouper. The amount of feces in the intestine also decreased as starvation progressed. Moreover, bacteria isolated from the three species have antibacterial activity against the luminous bacteria Vibrio harveyi.en
dc.description.sponsorshipThe authors wish to thank the Government of Japan for funding the study under the trust fund granted to SEAFDEC AQD (study code: 6251-300-60); and SEAFDEC AQD under study code FH 07 C2001T.en
dc.language.isoenen
dc.publisherElsevieren
dc.subjectLuminous bacteriaen
dc.subjecttilapiaen
dc.titleEffect of shrimp biomass and feeding on the anti-Vibrio harveyi activity of Tilapia sp. in a simulated shrimp–tilapia polyculture systemen
dc.typeArticleen
dc.citation.volume253
dc.citation.issue1-4
dc.citation.spage154
dc.citation.epage162
dc.citation.journalTitleAquacultureen
dc.subject.asfaaquaculture developmenten
dc.subject.asfabacterial diseasesen
dc.subject.asfabiomassen
dc.subject.asfadisease controlen
dc.subject.asfafeeding behaviouren
dc.subject.asfafish cultureen
dc.subject.asfafish diseasesen
dc.subject.asfafreshwater crustaceansen
dc.subject.asfafreshwater fishesen
dc.subject.asfaintestinesen
dc.subject.asfapolyculture (aquaculture)en
dc.subject.asfashrimp cultureen
dc.subject.asfafeedingen
dc.identifier.doi10.1016/j.aquaculture.2005.08.004
dc.subject.scientificNameTilapia hornorumen
dc.subject.scientificNameVibrio harveyien


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បង្ហាញកំណត់ត្រាសាមញ្ញសម្រាប់ធាតុ