Application of the thermal time model of embryonic development duration to the culture of octopod cephalopods

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datacite.alternateIdentifier.citationAquaculture Reports, Vol.30, 101563-101563, 2023.
datacite.alternateIdentifier.doi10.1016/j.aqrep.2023.101563
datacite.alternateIdentifier.issn2352-5134
datacite.creatorMarquez, Lorenzo
datacite.creatorMartin, M. Virginia
datacite.creatorLarson, Majorie
datacite.creatorAlmansa, Eduardo
datacite.date2023
datacite.rightsRegistro Bibliográfico
datacite.subjectTemperatura de Incubación
datacite.subjectTiempo Térmico
datacite.subjectLongitud del Desarrollo Embrionario
datacite.subjectTasa de Desarrollo
datacite.subjectCefalópodos Octópodos
datacite.subject.englishIncubation temperature
datacite.subject.englishThermal time
datacite.subject.englishEmbryonic development length
datacite.subject.englishDevelopment rate
datacite.subject.englishOctopod cephalopods
datacite.titleApplication of the thermal time model of embryonic development duration to the culture of octopod cephalopods
dc.date.accessioned5/27/24 14:26
dc.date.available5/27/24 14:26
dc.description.abstractData about the effect of temperature on the duration of embryonic development, or the incubation process, are relatively abundant for octopod cephalopods. Experimental data can be used to fit the thermal time classic model of development in order to predict the duration of the process and the range of temperatures within which development proceeds according to the model and with high survival (permissive range), with potential applications for basic research and production activities. The present work is aimed at fitting this classical model to fourteen data sources dealing with eleven species of octopods, seven of them not being previously analyzed, and discussing the constraints and applications of the model. As a result, it is possible to hold that the thermal time model of development duration suitably fits experimental data in octopods, and can be used to schedule hatching events in a production facility. Nevertheless, the range of temperatures tested in the literature is usually too limited to allow an appropriate estimation of the permissive range, so an extension of the temperature range to the known limits of each species is suggested. In addition, when the model is applied to whole spawnings with culture purposes, it is recommended to set the very first hatchings as the criterion for the end of the incubation. Further research is needed to ascertain if temperature fluctuations within and/or out of the permissive range can have implications for the parameterization of the model in octopod species.
dc.identifier.issn2352-5134
dc.identifier.urihttps://repositoriodigital.uct.cl/handle/10925/5656
dc.language.isoen
dc.publisherElsevier
dc.sourceAquaculture Reports
dspace.entity.typePublication
oaire.citationEdition2023
oaire.citationEndPage101563
oaire.citationStartPage101563
oaire.citationTitleAquaculture Reports
oaire.citationVolume30
oaire.fundingReferenceEuropean Maritime and Fisheries Fund - EMFF
oaire.licenseConditionObra bajo licencia Creative Commons Atribución-No Comercial-Sin Derivadas 4.0 Internacional
oaire.licenseCondition.urihttps://creativecommons.org/licenses/by-nc-nd/4.0/deed.es
oaire.resourceTypeArtículo
oaire.resourceType.enArticle
uct.catalogadorjvu
uct.comunidadRecursos Naturalesen_US
uct.departamentoDepartamento de Ciencias Agropecuarias y Acuícolas
uct.facultadFacultad de Recursos Naturales
uct.indizacionScience Citation Index Expanded - SCIE
uct.indizacionSCOPUS
uct.indizacionWOS
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