Your search keyword '"Peyssonnelia"' showing total 309 results

1. Agissea teruruhau sp. nov. (Peyssonneliales, Rhodophyta) and epiphyte Piriora waewaeiti gen. & sp. nov. (Gigartinales, Rhodophyta) from Manawatāwhi, New Zealand.

Author

NELSON, WENDY, NGAUMA, BRUCE, NORMAN, JERRY H., RINGHAM, SANDI, and SUTHERLAND, JUDY

Subjects

*GIGARTINALES, *RED algae, *ARCHIPELAGOES, *ISLAND plants, *BOTANY

Abstract

Phylogenetic analyses resolved that specimens from Manawatāwhi/Three Kings Islands in northern New Zealand, formerly identified as Sonderophycus coriaceus, belong to the genus Agissea (Peyssonneliales). This species is dark red, prostrate and robust, with leathery, fan-shaped lobes and is described here as Agissea teruruhau. It was found to serve as a host to a very small red algal epiphyte described here as Piriora waewaiti gen. & sp. nov. While phylogenetic analyses have placed Piriora in the Gigartinales, the familial placement of this genus has been unable to be resolved. Manawatāwhi/Three Kings Islands is a group of small islands known to harbour a rich marine biota with many endemic species, and the description of these taxa has increased the reported endemic algal flora of the islands. In addition, the phylogenetic analyses have confirmed the presence of Olokunia boudouresquei and a further three species of Peyssonneliales in the New Zealand flora, belonging to the genera Olokunia, Peyssonnelia and Seiria. [ABSTRACT FROM AUTHOR]

Published

2023

2. Peyssonnelia rosa-marina Boudouresque & Denizot 1973

Author

Boury-Esnault, Nicole, Bellan, Gerard, Bellan-Santini, Denise, Boudouresque, Charles-Francois, Chevaldonné, Pierre, Dias, Alrick, Faget, Daniel, Harmelin, Jean-Georges, Harmelin-Vivien, Mireille, Lejeusne, Christophe, Perez, Thierry, Vacelet, Jean, and Verlaque, Marc

Subjects

Peyssonnelia, Peyssonnelia rosa-Marina, Rhodophyta, Biodiversity, Peyssonneliaceae, Plantae, Cryptonemiales, Taxonomy

Abstract

Peyssonnelia rosa-marina Boudouresque & Denizot, 1973 (Fig. 9): an unsuspected Mediterranean rose garden It is perhaps one of the most abundant seaweeds in the Mediterranean Sea, since it thrives from the infralittoral to the widely extended and widespread coastal detritic bottoms, in the circalittoral, where it is often dominant. It is also a particularly elegant macrophyte, resembling a calcified rosebud, hence its name, Peyssonnelia rosa-marina. Like many red algae, this seaweed can live in rather low irradiance down to ca. 100 m depth; it is an important producer of carbonate sediment and is furthermore an ecosystem engineer that takes a significant part in the construction of the coralligenous beds so characteristic of the Mediterranean. Yet, it has long been confused with its sister species, Peyssonnelia polymorpha, until the 1970s. It was then very surprising to realize that such an abundant, conspicuous, and well-characterized species, both by its morphology and anatomy, had been overlooked for so long., Published as part of Boury-Esnault, Nicole, Bellan, Gerard, Bellan-Santini, Denise, Boudouresque, Charles-Francois, Chevaldonné, Pierre, Dias, Alrick, Faget, Daniel, Harmelin, Jean-Georges, Harmelin-Vivien, Mireille, Lejeusne, Christophe, Perez, Thierry, Vacelet, Jean & Verlaque, Marc, 2023, The Station Marine d'Endoume, Marseille: 150 years of natural history, pp. 213-252 in Zootaxa 5249 (2) on page 236, DOI: 10.11646/zootaxa.5249.2.3, http://zenodo.org/record/7687250, {"references":["Boudouresque, C. F. & Denizot, M. (1973) Recherches sur le genre Peyssonnelia (Rhodophycees). I. Peyssonnelia rosa-marina sp. nov. et Peyssonnelia bornetii sp. nov. Giornale Botanico Italiano, 107 (1), 17 - 27. https: // doi. org / 10.1016 / 0022 - 0981 (93) 90067 - X"]}

Published

2023

3. Physiological Responses of the Mediterranean Subtidal Alga Peyssonnelia squamaria to Elevated CO2.

Author

Yıldız, Gamze

Abstract

The ecological consequences of ocean acidification are unclear due to varying physiological properties of macroalgae and species-specific responses. Therefore, in the present study, we used a laboratory culture experiment to analyse the eco-physiological responses of the Mediterranean subtidal red alga Peyssonnelia squamaria to CO2-induced lower pH. Our results showed an increase in the photosynthetic performance and growth rate of P. squamaria, despite the reduction in CaCO3 content in the low pH treatment. According to our results, we believe that samples exposed to elevated CO2 could be regulated own nitrogen metabolism to support increased growth rate and it may be down-regulated nitrate uptake. As a result, we hypothesize that P. squamaria may benefit from ocean acidification. [ABSTRACT FROM AUTHOR]

Published

2018

4. Biodiversity of Hawaiian Peyssonneliales (Peyssonneliaceae, Rhodophyta): new species in the genera Incendia and Seiria

Author

Alison R. Sherwood, Brian B. Hauk, Monica O. Paiano, Heather L. Spalding, Erika A. Alvarado, Randall K. Kosaki, Stephen J. Matadobra, Celia M. Smith, and Feresa P. Cabrera

Subjects

Systematics, geography, geography.geographical_feature_category, biology, Florideophyceae, Biodiversity, Zoology, Plant Science, Coral reef, Red algae, biology.organism_classification, Cryptonemiales, Japonica, Algae, Genus, Rhodophyta, Peyssonneliales, Peyssonneliaceae, Peyssonnelia, Plantae, Ecology, Evolution, Behavior and Systematics, Taxonomy

Abstract

Two new species, one in the genus Incendia, and one in Seiria, are illustrated and described here from mesophotic peyssonnelioid specimens collected in the Hawaiian Islands based on molecular and morphological analyses. Both genera are reported from Hawai‘i for the first time. Incendia lisianskiensis sp. nov. differs from the other nine described members of the genus by its lack of hair cells, by the perithallial filaments arising at a more or less 90º angle from the hypothallus, while Seiria mesophotica sp. nov. is distinguished from the only other described species, S. magnifusa, by its lack of obvious and well-developed perithallial cell fusions. With the description of these two species the total number of recognized Hawaiian members of the Peyssonneliales rises to nine. Previously recorded species included Peyssonnelia conchicola, P. inamoena, P. japonica, P. rubra, Ramicrusta hawaiiensis, R. lehuensis, and Sonderophycus copusii.

Published

2021

5. Taxonomic revision of the Peyssonneliales (Rhodophyta): Circumscribing the authentic Peyssonnelia clade and proposing four new genera and seven new species

Author

Valéria Cassano, Goia de Mattos Lyra, José Marcos de Castro Nunes, and Edilene Maria dos Santos Pestana

Subjects

biology, Biodiversity, Plant Science, Aquatic Science, biology.organism_classification, Biological Evolution, Type species, Monophyly, MORFOLOGIA VEGETAL, Evolutionary biology, Phylogenetics, Genus, Polyphyly, Rhodophyta, Taxonomy (biology), Peyssonnelia, Clade, Brazil, Phylogeny

Abstract

The Peyssonneliaceae represents the only family in the order Peyssonneliales, a clade of red encrusting algae distributed worldwide, including 136 species in eleven currently accepted genera. Delineation of genera in the Peyssonneliaceae has mostly been based on vegetative characteristics. Previous molecular phylogenies have shown that some traditionally circumscribed genera are not monophyletic and relationships among them are uncertain. We contribute to the knowledge of the evolutionary history of this clade, presenting a robust rbcL phylogeny that provides new insights on the origin and diversification of the Peyssonneliales. Based on a broad dataset and morphological analyses, we propose a revised taxonomic scheme for the Peyssonneliales resolved as monophyletic with well-supported main lineages. Our results show that Peyssonnelia is polyphyletic, and, therefore, we propose three new genera, Agissea, Olokunia, and Rhodowynnea to accommodate species currently assigned to Peyssonnelia, but distantly related to the clade with the type species of the genus. Additionally, barcoding techniques and analyzed criteria for specific delimitation supported the establishment of one new genus, Brasilophycus, and seven new species, from northeastern Brazil: Agissea amadoi, A. densissima, A. taberniforma, A. villatlantica, A. yemonjasagbae, Brasilophycus similis, and B. roseomarginatus. Our integrative taxonomic approach reveals underestimated diversity of Brazilian Peyssonneliales. Investment in broader sampling along the Brazilian coast and other tropical areas may reveal that its marine biodiversity can be expanded, enlightening our knowledge about this ecologically important group of red algae.

Published

2021

6. Densities of small corals in Diadema halos and temporal stability of D. antillarum clusters from surveys in St. John, US Virgin Islands in 2019 and 2020

Author

Edmunds, Peter J., Stockton, Lindsey, Edmunds, Peter J., and Stockton, Lindsey

Abstract

Dataset: Densities of small corals in Diadema halos and temporal stability of D. antillarum clusters, Densities of small corals in Diadema halos and temporal stability of Diadema antillarum clusters. These data describe the individual small corals found in each quadrat at Yawzi Point and Cabritte Horn, St. John, US Virgin Islands in 2019 and 2020. These data were published in Stockton & Edmunds (2021). For a complete list of measurements, refer to the full dataset description in the supplemental file 'Dataset_description.pdf'. The most current version of this dataset is available at: https://www.bco-dmo.org/dataset/850372, NSF Division of Environmental Biology (NSF DEB) DEB-1350146, NSF Division of Ocean Sciences (NSF OCE) OCE-1756678

Published

2021

7. Coral overgrowth by an encrusting red alga ( Ramicrusta sp.): a threat to Caribbean reefs?

Author

Eckrich, Caren and Engel, M.

Subjects

CORALS, RED algae, CORAL colonies, CORAL reef ecology, CORAL declines

Abstract

An encrusting red alga ( Ramicrusta sp., Peyssonneliaceae) present in Lac Bay, Bonaire, overgrows and kills corals and other sessile organisms. Living coral tissue comprises 7.2 % of the benthic composition of the shallow reef, while Ramicrusta sp. covers 18.7 % of the substratum. Of 1374 coral colonies surveyed, 45.8 % were partially overgrown by Ramicrusta sp., with P. porites, P. astreoides and M. complanata being the most susceptible to overgrowth. Mean Ramicrusta sp. maximum overgrowth rates ± SD were 0.08 ± 0.05 mm d, 0.07 ± 0.03 mm d and 0.06 ± 0.02 mm d for M. complanata, P. porites and P. astreoides, respectively. None of the 71 coral recruits surveyed were growing on Ramicrusta sp. Ramicrusta sp. is an immediate threat to corals, reduces the area of suitable substratum for coral settlement and may have the ability to influence coral species composition. [ABSTRACT FROM AUTHOR]

Published

2013

8. Peyssonnelia stratosa sp. nov. (Peyssonneliaceae, Rhodophyta), a new shallow-water species from Puerto Rico, Caribbean Sea.

Author

BALLANTINE, David L. and RUIZ, Hector

Subjects

*RED algae, *WATER depth, *HABITATS, *BODIES of water

Abstract

A new Peyssonnelia species from shallow water habitats in southwest Puerto Rico is described. Peyssonnelia stratosa is yellowish beige or reddish in color and is composed of small overlapping blades 2-3 cm in diameter and forms extensive colonies. Peyssonnelia stratosa exhibits small cells at mid level in the perithallus, both immediate distal and proximal cells being much longer, giving the appearance of stratification within the perithallus. Tetrasporangia, cut off laterally from an enlarged proximal nemathecial cell, reach 190 |jm in length. [ABSTRACT FROM AUTHOR]

Published

2012

9. Structure and biological evaluation of novel cytotoxic sterol glycosides from the marine red alga Peyssonnelia sp.

Author

Lin, An-Shen, Engel, Sebastian, Smith, Benjamin A., Fairchild, Craig R., Aalbersberg, William, Hay, Mark E., and Kubanek, Julia

Subjects

*BIOACTIVE compounds, *CHEMICAL structure, *GLYCOSIDES, *RED algae, *CELL-mediated cytotoxicity, *MARINE algae, *MASS spectrometry, *ANTINEOPLASTIC agents

Abstract

Abstract: Bioactivity-guided fractionation of the extract from a Fijian red alga Peyssonnelia sp. led to the isolation of two novel sterol glycosides 19-O-β-d-glucopyranosyl-19-hydroxy-cholest-4-en-3-one (1) and 19-O-β-d-N-acetyl-2-aminoglucopyranosyl-19-hydroxy-cholest-4-en-3-one (2), and two known alkaloids indole-3-carboxaldehyde (3) and 3-(hydroxyacetyl)indole (4). Their structures were characterized by 1D and 2D NMR and mass spectral analysis. The sterol glycosides inhibited cancer cell growth with mean IC50 values (for 11 human cancer cell lines) of 1.63 and 1.41μM for 1 and 2, respectively. The most sensitive cancer cell lines were MDA-MB-468 (breast) and A549 (lung), with IC50’s in of 0.71–0.97μM for 1 and 2. Modification of the sterol glycoside structures revealed that the α,β-unsaturated ketone at C-3 and oxygenation at C-19 of 1 and 2 are crucial for anticancer activity, whereas the glucosidic group was not essential but contributed to enhanced activity against the most sensitive cell lines. [ABSTRACT FROM AUTHOR]

Published

2010

10. Ecological leads for natural product discovery: novel sesquiterpene hydroquinones from the red macroalga Peyssonnelia sp.

Author

Lane, Amy L., Mular, Laurlynn, Drenkard, Elizabeth J., Shearer, Tonya L., Engel, Sebastian, Fredericq, Suzanne, Fairchild, Craig R., Prudhomme, Jacques, Le Roch, Karine, Hay, Mark E., Aalbersberg, William, and Kubanek, Julia

Subjects

*SESQUITERPENES, *HYDROQUINONE, *NATURAL products, *CHEMICAL ecology, *RED algae, *METABOLITES, *ANTI-infective agents

Abstract

Abstract: Pharmacologically-motivated marine natural product investigations have yielded a large variety of structurally unique compounds with interesting biomedical properties, but the natural roles of these molecules often remain unknown. While secondary metabolites may function as antimicrobial chemical defenses, few studies have examined this hypothesis. In the present investigation, chromatographic fractions from 69 collections of Fijian red macroalgae representing at least 43 species were evaluated for growth inhibition of three microbial pathogens and saprophytes of marine macrophytes. At least one microbe was suppressed by fraction(s) of all evaluated algae, suggesting that antimicrobial defenses are common among tropical seaweeds. From these leads, peyssonoic acids A–B (1–2), novel sesquiterpene hydroquinones, were isolated from the crustose red alga Peyssonnelia sp. At ecologically realistic concentrations, both compounds inhibited growth of Pseudoalteromonas bacteriolytica, a bacterial pathogen of marine algae, and Lindra thalassiae, a fungal pathogen of marine algae, and exhibited modest antineoplastic activity against ovarian cancer cells. The peyssonoic acids included one novel carbon skeleton and illustrated the utility of ecological studies in natural product discovery. [Copyright &y& Elsevier]

Published

2010

11. Two New Records of Peyssonnelia Species and Sonderophycus cauliferus Comb. Nov. within the Family Peyssonneliaceae (Peyssonneliales) from Korea

Author

Danilo E. Bustamante, Jin Gyo Lee, So Young Jeong, Tae Oh Cho, Boo Yeon Won, and Seung Hee Kim

Subjects

0106 biological sciences, 0301 basic medicine, Peyssonnelia harveyana, Phylogenetic tree, Sonderophycus, 010604 marine biology & hydrobiology, Biology, Peyssonnelia rumoiana, biology.organism_classification, 01 natural sciences, Thallus, 03 medical and health sciences, 030104 developmental biology, Genus, Botany, Peyssonnelia, Clade

Abstract

Detailed morphological studies and molecular analyses based on plastid-encoded rbcL gene sequences were undertaken on Peyssonnelia species, a poorly known genus from Korea. We report new records for the Korean coast, Peyssonnelia harveyana and P. rumoiana. Peyssonnelia harveyana is chiefly characterized by P. rubra-type anatomy, closely packed perithallial filaments in firm matrix, hypothallial filaments arranged in parallel rows, thalli with appressed margins, hypobasal calcification, and unicellular rhizoids. Peyssonnelia rumoiana is principally characterized by two vegetative features, hypothallial filaments arranged in a polyflabellate layer, and perithallial filaments arising from the whole upper surface of each hypothallial cell (Peyssonnelia rubra-type anatomy). Our rbcL analyses revealed that P. harveynana and P. rumoiana were placed within a clade of Peyssonnelia. We also propose the new combination, Sonderophycus cauliferus comb. nov., for previous Peyssonnelia caulifera. Phylogenetic analyses revealed that our S. cauliferus was placed within a clade of Sonderophycus.

Published

2017

12. Impact assessment of fish cages on coralligenous reefs through the use of the STAR sampling procedure

Author

M.F. Cinti, Luigi Piazzi, Patrizia Stipcich, Enrico Cecchi, and Giulia Ceccherelli

Subjects

0106 biological sciences, ecological indices, Environmental Engineering, impact evaluation, Aquaculture, 010501 environmental sciences, Aquatic Science, Oceanography, 01 natural sciences, Abundance (ecology), Sampling design, Reef, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Invertebrate, geography, geography.geographical_feature_category, biology, Ecology, business.industry, 010604 marine biology & hydrobiology, coralligenous reefs, biology.organism_classification, Halimeda tuna, Environmental science, Peyssonnelia, Fucales, business, standardized evaluation procedure

Abstract

The study aimed at contributing to the development of methods to assessing the effects of human disturbance on coralligenous reefs. The effects of the presence of a fish farm on coralligenous reefs were evaluated using the STAR (STAndaRdized coralligenous evaluation procedure) sampling procedure. An asymmetrical sampling design was used to compare the aquaculture site with two reference sites in areas unaffected by human pressure. The response of different ecological indices (ESCA, Ecological Status of Coralligenous Assemblages; ISLA, Integrated Sensitivity Level of coralligenous Assemblages; COARSE, COralligenous Assessment by Reef Scape Estimate) and descriptors (α-diversity, β-diversity and Sensitivity Level) of this kind of disturbance was compared. Results indicate that coralligenous reefs are vulnerable to aquaculture fish cages, and differences in the structure of coralligenous assemblages between the disturbed and the reference sites were mostly due to the decrease in β-diversity. On the contrary, no significant differences in the number of taxa/groups were highlighted. Encrusting Corallinales, erect Rhodophyta, Dictyotales, Fucales and Halimeda tuna were more abundant in reference sites than in disturbed site, while Peyssonnelia spp. and algal turfs had the opposite trend. Conversely, no significant differences between conditions were found in the abundance of sessile invertebrates. The study supports the suitability of the STAR approach to be employed in impact evaluation assessments, such as in monitoring programs. The present study is a first attempt to combine three different ecological indices (ESCA, ISLA and COARSE) within a unified approach, in order to assess the status of coralligenous reefs subjected to a moderate human-induced disturbance. The inconsistent response of the different indices highlights the advantage of applying different indices and descriptors to evaluate the variable human pressures on natural systems.

Published

2019

13. Spatially aggressive peyssonnelid algal crusts (PAC) constrain coral recruitment to Diadema grazing halos on a shallow Caribbean reef.

Author

Stockton, Lindsey and Edmunds, Peter J.

Subjects

*CORAL reefs & islands, *CORALS, *POLITICAL action committees, *REEFS, *HOLDER spaces

Abstract

Peyssonnelid algal crusts (PAC) have rapidly spread on coral reefs throughout the Caribbean since 2010 and have become dominant space holders in multiple locations. In 2019, PAC covered 31–86% of the shallow reefs (< 6-m depth) at two sites in St. John, US Virgin Islands, but within halos around aggregates of the echinoid, Diadema antillarum , PAC was absent and small corals were common. To test the hypothesis that the density of small corals is greater in Diadema halos versus on adjacent substrata, and that this effect is accentuated by high coverage of PAC, the shallow reefs of St. John were surveyed in July/August 2019 and January 2020. Densities of small corals (pooled among taxa) in Diadema halos were equal to, or greater than, densities on adjacent substrata, and were highest in Diadema halos adjacent to areas with high coverage of PAC. Where the cover of PAC was ≥ ~ 10%, the mean (± SE) density of small corals was 23.3 ± 2.1 colonies m−2 in Diadema halos, but was 67% lower at 7.5 ± 1.2 colonies m−2 on adjacent substrata; where the cover of PAC was < ~10%, densities of small corals were nearly identical in Diadema halos (9.1 ± 0.9 colonies m−2) and on adjacent substrata (9.0 ± 1.1 colonies m−2). Similar results were obtained when the analyses were repeated for the common corals, Porites spp., Siderastrea radians , and S. siderea. As Diadema halos remained in the same location for at least 6 months, they may function as refuges for coral recruitment in locations where PAC is becoming spatially dominant. • Peyssonnelid algal crusts (PAC) are rapidly occupying Caribbean reefs. • PAC overgrows corals and other organisms and deters coral settlement. • Grazing halos around sea urchins provide coral recruits with refuges from PAC. [ABSTRACT FROM AUTHOR]

Published

2021

14. Interactive effects of ocean acidification and warming on coral reef associated epilithic algal communities under past, present-day and future ocean conditions

Author

Christian Wild, Neal E. Cantin, Julia Strahl, Paulina Kaniewska, Sven Uthicke, Nikolas Vogel, and Line K. Bay

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, biology, Ecology, 010604 marine biology & hydrobiology, Effects of global warming on oceans, fungi, Coralline algae, Ocean acidification, Coral reef, Aquatic Science, biology.organism_classification, 01 natural sciences, Oceanography, Productivity (ecology), Peyssonnelia, Crustose, Reef, 0105 earth and related environmental sciences

Abstract

Epilithic algal communities play critical ecological roles on coral reefs, but their response to individual and interactive effects of ocean warming (OW) and ocean acidification (OA) is still largely unknown. We investigated growth, photosynthesis and calcification of early epilithic algal community assemblages exposed for 6 months to four temperature profiles (−1.1, ±0.0, +0.9, +1.6 °C) that were crossed with four carbon dioxide partial pressure (pCO2) levels (360, 440, 650, 940 µatm), under flow-through conditions and natural light regimes. Additionally, we compared the cover of heavily calcified crustose coralline algae (CCA) and lightly calcified red algae of the genus Peyssonnelia among treatments. Increase in cover of epilithic communities showed optima under moderately elevated temperatures and present pCO2, while cover strongly decreased under high temperatures and high-pCO2 conditions, particularly due to decreasing cover of CCA. Similarly, community calcification rates were strongly decreased at high pCO2 under both measured temperatures. While final cover of CCA decreased under high temperature and pCO2 (additive negative effects), cover of Peyssonnelia spp. increased at high compared to annual average and moderately elevated temperatures. Thus, cover of Peyssonnelia spp. increased in treatment combinations with less CCA, which was supported by a significant negative correlation between organism groups. The different susceptibility to stressors most likely derived from a different calcification intensity and/or mineral. Notably, growth of the epilithic communities and final cover of CCA were strongly decreased under reduced-pCO2 conditions compared to the present. Thus, CCA may have acclimatized from past to present-day pCO2 conditions, and changes in carbonate chemistry, regardless in which direction, negatively affect them. However, if epilithic organisms cannot further acclimatize to OW and OA, the interacting effects of both factors may change epilithic communities in the future, thereby likely leading to reduced reef stability and recovery.

Published

2016

15. Exceptional discovery of a shallow-water hydrothermal site in the SW area of Basiluzzo islet (Aeolian archipelago, South Tyrrhenian Sea): An environment to preserve

Author

Valentina Esposito, Pietro Battaglia, Gianfranco Scotti, Federico Spagnoli, Giuseppe Sabatino, Marcella Di Bella, Pierpaolo Consoli, Franco Andaloro, Simonepietro Canese, Teresa Romeo, Giovanni Bortoluzzi, Francesco Italiano, Violetta La Cono, Patrizia Giordano, Marzia Bo, and Michail M. Yakimov

Subjects

010504 meteorology & atmospheric sciences, Marine geology, Marine and Aquatic Sciences, lcsh:Medicine, 010502 geochemistry & geophysics, 01 natural sciences, Analytical Chemistry, X-Ray Diffraction, Chlorophyta, Chimney, lcsh:Science, Seismology, Multidisciplinary, biology, Physics, Eukaryota, Geology, Hydrogen-Ion Concentration, Plants, Porifera, OCEAN ACIDIFICATION, ISLAND, PANAREA, VENTS, ARC, COMMUNITIES, FLOOR, GEOCHEMISTRY, BIODIVERSITY, DEPOSITS, Chemistry, Geophysics, Oceanography, Benthic zone, Physical Sciences, Volcanoes, Marine Geology, Research Article, Hydrothermal vent, Conservation of Natural Resources, Algae, Oceans and Seas, Natural Disasters, Volcanology, Bryozoa, Hydrothermal circulation, Hydrothermal Vents, Sea Water, Animals, 14. Life underwater, 0105 earth and related environmental sciences, Ecology and Environmental Sciences, lcsh:R, Organisms, Aquatic Environments, Biology and Life Sciences, biology.organism_classification, Marine Environments, Trace Elements, Waves and shallow water, Geochemistry, Rhodophyta, Microscopy, Electron, Scanning, Earth Sciences, Seawater, lcsh:Q, Peyssonnelia

Abstract

The geological, biological and geochemical features of a particular field of hydrothermal vents, discovered in the Panarea Volcanic Complex during a research survey carried out in 2015, are described for the first time. The site, located at 70-80 m depth off the South-western coast of the islet of Basiluzzo, was named Smoking Land for the presence of a large number of wide and high active chimneys and was characterized in terms of dissolved benthic fluxes, associated macrofauna and megafauna communities and preliminary mineralogy and geochemistry of chimney structures. On the whole field, a total of 39 chimneys, different in size and shape, were closely observed and described; 14 of them showed emission of low temperature hydrothermal fluids of marine origin characterized by acidified chemical conditions. The CTD and benthic chamber measurements highlighted that the Smoking Land is able to form a sea water bottom layer characterized by variable acidity and high DIC and trace elements concentrations; these characteristics weaken moving away from the chimney mouths. The SEM-EDS analysis of the collected solid samples revealed a chimney structure principally composed by amorphous and low crystalline Fe-oxyhydroxides of hydrothermal origins. The ROV explorations revealed a wide coverage of red algae (Peyssonnelia spp.) colonized by the green algae Flabiella petiolata and by suspension feeders, mainly sponges, but also bryozoans, and tubicolous polychaetes. Although novent-exclusive species were identified, the benthic communities found in association to the chimneys included more taxa than those observed in the surrounding no-vent rocky areas. These first findings evidence a submarine dynamic habitat where geological, chemical and biological processes are intimately connected, making the Smoking Land an important site in terms of marine heritage that should be safeguarded and protected.

Published

2018

16. Red algal beds increase the condition of nekto-benthic fish

Author

Francesc Ordines, Marco Bauzá, Magdalena Gianotti, Pilar Roca, Enric Massutí, and Miquel Sbert

Subjects

Biomass (ecology), Gonad, biology, Ecology, fungi, Zoology, Aquatic Science, Oceanography, biology.organism_classification, Serranus, medicine.anatomical_structure, Habitat, Benthic zone, medicine, %22">Fish , 14. Life underwater, Maerl, Peyssonnelia, Ecology, Evolution, Behavior and Systematics

Abstract

The present study analysed the effect of three different benthic habitats, the maerl, Peyssonnelia red algal beds and sandy bottoms, on the condition of two nekto-benthic fish species: Serranus cabrilla and Trigloporus lastoviza. Sampling was conducted during the MEDITS 2010 and 2011 surveys around the Balearic Islands. The condition of the spawning females of both species was determined by using i) biochemical measurements of proteins and lipids in the muscle, liver and gonads, and ii) weight at length relationships based on eviscerated, liver, and gonad weights. Moreover, based on the total weight at length relationship, the mean somatic condition (SC) of the sexually inactive individuals of S. cabrilla and males of T. lastoviza was calculated. Lipid reserves were higher in the livers of S. cabrilla and T. lastoviza from the maerl beds. Additionally, S. cabrilla showed higher lipid reserves in the gonads both in the maerl and Peyssonnelia beds. The mean weights of the liver and gonads at a given individual length revealed the same pattern as the lipids, whereas the mean eviscerated weight was higher in the maerl beds but only for S. cabrilla. A positive correlation was detected between the SC and the biomass of the algal species characterizing the maerl beds for both S. cabrilla and T. lastoviza. The high habitat quality of the red algal beds off the Balearic Islands increased the condition of nekto-benthic fish. In oligotrophic areas, such as the archipelago, these “oases” could help fish to maintain healthy populations.

Published

2015

17. Calcifying algae maintain settlement cues to larval abalone following algal exposure to extreme ocean acidification

Author

Fiorenza Micheli, Stephen R. Palumbi, Donald C. Potts, Jennifer K. O'Leary, Paul W. Gabrielson, Laura Rogers-Bennett, and James P. Barry

Subjects

0106 biological sciences, Haliotis rufescens, Abalone, Oceans and Seas, Science, Gastropoda, Red algae, 010603 evolutionary biology, 01 natural sciences, California, Article, Algae, Animals, Seawater, Ecosystem, Multidisciplinary, biology, Coral Reefs, Ecology, 010604 marine biology & hydrobiology, Metamorphosis, Biological, Coralline algae, Life Sciences, Ocean acidification, Carbon Dioxide, Hydrogen-Ion Concentration, Anthozoa, biology.organism_classification, Larva, Rhodophyta, Medicine, Cues, Peyssonnelia, Crustose, Acids

Abstract

Ocean acidification (OA) increasingly threatens marine systems, and is especially harmful to calcifying organisms. One important question is whether OA will alter species interactions. Crustose coralline algae (CCA) provide space and chemical cues for larval settlement. CCA have shown strongly negative responses to OA in previous studies, including disruption of settlement cues to corals. In California, CCA provide cues for seven species of harvested, threatened, and endangered abalone. We exposed four common CCA genera and a crustose calcifying red algae, Peyssonnelia (collectively CCRA) from California to three pCO2 levels ranging from 419–2,013 µatm for four months. We then evaluated abalone (Haliotis rufescens) settlement under ambient conditions among the CCRA and non-algal controls that had been previously exposed to the pCO2 treatments. Abalone settlement and metamorphosis increased from 11% in the absence of CCRA to 45–69% when CCRA were present, with minor variation among CCRA genera. Though all CCRA genera reduced growth during exposure to increased pCO2, abalone settlement was unaffected by prior CCRA exposure to increased pCO2. Thus, we find no impacts of OA exposure history on CCRA provision of settlement cues. Additionally, there appears to be functional redundancy in genera of CCRA providing cues to abalone, which may further buffer OA effects.

Published

2017

18. Macroalgal Diversity Associated with Rhodolith Beds in Northern New Zealand

Author

Kate F. Neill, Wendy A. Nelson, Tracy J. Farr, and Roberta D'Archino

Subjects

biology, Ecology, Range (biology), Cutleria, Rhodolith, Plant Science, Aquatic Science, biology.organism_classification, Halymenia, Botany, Dumontiaceae, Maerl, Peyssonnelia, Bay, Ecology, Evolution, Behavior and Systematics

Abstract

The macroalgal flora associated with rhodolith beds in the Bay of Islands, northeastern North Island, was investigated as part of the first detailed study of subtidal rhodoliths in New Zealand. The rhodolith beds differed in their physical characteristics and in the dominant rhodolith-forming species present, one bed with clear water and predominantly Lithothamnion crispatum rhodoliths, and the other bed with turbid water, and Sporolithon durum rhodoliths covered by fine sediments. One hundred and three taxa were identified (12 green, 24 brown and 67 red algae), with similar numbers of taxa found in the two seasons sampled. The floral composition at the two beds differed significantly. The flora included range extensions for species previously reported within New Zealand (e.g. Cutleria multifida), new records for the New Zealand region (at family, genus and species levels — e.g. Dumontiaceae, Cutleria, Dictyota, Peyssonnelia spp), and new discoveries (e.g. Halymenia sp., Grateloupia sp., Tsengia ...

Published

2014

19. Community structure of rhodolith-forming beds on the central Brazilian continental shelf

Author

Rafael Riosmena-Rodríguez, Marcia Abreu de Oliveira Figueiredo, and Alexandre B. Villas-Boas

Subjects

geography, geography.geographical_feature_category, biology, Continental shelf, Ecology, Coralline algae, Rhodolith, Red algae, Aquatic Science, Oceanography, biology.organism_classification, Lithothamnion, Lithophyllum, Peyssonnelia, Transect

Abstract

The community structure of rhodoliths beds in the central Brazilian continental shelf was studied under the hypothesis that nongeniculate coralline algae are the major contributors of the individual rhodoliths. Samples were collected from five localities within a single area at 17–18 m depth. At each locality, rhodoliths were collected in 10 random quadrat samples along a 20-m transect. Our results show that dead cores of rhodoliths were significantly composed by nongeniculate coralline red algae rather than bryozoans, corals, or inorganic material. The live outer layers of the rhodoliths are composed mainly of 7 species of nongeniculate red coralline algae (Lithophyllum coralline, L. johansenii, L. depressum, L. stictaeformis, Neogoniolithon brassica-florida, Spongites fruticosus, and Lithothamnion muellerii) associated with other encrusting organisms such as bryozoans, sponges, corals, barnacles, and Peyssonnelia red algae. Significant differences were found in the proportion of Lithophyllum species in relation to other red coralline algae found in this study. Our results show that on the Brazilian continental shelf, the rhodolith-forming species are quite higher in size than in any other studied areas in the world. There was no difference in the proportion of live-to-dead rhodolith materials, suggesting an old bed deposit. Also, the amount of calcium carbonate material in the specimens is relevant to take in account in terms of the CO2 balance worldwide.

Published

2013

20. Why long term trawled red algae beds off Balearic Islands (western Mediterranean) still persist?

Author

Enric Massutí, Catalina Pasqual, Francesc Ordines, Montserrat Ramón, Beatriz Guijarro, Conxi Rodríguez-Prieto, Jesús Rivera, M. Teresa Farriols, CSIC - Instituto Español de Oceanografía (IEO), and Govern de les Illes Balears

Subjects

0106 biological sciences, Western Mediterranean, Red algae -- Balearic Islands, Fauna, Fishing, Red algae, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Centro Oceanográfico de Baleares, Red algae beds, Algae, Abundance (ecology), Algues vermelles -- Balears, Pesca d'arrossegament -- Illes Balears, Pesquerías, Pesca d'arrossegament -- Balears, Ecology, Evolution, Behavior and Systematics, Long term fishery, Ecology, biology, Trawling, 010604 marine biology & hydrobiology, biology.organism_classification, Bottom trawling, Fishery, Fishing impact, Algues vermelles -- Illes Balears, Animal Science and Zoology, Trawls and trawling -- Balearic Islands, Peyssonnelia, Peyssonnelia beds

Abstract

11 pages, 6 figures, 4 tables, 1 appendix, The bottom morphology, the surface sediments and the epibenthic community of two adjacent areas within the fishing ground traditionally known as Pesquera Rica (Balearic Islands) were characterized using multibeam echosounder, van Veen dredge and beam trawl. Red algae beds predominate in both areas, but one has been exploited by trawling since at least 90 years ago, whereas the presence of natural barriers prevents this fishing activity in the other one. Comparisons between the two areas showed a biomass reduction of 46.8 and 39.3% of dominant red algae taxonomic groups Peyssonneliaceae and Corallinophycidae, respectively, in the trawled area (TA). Similarly, both mean abundance and biomass of most groups of fauna were higher in the not trawled area (NTA). N biodiversity index showed higher mean values of algae species in NTA than in TA (7.0 and 4.9, respectively), whereas no differences were detected neither for sessile nor for mobile fauna. SIMPER analysis showed that large species of both sessile and mobile epibenthic fauna (e.g. the ascidia Polycarpa mamillaris and the echinoderm Spatangus purpureus, respectively) presented higher abundance and contribution to within area similarity in NTA than in TA. In coincidence, these are the most abundant epibenthic species in the commercial hauls from the Pesquera Rica. The relatively low fishing effort and the gears used, addressed to avoid large catches of algae allowing longer hauls, may explain the subsistence of red algae beds in the Balearic Islands trawl fishing grounds. However, the detrimental effects shown here claim for urgent management measures aiming to preserve these beds., Surveys at sea in 2009 and 2014 were carried out within the project DRAGONSAL (Caracterización del Ecosistema Bentónico de la Plataforma costera del area comprendida entre sa Dragonera, cap de ses Salines y Cala Figuera (Mallorca)), co-funded by the Instituto Español de Oceanografía and the Balearic Islands government . Analysis of the data has been done within the framework of the projects DRAGONSAL and LIFE-IP INTEMARES “Integrated, Innovative and Participatory Management for N2000 network in the Marine Environment” (LIFE15 IPE/ES/000012)

Published

2017

21. Coral overgrowth by an encrusting red alga (Ramicrusta sp.): a threat to Caribbean reefs?

Author

M. Sabine Engel and Caren E. Eckrich

Subjects

geography, geography.geographical_feature_category, biology, Ecology, Coral, media_common.quotation_subject, Porites, Aquatic Science, biology.organism_classification, Competition (biology), Benthic zone, Ramicrusta, Peyssonnelia, Reef, Bay, media_common

Abstract

An encrusting red alga (Ramicrusta sp., Peyssonneliaceae) present in Lac Bay, Bonaire, overgrows and kills corals and other sessile organisms. Living coral tissue comprises 7.2 % of the benthic composition of the shallow reef, while Ramicrusta sp. covers 18.7 % of the substratum. Of 1374 coral colonies surveyed, 45.8 % were partially overgrown by Ramicrusta sp., with P. porites, P. astreoides and M. complanata being the most susceptible to overgrowth. Mean Ramicrusta sp. maximum overgrowth rates ± SD were 0.08 ± 0.05 mm d−1, 0.07 ± 0.03 mm d−1 and 0.06 ± 0.02 mm d−1 for M. complanata, P. porites and P. astreoides, respectively. None of the 71 coral recruits surveyed were growing on Ramicrusta sp. Ramicrusta sp. is an immediate threat to corals, reduces the area of suitable substratum for coral settlement and may have the ability to influence coral species composition.

Published

2012

22. Peyssonnelia stratosasp. nov. (Peyssonneliaceae, Rhodophyta), a New Shallow-Water Species from Puerto Rico, Caribbean Sea

Author

Hector Ruiz and David L. Ballantine

Subjects

Peyssonneliaceae, Waves and shallow water, biology, Habitat, Ecology, Stratification (water), Plant Science, Aquatic Science, Peyssonnelia, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Geology

Abstract

A new Peyssonnelia species from shallow water habitats in southwest Puerto Rico is described. Peyssonnelia stratosa is yellowish beige or reddish in color and is composed of small overlapping blades 2–3 cm in diameter and forms extensive colonies. Peyssonnelia stratosa exhibits small cells at mid level in the perithallus, both immediate distal and proximal cells being much longer, giving the appearance of stratification within the perithallus. Tetrasporangia, cut off laterally from an enlarged proximal nemathecial cell, reach 190 µm in length.

Published

2012

23. Biodiversity and habitat mapping of Menorca Channel (western Mediterranean): implications for conservation

Author

M. Díaz-Valdés, Enric Massutí, Joan Moranta, C. Barberá, Antoni Grau, A. de Mesa, Montserrat Ramón, and Francesc Ordines

Subjects

0106 biological sciences, Biodiversity, Conservation, Functional diversity, Mediterranean, Seabed, 010603 evolutionary biology, 01 natural sciences, Benthos, Maërl, Mediterranean sea, 14. Life underwater, Maerl, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, geography, geography.geographical_feature_category, Ecology, biology, Continental shelf, 010604 marine biology & hydrobiology, 15. Life on land, biology.organism_classification, Management, Habitats, Spatial heterogeneity, Fishery, 13. Climate action, Posidonia oceanica, Peyssonnelia, Natura 2000, EUNIS

Abstract

28 pages, 6 figures, 6 tables, supplementary material in https://doi.org/10.1007/s10531-011-0210-1, Menorca Channel (Balearic Islands, western Mediterranean) comprises 98,700 Ha of continental shelf. It has been proposed to include this area in the Natura 2000 network due to the wide range of species and habitats of high conservation value found here, such as Posidonia oceanica meadows and maërl and coralligenous beds. This study aimed to establish a scientific basis for managing and protecting the continental shelf bottoms in Menorca Channel. Sampling was carried out with side-scan sonar, beam trawls, box corers, a remote-operated vehicle and an underwater drop camera. The information collected was used to map the habitat distribution between 50 and 100 m depth, as well as make an inventory and describe the spatial patterns of both the specific and functional diversity. A total of 636 species was recorded in a mosaic of habitats in which Corallinacea calcareous algae and other soft red algae (Osmundaria volubilis and Peyssonnelia spp.) were the most abundant groups. Hotspots of specific and functional diversity were located in areas with high habitat heterogeneity and complexity. Protection of Menorca Channel should not only include the habitats and species in the European directives, but also the habitats that are not currently protected, such as O. volubilis and Peyssonnelia beds, due to their biogeographical and ecological interest and their contribution to the biodiversity of shelf bottoms in the Mediterranean Sea. © 2012 Springer Science+Business Media B.V., The study was financed by the Conselleria d’Agricultura i Pesca of the Government of the Balearic Islands within the Canal Project and in the framework of LIFE+ INDEMARES project: ‘‘Inventario y designación de la Red Natura 2000 en áreas marinas del Estado español’’. Sonography was carried out by Tecmarin 1990 SL and financed by the MarViva Foundation

Published

2012

24. Two new deepwater Peyssonnelia species, Peyssonnelia iridescens and Peyssonnelia gigaspora (Peyssonneliaceae, Rhodophyta) from Puerto Rico, Caribbean Sea

Author

Hector Ruiz and David L. Ballantine

Subjects

Peyssonneliaceae, Ecology, Botany, Plant Science, Aquatic Science, Biology, Peyssonnelia, biology.organism_classification

Abstract

Ballantine D.L. and Ruiz H. 2010. Two new deepwater Peyssonnelia species, Peyssonnelia iridescens and Peyssonnelia gigaspora (Peyssonneliaceae, Rhodophyta) from Puerto Rico, Caribbean Sea. Phycologia 49: 537–544. DOI: 10.2216/09-88.1 Two new distinctive Peyssonnelia species are described from deepwater habitats in southwestern Puerto Rico. Peyssonnelia iridescens possesses a distinctive bluish iridescent fringe and forms loosely adherent blades up to 6.0 cm across. The crusts possess a Peyssonnelia atropurpurea-type vegetative organization. Tetrasporangia are cut off distally from apical perithallial cells and measure up to 53 µm wide × 135 µm long. Carposporangia measure 25–30 µm in their largest dimension and are formed in elongate nemathecia. Peyssonnelia gigaspora is variously coloured, tan to reddish, with obvious radial striations and reddish spots when living. The crusts are closely appressed to the substratum and normally measure up to 130 µm in thickness, but are occasionally 200 µm thic...

Published

2010

25. New records of crustose seaweeds associated with subtidal maërl beds and gravel bottoms in Galicia (NW Spain)

Author

Ignacio Bárbara and Viviana Peña

Subjects

geography.geographical_feature_category, biology, Ecology, Ochrophyta, Plant Science, Aquatic Science, biology.organism_classification, Scytosiphon lomentaria, Geography, Habitat, Peninsula, Species richness, Maerl, Peyssonnelia, Crustose, Ecology, Evolution, Behavior and Systematics

Abstract

We studied crustose seaweeds associated with subtidal maërl beds and gravel bottoms in the Galician rías (NW Iberian Peninsula). Each species is described as well as its habitat and occurrence in maërl beds and gravel bottoms. We confirmed the great crustose species richness associated with European Atlantic maërl beds. We report a new species for the Atlantic Ocean (Contarinia peyssonneliaeformis) and six new records for the Iberian Peninsula (Atractophora hypnoides stage “Rhododiscus pulcherrimus”, Peyssonnelia immersa, Scytosiphon lomentaria stage “Microspongium gelatinosum”, Petroderma maculiforme, Pseudolithoderma roscoffense and Phycocelis foecunda). Peyssonnelia armorica is a new record for the Atlantic Iberian Peninsula and Peyssonnelia harveyana is a new record for the Galician coast. We provide for the first time observations on spermatangial structures in Cruoria cruoriaeformis occurring on the Atlantic Iberian Peninsula. The Galician crustose algal flora of subtidal maërl beds and gravel bottoms is increased up to 23 species (15 Rhodophyta and 8 Ochrophyta). Peyssonnelia rubra is excluded from the Galician flora.

Published

2010

26. A new order of red algae based on the Peyssonneliaceae, with an evaluation of the ordinal classification of the Florideophyceae (Rhodophyta)

Author

David M. Krayesky, Daniela Gabriel, Suzanne Fredericq, Paul W. Gabrielson, and James N. Norris

Subjects

Peyssonneliaceae, Monophyly, Order (biology), Data sequences, biology, Botany, Intertidal zone, Red algae, Peyssonnelia, General Agricultural and Biological Sciences, biology.organism_classification, Global biodiversity

Abstract

The Peyssonneliaceae Denizot comprises a worldwide group of non-calcified or calcified, crust-forming red algae found in diverse, intertidal to deep subtidal marine habitats. Eight genera have been recognized in the family, with Peyssonnelia Decaisne having the largest number of species. Both comparative morphology and rbcL and nuclear LSU rDNA sequence data support the monophyly of the family and show that it cannot be maintained in the order Gigartinales Schmitz. A new order, Peyssonneliales, is herein proposed to accommodate the Peysonneliaceae, with only two of the genera (i.e., Peyssonnelia and Sonderopelta), and its relationship to the other red algal orders is discussed. We also propose the transfer of one species, Peyssonnelia capensis Montagne to Sonderopelta Womersley & Sinkora.

Published

2009

27. Relationships between macro-epibenthic communities and fish on the shelf grounds of the western Mediterranean

Author

Francesc Ordines and Enric Massutí

Subjects

0106 biological sciences, Ecology, 010604 marine biology & hydrobiology, Fishing, Aquatic Science, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Demersal zone, Fishery, Benthos, Habitat, 14. Life underwater, Species richness, Fisheries management, Maerl, Peyssonnelia, Nature and Landscape Conservation

Abstract

1. The present study characterizes the macro-epibenthic assemblages, and the relationships between demersal species and benthic habitats on the shelf trawl fishing grounds off the Balearic Islands (western Mediterranean). 2. The data used were collected during experimental bottom trawl surveys from 2002 to 2005. A total of 157 samples from 38–255 m depth were analysed. 3. Three macro-epibenthic assemblages were identified in both the shallow (at 38–91 m) and deep shelf (90–255 m). Macroalgae bathymetric distribution was identified as the main factor explaining the segregation between shallow and deep shelf assemblages. 4. Two especially sensitive habitats were identified: maerl and crinoid beds; a third habitat was identified as Peyssonnelia beds, which represented the highest biomass on the whole shelf, with a similar species richness to the maerl beds. On the deep shelf, crinoid beds represented the highest biomass. 5. Habitat type had a significant effect on the distribution of demersal commercial species, most of them being more abundant in the two sensitive habitats mentioned and in the Peyssonnelia beds. Some species showed size-specific habitat preferences. 6. Fisheries management in the area should take into account the resilience of these benthic habitats, and their importance from both ecological and sustainable fisheries management perspectives. Copyright © 2008 John Wiley & Sons, Ltd.

Published

2009

28. Characterization of the crustose red algaPeyssonnelia japonica(Rhodophyta, Gigartinales) and its taxonomic relationship withPeyssonnelia boudouresqueibased on morphological and molecular data

Author

Aki Kato, Michio Masuda, Hiroshi Kawai, and Silvia M. P. B. Guimarães

Subjects

biology, Holotype, Plant Science, Aquatic Science, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), Thallus, Monophyly, Botany, Taxonomy (biology), Type locality, Peyssonnelia, Gigartinales, Crustose

Abstract

SUMMARY The vegetative and reproductive morphology of the crustose red alga Peyssonnelia japonica (Segawa) Yoneshigue was re-examined based on the holotype specimen and recent collections from various localities in Japan, including the type locality, and Hawaii. This species is characterized by the following features: thallus with appressed margins, perithallial filaments arising from the entire upper surface of each hypothallial cell (the Peyssonnelia rubra-type), easily separable perithallial filaments in a gelatinous matrix, hypothallial filaments arranged in parallel rows, unicellular rhizoids, hypobasal calcification, gonimoblasts derived mainly from connecting filaments, and spermatangia produced in a series of whorls comprised of one to four paired spermatangia surrounding each central cell (the Peyssonnelia dubyi-type). In addition to these features, the dimensions of the vegetative and reproductive structures of Peyssonnelia boudouresquei Yoneshigue described from Brazil were consistent with those of P. japonica. Molecular phylogenetic analyses using partial 26S rDNA, rbcL, and cox2-3 spacer DNA sequences also supported the monophyly of P. japonica (from 16 localities in Japan and one locality in Hawaii) and P. boudouresquei (from two localities in Brazil). Therefore, P. boudouresquei may be a taxonomic synonym of P. japonica. However, considering the relatively high sequence divergences between the two taxa (2.1–2.5% in partial 26S rDNA, 5.9–6.7% in rbcL, and 5.8–6.7% in cox2-3 spacer), and the relatively limited geographic sampling ranges, we reserve the taxonomic conclusion until further morphological and genetic data of the specimens from other geographic areas connecting Japan and Brazil become available.

Published

2009

29. REASSESSMENT OF THE LITTLE-KNOWN CRUSTOSE RED ALGAL GENUSPOLYSTRATA(GIGARTINALES), BASED ON MORPHOLOGY AND SSU rDNA SEQUENCES

Author

Hiroshi Kawai, Aki Kato, Michio Masuda, and Masasuke Baba

Subjects

Type species, biology, Botany, Molecular phylogenetics, Taxonomy (biology), Plant Science, Aquatic Science, Peyssonnelia, Gigartinales, Crustose, biology.organism_classification, Auxiliary cell, Thallus

Abstract

The taxonomic distinctiveness of the crustose red algal genus Polystrata Heydrich (Peyssonneliaceae) is confirmed on the basis of morphological and molecular data. The vegetative and reproductive morphology of the type species Polystrata dura Heydrich is newly described. Polystrata thalli are thick multi-layered crusts, each crust of which is composed of a mesothallus, a superior perithallus, and an inferior perithallus. P. dura is characterized by a poorly developed inferior perithallus consisting of single-celled perithallial filaments and each layer of multi-layered crusts being closely adherent to the parental layer. This Polystrata species is identical to Peyssonnelia species, the type genus of the Peyssonneliaceae in the morphology of sexual reproductive organs: a carpogonial branch and an auxiliary cell branch are formed laterally on respective nemathecial filaments; the gonimoblasts are developed from connecting filaments and auxiliary cells; the spermatangia are produced in male and female nemathecia; and the spermatangial filament produces a series of one to four paired spermatangia that form a whorl surrounding each central cell (the Peyssonnelia dubyi-type development). Polystrata fosliei (Weber-van Bosse) Denizot is clearly distinguished from P. dura by an inferior perithallus as well-developed as the superior peri. thallus, and each layer of multi-layered crusts being loosely adherent to the parental layer. In our small subunit rDNA trees of the Peyssonneliaceae, these Polystrata species formed a clade with low to medium supports, although the phylogenetic position of Polystrata was unresolved in this family. Therefore, the thallus structure of Polystrata may be regarded as an important taxonomic character at the genus rank.

Published

2006

30. Taxonomic Characteristics of Peyssonnelia capensis Montagne(Peyssonneliaceae, Rhodophyta) from Jeju Island in Korea

Author

Jae-Wan Lee, Wook-Jae Lee, Seung-Ju Kang, Hae-Bok Lee, and Yoon Sik Oh

Subjects

Peyssonneliaceae, Peyssonnelia capensis, fungi, Botany, Morphological variation, Plant Science, Aquatic Science, Biology, Peyssonnelia, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Thallus

Abstract

The characteristics of Peyssonnelia capensis Montagne (Peyssonneliaceae, Rhodophyta) from Jeju Island were investigated in order to clarify the species entity and re-evaluate taxonomic position. The morphological variations of the Peyssonnelia capensis from Jeju Island were divided into two types, the thin thallus type and the thick thallus type. The thin thallus type is characterized by thin, soft, orbicular, slightly lobed thallus with entire to undulate margin, and compact rhizoids. The thick thallus type has thick and stiff thallus with sinuate margin and scattered rhizoids, and has more branches than the thin thallus type. The basal layer and the epithallium of thin thallus type are similar to those of thick thallus types in their structure. However, the hypothallial cells of the thick thallus type are longer than those of the thin thallus type. The erect filament of thick thallus type has more cells than those of the thin thallus type. Tetrasporangial nemathecia are distinctly protruded. Mature tetrasporangia of this species are divided cruciately into four spores as those of other Peyssonneliaceae. In addition to their morphological and anatomical distinctness between two types, the nucleotide sequence analyses of SSU and ITS2 region make no differences among populations from Jeju and other localities in Korea. Therefore these two morphological variation may not base on genetic variation.

Published

2006

31. New records of Peyssonnelia armorica and Peyssonnelia harveyana (Rhodophyta, Gigartinales) from Japan

Author

Aki Kato, Michio Masuda, and Hiroshi Kawai

Subjects

Peyssonnelia harveyana, biology, Plant Science, Aquatic Science, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), Thallus, Protein filament, Botany, Peyssonnelia armorica, Peyssonnelia, Gigartinales, Crustose, Auxiliary cell

Abstract

SUMMARY Two species of the crustose red algal genus Peyssonnelia (Gigartinales, Peyssonneliaceae) are reported from Japanese waters for the first time. These species share the following combination of vegetative and reproductive features: thalli with appressed margins, perithallial filaments arising from the whole upper surface of each hypothallial cell (the Peyssonnelia rubra-type anatomy), unicellular rhizoids, hypobasal calcification and spermatangia that are produced in double chains (the Peyssonnelia harveyana-type spermatangial filament). However, they differ obviously from each other in the hypothallus orientation as seen from below, the perithallus structure in relation to the consistency of the crust, the origin of gonimoblasts and the elevation of the nemathecia. Peyssonnelia armorica is characterized by: (i) hypothallial filaments comprising a polyflabellate layer; (ii) easily separable perithallial filaments in a gelatinous matrix; (iii) gonimoblasts originating exclusively from the auxiliary cell; and (iv) semi-immersed (slightly elevated) nemathecia. Peyssonnelia harveyana is characterized by: (i) hypothallial filaments arranged in parallel rows; (ii) closely packed perithallial filaments in a firm matrix; (iii) gonimoblsts originating from both the auxiliary cell and the connecting filament; and (iv) conspicuously elevated nemathecia.

Published

2005

32. TwoPeyssonneliaspecies (Peyssonneliaceae, Rhodophyta) from Puerto Rico includingPeyssonnelia flavescenssp. nov

Author

David L. Ballantine and Hector Ruiz

Subjects

geography, geography.geographical_feature_category, Algal species, Ecology, Peyssonnelia boergesenii, Plant Science, Coral reef, Aquatic Science, Biology, biology.organism_classification, Peyssonneliaceae, Habitat, Botany, Peyssonnelia

Abstract

Two highly colourful encrusting red algal species from deep and shallow coral reef habitats in Puerto Rico are reported. Peyssonnelia boergesenii Weber Bosse is characterized by its multicoloured appearance, polyflabellate arrangement of hypothallial cells and multicellular holdfasts. Peyssonnelia flavescens sp. nov. is variably bi- to tri-coloured, with the principal background colour bright yellow to tan. It forms large crusts, to 30 cm in diameter, which are variably thick, measuring 310–640 μm in thickness. The new species differs from other known Peyssonnelia species by cutting off elongate, 12–17 μm long, spermatangial initials that cut off seriate chains of spermatangia distally and by its production of very large tetrasporangia, to 170 μm long.

Published

2005

33. A morphological study of Peyssonnelia meridionalis (Gigartinales, Rhodophyta), with discussion of spermatangial types within the genus

Author

Michio Masuda and Aki Kato

Subjects

Gametophyte, biology, Plant Science, Anatomy, Aquatic Science, biology.organism_classification, Protein filament, Genus, Pedicel, Paraphyses, Botany, Peyssonnelia, Gigartinales, Whorl (botany)

Abstract

Vegetative and reproductive features of the red alga Peyssonnelia meridionalis (Peyssonneliaceae, Gigartinales) are reported on the basis of material collected in Hokkaido, Japan. It is characterized vegetatively by tightly appressed margins, the basal layer (hypothallus) consisting of little-branched filaments which are arranged in parallel, the erect perithallial filaments arising from the whole upper surface of each hypothallial cell, and unicellular rhizoids. Gametophytes are monoecious and produce female and male reproductive structures in separate nemathecia that are distinctly (but slightly) elevated. Gonimoblasts issue from the connecting filament that develops from the suprabasal cell of carpogonial branches, which contacts with a fertilized carpogonium by a connecting cell. Spermatangial nemathecia consist entirely of spermatangial filaments, which bear a series of one to four paired spermatangia that form a whorl surrounding each central cell. Tetrasporangia with a one-celled pedicel are terminal on a perithallial filament of distinctly (but slightly) elevated nemathecia and are associated with simple paraphyses.

Published

2002

34. Depth distribution of algal species on the deep insular fore reef at Lee Stocking Island, Bahamas

Author

Nilda E. Aponte and David L. Ballantine

Subjects

geography, geography.geographical_feature_category, biology, Ecology, Coral reef, Aquatic Science, Oceanography, biology.organism_classification, Benthic zone, Ostreobium, Plant cover, Dominance (ecology), Lobophora, Peyssonnelia, Reef, Geology

Abstract

Deep-water benthic algal composition and cover were studied with a submersible on the deep fore reef of Lee Stocking Island, Bahamas, from 45 to 150 m. Algal cover decreased from 57% to 16% over this depth range. Although there was substantial overlap in depth distributions, different species or groups of species dominated benthic cover at different depths. Lobophora and Halimeda copiosa co-dominated the fore reef from 45 to 60 m. A Corallinales/ Peyssonnelia group was abundant from 60 to 120 m. The Corallinales/ Peyssonnelia group shared dominance with Ostreobium between 90 and 120 m. Ostreobium was the only alga observed below 150 m and remained abundant below 200 m. Movement of sand down the fore reef is recognized as having substantial influence on algal cover.

Published

2001

35. Morphological studies of five species of Peyssonnelia (Gigartinales, Rhodophyta) from southeastern Brazil

Author

Silvia M. P. B. Guimarães and Mutue T. Fujii

Subjects

Peyssonneliaceae, Ecology, Espirito santo, Botany, Peyssonnelia armorica, RED MARINE ALGAE, Intertidal zone, Plant Science, Aquatic Science, Biology, Gigartinales, Peyssonnelia, biology.organism_classification

Abstract

During a survey of red marine algae from Espirito Santo State, Brazil, five species of Peyssonnelia were collected in the intertidal zone or as drift material: Peyssonnelia armorica (P.Crouan et H....

Published

1999

36. NOTES ON THE MARINE ALGAE OF THE BERMUDAS. 3. AVRAINVILLEA SYLVEARLEAE, DISCOSPORANGIUM MESARTHROCARPUM, AND PEYSSONNELIA VALENTINII

Author

Craig W. Schneider and Richard B. Searles

Subjects

Mediterranean climate, Peyssonnelia valentinii, Taxon, Discosporangium mesarthrocarpum, biology, Algae, Ecology, Discosporangium, Avrainvillea, Plant Science, Aquatic Science, Peyssonnelia, biology.organism_classification

Abstract

Three species of marine algae are reported from the Bermuda islands for the first time, Avrainvillea sylvearleae D. S. Littler et Littler, Discosporangium mesarthrocarpum (Menegh.) Hauck, and Peyssonnelia valentinii Yonesh. et Boudour. The presence of Avrainvillea sylvearleae in Bermuda prompted a taxonomic reinvestigation of North Carolina specimens attributed recently to that taxon, and we find them better placed in A. longicaulis f. laxa D. S. Littler et Littler. The report of the eastern Atlantic/Mediterranean Discosporangium mesarthrocarpum is the first from the western Atlantic Ocean and joins only 12 other amphi-Atlantic species with strictly warm-temperate zone distributions. Peyssonnelia valentinii is discovered for the first time outside of Brazil.

Published

1998

37. Polysiphonia perforanssp. nova (Ceramiales, Rhodophyta) from the Mediterranean Sea

Author

Giovanni Furnari, Mario Cormaci, Donatella Serio, and F. Pizzuto

Subjects

Mediterranean sea, Botany, Ceramiales, Taxonomy (biology), Plant Science, Biology, Peyssonnelia, biology.organism_classification, Polysiphonia, Ecology, Evolution, Behavior and Systematics, Thallus

Abstract

A new species of the genus Polysiphonia from the Mediterranean Sea is described. It is an ecorticate species, with 4 pericentral cells, showing prostrate axes from which erect axes arise. Rhizoids are formed by pericentral cells in a median position remaining in open connection with them. Erect axes are straight, simple throughout or pseudodichotomous at the base then simple or with one (rarely two-three) orders of branching; trichoblasts and scar cells not observed. Only tetrasporangial plants were found. They show ellipsoid tetrasporangia borne in short straight series, often interrupted by sterile segments. The new species is also characterized by a peculiar habit consisting of prostrate axes, adhering to lower faces of Peyssonnelia spp. by means of rhizoids growing upward, from which erect upright axes perforating thalli of the supporting species arise. A comparison with the related species of Polysiphonia was also carried out.

Published

1998

38. [Untitled]

Author

Regas Santas, Markus Porst, and Donat-P. Häder

Subjects

Photoinhibition, Ecology, biology, Oxygen evolution, Quantum yield, Plant Science, biology.organism_classification, Photosynthesis, Photosynthetic capacity, Horticulture, Algae, Botany, Peyssonnelia, Chlorophyll fluorescence

Abstract

Photoinhibition of photosynthesis, defined as reversible decrease in the effective photosynthetic quantum yield, was measured in the Mediterranean red alga, Peyssonnelia squamata, using pulse amplitude modulation (PAM) chlorophyll fluorescence and oxygen production on site. This alga is adapted to very low fluence rates of solar radiation and is easily inhibited by exposure to excessive radiation. At high solar angles its photosynthetic capacity is impaired even in its natural habitat, in the protective shade of overhanging rocks. Oxygen production was maximal at 5 m depth and decreased to almost zero at the surface. When exposed at the surface oxygen production ceased within 16 min. The optimal photosynthetic quantum yield, defined as Fv/Fm, was about 0.45 in dark-adapted specimens. After 30 min of exposure to unattenuated solar radiation the (effective, Fv′/Fm′) quantum yield decreased to below 0.1. Removing solar UV (especially UV-B) significantly reduced photoinhibition: the quantum yield of a sample exposed under a UV-B cut-off filter was double that of a sample exposed to full solar radiation after 30 min exposure. Recovery from photoinhibition took several hours and was not complete after prolonged exposure (1.5 h) to direct solar radiation. The degree of photoinhibition depended on the depth at which the thalli were exposed. Recovery from photoinhibition was complete within 2 h except when the algae were exposed at the surface. When measured over the whole day, the effective photosynthetic quantum yield significantly decreased by about 25% from initially high values toward early afternoon and rose again towards evening. The data indicate that this alga is adapted to very low irradiances and is easily inhibited by excessive solar radiation; solar UV contributes substantially to the observed photoinhibition.

Published

1998

39. Usage Of Gelatin-Virus Balls And Liquid Virus Filled Gelatin Capsules To Control Coral Reef Diseases: Model For Phage Therapy

Author

Bhagwan N. Rekadwad and Chandrahasya N. Khobragade

Subjects

0301 basic medicine, food.ingredient, Phage therapy, medicine.medical_treatment, Environmental pollution, Biology, Gelatin, Virus, Microbiology, 03 medical and health sciences, food, medicine, geography, geography.geographical_feature_category, Ecology, fungi, technology, industry, and agriculture, Black band disease, Coral reef, biochemical phenomena, metabolism, and nutrition, medicine.disease, biology.organism_classification, 030104 developmental biology, population characteristics, Peyssonnelia, geographic locations, Bacteria

Abstract

Coral reefs are very sensitive to environmental pollution. Coral reefs frequently get infected by various bacteria, fungi, marine algae and protozoa. The diseases include Bacterial Infections (BI), Fungal Infections (FI), Black Band Disease (BBD), Black Overgrowing Cyanophyta (BOC), Black Aggressive Band (BAB), Lethal Orange Disease (LOD), Skeleton Eroding Band (SED), PEYssonnelia (PEY), PNEophyllum (PNE) and White Syndromes (WS). Here in we have proposed a proposed model in which cold water soluble gelatin will be used to prepare Gelatin virus balls (GVB) and Liquid virus filled and sealed gelatin capsules (LVFSGC). GVB and LVFSGC will be prepared as per standard protocol in the form of paintballs and capsules. Above mentioned infecting agents of Coral reefs will be used as inoculum for production their production on the pilot scale. These produced infecting agents will be added with specific viruses of infecting agent (host-specific viruses). After the lysis of cell (naturally/artificially), lysate containg host-specific viruses will be used as infecting viruses to the Coral reef infecting agents. This lysate will be used for preparation of GVB and LVFSGC. These paintballs and capsules contain host-specific viruses can be made to release on a surface of sea water and dispersed on affected coral reefs zone naturally by Sea water current/waves. The dispersed viruses from GVB and LVFSGC will attach to their host. Ultimately, the diseasecausing agent may be killed and the coral reef infection will be removed from sea water without any harm to the environment. GVB and LVFSGC will be used for the release of viruses against disease-causing agents. The GVB and LVFSGC will systematically kill and save the coral reefs.

Published

2016

40. Finding the winners in competition for substratum between coral polyps and epilithic algae on damaged colonies of the coral Porites lutea

Author

M. Arvedlund, Tamara V. Titlyanova, and E.A. Titlyanov

Subjects

geography, geography.geographical_feature_category, Ecology, Fringing reef, media_common.quotation_subject, Coral, fungi, technology, industry, and agriculture, biochemical phenomena, metabolism, and nutrition, Aquatic Science, Biology, Oceanography, biology.organism_classification, Competition (biology), Light intensity, Algae, natural sciences, Lobophora variegata, Peyssonnelia, Reef, geographic locations, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

The study was conducted at the fringing reef of Sesoko Island (Okinawa, Japan), in the north-western Pacific. Artificial injuries were inflicted to the upper portions of colonies of the massive coral Porites lutea. The colonies were fixed to cement blocks and placed at two reef locations of different light intensity: one with moderate light (20–30% of incident photosynthetic active radiation, PAR0) and one with low light (2–5% PAR0). After six months of the treatment, all injuries were photographed. Analysis of photographs made under light and electron microscopes showed that the coral was able to recover from the injuries at both light variants. Under moderate light, some of the injuries completely healed and some injuries recovered partially. Under low light all injuries recovered partially. These partially recovered injuries were occupied by algae at dead portions of the injuries. In moderate light, coral polyps overgrew all algal settlers and were the winners in the competition for substratum. In low light, Peyssonnelia conchicola, Corallophila apiculata, Centroceras clavulatum, Anortichium tenue, and Lobophora variegata that colonized the injured areas overgrew coral polyps and were the winners in the competitive struggle for the substratum. It was shown that overgrowing is the main mechanism of coral–algal competition for substratum in light ranging from 2 to 30% PAR0. This mechanism of overgrowth of corals by algae, and the reverse, are discussed in detail.

Published

2009

41. Habitat preferences and life history of the red scorpion fish, Scorpaena notata, in the Mediterranean

Author

Antoni Quetglas, F. Ordines, E. Massutí, and Joan Moranta

Subjects

0106 biological sciences, life history, Population, habitat selection, Aquatic Science, Oceanography, 010603 evolutionary biology, 01 natural sciences, Scorpaena notata, Centro Oceanográfico de Baleares, Mediterranean sea, feeding behaviour, body conditions, western Mediterrranean, Pesquerías, 14. Life underwater, Maerl, education, education.field_of_study, Biomass (ecology), biology, Ecology, 010604 marine biology & hydrobiology, Notata, biology.organism_classification, Fishery, Benthic zone, Peyssonnelia

Abstract

Scorpaena notata is a small, sedentary scorpaenid species widely distributed in the Mediterranean and adjacent waters of the Atlantic. In the western Mediterranean it inhabits coastal continental shelf bottoms. In the Balearic Islands, these bottoms are characterised by the presence of the facies with red algae, including both Peyssonnelia and mäerl beds. These beds enhance the structural complexity, biodiversity and secondary production of the soft bottoms. Due to the oceanographic conditions of the Islands, the facies with red algae are especially rich in terms of biomass and algal coverage, and are widespread distributed between 40 and 90 m depth, where trawlers exploiting the continental shelf operate. The present work studies the biology of S. notata and its relationship with habitat characteristics. Special attention is focused on the aspects related to fish condition and growth as a tool to assess the importance of the facies with red algae for fish. The reproduction period of S. notata in the Balearic Islands occurs in summer and is accompanied by a decrease in hepatic condition, as it happens in the adjacent area off the Iberian Peninsula; however, in contrast with this adjacent area, this period is accompanied by a decrease in somatic condition and an increase in feeding potential, which suggests that these could be adaptations to the higher oligotrophy of the Archipelago. The standardised algal biomass (mostly Rhodophyceae) present in the bottoms positively affected the abundance, somatic condition and feeding potential of S. notata. Individuals inhabiting bottoms with the highest algal biomass showed faster growth than the entire population analysed together. Both, the structural complexity and the availability of preys in the facies with red algae are revealed as advantageous traits for the life history of fish. Taking into account the importance of individual health for the overall success of the population, the indexes studied here could be a useful tool for identifying high quality or essential fish habitats. Our results highlight the importance of the facies with red algae as oasis of high productivity where benthic fish can circumvent the general oligotrophic conditions of the Mediterranean, and the necessity of urgent management measures in order to protect them from human impacts., Sí

Published

2009

42. Structure of a deep-water community of Halimeda tuna (Chlorophyceae, Caulerpales) from the North-Western Mediterranean

Author

Enric Ballesteros

Subjects

Mediterranean climate, estructura, Biomass (ecology), biology, Ecology, Fitobentos marino, Plant Science, Mediterranean, biology.organism_classification, lcsh:QK1-989, lcsh:Biology (General), Algae, Halimeda tuna, aguas profundas, lcsh:Botany, Marine phytobenthos, structure, Species richness, Peyssonnelia, Halimeda, Mediterráneo, lcsh:QH301-705.5, deep-water, Udotea

Abstract

A deep-water community dominated by Halimeda tuna and Mesophyllum lichenoides is described from the rocky bottoms of the North-Western Mediterranean. Other sciaphilic algae such as Udotea petiolata, some Peyssonnelia species and Lithophyllum expansum are also abundant. Algal biomass ranges between 1200 and 2100 g dw m-2 while percentage coverage ranges from 180 to 400%. The variations observed in algal coverage adequately describe the seasonal pattern of the community, which is characterized by a high development of erect algae in summer months and a low development in winter. The species richness, as well as both species and pattern diversity reach a maximum in summer. Summer's maximum irradiances and the low irradiances received between November and February seem to account for the seasonal pattern described above. Community structure and environmental factors affecting the deep-water Halimeda populations from the North Western Mediterranean are compared with those found in other deep-water seaweed communities from the Mediterranean and other seas. Finally, the phytosociological affinities between these Halimeda populations and the deep-water Mediterranean associations previously described is assessed.Se describe una comunidad dominada por Halimeda tuna y Mesophyllum lichenoides en los fondos rocosos profundos del Mediterráneo Noroccidental. Dichas especies coexisten con Udotea petiolata, diversas especies de Peyssonnelia y Lithophyllum expansum, como especies más aparentes. La biomasa algal oscila entre 1200 y 2100 g ps m-2 mientras que el porcentaje de recubrimiento varía entre el 180 y el 400 %. Las variaciones encontradas en el recubrimiento algal describen adecuadamente el comportamiento estacional de la comunidad, el cual se caracteriza por un elevado desarrollo del estrato erecto durante el verano. La riqueza específica y la diversidad son también elevadas en verano. La mayor disponibilidad de luz veraniega parece explicar este comportamiento. La estructura de la comunidad y los factores ambientales a los que está sometida se comparan con los descritos en otras comunidades profundas del Mediterráneo y otros mares. Finalmente, se discute la afinidad de estas poblaciones de Halimeda con las distintas asociaciones descritas en la zona circalitoral del Mediterráneo Occidental.

Published

1991

43. A new species of Speleogobius (Teleostei: Gobiidae) from the Western Mediterraenean Sea

Author

Francesc Ordines, Ulrich K. Schliewen, and Marcelo Kovačić

Subjects

0106 biological sciences, Morphometrics, Mediterranean climate, Teleostei, food.ingredient, biology, Ecology, 010604 marine biology & hydrobiology, Goby, Zoology, Red algae, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, food, Speleogobius, Animal Science and Zoology, Peyssonnelia, Snout, Ecology, Evolution, Behavior and Systematics

Abstract

A new goby species, Speleogobius llorisi sp. nov. (Teleostei: Gobiidae) is described from the circalittoral sea bed at 46–69 m depth off the Balearic Islands, western Mediterranean. Six specimens, four females and two males, of the new species were collected from beam trawl samples carried out on the red algae beds off the south west coast of Mallorca Island. Among others, the main traits that differentiate the new species from the only congeneric species, S. trigloides , are the presence of preopercular head canal with pores γ, δ, e vs. preopercular head canal absent; a longer snout, equal or longer than eye vs. shorter than eye; lower lip ending anteriorly slightly in front of upper lip vs. upper lip slightly protruding lower lip; scales in lateral series 28 or 29 vs. 26; scales in transverse series 6 vs. 7–8. It also differs from S. trigloides in some non-overlapping morphometrics and in coloration. All individuals of the new species were collected from Peyssonnelia beds, beds of red algae dominated by species of the family Peyssonneliaceae. The generic diagnosis of Speleogobius is revised.

Published

2016

44. Peyssonnelia imbricata sp. nov. (Peyssonneliaceae, Rhodophyta) from Puerto Rico, Caribbean Sea

Author

David L. Ballantine and Hector Ruiz

Subjects

Peyssonneliaceae, Geography, Plant science, biology, Ecology, Ecology (disciplines), Plant Science, Aquatic Science, Peyssonnelia, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Published

2006

45. Peyssonnelia inamoena

Author

Michael J. Wynne, Michael J. Wynne, Michael J. Wynne, and Michael J. Wynne

Abstract

Algae, http://name.umdl.umich.edu/IC-HERB00IC-X-737276%5DMICH-A-737276, https://quod.lib.umich.edu/cgi/i/image/api/thumb/herb00ic/737276/MICH-A-737276/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. Some materials may be protected by copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, please contact the Herbarium professional staff: herb-dlps-help@umich.edu. If you have concerns about the inclusion of an item in this collection, please contact Library Information Technology: libraryit-info@umich.edu., https://www.lib.umich.edu/about-us/policies/copyright-policy

Published

2009

46. Peyssonnelia iridescens

Author

H. Ruiz, H. Ruiz, H. Ruiz, and H. Ruiz

Abstract

Algae, http://name.umdl.umich.edu/IC-HERB00IC-X-665918%5DMICH-A-665918, https://quod.lib.umich.edu/cgi/i/image/api/thumb/herb00ic/665918/MICH-A-665918/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. Some materials may be protected by copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, please contact the Herbarium professional staff: herb-dlps-help@umich.edu. If you have concerns about the inclusion of an item in this collection, please contact Library Information Technology: libraryit-info@umich.edu., https://www.lib.umich.edu/about-us/policies/copyright-policy

Published

2008

47. CHARACTERISATION OF POLYSACCHARIDES FROM RED ALGAE OF THE GENUS PEYSSONNELIA

Author

Anthony Chiovitti, Nicole J. Watt, David J. Craik, and Gerald T. Kraft

Subjects

chemistry.chemical_classification, biology, chemistry, Genus, Botany, Red algae, Peyssonnelia, biology.organism_classification, Polysaccharide

Published

2002

48. Peyssonnelia caulifera

Author

T. Kitayama, T. Kitayama, T. Kitayama, and T. Kitayama

Abstract

Algae, http://name.umdl.umich.edu/IC-HERB00IC-X-665895%5DMICH-A-665895, https://quod.lib.umich.edu/cgi/i/image/api/thumb/herb00ic/665895/MICH-A-665895/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. Some materials may be protected by copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, please contact the Herbarium professional staff: herb-dlps-help@umich.edu. If you have concerns about the inclusion of an item in this collection, please contact Library Information Technology: libraryit-info@umich.edu., https://www.lib.umich.edu/about-us/policies/copyright-policy

Published

2005

49. Peyssonnelia rubra

Author

C.W. Schneider & C.E. Lane, C.W. Schneider & C.E. Lane, C.W. Schneider & C.E. Lane, and C.W. Schneider & C.E. Lane

Abstract

Algae, http://name.umdl.umich.edu/IC-HERB00IC-X-622918%5DMICH-A-622918, https://quod.lib.umich.edu/cgi/i/image/api/thumb/herb00ic/622918/MICH-A-622918/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. Some materials may be protected by copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, please contact the Herbarium professional staff: herb-dlps-help@umich.edu. If you have concerns about the inclusion of an item in this collection, please contact Library Information Technology: libraryit-info@umich.edu., https://www.lib.umich.edu/about-us/policies/copyright-policy

Published

2003

50. Peyssonnelia simulans

Author

C.W. Schneider & C.E. Lane, C.W. Schneider & C.E. Lane, C.W. Schneider & C.E. Lane, and C.W. Schneider & C.E. Lane

Abstract

Algae, http://name.umdl.umich.edu/IC-HERB00IC-X-621155%5DMICH-A-621155, https://quod.lib.umich.edu/cgi/i/image/api/thumb/herb00ic/621155/MICH-A-621155/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. Some materials may be protected by copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, please contact the Herbarium professional staff: herb-dlps-help@umich.edu. If you have concerns about the inclusion of an item in this collection, please contact Library Information Technology: libraryit-info@umich.edu., https://www.lib.umich.edu/about-us/policies/copyright-policy

Published

2003