Your search keyword '"Souto, Camilla"' showing total 11 results

1. Morphological characterization of anterior axial bifurcation in Holothuria (Halodeima) grisea and other puzzling occurrences in Holothuroidea.

Author

Rupp, Guilherme Sabino, Martins, Luciana, Souto, Camilla, Hamel, Jean‐François, and Mercier, Annie

Subjects

ECHINODERMATA, PHARYNX, TOMOGRAPHY, ADULTS, COASTS, SEA cucumbers

Abstract

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Published

2024

2. Taxonomy, Phylogeny and Paleobiogeography of the Cassiduloid Echinoids

Author

Alves Souto, Camilla

Subjects

Evolution & development, Zoology, Paleontology, Biodiversity, Biogeography, Cladistic, Echinodermata, Echinoidea, Macroevolution

Abstract

Cassiduloids are rare and poorly known irregular echinoids, which include the sand dollars and heart urchins, that typically live buried in the sediment, where they feed on small organic particles. Cassiduloids evolved during the Marine Mesozoic Revolution, but despite their rich fossil record, species richness (diversity) is very low. The goal of this thesis is to improve our taxonomic knowledge of the group, propose hypotheses of relationship among its representatives and analyze their patterns of geographic distribution through time, thereby contributing to our understanding of their evolutionary history.In the first chapter , I used synchrotron radiation-based micro-computed tomography (SRµCT) images of type specimens to describe a new Cassidulus species and a new cassiduloid genus that could not have been discovered with traditional techniques. I also designate a neotype for the type species of the genus Cassidulus, Cassidulus caribaearum, provide remarks on the taxonomic history of each taxon, a diagnostic table of all living cassidulid species, and extend the known geographic and bathymetric range of two species. Besides rendering novel morphological data, the SRµCT images provided significant insights in the evolution of bourrelets of these cassiduloid echinoids. However, determining how the bourrelets have evolved, as well as the evolution of all the cassiduloid traits, requires a phylogenetic framework of the group.Therefore, in the second chapter, I reconstructed the phylogeny of the cassidulids using morphological characters and inferred their patterns of geographical distribution through time. Because morphological and geographic histories are erased by extinctions, unraveling phylogenetic relationships and biogeographic patterns based on only the living species can be challenging, especially for groups that have experienced extensive extinction such as the cassiduloids. Studies have shown that fossil taxa generally improve phylogenetic resolution because of their unique morphological information that have often been modified in Recent species. Thus, inclusion of fossils can be critical to addressing evolutionary questions. Surprisingly for marine invertebrates, there are relatively few studies that have included fossils in their phylogenetic and biogeographic analyses. I performed a cladistic analysis of 45 cassidulids based on 98 characters, which resulted in 24 most-parsimonious trees. The monophyly of the family Cassidulidae was not supported because the genera Eurhodia and Glossaster were placed within the family Faujasiidae. Analyses to determine the sensitivity of the resulting clades to missing data did not result in significantly different topologies or resolution of the tree, but the coding of partial uncertainties changed the relationship within some subclades (particularly within genera). The taxonomic implications of these results and the evolution of some morphological features are discussed. The evolutionary history of the cassiduloids has been dominated by high levels of homoplasy and a dearth of unique novel traits. The cassiduloids (as defined in this study) most likely originated in the Early Cretaceous (oldest records from the Aptian), and no conspicuous novelties were added during their evolution. Biogeographically, a time-stratified DEC model with range constraints indicates that the cassidulids had a south Tethyan and northwest Atlantic origin probably dating back to the Late Cretaceous (Campanian–Maastrichtian) or Paleocene. Most cassiduloids are endemic to small regions and their evolution has mostly been influenced by dispersal rather than vicariant events. Speciation occurred mainly within the northwest Atlantic during the Late Paleocene to the early Eocene. Despite their high diversity during the Paleogene, cassidulids and faujasiids have only seven extant species, and three of them are relicts of lineages that date back to the Eocene. Future studies of the biology of these poorly known species, some of which brood their young, will yield further insights into the evolutionary history of this group.While the first two chapters focused on cassiduloids, the third chapter is a broader macroevolutionary study of the echinoids. Specifically, I performed an analysis of how their genus richness (diversity) has changed since their appearance in the fossil record and estimated the turnover rates (origination and extinction) throughout their evolutionary history. The ability to document macroevolutionary trends has been accelerated by the development of free-access online databases. However, despite their undeniable benefit to research, these databases are not free from error and their data need to be checked on a regular basis. Therefore, with the goal of analyzing the echinoid’s diversity dynamics since their appearance in the fossil record, I assess the quality of the echinoid entries in the Paleobiology Database (PBDB), correct errors and improve the dataset by including missing information. Assessments of data quality included cross-referencing classifications and checking stratigraphic ranges and synonymies against the literature. The entries in the PBDB were derived from 1,100 references and include ~9,500 occurrences representing 445 genera, about 65% of all valid echinoid genera. Fifty percent of the occurrences were from Europe and the USA, and 41% percent were from the Cretaceous. Genus classifications were mostly outdated and some species were misclassified. Diversity curves were then generated using three different methods to account for preservation and sampling biases. Overall, the echinoid data from the PDBD reflected major trends known for the evolution of the class (e.g. increased diversification during the Marine Mesozoic Revolution) and recovered extinction events that have affected all marine biota (e.g. the end-Cretaceous mass extinction). However, spatial, temporal and taxonomic biases exist, so we need to be mindful of these when analyzing the data. The fossil record of the echinoids dates back to the Middle Ordovician. Although affected by mass extinctions, the group’s diversity has been steadily increasing since the origin of the irregular echinoids in the Mesozoic. In addition to the echinoid diversity curve and turnover rates, contrasting and similar diversity trajectories for closely related major echinoid clades are also presented.

Published

2018

3. Worms and gills, plates and spines: the evolutionary origins and incredible disparity of deuterostomes revealed by fossils, genes, and development.

Author

Nanglu, Karma, Cole, Selina R., Wright, David F., and Souto, Camilla

Subjects

STARFISHES, REGULATOR genes, FOSSILS, WORMS, GILLS, PHARYNGEAL muscles

Abstract

Deuterostomes are the major division of animal life which includes sea stars, acorn worms, and humans, among a wide variety of ecologically and morphologically disparate taxa. However, their early evolution is poorly understood, due in part to their disparity, which makes identifying commonalities difficult, as well as their relatively poor early fossil record. Here, we review the available morphological, palaeontological, developmental, and molecular data to establish a framework for exploring the origins of this important and enigmatic group. Recent fossil discoveries strongly support a vermiform ancestor to the group Hemichordata, and a fusiform active swimmer as ancestor to Chordata. The diverse and anatomically bewildering variety of forms among the early echinoderms show evidence of both bilateral and radial symmetry. We consider four characteristics most critical for understanding the form and function of the last common ancestor to Deuterostomia: Hox gene expression patterns, larval morphology, the capacity for biomineralization, and the morphology of the pharyngeal region. We posit a deuterostome last common ancestor with a similar antero‐posterior gene regulatory system to that found in modern acorn worms and cephalochordates, a simple planktonic larval form, which was later elaborated in the ambulacrarian lineage, the ability to secrete calcium minerals in a limited fashion, and a pharyngeal respiratory region composed of simple pores. This animal was likely to be motile in adult form, as opposed to the sessile origins that have been historically suggested. Recent debates regarding deuterostome monophyly as well as the wide array of deuterostome‐affiliated problematica further suggest the possibility that those features were not only present in the last common ancestor of Deuterostomia, but potentially in the ur‐bilaterian. The morphology and development of the early deuterostomes, therefore, underpin some of the most significant questions in the study of metazoan evolution. [ABSTRACT FROM AUTHOR]

Published

2023

4. Exploring the macrostructural anatomy of dendrochirotid sea cucumber's (Echinodermata) calcareous rings under micro‐computed tomography and its bearing on phylogeny.

Author

Martins, Luciana, Souto, Camilla, and Tavares, Marcos

Subjects

*ECHINODERMATA, *ANATOMY, *CLADISTIC analysis, *PHYLOGENY, *TOMOGRAPHY, *APOSTICHOPUS japonicus, *SEA cucumbers

Abstract

Despite descending from heavily calcified ancestors, the holothuroid skeleton is fully internal and composed of microscopic ossicles and a ring of plates bound by connective tissue, the calcareous ring. The calcareous ring exhibits a complex and poorly understood morphology; as a result, establishing unambiguous homology statements about its macrostructure has been challenging and phylogenetic studies have had to simplify this important structure. Here, we provide the first broad comparative study of Dendrochirotida calcareous rings using micro‐computed tomography (μCT). A detailed description of the three‐dimensional macrostructure of the calcareous ring of 10 sea cucumber species, including rare and type specimens, is presented. The structures observed were highly variable at the subfamily level, especially at the point of tissue attachment. The relationship between the calcareous ring and its associated organs, and their functional morphology are discussed. To aid future phylogenetic studies, we listed 22 characters and performed a preliminary cladistic analysis. The topology obtained supports the idea that the simple, cucumariid ring is ancestral to the mosaic‐like phyllophorid ring; however, it did not support the monophyly of the cucumariids. It also did not support the family Sclerodactylidae, which was described based on the ring morphology. Differently from the dermal ossicles, which are highly homoplastic, the general homoplasy index of the calcareous ring characters was relatively low. This result highlights the importance of this structure for phylogenetic inference. Unfortunately, time since collection, rough collection methods and fixation can damage the skeleton, and the calcareous ring is often overlooked in taxonomic descriptions. The data presented here will improve our understanding of holothuroid relationships and facilitate studies on holothuroid functional morphology and biomechanics. [ABSTRACT FROM AUTHOR]

Published

2021

5. Taxonomy of the Brazilian Apodida (Holothuroidea), with the description of two new genera.

Author

Martins, Luciana and Souto, Camilla

Subjects

*BIOLOGICAL classification, *TAXONOMY, *CONTINENTAL shelf, *CALCAREOUS soils, *SEA cucumbers, *SPECIES distribution

Abstract

Here, we review the taxonomy of the Apodida species from the Brazilian coast and oceanic islands. Eleven species are reported, four Chiridotidae (including Chantalia conandae gen. et sp. nov.) and seven Synaptidae (including Yemoja gen. nov.). Chantalia conandae gen. et sp. nov. is a shallow-water species diagnosed by having 12 tentacles, 4–6 Polian vesicles and vase-shaped ciliated funnels along the mesenteries, and by lacking a calcareous ring, sensory cups and ossicles. Based on the morphology of the calcareous ring (dumbbell-shaped plates) and of the tentacles (12, simple), we propose the new genus Yemoja gen. nov. to accommodate Leptosynapta brasiliensis (Yemoja brasiliensis comb. nov.). To date, there are no records of Myriotrochidae in Brazil. In addition to species descriptions and photographs, we provide novel data on the calcareous ring stereom and a discussion about the calcareous ring morphology in Apodida, an identification key for the Brazilian species, a synoptic table with morphological characteristics of the Brazilian genera, and a synoptic table comparing the ossicleless Apodida genera. Finally, we provide the geographic and bathymetric distribution of the Apodida species reported for the South Atlantic and adjacent Southern Ocean. Based on our compendium, the Synaptidae is most diverse in warmer waters, while the Myriotrochidae is most diverse in colder waters. Also, the Atlantic coasts of South America and Africa have a surprisingly low with their adjacent Antarctic waters. We expect that dedicated holothuroid research will greatly increase the diversity of Apodida throughout the South Atlantic Ocean, especially off the continental shelf. [ABSTRACT FROM AUTHOR]

Published

2020

6. Homoplasy and extinction: the phylogeny of cassidulid echinoids (Echinodermata).

Author

Souto, Camilla, Mooi, Rich, Martins, Luciana, Menegola, Carla, and Marshall, Charles R

Subjects

*CLADISTIC analysis, *HOMOPLASY, *ECHINODERMATA, *PHYLOGENY, *BIOLOGICAL extinction

Abstract

Inclusion of fossils can be crucial to address evolutionary questions, because their unique morphology, often drastically modified in recent species, can improve phylogenetic resolution. We performed a cladistic analysis of 45 cassidulids with 98 characters, which resulted in 24 most parsimonious trees. The strict consensus recovers three major cassiduloid clades, and the monophyly of the family Cassidulidae is not supported. Ancillary analyses to determine the sensitivity of the phylogeny to missing data do not result in significantly different topologies. The taxonomic implications of these results, including the description of a new cassiduloid family and the evolution of some morphological features, are discussed. Cassiduloids (as defined here) most probably originated in the Early Cretaceous, and their evolutionary history has been dominated by high levels of homoplasy and a dearth of unique, novel traits. Despite their high diversity during the Palaeogene, there are only seven extant cassiduloid species, and three of these are relicts of lineages dating back to the Eocene. Future studies of the biology of these poorly known species, some of which brood their young, will yield further insights into the evolutionary history of this group. [ABSTRACT FROM AUTHOR]

Published

2019

7. Taxonomic remarks on Havelockia and Thyone (Echinodermata: Holothuroidea: Dendrochirotida), with descriptions of two new species from the Brazilian coast.

Author

Martins, Luciana and Souto, Camilla

Abstract

Thyone and Havelockia are worldwide-distributed genera represented in the Western Atlantic by eight and three species, respectively. In this paper, we describe two new shallow-water species from the Brazilian coast: Thyone waltinhoi sp. nov. and Havelockia oraneae sp. nov. These genera are very similar morphologically but the presence of subdivisions in their calcareous rings separates them into different families, Thyone in Phyllophoridae and Havelockia in Sclerodactylidae. To observe the presence of subdivisions, we submerged the calcareous rings in an iodine solution prior to morphological analyses. Thyone waltinhoi sp. nov. differs from its Western Atlantic congeners in its dermal ossicles and Havelockia oraneae sp. nov. differs from its South-western Atlantic congeners in the composition of its introvert ossicles. In addition to species descriptions, illustrations and morphological diagnoses of both genera are provided, along with a synoptic table of their Western Atlantic species, and a discussion of the taxonomic significance of the dermal ossicles and the calcareous ring. [ABSTRACT FROM AUTHOR]

Published

2019

8. Giving up on elaborate dermal ossicles: a new genus of ossicleless Apodida (Holothuroidea).

Author

Souto, Camilla, Martins, Luciana, and Menegola, Carla

Abstract

In this paper we describe a new genus and a new species of Chiridotidae based on specimens collected in shallow water off the South-eastern Brazilian coast. Gymnopipina ikamiaba gen. nov. et sp. nov. is characterized by the complete absence of dermal ossicles in the body, and it differs from the other ossicleless apodids in the number of tentacles and of Polian vesicles, and in the morphology of the calcareous ring. Although not formally tested with a phylogenetic framework, apodids have apparently lost their dermal ossicles multiple times. If these reversions hold true, Gymnopipina gen. nov. represents the fourth independent loss of dermal ossicles in the class Holothuroidea. An identification key to the Brazilian apodid species is also provided. [ABSTRACT FROM AUTHOR]

Published

2018

9. Echinoidea and Holothuroidea (Echinodermata) of the Trindade and Martin Vaz Archipelago, off Brazil, with new records and remarks on taxonomy and species composition.

Author

Martins, Luciana, Souto, Camilla, Braga, Joel, and Tavares, Marcos

Abstract

The degree of isolation of oceanic islands makes these environments an excellent model for evolutionary studies. Proper knowledge of the species composition of oceanic islands, however, is required to better understand evolutionary processes (e.g. speciation events). A 3-year survey in the shallow waters (up to 30 m) of the Trindade and Martin Vaz oceanic insular complex, and a literature review on the data published for these islands and for Fernando de Noronha and São Pedro and São Paulo oceanic archipelagos have been conducted to document the biodiversity of echinoids and holothuroids from these isolated Brazilian oceanic islands. Sixteen species were collected and characterized morphologically, including two first records for the South Atlantic and one for Brazil. Comparison with conspecific specimens from the Brazilian coast and congeners was also done. Species richness increased from six to 18; the richness in Trindade Island being the highest among the South Atlantic oceanic islands. However, these islands remain undersampled beyond 30-m depth. Endemism was very low, suggesting the potential role of oceanic currents and seamounts as stepping-stones in transoceanic dispersal of species to remote islands. The Brazilian oceanic islands are impoverished oceanic outposts of the Brazilian Province; nevertheless, endemic species and intraspecific morphological variations compared with the mainland suggest they may also be regions of speciation. Documenting their biodiversity is critical for effective management and conservation of their marine ecosystems. [ABSTRACT FROM AUTHOR]

Published

2018

10. Marine Biodiversity Records

Author

Martins, Luciana, Souto, Camilla, and Menegola, Carla

Subjects

Dendrochirotida, Phyllophoridae, Bahia, Aspidochirotida, Holothuriidae, Brazil, Taxonomy

Abstract

Texto completo: acesso restrito. p. 1-6 Submitted by Edileide Reis (leyde-landy@hotmail.com) on 2014-08-25T14:34:35Z No. of bitstreams: 1 Luciana Martins.pdf: 351147 bytes, checksum: 8573d7d699db09a3a0da2380734802f0 (MD5) Approved for entry into archive by Patricia Barroso (pbarroso@ufba.br) on 2014-08-26T18:58:50Z (GMT) No. of bitstreams: 1 Luciana Martins.pdf: 351147 bytes, checksum: 8573d7d699db09a3a0da2380734802f0 (MD5) Made available in DSpace on 2014-08-26T18:58:50Z (GMT). No. of bitstreams: 1 Luciana Martins.pdf: 351147 bytes, checksum: 8573d7d699db09a3a0da2380734802f0 (MD5) Previous issue date: 2012 Thyone pawsoni and Holothuria (Theelothuria) princeps are reported from shallow water of the South Atlantic Ocean. A morphological description of these new records with colour figures and scanning electron microscopy images of their ossicles are provided. With these two new records for the Brazilian Coast, the genus Thyone is now represented by two species and Holothuria by six.

Published

2012

11. First record of Holothuria (Theelothuria) princeps and Thyone pawsoni (Echinodermata: Holothuroidea) in the South Atlantic Ocean.

Author

Martins, Luciana, Souto, Camilla, and Menegola, Carla

Subjects

HOLOTHURIA, PHYLLOPHORIDAE (Echinodermata), ASPIDOCHIROTIDA, BIOLOGICAL classification, BENTHIC ecology, BIODIVERSITY

Abstract

Thyone pawsoni and Holothuria (Theelothuria) princeps are reported from shallow water of the South Atlantic Ocean. A morphological description of these new records with colour figures and scanning electron microscopy images of their ossicles are provided. With these two new records for the Brazilian Coast, the genus Thyone is now represented by two species and Holothuria by six. [ABSTRACT FROM AUTHOR]

Published

2012