10 results on '"Jeffery R. Hughey"'
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2. Taxonomic revisions based on genetic analysis of type specimens ofUlva conglobata,<scp>U. laetevirens</scp>,<scp>U. pertusa</scp>andU. spathulata(Ulvales, Chlorophyta)
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Christine A. Maggs, Paul W. Gabrielson, Frédéric Mineur, Kathy Ann Miller, and Jeffery R. Hughey
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Systematics ,biology ,Ulva conglobata ,Plant Science ,Chlorophyta ,Aquatic Science ,biology.organism_classification ,Agricultural and Biological Sciences (miscellaneous) ,Genetic analysis ,Ulva rigida ,Ulva australis ,Ulvales ,Type (biology) ,Botany - Published
- 2020
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3. DNA Sequencing of Type Material Reveals Pneophyllum marlothii comb. nov. from South Africa and P. discoideum comb. nov. (Chamberlainoideae, Corallinales, Rhodophyta) from Argentina
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Jeffery R. Hughey, Paul W. Gabrielson, Gavin W. Maneveldt, and Courtney A. Puckree-Padua
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0106 biological sciences ,Syntype ,biology ,Phylogenetic tree ,010604 marine biology & hydrobiology ,Argentina ,Sequence Analysis, DNA ,Plant Science ,Aquatic Science ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,DNA sequencing ,South Africa ,Type (biology) ,RNA, Ribosomal, 16S ,Convergent evolution ,Rhodophyta ,Botany ,Type locality ,Lithophyllum ,Clade ,Phylogeny - Abstract
A partial rbcL sequence from the type material of Spongites discoideus from southern Argentina showed that it was distinct from rbcL sequences of South African specimens to which that name had been applied based on morpho-anatomy. A partial rbcL sequence from an original syntype specimen, herein designated the lectotype, of Lithophyllum marlothii, type locality Camps Bay, Western Cape Province, South Africa, was identical to rbcL sequences of South African field-collected specimens assigned to S. discoideus. Based on phylogenetic analyses of rbcL and/or psbA sequences, both of these species belong in Pneophyllum and are transferred there as P. discoideum comb. nov. and P. marlothii comb. nov. The two species exhibit a distinct type of development where thick, secondary, monomerous disks are produced from thin, primary, dimerous crusts. Whether this type of development represents an example of convergent evolution or is characteristic of a clade of species within Pneophyllum remains to be resolved.
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- 2020
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4. Genetic analysis of the Linnaean Ulva lactuca (Ulvales, Chlorophyta) holotype and related type specimens reveals name misapplications, unexpected origins, and new synonymies
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Frédéric Mineur, Christine A. Maggs, Charles E. Jarvis, Paul W. Gabrielson, Kathy Ann Miller, Soha Hamdy Shabaka, and Jeffery R. Hughey
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0106 biological sciences ,biology ,010604 marine biology & hydrobiology ,Holotype ,Lactuca ,Sequence Analysis, DNA ,Plant Science ,Chlorophyta ,Aquatic Science ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Europe ,Ulva ,Ulvales ,Type (biology) ,Fenestrata ,Lobata ,Botany ,Ulva lactuca - Abstract
Current usage of the name Ulva lactuca, the generitype of Ulva, remains uncertain. Genetic analyses were performed on the U. lactuca Linnaean holotype, the U. fasciata epitype, the U. fenestrata holotype, the U. lobata lectotype, and the U. stipitata lectotype. The U. lactuca holotype is nearly identical in rbcL sequence to the U. fasciata epitype, a warm temperate to tropical species, rather than the cold temperate species to which the name U. lactuca has generally been applied. We hypothesize that the holotype specimen of U. lactuca came from the Indo-Pacific rather than northern Europe. Our analyses indicate that U. fasciata and U. lobata are heterotypic synonyms of U. lactuca. Ulva fenestrata is the earliest name for northern hemisphere, cold temperate Atlantic and Pacific species, with U. stipitata a junior synonym. DNA sequences from type specimens provide an unequivocal method for applying names to Ulva species. This article is protected by copyright. All rights reserved.
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- 2019
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5. Mediterranean Lithophyllum stictiforme (Corallinales, Rhodophyta) is a genetically diverse species complex: implications for species circumscription, biogeography and conservation of coralligenous habitats
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Paul W. Gabrielson, Sara Kaleb, Line Le Gall, Annalisa Falace, Carlo Cerrano, Daniela Basso, Viviana Peña, Fabio Rindi, Laura Pezzolesi, Jazmin J. Hernandez-Kantun, Jeffery R. Hughey, Graziella Rodondi, Pezzolesi, L, Peña, V, Le Gall, L, Gabrielson, P, Kaleb, S, Hughey, J, Rodondi, G, Hernandez-Kantun, J, Falace, A, Basso, D, Cerrano, C, Rindi, F, Dipartimento di Scienze Biologiche, Geologiche e Ambientali, Alma Mater Studiorum Università di Bologna [Bologna] (UNIBO), Universidade da Coruña, Institut de Systématique, Evolution, Biodiversité (ISYEB ), Muséum national d'Histoire naturelle (MNHN)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Université des Antilles (UA), University of North Carolina [Chapel Hill] (UNC), University of North Carolina System (UNC), Dipartimento di Scienze della Vita, Università di Trieste, Hartnell College, Università degli Studi di Milano, Dipartimento di Bioscienze, Botany Department, National Museum of Natural History, Smithsonian Institution, Department of Life Science [Trieste], Dipartimento di Scienze dell'Ambiente e della Terra, Università degli Studi di Milano-Bicocca [Milano] (UNIMIB), Dipartimiento per lo Studio del Territorio e delle sue Risorse, University of Genoa (UNIGE), Dipartimento di Scienze della Vita e dell’Ambiente, Università Politecnica delle Marche, Pezzolesi, L., Peña, V., Line Le Gall, L., Paul W. Gabrielson, Sara Kaleb, Jeffery R. Hughey,Graziella Rodondi, Jazmin J. Hernandez-Kantun, Annalisa Falace, Daniela Basso, Cerrano, C., Rindi, F., Pezzolesi, Laura, Peña, Viviana, Le Gall, Line, Gabrielson, Paul W., Kaleb, Sara, Hughey, Jeffery R., Rodondi, Graziella, Hernandez‐kantun, Jazmin J., Falace, Annalisa, Basso, Daniela, Cerrano, Carlo, and Rindi, Fabio
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0106 biological sciences ,Mediterranean climate ,Species complex ,Salinity ,ecosystem engineers ,rbcL ,Allopatric speciation ,psbA rb ,Plant Science ,Aquatic Science ,GEO/01 - PALEONTOLOGIA E PALEOECOLOGIA ,010603 evolutionary biology ,01 natural sciences ,Ecosystem engineer ,ecosystem engineer ,Mediterranean sea ,Mediterranean Sea ,cox2 3 ,biogenic habitats, biogeography, coralline algae, cox2,3, cryptic species, ecosystem engineers, molecular phylogeny, psbA, rbcL ,14. Life underwater ,biogeography coralline algae ,biogeography ,molecular phylogeny ,Ecosystem ,Phylogeny ,biogenic habitats ,s ecosystem engineers ,Coralline algae species ,cryptic species ,biology ,Ecology ,010604 marine biology & hydrobiology ,cryptic specie ,Coralline algae ,Species diversity ,Sequence Analysis, DNA ,[SDV.BV.BOT]Life Sciences [q-bio]/Vegetal Biology/Botanics ,cox2,3 ,biology.organism_classification ,psbA ,cox2 ,cox3 ,Rhodophyta ,Lithophyllum ,biogenic habitat ,coralline algae - Abstract
International audience; Lithophyllum species in the Mediterranean Sea function as algal bioconstructors, contributing to the formation of biogenic habitats such as coralligenous concretions. In such habitats, thalli of Lithophyllum, consisting of crusts or lamellae with entire or lobed margins, have been variously referred to as either one species, L. stictiforme, or two species, L. stictiforme and L. cabiochiae, in the recent literature. We investigated species diversity and phylogenetic relationships in these algae by sequencing three markers (psbA and rbcL genes, cox2,3 spacer), in conjunction with methods for algorithmic delimitation of species (ABGD and GMYC). Mediterranean subtidal Lithophyllum belong to a well‐supported lineage, hereby called the L. stictiforme complex, which also includes two species described from the Atlantic, L. lobatum and L. searlesii. Our results indicate that the L. stictiforme complex consists of at least 13 species. Among the Mediterranean species, some are widely distributed and span most of the western and central Mediterranean, whereas others appear to be restricted to specific localities. These patterns are interpreted as possibly resulting from allopatric speciation events that took place during the Messinian Salinity Crisis and subsequent glacial periods. A partial rbcL sequence from the lectotype of L. stictiforme unambiguously indicates that this name applies to the most common subtidal Lithophyllum in the central Mediterranean. We agree with recent treatments that considered L. cabiochiae and L. stictiforme conspecific. The diversity of Lithophyllum in Mediterranean coralligenous habitats has been substantially underestimated, and future work on these and other Mediterranean corallines should use identifications based on DNA sequences.
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- 2019
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6. Genomics reveals abundant speciation in the coral reef building alga Porolithon onkodes (Corallinales, Rhodophyta)
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Guillermo Diaz-Pulido, Jeffery R. Hughey, and Paul W. Gabrielson
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0106 biological sciences ,0301 basic medicine ,Genetic Speciation ,Biogeography ,Biodiversity ,Plant Science ,Red algae ,Aquatic Science ,01 natural sciences ,03 medical and health sciences ,DNA, Algal ,Algae ,14. Life underwater ,Reef ,Phylogeny ,geography ,geography.geographical_feature_category ,biology ,Coral Reefs ,Plant Dispersal ,Ecology ,010604 marine biology & hydrobiology ,Sequence Analysis, DNA ,Coral reef ,15. Life on land ,Porolithon ,biology.organism_classification ,030104 developmental biology ,Habitat ,Rhodophyta ,Genome, Plant - Abstract
An essential suite of coral reef ecosystem engineers is coralline red algae. Among these, the smooth, encrusting Porolithon onkodes has historically been considered the most important and common reef building species worldwide. We assess P. onkodes biodiversity by performing a genomic analysis of the lectotype specimen collected in 1892 from the Tami Islands, Gulf of Huon, east of New Guinea. Comparisons of DNA sequences from the lectotype specimen to those deposited in GenBank and to newly generated sequences from both field-collected and historical specimens demonstrate that at least 20 distinct species are passing under P. onkodes. We hypothesize that there were multiple evolutionary drivers including ecophysiology, hydrodynamic regimes, and biotic interactions as well as historical biogeography, which resulted in this high diversity of smooth, encrusting Porolithon species throughout the tropics. Our results emphasize the need to document the biodiversity, ecophysiology, and habitats of these tropical, reef-building algae in light of climate change and ocean acidification.
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- 2018
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7. Research note: First report of the Japanese species Grateloupia lanceolata (Halymeniaceae, Rhodophyta) from California, USA
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Kathy Ann Miller, Jeffery R. Hughey, and Paul W. Gabrielson
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Mediterranean climate ,biology ,Grateloupia lanceolata ,Ecology ,Nuclear marker ,Mariculture ,Plant Science ,Aquatic Science ,Internal transcribed spacer ,biology.organism_classification ,Agricultural and Biological Sciences (miscellaneous) ,Moss - Abstract
SUMMARY The Japanese red algaGrateloupia lanceolata (Okamura) Kawaguchi was discovered in southern California at Santa Catalina Island in spring 2003 and April 2008 and in central California at the mouth of the Elkhorn Slough in Moss Landing in May, June and July of 2008. The morphology of thalli from both localities agrees with published figures. Sequences from therbcL gene and the nuclear marker, internal transcribed spacer-1 from CalifornianG. lanceolatawere identical to those from two specimens ofG. lanceolataintroduced to the Thau Lagoon, Mediterranean France and a specimen from Japan. It is likely that the import of oysters for mariculture played a role in its introduction into California.
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- 2009
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8. ANALYSIS OF ANCIENT DNA FROM FOSSIL CORALLINES (CORALLINALES, RHODOPHYTA)
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Jody M. Webster, Jeffery R. Hughey, Juan C. Braga, William J. Woelkerling, and Julio Aguirre
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Mesophyllum ,Ancient DNA ,biology ,Algae ,Botany ,Coralline algae ,Plant Science ,Lithophyllum ,Aquatic Science ,Phymatolithon ,biology.organism_classification ,Lithothamnion ,Molecular paleontology - Abstract
The field of molecular paleontology has recently made significant contributions to anthropology and biology. Hundreds of ancient DNA studies have been published, but none has targeted fossil coralline algae. Using regions of the SSU gene, we analyzed rDNA from fossil coralline algae of varying ages and states of preservation from Spain, Papua New Guinea (PNG), and the Great Barrier Reef (GBR). Specimens from PNG, GBR, and some localities from Spain did not contain endogenous ancient DNA. Reproducible sequence data were obtained from specimens ∼550 years old from near Cadiz, Spain, and from rocky-shore deposits in Carboneras, Almeria Province of Spain (∼78,000 years before present [YBP]). Based on BLAST searches and a phylogenetic analysis of sequences, an undescribed coralline alga belonging to the Melobesioideae was discovered in the Carboneras material as well as the following coralline genera: Jania, Lithophyllum, Lithothamnion, Mesophyllum, and Phymatolithon. DNA from fleshy brown and red macroalgae was also discovered in the specimens from Carboneras. The coralline algae identified using molecular techniques were in agreement with those based on morphological methods. The identified taxa are common in the present-day southeastern Spain littoral zone. Amino acid racemization, concentration ratios, and specific concentrations failed to show a correlation between biomolecular preservation and PCR amplification success. Results suggest that molecular investigations on fossil algae, although limited by technical difficulties, are feasible. Validity of our results was established using authentication criteria and a self-critical approach to compliance.
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- 2008
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9. SOLVING TAXONOMIC AND NOMENCLATURAL PROBLEMS IN PACIFIC GIGARTINACEAE (RHODOPHYTA) USING DNA FROM TYPE MATERIAL
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Max H. Hommersand, Paul C. Silva, and Jeffery R. Hughey
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Systematics ,Type (biology) ,Herbarium ,biology ,Botany ,Plant Science ,Red algae ,Chondracanthus ,Aquatic Science ,Internal transcribed spacer ,Chondrus ,biology.organism_classification ,Southern Hemisphere - Abstract
Molecular data obtained by a procedure for extracting PCR-amplifiable nuclear and chloroplast DNA from old and formalin-fixed red algal herbarium specimens were used to elucidate problems in the systematics of Pacific Gigartinaceae. Correspondence between nucleotide sequences of the internal transcribed spacer 1 region or the RUBISCO spacer from type specimens and modern collections supports the following conclusions. (1) The type of Fucus cordatus Turner, now Iridaea cordata (Turner) Bory, came from the southern hemisphere (probably from Isla de los Estados, Argentina) rather than from Banks Island, B.C., Canada. (2) The type of Iridaea heterocarpa P. et R. [ Mazzaella heterocarpa (P. et R.) Fred.] represents the tetrasporangial phase of a species of Chondrus , possibly C. crispus Stackh. (3) The types of Iridaea lilacina P. et R., I. phyllocarpa P. et R., and Iridophycus furcatum S. et G. represent a single species from Alaska, Mazzaella phyllocarpa (P. et R.) Perest., currently but incorrectly called M. heterocarpa. (4) The type of Iridophycus oregonum Doty represents the tetrasporangial phase of the species from southern Alaska to southern California known incorrectly as M. heterocarpa . (5) Mazzaella splendens (S. et G.) Fred. is more closely related to M. linearis (S. et G.) Fred. than it is to M. flaccida (S. et G.) Fred. (6) Iridophycus coriaceum S. et G. is conspecific with M. splendens , whereas Rhodoglossum coriaceum E.Y. Dawson is an independent species: Mazzaella coriacea (E.Y. Dawson) Hughey. (7) Iridaea cornucopiae P. et R. is conspecific with Mazzaella laminarioides (Bory) Fred., and the type probably came from Chile rather than from the North Pacific. (8) Plants attributed to Iridaea cornucopiae in Pacific North America are referable to Mazzaella parksii (S. et G.) comb. nov. (9) Rhodoglossum parvum G. M. Smith et Hollenb. is an independent species: Mazzaella parva (G. M. Smith et Hollenb.) comb. nov. (10) Grateloupia squarrulosa S. et G., Grateloupia johnstonii S. et G., and Gigartina pectinata E.Y. Dawson represent a single species: Chondracanthus squarrulosus (S. et G.) comb. nov.
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- 2001
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10. A SYSTEMATIC STUDY OF GIGAR‐TINACEAE FROM PACIFIC NORTH AMERICA BASED ON MOLECULAR AND MORPHOLOGICAL EVIDENCE
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Jeffery R. Hughey and Max H. Hommersand
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Phylogenetic tree ,Ecology ,Allopatric speciation ,Plant Science ,Aquatic Science ,Biology ,biology.organism_classification ,Herbarium ,Taxon ,Habitat ,Evolutionary biology ,Sympatric speciation ,Chondracanthus ,Internal transcribed spacer - Abstract
Greater than 50 species of Gigartinaceae have been described from Pacific North America, about half of which are currently recognized. Although the family is treated extensively in the taxonomic literature, many of the species are still confused and a comprehensive revision is required. We sequenced the rbcL (RuBisCO) gene and ITS (Internal Transcribed Spacer) 1, 2, and 5.8S regions from a large number of recent collections and identified a discrete of number data sets. These were analysed in comparison with the morphological evidence for each of the taxa. Uncertain of the possibility that our operational taxonomic units may not correspond to the types, we developed a protocol for isolating PCR-friendly DNA from herbarium specimens, some reaching back as far as 1670. The DNA profiles of types and historically important specimens were compared to those for recently collected silica gel-dried and formalin-fixed material and assigned correct names. Species studied ranged from Alaska to Mexico and the Gulf of California and were compared to outgroup taxa from Pacific South America and the Southern Ocean. Particular attention was paid to variations in morphology as they relate to habitat with emphasis on the presence or absence of different morphological forms among sympatric and allopatric populations. We recognize 10 species in Chondracanthus (including one new combination and one new species) and 16 species in Mazzaella (including two new combinations and two new species). Finally, we tested a phylogenetic hypothesis inferred for the Gigartinaceae from rbcL sequences for congruence with one generated from ITS sequences.
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- 2000
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