Reproductive biology and energetics of the brooding sea star anasterias antarctica (Echinodermata: Asteroidea) in the beagle channel, Tierra del Fuego, Argentina

The brooding sea star Anasterias antarctica is distributed from the coast of Patagonia to the northern Peninsula of Antarctica. In the Beagle Channel, the females of A. antarctica brood their eggs for seven months and do not feed during this period. The endoparasite Dendrogaster argentinensis (Crust...

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Bibliographic Details
Main Authors: Pérez, Analía Fernanda, Fraysse, Cintia Pamela, Boy, Claudia Clementina, Epherra, Lucía, Calcagno, Javier Ángel
Format: Article in Journal/Newspaper
Language:English
Published: Universidad de Costa Rica
Subjects:
BROODING SEA STAR
ENDOPARASITE
GONAD
PYLORIC CAECA
RESERVE ORGAN
https://purl.org/becyt/ford/1.6
https://purl.org/becyt/ford/1
Patagonia
Argentina
Antarc*
Antarctica
Tierra del Fuego
Online Access:http://hdl.handle.net/11336/53130
Description
Summary:The brooding sea star Anasterias antarctica is distributed from the coast of Patagonia to the northern Peninsula of Antarctica. In the Beagle Channel, the females of A. antarctica brood their eggs for seven months and do not feed during this period. The endoparasite Dendrogaster argentinensis (Crustacea: Ascothoracica) causes castration in several species of Anasterias. We randomly collected four samplings of adults in May, August and October (brooding period) and January (non-brooding period). The gonad (GI) and pyloric caeca index (PCI) were calculated as organ wet weight (g) x 100/total wet weight (g). Each individual was sexed by microscopic examination of the gonads. Sex ratio, brooding females/non-brooding females and mature females/ non-mature females ratios was 1:1. The male GI reached maximum values in January, when most individuals were sexually mature. The GI of non-brooding females reached its maximum during October when it was significantly higher than those from brooding females. The PCI was minimum in October, being lower in brooding females (August and October). During the non-brooding period, mature females had a significantly higher GI than non-mature females. The PCI did not vary neither between males, nor between mature and non mature females. By the end of the brooding period, non-brooding females showed a higher GI than the brooding females. This is explained by proliferation and increase of the oocytes size of non-brooding females. Mature females showed an incremented GI with presence of mature oocytes, while non-mature females exhibited more abundance of previtelogenic oocytes. Males showed synchronicity in reproductive condition. The females that have not brooded presented a process of active gametogenesis, reaching the summer with a high GI, therefore becoming mature females. Females that had brooded were probably lacking energy for new gonadal maturation. The pyloric caeca would be performing the role of a reserve organ in the brooding females, decreasing its size during the brooding ...

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