Your search keyword '"brittle star"' showing total 10 results

1. Neuroecology beyond the brain: learning in Echinodermata.

Author

Freas, Cody A and Cheng, Ken

Subjects

*ECHINODERMATA, *SEA urchins, *NEURAL circuitry, *MARINE invertebrates, *CLASSICAL conditioning, *SEA cucumbers

Abstract

We propose an expansion of neuroecological comparisons to include the capabilities of brainless and non-neural organisms. We begin this enterprise by conducting a systematic search for studies on learning in echinoderms. Echinodermata are marine invertebrates comprising starfish, brittle stars, sea cucumbers, sea urchins, and sea lilies. Animals in this phylum lack any centralized brain and instead possess diffuse neural networks known as nerve nets. The learning abilities of these animals are of particular interest as, within the bilaterian clade, they are close evolutionary neighbors to chordates, a phylum whose members exhibit complex feats in learning and contain highly specialized brains. The learning capacities and limitations of echinoderms can inform the evolution of nervous systems and learning in Bilateria. We find evidence of both non-associative and associative learning (in the form of classical conditioning) in echinoderms, which was primarily focused on starfish. Additional evidence of learning is documented in brittle stars, sand dollars, and sea urchins. We then discuss the evolutionary significance of learning capabilities without a brain, the presence of embodied cognition across multiple groups, and compare the learning present in echinoderms with the impressive cognitive abilities documented in the oldest linage group within vertebrates (the major group within the phylum of chordates), fish. [ABSTRACT FROM AUTHOR]

Published

2022

2. Extracellular matrix gene expression during arm regeneration in Amphiura filiformis.

Author

Ferrario, Cinzia, Czarkwiani, Anna, Dylus, David Viktor, Piovani, Laura, Candia Carnevali, Maria Daniela, Sugni, Michela, and Oliveri, Paola

Subjects

*EXTRACELLULAR matrix, *GENE expression, *ARM, *IN situ hybridization, *ECHINODERMATA

Abstract

Extracellular matrix (ECM) plays a dynamic role during tissue development and re-growth. Body part regeneration efficiency relies also on effective ECM remodelling and deposition. Among invertebrates, echinoderms are well known for their striking regenerative abilities since they can rapidly regenerate functioning complex structures. To gather insights on the involvement of ECM during arm regeneration, the brittle star Amphiura filiformis was chosen as experimental model. Eight ECM genes were identified and cloned, and their spatio-temporal and quantitative expression patterns were analysed by means of whole mount in situ hybridisation and quantitative PCR on early and advanced regenerative stages. Our results show that almost none of the selected ECM genes are expressed at early stages of regeneration, suggesting a delay in their activation that may be responsible for the high regeneration efficiency of these animals, as described for other echinoderms and in contrast to most vertebrates. Moreover, at advanced stages, these genes are spatially and temporally differentially expressed, suggesting that the molecular regulation of ECM deposition/remodelling varies throughout the regenerative process. Phylogenetic analyses of the identified collagen-like genes reveal complex evolutionary dynamics with many rounds of duplications and losses and pinpointed their homologues in selected vertebrates. The study of other ECM genes will allow a better understanding of ECM contribution to brittle star arm regeneration. [ABSTRACT FROM AUTHOR]

Published

2020

3. Genetic evidence supports larval retention in the Western Caribbean for an invertebrate with high dispersal capability ( Ophiothrix suensonii: Echinodermata, Ophiuroidea).

Author

Richards, V., DeBiasse, M., and Shivji, M.

Subjects

SPONGES (Invertebrates), LARVAL ecology, GEOGRAPHICAL distribution of larvae, ECHINODERMATA populations, ECHINODERM larvae

Abstract

The brittle star Ophiothrix suensonii is a common coral reef sponge commensal with high dispersal potential. Here, we utilize COI sequence data from 264 O. suensonii individuals collected from 10 locations throughout Florida and the Caribbean to investigate dispersal dynamics and demographic history. Locations separated by up to 1,700 km lacked genetic differentiation, confirming the ability for long-range dispersal. However, significant differentiation was detected among other regions. Samples from Utila, Honduras showed the greatest differentiation, suggesting that the circulation of the Mesoamerican gyre could be a significant factor restricting gene flow in this region. Demographic analyses provided strong evidence for a population expansion, possibly out of Florida, through the Caribbean, and into Honduras, which commenced in the early Pleistocene. However, the presence of a clade of rare haplotypes, which split much earlier (mid-Pliocene), indicates that O. suensonii persisted long before its recent expansion, suggesting a cyclic history of population contraction and expansion. Finally, patterns of gene flow are not concordant with contemporary surface currents; rather, they reflect historical movements possibly linked with changes in circulation during periods of Pleistocene climate change. [ABSTRACT FROM AUTHOR]

Published

2015

4. Occurrence and distribution of cis-7-icosenoic acid in the lipids of Japanese marine fish, shellfish, and crustaceans.

Author

Nakamura, Yutarou, Fukuda, Yuuki, Shimizu, Kana, and Ando, Yasuhiro

Subjects

*MARINE fishes, *SHELLFISH, *CRUSTACEA, *LIPIDS, *FATTY acids, *ISOMERS, *MARINE animals, *GAS chromatography

Abstract

This article reports the concentration and composition of the isomers of cis-icosenoic acid (20:1) in the fatty acids of various species of Japanese marine animals. The main purpose of this study is to reveal the distribution of a positional isomer, cis-7-20:1 ( c7-20:1), in marine animals. Because this isomer overlaps with the c9-20:1 isomer in gas chromatography (GC) on the commonly used polar capillary columns, less information is available on its occurrence and distribution. In this study, the monounsaturated fatty acids isolated by argentation thin-layer chromatography were analyzed by GC using a highly polar capillary column, SLB-IL111 (100 m long), with the highest polarity among the commercially available GC columns. A clear separation between the c7-20:1 and c9-20:1 isomers enabled the analysis of all the isomers of 20:1 present in marine animals. The results confirmed that the c7 isomer was a minor component in the 20:1 in the pelagic fish, which is rich in the c9 and/or c11 isomers as reported previously. In contrast, the c7 isomer was one of the major isomers in flatfish, shellfish, crabs, and brittle stars. In these samples, the c13 isomer also occurred at higher concentrations rather than the c9 isomer. Because such a specific pattern of the 20:1 positional isomers was generally observed in both benthic fish and its dietary animals, the c7 isomer in the benthic fish probably originated from its diet. These marine animals are used as food in Japan, and therefore the c7-20:1 isomer is consumed by humans. [ABSTRACT FROM AUTHOR]

Published

2014

5. The occurrence of Ophiocnemis marmorata (Echinodermata: Ophiuroidea) associated with the rhizostome medusa Rhopilema hispidum (Cnidaria: Scyphozoa).

Author

Kanagaraj, Govindan, Kumar, Pithchai, and Morandini, André

Abstract

The association of scyphomedusae with invertebrates has been long known in the literature; especially with hyperiids amphipods. The association of echinoderms with jellyfish is not common and rarely recorded. We reported the association of the ophiuroid Ophiocnemis marmorata with the rhizostome scyphomedusa Rhopilema hispidum collected in Vellar estuary (on the southeast coast of India). O. marmorata is supposed to be a filter feeding ophiuroid, quite common in soft bottom of shallow waters. The brittle stars possibly seek for food supply, shelter and protection through the association. [ABSTRACT FROM AUTHOR]

Published

2008

6. Development of the nervous system in the brittle star Amphipholis kochii.

Author

Hirokawa, Taiji, Komatsu, Miéko, and Nakajima, Yoko

Subjects

*LARVAE, *IMMUNOHISTOCHEMISTRY, *OPHIURIDA, *NEUROANATOMY, *ECHINODERMATA, *INVERTEBRATES, *DEVELOPMENTAL biology, *NERVOUS system, *ANIMAL morphology

Abstract

There are several studies of neural development in various echinoderms, but few on ophiuroids, which develop indirectly via the production of pluteus larvae, as do echinoids. To determine the extent of similarity of neuroanatomy and neural development in the ophiuroids with other echinoderm larvae, we investigated the development of the nervous system in the brittle star Amphipholis kochii (Echinodermata: Ophiuroidea) by immunohistochemistry. Immunoreactive cells first appeared bilaterally in the animal pole at the late gastrula stage, and there was little migration of the neural precursors during A. kochii ontogeny, as is also the case in echinoids and holothuroids. On the other hand, neural specification in the presumptive ciliary band near the base of the arms does occur in ophiuroid larvae and is a feature they share with echinoids and ophiuroids. The ophiopluteus larval nervous system is similar to that of auricularia larvae on the whole, including the lack of a fine network of neurites in the epidermis and the presence of neural connections across the oral epidermis. Ophioplutei possess a pair of bilateral apical organs that differ from those of echinoid echinoplutei in terms of relative position. They also possess coiled cilia, which may possess a sensory function, but in the same location as the serotonergic apical ganglia. These coiled cilia are thought to be a derived structure in pluteus-like larvae. Our results suggest that the neural specification in the animal plate in ophiuroids, holothuroids, and echinoids is a plesiomorphic feature of the Ambulacraria, whereas neural specification at the base of the larval arms may be a more derived state restricted to pluteus-like larvae. [ABSTRACT FROM AUTHOR]

Published

2008

7. High level of 6,9,12,15,18,21-tetracosahexaenoic acid found in lipids of Ophiuroidea Ophiura sarsi Lütken.

Author

Kawasaki, Ken-Ichi, Nabeshima, Yukako Ito, Ishihara, Kenji, Kaneniwa, Masaki, and Ooizumi, Tooru

Subjects

*OPHIURIDA, *LIPIDS, *FATTY acids

Abstract

Discusses a study which determined the 6, 9, 12, 15, 18, 21-tetracosahexaenoic acid contained in the lipids of the brittle star Ophiura sarsi Lutken. Samples and methodology; Results of the study.

Published

2000

8. Genetic structure of populations of two closely related brittle stars with contrasting sexual and asexual life histories, with observations on the genetic structure of a second asexual species

Author

Mladenov, P. V. and Emson, R. H.

Subjects

GENETICS

Published

1990

9. Sea anemones and brittle stars: unexpected predatory interactions during induced in situ oxygen crises

Author

Bettina Riedel, Michael Stachowitsch, and Martin Zuschin

Subjects

0106 biological sciences, Cnidaria, biology, Calliactis parasitica, Ecology, 010604 marine biology & hydrobiology, Interspecific competition, Aquatic Science, biology.organism_classification, Hermit crab, 010603 evolutionary biology, 01 natural sciences, Predation, Benthic zone, Brittle star, 14. Life underwater, Coelenterata, Ecology, Evolution, Behavior and Systematics

Abstract

During oxygen crises, benthic faunas exhibit a series of behavioural patterns that reflect the duration and severity of the event. During artificially induced oxygen deficiencies at 24 m depth in the Northern Adriatic Sea, we photographically documented predation by the sea anemones Cereus pedunculatus (Pennant, 1777) and Calliactis parasitica (Couch, 1842) on the brittle star Ophiothrix quinquemaculata (DelleChiaje, 1828). Five predatory events were recorded with four anemones during nine deployments totalling 817 h of observation. Under near-anoxic conditions, individuals of both actinians made contact with, pulled in and consumed the brittle stars. The duration of each predatory event was 1.5–7.5 h. In three of the five events, brittle star remains were regurgitated after an additional 2.0–12.5 h of digestion by the anemones. Our time-lapse sequences demonstrate that oxygen deficiency, beyond eliciting a series of specific behaviours in members of each species, also promotes previously unobserved interspecific interactions. Our results show that sea anemones are not only highly resistant to anoxia, but may also benefit by taking advantage of prey that are more vulnerable to anoxic conditions.

10. Large-scale gene expression study in the ophiuroid Amphiura filiformis provides insights into evolution of gene regulatory networks

Author

Josefine Stångberg, Sam Dupont, Olga Ortega-Martinez, Paola Oliveri, Anna Czarkwiani, and David Dylus

Subjects

0301 basic medicine, Evolution, lcsh:Evolution, Gene regulatory network, Context (language use), 03 medical and health sciences, Brittle star, Phylogenetics, biology.animal, lcsh:QH359-425, Genetics, Amphiura filiformis, Sea urchin, Ecology, Evolution, Behavior and Systematics, Skeleton, Regulator gene, biology, Research, biology.organism_classification, 030104 developmental biology, Echinoderm, Evolutionary biology, Developmental Biology, Echinoderms

Abstract

Background The evolutionary mechanisms involved in shaping complex gene regulatory networks (GRN) that encode for morphologically similar structures in distantly related animals remain elusive. In this context, echinoderm larval skeletons found in brittle stars and sea urchins provide an ideal system. Here, we characterize for the first time the development of the larval skeleton in the ophiuroid Amphiura filiformis and compare it systematically with its counterpart in sea urchin. Results We show that ophiuroids and euechinoids, that split at least 480 Million years ago (Mya), have remarkable similarities in tempo and mode of skeletal development. Despite morphological and ontological similarities, our high-resolution study of the dynamics of genetic regulatory states in A. filiformis highlights numerous differences in the architecture of their underlying GRNs. Importantly, the A.filiformispplx, the closest gene to the sea urchin double negative gate (DNG) repressor pmar1, fails to drive the skeletogenic program in sea urchin, showing important evolutionary differences in protein function. hesC, the second repressor of the DNG, is co-expressed with most of the genes that are repressed in sea urchin, indicating the absence of direct repression of tbr, ets1/2, and delta in A. filiformis. Furthermore, the absence of expression in later stages of brittle star skeleton development of key regulatory genes, such as foxb and dri, shows significantly different regulatory states. Conclusion Our data fill up an important gap in the picture of larval mesoderm in echinoderms and allows us to explore the evolutionary implications relative to the recently established phylogeny of echinoderm classes. In light of recent studies on other echinoderms, our data highlight a high evolutionary plasticity of the same nodes throughout evolution of echinoderm skeletogenesis. Finally, gene duplication, protein function diversification, and cis-regulatory element evolution all contributed to shape the regulatory program for larval skeletogenesis in different branches of echinoderms. Electronic supplementary material The online version of this article (doi:10.1186/s13227-015-0039-x) contains supplementary material, which is available to authorized users.