Search results for " Sea Cucumbers"

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Echinodermata: The complex immune system in echinoderms

2018

View references (418) The Echinodermata are an ancient phylum of benthic marine invertebrates with a dispersal-stage planktonic larva. These animals have innate immune systems characterized initially by clearance of foreign particles, including microbes, from the body cavity of both larvae and adults, and allograft tissue rejection in adults. Immune responsiveness is mediated by a variety of adult coelomocytes and larval mesenchyme cells. Echinoderm diseases from a range of pathogens can lead to mass die-offs and impact aquaculture, but some individuals can recover. Genome sequences of several echinoderms have identified genes with immune function, including expanded families of Toll-like r…

0301 basic medicineImmunoglobulin geneProteomicsSea CucumbersAntimicrobial peptidesDiseasesImmune responsesBiologySenescenceImmune development03 medical and health sciences0302 clinical medicineImmune systemAsteroideaAsteroidea Brittle stars Coelomocytes Crinoidea Diseases Echinoidea Genomics Holothuroidea Immune development Immune responses Immuno-toxicology Larval immune cells Ophiuroidea Proteomics Sea cucumbers Sea lilies Sea stars Sea urchins SenescenceApostichopus JaponicusSea cucumbersAsteroidea; Brittle stars; Coelomocytes; Crinoidea; Diseases; Echinoidea; Genomics; Holothuroidea; Immune development; Immune responses; Immuno-toxicology; Larval immune cells; Ophiuroidea; Proteomics; Sea cucumbers; Sea lilies; Sea stars; Sea urchins; SenescenceCrinoideaSea starsHolothuroideaOphiuroideaSea urchinsInnate immune systemCoelomocytesfungiLarval immune cellsSea liliesChemotaxisEchinoideaMarine invertebratesGenomicsbiology.organism_classificationComplement systemCell biology030104 developmental biologyEchinodermBrittle starsCoelomocytes Apostichopus Japonicus Sea CucumbersImmuno-toxicology030217 neurology & neurosurgery
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Correction to: Echinodermata: The complex immune system in echinoderms (Advances in Comparative Immunology, 10.1007/978-3-319-76768-0_13)

2018

This chapter was inadvertently published with an incorrect spelling of the author's name as V. Arriza whereas it should be V. Arizza. In addition to this the affiliation of one of the chapter authors Elisse Sutton was published incorrectly and it has now been corrected to read as Department of Biological Sciences, Macquarie University, Sydney, NSW, Australia.

Asteroidea Brittle stars Coelomocytes Crinoidea Diseases Echinoidea Genomics Holothuroidea Immune development Immune responses Immuno-toxicology Larval immune cells Ophiuroidea Proteomics Sea cucumbers Sea lilies Sea stars Sea urchins SenescenceSettore CHIM/03 - Chimica Generale E InorganicaSettore BIO/05 - ZoologiaSettore BIO/19 - Microbiologia Generale
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Stable isotope and fatty acid analysis reveal the ability of sea cucumbers to use fish farm waste in integrated multi-trophic aquaculture

2022

Stable isotope ratios, carbon (δ13C) and nitrogen (δ15N), and fatty acids validated the trophic connection between farmed fish in a commercial nearshore fish farm and sea cucumbers in the Mediterranean Sea. This dual tracer approach evaluated organic matter transfer in integrated multi-trophic aquaculture (IMTA) and the ability of sea cucumbers to incorporate fish farm waste (fish faeces and uneaten artificial fish feed) into their tissue. Between October 2018 and September 2019, Holothuria (Roweothuria) poli Delle Chiaje, 1824, co-cultured at IMTA sites directly below one of the commercial fish cage , at 10 m and 25 m from the selected fish cage, and at two reference sites over 800 m from …

Environmental EngineeringStable isotopes Fatty acids Sea cucumbers Integrated multi-trophic aquaculture Organic matter transferIsotopesSea CucumbersFatty AcidsFisheriesFishesAnimalsGeneral MedicineAquacultureManagement Monitoring Policy and LawWaste Management and Disposal
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