Family Idoteidae

17 p. : ill. ; 26 cm.Includes bibliographical references (p. 15-17)."The valviferan isopods of the Gulf of California are reviewed, including eight species in four genera. One rediscovered species (Eusymmerus antennatus) and two new species (Colidotea findleyi and Erichsonella cortezi) are fully described. Two of the Gulf idoteids appear to be of subtropical or tropical origin (Eusymmerus antennatus and Colidotea findleyi), whereas the others appear to be cold or warm temperate derived species (Erichsonella cortezi, Idotea aculeata, I. urotoma, I. stenops, I. resecata, and I. wosnesenskii). These findings suggest, as other distributional data have, that the family Idoteidae is composed largely of cool to warm temperate-centered taxa, with few modern genera and species having evolved in the lower latitudes (e.g., Eusymmerus, Colidotea, and some species of Erichsonella). Members of this family, in the tropical and subtropical east Pacific, are generally found in association with littoral and shallow-water algae, especially species of Sargassum. Four species of Idotea are extremely wide-ranging forms, suggesting that members of this genus may be considerably more eurythermal than previously suspected. Idotea wosnesenskii and I. resecata range from the Gulf of California to Alaska; I. stenops ranges from Baja California (or possibly the Gulf of California) to Oregon; and I. urotoma ranges from the Gulf of California to Puget Sound"--P. [1]

Functional Changes in the Snail Statocyst System Elicited by Microgravity

BACKGROUND: The mollusk statocyst is a mechanosensing organ detecting the animal's orientation with respect to gravity. This system has clear similarities to its vertebrate counterparts: a weight-lending mass, an epithelial layer containing small supporting cells and the large sensory hair cells, and an output eliciting compensatory body reflexes to perturbations. METHODOLOGY/PRINCIPAL FINDINGS: In terrestrial gastropod snail we studied the impact of 16- (Foton M-2) and 12-day (Foton M-3) exposure to microgravity in unmanned orbital missions on: (i) the whole animal behavior (Helix lucorum L.), (ii) the statoreceptor responses to tilt in an isolated neural preparation (Helix lucorum L.), and (iii) the differential expression of the Helix pedal peptide (HPep) and the tetrapeptide FMRFamide genes in neural structures (Helix aspersa L.). Experiments were performed 13-42 hours after return to Earth. Latency of body re-orientation to sudden 90° head-down pitch was significantly reduced in postflight snails indicating an enhanced negative gravitaxis response. Statoreceptor responses to tilt in postflight snails were independent of motion direction, in contrast to a directional preference observed in control animals. Positive relation between tilt velocity and firing rate was observed in both control and postflight snails, but the response magnitude was significantly larger in postflight snails indicating an enhanced sensitivity to acceleration. A significant increase in mRNA expression of the gene encoding HPep, a peptide linked to ciliary beating, in statoreceptors was observed in postflight snails; no differential expression of the gene encoding FMRFamide, a possible neurotransmission modulator, was observed. CONCLUSIONS/SIGNIFICANCE: Upregulation of statocyst function in snails following microgravity exposure parallels that observed in vertebrates suggesting fundamental principles underlie gravi-sensing and the organism's ability to adapt to gravity changes. This simple animal model offers the possibility to describe general subcellular mechanisms of nervous system's response to conditions on Earth and in space

Isopoda Cymothoidae (Crustacea) of the Gulf of California

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Unraveling the History of Arthropod Biodiversification

Volume: 87Start Page: 13End Page: 2

Phylogeny, evolution and biogeography of the marine isopod subfamily Idoteinae (Crustacea: Isopoda: Idoteidae)

Volume: 20Start Page: 99End Page: 13