DOCSLIB.ORG

Does the Chemical Diversity of the Order Haplosclerida (Phylum Porifera: Class Demospongia) Fit with Current Taxonomic Classification?

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Does the Chemical Diversity of the Order Haplosclerida (Phylum Porifera: Class Demospongia) Fit with Current Taxonomic Classification? Provided by the author(s) and NUI Galway in accordance with publisher policies. Please cite the published version when available. Does the chemical diversity of the Order Haplosclerida Title (Phylum Porifera: Class Demospongia) fit with current taxonomic classification? Author(s) Tribalat, Marie-Aude; Marra, Maria V.; McCormack, Grace P.; Thomas, Olivier P. Publication Date 2016-05-02 Tribalat, Marie-Aude, Marra, Maria V., McCormack, Grace P., Publication & Thomas, Olivier P. (2016). Does the Chemical Diversity of Information the Order Haplosclerida (Phylum Porifera: Class Demospongia) Fit with Current Taxonomic Classification? Planta Med, 82(09/10), 843-856. doi: 10.1055/s-0042-105879 Publisher Georg Thieme Verlag Link to publisher's http://dx.doi.org/10.1055/s-0042-105879 version Item record http://hdl.handle.net/10379/7173 DOI http://dx.doi.org/10.1055/s-0042-105879 Downloaded 2021-09-25T14:57:39Z Some rights reserved. For more information, please see the item record link above. Reviews Does the Chemical Diversity of the Order Haplosclerida (Phylum Porifera: Class Demospongia) Fit with Current Taxonomic Classification? Authors Marie-Aude Tribalat 1, Maria V. Marra2, Grace P. McCormack 2, Olivier P. Thomas1, 3 Affiliations 1 Géoazur UMR Université Nice Sophia Antipolis-CNRS‑IRD‑OCA, Valbonne, France 2 National University of Ireland Galway, Zoology, School of Natural Sciences, University Road, Galway, Ireland 3 National University of Ireland Galway, Marine Biodiscovery, School of Chemistry, University Road, Galway, Ireland Key words Abstract help in the revision of this large group of marine l" sponges ! invertebrates. We focus only on 3-alkylpyridine l" Haplosclerida Sponges and their associated microbiota are well derivatives and polyacetylenic compounds, as l" alkaloids known to produce a large diversity of natural these two groups of natural products are charac- l" polyacetylenic products, also called specialized metabolites. In teristic of haplosclerid species and are highly di- l" chemotaxonomy addition to their potential use in the pharmaceu- verse. A close collaboration between chemists tical industry, these rather species-specific com- and biologists is required in order to fully apply pounds may help in the classification of some par- chemotaxonomical approaches, and whenever ticular sponge groups. We review herein com- possible biological data should include morpho- pounds isolated from haplosclerid sponges (Class logical and molecular data and some insight into Demospongia, Order Haplosclerida) in order to their microbial abundance. Introduction marine natural products, including alkaloids, ! polyacetylenes, or terpene derivatives. This group Sponges (Phylum Porifera) are sessile inverte- is also one of the most diverse of the sponge brates distributed in most aquatic ecosystems. In groups in terms of numbers of species and habi- received Nov. 29, 2015 revised March 8, 2016 marine areas like the Caribbean Sea, they may tats, and its members also have few distinguish- accepted March 22, 2016 represent the largest substrate cover and/or the ing morphologial characteristics. The current largest organic biomass of living organisms, thus classification of the order as outlined in Systema Bibliography contributing significantly to several nutrient Porifera, based primarily on morphology, is com- DOI http://dx.doi.org/ 10.1055/s-0042-105879 cycles due to their outstanding filtering capabil- prised of three suborders [two marine (Haplo- Published online ities [1,2]. In addition, during their long evolu- sclerina and Petrosina) and one freshwater (Spon- Planta Med © Georg Thieme tionary history, most, if not all, of the diverse spe- gillina)]. The marine suborders together comprise Verlag KG Stuttgart · New York · cies of this group (> 8000 described species to six families; Callyspongiidae, Chalinidae, Niphati- ISSN 0032‑0943 date) together with their associated microbiota dae, Petrosiidae, Phloeodictyidae, and Calcifibro- Correspondence have developed unique metabolic pathways lead- spongiidae [5]. Analysis of sterol chemistry had This document was downloaded for personal use only. Unauthorized distribution is strictly prohibited. Prof. Grace P. McCormack ing to a huge diversity of natural products, also indicated possible difficulties with their classifi- Ryan Institute School of Natural Sciences called specialized metabolites [3]. Taxonomic cation [6], suggesting patterns of relatedness that National University of Ireland classification in this particular group of marine did not agree with morphological data, while in University Road invertebrates is still highly challenging due to a contrast, a review of 3-alkylpiperidine alkaloids Galway Ireland paucity of morphological characters and a dis- appeared to agree with the current classification Phone: + 35391492321 crepancy between molecular and morpological [7]. Subsequent molecular phylogenetic studies Fax: + 353 91494535 data in many cases. For this reason, biochemical reveal an evolutionary history that is not com- [email protected] Correspondence information has been recently used as a comple- pletely compatible with Systema Porifera, indicat- Prof. Olivier P. Thomas mentary tool (particularly within the framework ing that the freshwater sponges belong elsewhere School of Chemistry of targeted or untargeted metabolomic ap- in the Demospongiae, and that while the marine National University of Ireland University Road proaches), leading to the recent concept of inte- Haplosclerida do form a clade, the suborders and Galway grative systematics [4]. the families (where there is enough data) are Ireland Within the Class Demospongiae, sponges belong- polyphyletic [8]. For this reason, a reassessment Phone: + 35391493563 Fax: + 353 91495576 ing to the Order Haplosclerida are considered of the Order Haplosclerida is underway by multi- [email protected] among the most prolific sources of bioactive ple research groups, as an assessment of chemical Tribalat M-A et al. Does the Chemical… Planta Med Reviews diversity may help in the development of a robust integrative Family Niphatidae classification of the group and, in return, current systematic Within the family Niphatidae, an outstanding diversity of alka- studies in this group may also direct the search for related com- loids has been isolated from members of the genus Amphimedon. pounds of interest. Monomers of 3-alkylpyridines named hachijodines E–Gaswell This review will focus on two major classes of specialized metab- as glycosylated monomers named amphimedosides A–E were olites found in the Order Haplosclerida (3-alkylpyridine deriva- isolated from Amphimedon sp. collected off Hachijo-Jima Island tives and polyacetylene derivatives) and will discuss them in (Japan; l" Fig. 1) [10,11]. Additional mono- and dimers, pyrino- view of the currently accepted classification for five of the six demins B–I, were reported from Amphimedon sp. found in the families described in Systema Porifera [5], with no compound same area (Nakijin, Okinawa) along with a high number of being reported so far from sponges of the sixth family Calcifibro- dimers bearing a hydroxylamine moiety, starting with the bis-3- spongiidae [9]. Sterols and fatty acids have been reported for alkylpyridine derivative pyrinodemin A and nakinadines A–F some members of this group in 1994 [6], and the large chemical (with a β-aminoacid) [12–16]. All of the compounds mentioned diversity produced by this prolific sponge group was last collated were found to exhibit cytotoxicity. Niphates sp. yielded some in 1996 for 3-alkylpiperidine derivatives [7]. This review is not mono-3-alkylpyridine derivatives named niphatynes A–B, again aimed to be exhaustive but discusses representatives of 3-alkyl- from the Northwestern Pacific (Fiji; l" Fig. 2) [17], and Kobaya- pyridine derivatives and polyacetylene derivatives. Given that shiʼs group more recently described some very close analogues they are both widely distributed amongst haplosclerid species, named niphatesines A–H from a Japanese sponge of the same ge- are largely restricted to this group, and are rather unique in the nus (l" Fig. 2) [18,19]. Pyrinadines A–G have been isolated from field of natural products, we consider that focusing our review Cribrochalina sp., also from the Japanese coast (l" Fig. 2) [20,21]. on these two chemical families provides ample information to It is not known if the two Amphimedons or Niphates sp. men- help identify discrepancies in the classification, areas for focus tioned here are the same species or two separate species in each in the construction of a revised integrative classification and case given that the specimens were collected in the same geo- valuable avenues for future research focus. graphical area. Comparison of the specimen vouchers from the Major issues with publishing descriptions of compounds from various studies will have to be performed to confirm if this is species that have not been fully identified will become apparent. the case and preferably also comparison of DNA sequences. This issue is relevant not only for the group of marine sponges in- It would appear that simple mono- and bis-3-alkylpyridine de- cluded here, but for any organism of interest for bioprospecting. rivatives are restricted to species belonging to the genera Amphi- Accompanying morphological identification with a DNA se- medon, Cribrochalina,andNiphates, all belonging to the family quence is a highly recommended way forward (in addition to Niphatidae (l" Table 1). While
Load more

Recommended publications
  • Taxonomy and Diversity of the Sponge Fauna from Walters Shoal, a Shallow Seamount in the Western Indian Ocean Region
    Taxonomy and diversity of the sponge fauna from Walters Shoal, a shallow seamount in the Western Indian Ocean region By Robyn Pauline Payne A thesis submitted in partial fulfilment of the requirements for the degree of Magister Scientiae in the Department of Biodiversity and Conservation Biology, University of the Western Cape. Supervisors: Dr Toufiek Samaai Prof. Mark J. Gibbons Dr Wayne K. Florence The financial assistance of the National Research Foundation (NRF) towards this research is hereby acknowledged. Opinions expressed and conclusions arrived at, are those of the author and are not necessarily to be attributed to the NRF. December 2015 Taxonomy and diversity of the sponge fauna from Walters Shoal, a shallow seamount in the Western Indian Ocean region Robyn Pauline Payne Keywords Indian Ocean Seamount Walters Shoal Sponges Taxonomy Systematics Diversity Biogeography ii Abstract Taxonomy and diversity of the sponge fauna from Walters Shoal, a shallow seamount in the Western Indian Ocean region R. P. Payne MSc Thesis, Department of Biodiversity and Conservation Biology, University of the Western Cape. Seamounts are poorly understood ubiquitous undersea features, with less than 4% sampled for scientific purposes globally. Consequently, the fauna associated with seamounts in the Indian Ocean remains largely unknown, with less than 300 species recorded. One such feature within this region is Walters Shoal, a shallow seamount located on the South Madagascar Ridge, which is situated approximately 400 nautical miles south of Madagascar and 600 nautical miles east of South Africa. Even though it penetrates the euphotic zone (summit is 15 m below the sea surface) and is protected by the Southern Indian Ocean Deep- Sea Fishers Association, there is a paucity of biodiversity and oceanographic data.
    [Show full text]
  • Appendix: Some Important Early Collections of West Indian Type Specimens, with Historical Notes
    Appendix: Some important early collections of West Indian type specimens, with historical notes Duchassaing & Michelotti, 1864 between 1841 and 1864, we gain additional information concerning the sponge memoir, starting with the letter dated 8 May 1855. Jacob Gysbert Samuel van Breda A biography of Placide Duchassaing de Fonbressin was (1788-1867) was professor of botany in Franeker (Hol­ published by his friend Sagot (1873). Although an aristo­ land), of botany and zoology in Gent (Belgium), and crat by birth, as we learn from Michelotti's last extant then of zoology and geology in Leyden. Later he went to letter to van Breda, Duchassaing did not add de Fon­ Haarlem, where he was secretary of the Hollandsche bressin to his name until 1864. Duchassaing was born Maatschappij der Wetenschappen, curator of its cabinet around 1819 on Guadeloupe, in a French-Creole family of natural history, and director of Teyler's Museum of of planters. He was sent to school in Paris, first to the minerals, fossils and physical instruments. Van Breda Lycee Louis-le-Grand, then to University. He finished traveled extensively in Europe collecting fossils, especial­ his studies in 1844 with a doctorate in medicine and two ly in Italy. Michelotti exchanged collections of fossils additional theses in geology and zoology. He then settled with him over a long period of time, and was received as on Guadeloupe as physician. Because of social unrest foreign member of the Hollandsche Maatschappij der after the freeing of native labor, he left Guadeloupe W etenschappen in 1842. The two chief papers of Miche­ around 1848, and visited several islands of the Antilles lotti on fossils were published by the Hollandsche Maat­ (notably Nevis, Sint Eustatius, St.
    [Show full text]
  • An Analysis of Complete Mitochondrial Genome and Received: 17 March 2015 Accepted: 12 June 2015 Ribosomal Data of Ramisyllis Published: 17 July 2015 Multicaudata
    www.nature.com/scientificreports OPEN The making of a branching annelid: an analysis of complete mitochondrial genome and Received: 17 March 2015 Accepted: 12 June 2015 ribosomal data of Ramisyllis Published: 17 July 2015 multicaudata M. Teresa Aguado1, Christopher J. Glasby2, Paul C. Schroeder3, Anne Weigert4,5 & Christoph Bleidorn4 Ramisyllis multicaudata is a member of Syllidae (Annelida, Errantia, Phyllodocida) with a remarkable branching body plan. Using a next-generation sequencing approach, the complete mitochondrial genomes of R. multicaudata and Trypanobia sp. are sequenced and analysed, representing the first ones from Syllidae. The gene order in these two syllids does not follow the order proposed as the putative ground pattern in Errantia. The phylogenetic relationships of R. multicaudata are discerned using a phylogenetic approach with the nuclear 18S and the mitochondrial 16S and cox1 genes. Ramisyllis multicaudata is the sister group of a clade containing Trypanobia species. Both genera, Ramisyllis and Trypanobia, together with Parahaplosyllis, Trypanosyllis, Eurysyllis, and Xenosyllis are located in a long branched clade. The long branches are explained by an accelerated mutational rate in the 18S rRNA gene. Using a phylogenetic backbone, we propose a scenario in which the postembryonic addition of segments that occurs in most syllids, their huge diversity of reproductive modes, and their ability to regenerate lost parts, in combination, have provided an evolutionary basis to develop a new branching body pattern as realised in Ramisyllis. Annelids are a taxon of marine lophotrochozoans with mainly segmented members showing a huge diversity of body plans1. One of the most speciose taxa is the Syllidae, which are further well-known for their diverse reproductive modes.
    [Show full text]
  • Effects of Agelas Oroides and Petrosia Ficiformis Crude Extracts on Human Neuroblastoma Cell Survival
    161-169 6/12/06 19:46 Page 161 INTERNATIONAL JOURNAL OF ONCOLOGY 30: 161-169, 2007 161 Effects of Agelas oroides and Petrosia ficiformis crude extracts on human neuroblastoma cell survival CRISTINA FERRETTI1*, BARBARA MARENGO2*, CHIARA DE CIUCIS3, MARIAPAOLA NITTI3, MARIA ADELAIDE PRONZATO3, UMBERTO MARIA MARINARI3, ROBERTO PRONZATO1, RENATA MANCONI4 and CINZIA DOMENICOTTI3 1Department for the Study of Territory and its Resources, University of Genoa, Corso Europa 26, I-16132 Genoa; 2G. Gaslini Institute, Gaslini Hospital, Largo G. Gaslini 5, I-16148 Genoa; 3Department of Experimental Medicine, University of Genoa, Via Leon Battista Alberti 2, I-16132 Genoa; 4Department of Zoology and Evolutionistic Genetics, University of Sassari, Via Muroni 25, I-07100 Sassari, Italy Received July 28, 2006; Accepted September 20, 2006 Abstract. Among marine sessile organisms, sponges (Porifera) Introduction are the major producers of bioactive secondary metabolites that defend them against predators and competitors and are used to Sponges (Porifera) are a type of marine fauna that produce interfere with the pathogenesis of many human diseases. Some bioactive molecules to defend themselves from predators or of these biological active metabolites are able to influence cell spatial competitors (1,2). It has been demonstrated that some survival and death, modifying the activity of several enzymes of these metabolites have a biomedical potential (3) and in involved in these cellular processes. These natural compounds particular, Ara-A and Ara-C are clinically used as antineoplastic show a potential anticancer activity but the mechanism of drugs (4,5) in the routine treatment of patients with leukaemia this action is largely unknown.
    [Show full text]
  • Giant Barrel Sponge) Population on the Southeast Florida Reef Tract Alanna D
    Nova Southeastern University NSUWorks HCNSO Student Theses and Dissertations HCNSO Student Work 7-25-2019 Spatial and temporal trends in the Xestospongia muta (giant barrel sponge) population on the Southeast Florida Reef Tract Alanna D. Waldman student, [email protected] Follow this and additional works at: https://nsuworks.nova.edu/occ_stuetd Part of the Marine Biology Commons, and the Oceanography and Atmospheric Sciences and Meteorology Commons Share Feedback About This Item NSUWorks Citation Alanna D. Waldman. 2019. Spatial and temporal trends in the Xestospongia muta (giant barrel sponge) population on the Southeast Florida Reef Tract. Master's thesis. Nova Southeastern University. Retrieved from NSUWorks, . (514) https://nsuworks.nova.edu/occ_stuetd/514. This Thesis is brought to you by the HCNSO Student Work at NSUWorks. It has been accepted for inclusion in HCNSO Student Theses and Dissertations by an authorized administrator of NSUWorks. For more information, please contact [email protected]. Thesis of Alanna D. Waldman Submitted in Partial Fulfillment of the Requirements for the Degree of Master of Science M.S. Marine Biology Nova Southeastern University Halmos College of Natural Sciences and Oceanography July 2019 Approved: Thesis Committee Major Professor: David Gilliam, Ph.D. Committee Member: Jose Lopez, Ph.D. Committee Member: Charles Messing, Ph.D. This thesis is available at NSUWorks: https://nsuworks.nova.edu/occ_stuetd/514 HALMOS COLLEGE OF NATURAL SCIENCES AND OCEANOGRAPHY Spatial and temporal trends in the Xestospongia muta (giant barrel sponge) population on the Southeast Florida Reef Tract By Alanna Denbrook Waldman Submitted to the Faculty of Halmos College of Natural Sciences and Oceanography in partial fulfillment of the requirements for the degree of Master of Science with a specialty in: Marine Biology Nova Southeastern University August 2019 Table of Contents List of Figures ...............................................................................................................................
    [Show full text]
  • Sequence from B4 Sponge with (A) the First BLAST Hit Asbestopluma Lycopodium and (B) the Sequence of M
    Supplementary Material Figure S1. Alignments of CO1 (PorCOI2fwd/PorCOI2rev) sequence from B4 sponge with (A) the first BLAST hit Asbestopluma lycopodium and (B) the sequence of M. acerata displaying low query cover. 1 Figure S2. Alignment of CO1 (dgLCO1490/dgHCO2198) sequence from B4 sponge with the first BLAST hit (M. acerata). 2 Figure S3. Alignment of CO1 (dgLCO1490/dgHCO2198) sequence from D4 sponge with the first BLAST hit (H. pilosus). 3 Figure S4. Taxonomy Bar Plot, reporting the relative frequencies (in percentage, %) of the bacteria taxons more representative for each of the four sponges under analysis . Sample code: B4= M. (Oxymycale) acerata; D4= H. pilosus, D6= M. sarai, C6= H. (Rhizoniera) dancoi. Each taxon is highlighted by a different color. 4 Figure S5. Krona plot at the seven increasing complexity levels: (a) Regnum, (b) Phylum, (c) Class, (d) Order, (e) Family, (f) Genus and (g) Species. a) 5 b) 6 c) 7 d) 8 e) 9 f) 10 g) 11 Figure S6. Distribution of ASV’s frequencies. 12 Figure S7. Distribution of ASV’s frequencies for each sample (reported as a blue bar). 13 Table S1. BLAST results from B4 sponge (Mycale (Oxymycale) acerata). The primer names, sequence length in base pairs (bp), first hits (highlighted in bold), hits at low significance displaying the correct species (where present), query cover and identity percentages (%) were reported. Sequence Query Identity Primers BLAST results length (bp) cover (%) (%) Mycale macilenta voucher 0CDN7203‐O small subunit 18S A/B 1700 99 98 ribosomal RNA gene, partial sequence Mycale
    [Show full text]
  • Supplementary Materials: Patterns of Sponge Biodiversity in the Pilbara, Northwestern Australia
    Diversity 2016, 8, 21; doi:10.3390/d8040021 S1 of S3 9 Supplementary Materials: Patterns of Sponge Biodiversity in the Pilbara, Northwestern Australia Jane Fromont, Muhammad Azmi Abdul Wahab, Oliver Gomez, Merrick Ekins, Monique Grol and John Norman Ashby Hooper 1. Materials and Methods 1.1. Collation of Sponge Occurrence Data Data of sponge occurrences were collated from databases of the Western Australian Museum (WAM) and Atlas of Living Australia (ALA) [1]. Pilbara sponge data on ALA had been captured in a northern Australian sponge report [2], but with the WAM data, provides a far more comprehensive dataset, in both geographic and taxonomic composition of sponges. Quality control procedures were undertaken to remove obvious duplicate records and those with insufficient or ambiguous species data. Due to differing naming conventions of OTUs by institutions contributing to the two databases and the lack of resources for physical comparison of all OTU specimens, a maximum error of ± 13.5% total species counts was determined for the dataset, to account for potentially unique (differently named OTUs are unique) or overlapping OTUs (differently named OTUs are the same) (157 potential instances identified out of 1164 total OTUs). The amalgamation of these two databases produced a complete occurrence dataset (presence/absence) of all currently described sponge species and OTUs from the region (see Table S1). The dataset follows the new taxonomic classification proposed by [3] and implemented by [4]. The latter source was used to confirm present validities and taxon authorities for known species names. The dataset consists of records identified as (1) described (Linnean) species, (2) records with “cf.” in front of species names which indicates the specimens have some characters of a described species but also differences, which require comparisons with type material, and (3) records as “operational taxonomy units” (OTUs) which are considered to be unique species although further assessments are required to establish their taxonomic status.
    [Show full text]
  • Porifera) in Singapore and Description of a New Species of Forcepia (Poecilosclerida: Coelosphaeridae)
    Contributions to Zoology, 81 (1) 55-71 (2012) Biodiversity of shallow-water sponges (Porifera) in Singapore and description of a new species of Forcepia (Poecilosclerida: Coelosphaeridae) Swee-Cheng Lim1, 3, Nicole J. de Voogd2, Koh-Siang Tan1 1 Tropical Marine Science Institute, National University of Singapore, 18 Kent Ridge Road, Singapore 119227, Singapore 2 Netherlands Centre for Biodiversity, Naturalis, PO Box 9517, 2300 RA Leiden, The Netherlands 3 E-mail: [email protected] Key words: intertidal, Southeast Asia, sponge assemblage, subtidal, tropical Abstract gia) patera (Hardwicke, 1822) was the first sponge de- scribed from Singapore in the 19th century. This was A surprisingly high number of shallow water sponge species followed by Leucosolenia flexilis (Haeckel, 1872), (197) were recorded from extensive sampling of natural inter- Coelocarteria singaporensis (Carter, 1883) (as Phloeo­ tidal and subtidal habitats in Singapore (Southeast Asia) from May 2003 to June 2010. This is in spite of a highly modified dictyon), and Callyspongia (Cladochalina) diffusa coastline that encompasses one of the world’s largest container Ridley (1884). Subsequently, Dragnewitsch (1906) re- ports as well as extensive oil refining and bunkering industries. corded 24 sponge species from Tanjong Pagar and Pu- A total of 99 intertidal species was recorded in this study. Of lau Brani in the Singapore Strait. A further six species these, 53 species were recorded exclusively from the intertidal of sponge were reported from Singapore in the 1900s, zone and only 45 species were found on both intertidal and subtidal habitats, suggesting that tropical intertidal and subtidal although two species, namely Cinachyrella globulosa sponge assemblages are different and distinct.
    [Show full text]
  • Cyanobacteria) Isolated from the Mediterranean Marine Sponge Petrosia Ficiformis (Porifera
    Fottea, Olomouc, 12(2): 315–326, 2012 315 Identification and characterization of a new Halomicronema species (Cyanobacteria) isolated from the Mediterranean marine sponge Petrosia ficiformis (Porifera) Carmela CAROPPO1*, Patrizia ALBERTANO2, Laura BRUNO2, Mariarosa MONTINARI3, Marco RIZZI4, Giovanni VIGLIOTTA5 & Patrizia PAGLIARA3 1 Institute for Coastal Marine Environment, Unit of Taranto, National Research Council, Via Roma, 3 – 74100, Taranto, Italy; * Corresponding author e–mail: [email protected], tel.: +39 99 4545211, fax: +39 99 4545215 2 Laboratory of Biology of Algae, Department of Biology, University of Rome “Tor Vergata”, Italy 3 DiSTeBA, Department of Biological and Environmental Sciences and Technologies, University of Salento, Lecce, Italy 4 Azienda Ospedaliera Policlinico di Bari, Italy 5 Department of Chemistry, University of Salerno, Fisciano (Salerno), Italy Abstract: A filamentous cyanobacterium (strain ITAC101) isolated from a Mediterranean sponge (Petrosia ficiformis) was characterized by a combined phenotypic and genetic approach. Morphological and ultrastructural observations were performed along with growth measurements and pigment characterization. The molecular phylogenetic analyses were based on the sequencing of the 16S rRNA gene. In culture conditions, strain ITAC101 is moderately halophilic and grew in the range 0.3–7.6% (w/v) salinity with the optimum at 3.6%. Cell dimensions, thylakoid arrangement and pigment composition of this cyanobacterium fit theHalomicronem a genus description, and phylogenetic analyses evidenced 99.9% similarity with another strain endolithic in tropical corals. The new Halomicronema metazoicum species was established including the two cyanobacteria associated to marine animals. Key words: cyanobacteria, Leptolyngbya, marine sponge, Mediterranean Sea, polyphasic approach,16S rRNA Introduction & STARNES 2003), Anabaena (LARKUM 1999), Cyanobacterium (WEBB & MAAS 2002) and The association between cyanobacteria and Synechococcus (HENTSCHEL et al.
    [Show full text]
  • Two New Species of the Genus Callyspongia (Haplosclerida:Callyspongiidae) from Korea
    Journal of Asia-Pacific Biodiversity xxx (2017) 1e5 Contents lists available at ScienceDirect Journal of Asia-Pacific Biodiversity journal homepage: http://www.elsevier.com/locate/japb Original Article Two new species of the genus Callyspongia (Haplosclerida:Callyspongiidae) from Korea Kim Hyung June, Kang Dong Won* National Marine Biodiversity Institute of Korea, Seocheon 33662, South Korea article info abstract Article history: In this study, two new species of the genus Callyspongia Duchassaing & Michelotti, 1864: Callyspognia Received 11 July 2017 pyeongdaensis sp. nov. and Callyspongia maraensis sp. nov. from Korea are described as new to science. All Received in revised form of the available information is presented in this study including the localities from which the species 5 September 2017 were collected and illustrations of spicule and skeleton. Accepted 22 September 2017 Ó 2017 National Science Museum of Korea (NSMK) and Korea National Arboretum (KNA), Publishing Available online xxx Services by Elsevier. This is an open access article under the CC BY-NC-ND license (http:// creativecommons.org/licenses/by-nc-nd/4.0/). Keywords: Callyspongiidae Callyspongia Korea New species Sponge Introduction surveyed Jeju Island, South Korea, where marine life has not been studied and is affected by Kuroshio Current. As a result, here, we The family Callyspongiidae was found in 1936 by de Laubenfels describe one new species of Callyspongia. This new species was and consists of haplosclerid sponges which have a two- compared with the Korea and Japan Callyspongia species with a dimensional ectosomal skeleton of primary, secondary, and some- similar morphology. times tertiary fibers (De Voogd 2004; Desqueyroux-Faundeze and Valentine 2002).
    [Show full text]
  • Sponges of the Caribbean: Linking Sponge Morphology and Associated Bacterial Communities Ericka Ann Poppell
    University of Richmond UR Scholarship Repository Master's Theses Student Research 5-2011 Sponges of the Caribbean: linking sponge morphology and associated bacterial communities Ericka Ann Poppell Follow this and additional works at: http://scholarship.richmond.edu/masters-theses Part of the Biology Commons Recommended Citation Poppell, Ericka Ann, "Sponges of the Caribbean: linking sponge morphology and associated bacterial communities" (2011). Master's Theses. Paper 847. This Thesis is brought to you for free and open access by the Student Research at UR Scholarship Repository. It has been accepted for inclusion in Master's Theses by an authorized administrator of UR Scholarship Repository. For more information, please contact [email protected]. ABSTRACT SPONGES OF THE CARIBBEAN: LINKING SPONGE MORPHOLOGY AND ASSOCIATED BACTERIAL COMMUNITIES By: Ericka Ann Poppell, B.S. A thesis submitted in partial fulfillment of the requirements for the degree of Master of Science at the University of Richmond University of Richmond, May 2011 Thesis Director: Malcolm S. Hill, Ph.D., Professor, Department of Biology The ecological and evolutionary relationship between sponges and their symbiotic microflora remains poorly understood, which limits our ability to understand broad scale patterns in benthic-pelagic coupling on coral reefs. Previous research classified sponges into two different categories of sponge-microbial associations: High Microbial Abundance (HMA) and Low Microbial Abundance (LMA) sponges. Choanocyte chamber morphology and density was characterized in representatives of HMA and LMA sponges using scanning electron I)licroscopy from freeze-fractured tissue. Denaturing Gradient Gel Electrophoresis was used to examine taxonomic differences among the bacterial communities present in a variety of tropical sponges.
    [Show full text]
  • Ctz 74-00 Pinheiro.Indd
    Contributions to Zoology, 74 (3/4) 271-278 (2005) Shallow-water Niphatidae (Haplosclerina, Haplosclerida, Demospongiae) from the São Sebastião Channel and its environs (tropical southwestern At- lantic), with the description of a new species U. S. Pinheiro1, 2, *, R.G.S. Berlinck 3, **, E. Hajdu 2, *** 1Departamento de Ciências Biológicas, Universidade Estadual do Sudoeste da Bahia, Rua José Moreira So- brinho, s/n, 45200-000, Jequiezinho, Jequié, BA, Brazil; 2Departamento de Invertebrados, Museu Nacional, Universidade do Brasil, Quinta da Boa Vista, s/n, 20940-040, Rio de Janeiro, RJ, Brazil; 3Instituto de Química de São Carlos, Universidade de São Paulo, São Carlos, SP, Brazil; *FAPERJ fellow, e-mail: upinheiro@gmail. com; **CNPq fellow, e-mail: [email protected]; ***CNPq fellow, e-mail: [email protected] Key words: Porifera, Demospongiae, Haplosclerina, Niphatidae, tropical southwestern Atlantic, taxonomy, new species Abstract Comparison of the niphatids collected in the São Sebastião Channel area and its environs with data Two niphatids are described here: Amphimedon viridis and compiled from the literature lead us to identify Am- Pachychalina alcaloidifera sp. nov. Amphimedon viridis is a common and conspicuous species in most of the tropical western phimedon viridis and a new species, Pachychalina Atlantic. Pachychalina alcaloidifera sp. nov. has this far been alcaloidifera sp. nov., to be described below. found only in the coasts of Rio de Janeiro and São Paulo states. Both species are described on the basis of series of specimens observed alive. Material and methods Specimens were collected during a faunistic survey Contents conducted in the area of the São Sebastião Channel and its environs, in the municipalities of São Sebas- Introduction ...................................................................................
    [Show full text]