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Exploring the Udoteaceae diversity (Bryopsidales, Chlorophyta) in the Caribbean region based on molecular and morphological data

open access: yesMolecular Phylogenetics and Evolution, 2018
The Udoteaceae family (Bryopsidales, Chlorophyta) is known to be highly diverse morphologically in the Caribbean region, but only few studies have studied its genetic diversity. Using an integrative taxonomic approach, this study aimed at (1) exploring the Udoteaceae species diversity using a combination of five DNA-based species delimitation methods ...
Laura Lagourgue   +2 more
exaly   +5 more sources
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Antimicrobial and cytotoxic terpenoids from tropical green algae of the family Udoteaceae

Hydrobiologia, 1984
Over the past decade, chemical investigations of benthic marine algae have illustrated that these organisms producea wide variety of structurally unique and biologically active secondary metabolites. Reviews of many aspects of these studies can be found in the various volumes of the treatise entitled ‘Marine Natural Products’ edited by Scheuer (1978–81)
William Fenical   +2 more
exaly   +4 more sources

Rhipilia penicilloides sp. nov. (Udoteaceae, Chlorophyta) from Fiji

Phycologia, 1997
Abstract Rhipilia penicilloides sp. nov. (Udoteaceae, Chlorophyta) is described from the Fiji Islands, South Pacific. Adult thalli are characterized by a penicilloid capitulum of free, dichotomously branched siphons and an elongated corticated stipe arising from a multisiphonous rhizome-like mat or stolon, whereas juvenile stages possess an ...
Antoine D R N'Yeurt, D W Keats
exaly   +3 more sources

Historical biogeographical analysis of the Udoteaceae (Bryopsidales, Chlorophyta) elucidates origins of high species diversity in the Central Indo-Pacific, Western Indian Ocean and Greater Caribbean regions

open access: yesMolecular Phylogenetics and Evolution, 2022
There is a growing interest in elucidating the biogeographical processes underlying biodiversity patterns of seaweeds, with recent studies largely focusing on red and brown macroalgae. This study focuses on the siphonous green algal family Udoteaceae, which is diverse and globally distributed in tropical to warm-temperate seas, and includes species ...
Laura Lagourgue   +2 more
exaly   +5 more sources

The occurrence of Boodleopsis vaucherioidea Calderón-Sáenz et Schnetter (Udoteaceae, Chlorophyta) in Brazil

Botanica Marina, 2004
Abstract Up to the present time, Boodleopsis (Udoteaceae, Chlo-rophyta) has been represented on the Brazilian coast by Boodleopsis pusilla only. This study describes B . vauch-erioidea from the southern coast of Rio de Janeiro State,Brazil. Non-fertile plants were collected in April, June andNovember 2000, and January 2003, and then comparedwith the ...
Valeria Cassano
exaly   +2 more sources

The green algal genera Rhipiliopsis A. & E.S. Gepp and Rhipiliella gen. nov. (Udoteaceae, Bryopsidales) in Australia and the Philippines

Phycologia, 1986
Abstract Four new species of Rhipiliopsis from eastern (R. gracilis, R. howensis, R. millarii) and western (R. multiplex) Australia and one new species (R. carolyniae) from the Philippines are described and compared anatomically with the type of the genus, R. peltata (J. Agardh) A. & E.S. Gepp. Rhipiliopsis echinocaulos (Cribb) Farghaly comb. nov. from
Gerald T Kraft
exaly   +2 more sources

Fossil Udoteaceae and Gymnocodiaceae

1991
The Gymnocodiaceae and fossil Udoteaceae (erect) are similar to each other both in growth form and in vegetative structure. They differ in that the Gymnocodiaceae contain internal reproductive organs which are usually absent in the Udoteaceae. It is generally accepted that the Gymnocodiaceae belong to the red algae and the Udoteaceae to the green algae.
exaly   +2 more sources

Avrainvillea calithina (Udoteaceae, Bryopsidales), a new green alga from Lord Howe Island, NSW, Australia

Phycologia, 1985
Abstract A new species, Avrainvillea calithina, is described from Lord Howe Island and the southern Great Barrier Reef in eastern Australia. A member of the ‘longicaulis’ group of the genus, it is distinguished from its closest relatives by the ‘sugar-scoop’ form of the mature blades and the extremely cohesive outer siphon layers (pseudocortex) which ...
Gerald T Kraft
exaly   +2 more sources

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