4 research outputs found
Preliminary Results on Light Conditions Manipulation in Octopus vulgaris (Cuvier, 1797) Paralarval Rearing
High paralarvae mortality is a major bottleneck currently hindering the control over the lifecycle of common octopus (Octopus vulgaris Cuvier, 1797). It is believed that this problem might be related to either zoo-technical and/or nutritional aspects. The present paper is focused on the study of different zoo-technical aspects related to light conditions on the rearing of paralarvae, including the effects of polarization in prey ingestion, the use of a blue filter to simulate natural conditions, and the use of focused light to avoid reflections of the rearing tank’s walls. In the first experiment, O. vulgaris paralarvae ingestion of Artemia sp. and copepods (Tisbe sp.) was assessed under either normal or polarized light. In the second experiment, the effect of a blue filter with natural light or focused artificial light on growth and mortality was assessed over 15 days of rearing. Ingestion rate was not influenced by light polarization. Nonetheless, a significantly higher ingestion of Artemia sp. with respect to copepods was observed. The blue filter promoted the use of natural light conditions in Octopus paralarval culture, while focused light reduced the collision of the paralarvae against the walls. However, no significant differences were found in paralarval growth nor survivalEn prens
Preliminary Results on Light Conditions Manipulation in Octopus vulgaris (Cuvier, 1797) Paralarval Rearing.
High paralarvae mortality is a major bottleneck currently hindering the control over the
lifecycle of common octopus (Octopus vulgaris Cuvier, 1797). It is believed that this problem might be
related to either zoo-technical and/or nutritional aspects. The present paper is focused on the study
of different zoo-technical aspects related to light conditions on the rearing of paralarvae, including
the effects of polarization in prey ingestion, the use of a blue filter to simulate natural conditions,
and the use of focused light to avoid reflections of the rearing tank’s walls. In the first experiment,
O. vulgaris paralarvae ingestion of Artemia sp. and copepods (Tisbe sp.) was assessed under either
normal or polarized light. In the second experiment, the effect of a blue filter with natural light or
focused artificial light on growth and mortality was assessed over 15 days of rearing. Ingestion rate
was not influenced by light polarization. Nonetheless, a significantly higher ingestion of Artemia sp.
with respect to copepods was observed. The blue filter promoted the use of natural light conditions
in Octopus paralarval culture, while focused light reduced the collision of the paralarvae against the
walls. However, no significant differences were found in paralarval growth nor survival