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Publication DateJournal of Phycology, ISSN 0022-3646, 02/2007, Volume 43, Issue 1, pp. 156 - 170
Skeletonema costatum (Grev.) Cleve emend. Zingone et Sarno and S. grevillei Sarno et Zingone were known only from the type material collected from Hong Kong...
LSU rDNA | Morphology | Skeletonema costatum | SSU rDNA | Phylogeny | Diatoms | Skeletonema ardens | Salinity | Skeletonema grevillei | salinity | diatoms | morphology | MARINE & FRESHWATER BIOLOGY | phylogeny | PLANT SCIENCES
LSU rDNA | Morphology | Skeletonema costatum | SSU rDNA | Phylogeny | Diatoms | Skeletonema ardens | Salinity | Skeletonema grevillei | salinity | diatoms | morphology | MARINE & FRESHWATER BIOLOGY | phylogeny | PLANT SCIENCES
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Loading RightsJournal of Phycology, ISSN 0022-3646, 02/2007, Volume 43, Issue 1, pp. 156 - 170
Skeletonema costatum (Grev.) Cleve emend. Zingone et Sarno and S. grevillei Sarno et Zingone were known only from the type material collected from Hong Kong...
salinity | diatoms | morphology | LSU rDNA | phylogeny | Skeletonema costatum | SSU rDNA | Skeletonema ardens | Skeletonema grevillei
salinity | diatoms | morphology | LSU rDNA | phylogeny | Skeletonema costatum | SSU rDNA | Skeletonema ardens | Skeletonema grevillei
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Loading RightsEuropean Journal of Phycology, ISSN 0967-0262, 05/2011, Volume 46, Issue 2, pp. 113 - 124
The effect of temperature on the growth of Skeletonema ardens, S. costatum sensu stricto, the S. marinoi-dohrnii complex, S. japonicum, S. menzelii, S....
physiology | temperature | irradiance | specific growth rate | Dokai Bay | Skeletonema species | Temperature | Dokai bay | Physiology | Irradiance | Specific growth rate | COSTATUM | CAUSATIVE ORGANISM | MORPHOLOGICAL VARIABILITY | PLANT SCIENCES | MARINE & FRESHWATER BIOLOGY | PORPHYRA-THALLI | SP-NOV | DIVERSITY | DIATOM | BACILLARIOPHYCEAE | LIGHT-LIMITED GROWTH | PHYTOPLANKTON
physiology | temperature | irradiance | specific growth rate | Dokai Bay | Skeletonema species | Temperature | Dokai bay | Physiology | Irradiance | Specific growth rate | COSTATUM | CAUSATIVE ORGANISM | MORPHOLOGICAL VARIABILITY | PLANT SCIENCES | MARINE & FRESHWATER BIOLOGY | PORPHYRA-THALLI | SP-NOV | DIVERSITY | DIATOM | BACILLARIOPHYCEAE | LIGHT-LIMITED GROWTH | PHYTOPLANKTON
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Loading RightsJournal of Oceanography, ISSN 0916-8370, 12/2010, Volume 66, Issue 6, pp. 755 - 771
Seven Skeletonema species were identified at one station in the industrial harbor Dokai Bay, Japan, in October 2007 and then monthly from January 2008 to...
Earth Sciences | Skeletonema | Dokai Bay | LSU rDNA | isolation characteristics | Freshwater & Marine Ecology | species diversity | SSU rDNA | SEM | Oceanography | GREVILLEI | MORPHOLOGICAL VARIABILITY | POSITION | GENETICS | OCEANOGRAPHY | SP-NOV | DIATOM | COSTATUM BACILLARIOPHYCEAE | Research | Marine ecology | Diatoms | Varieties | Distribution | Biological diversity | Deoxyribonucleic acid--DNA
Earth Sciences | Skeletonema | Dokai Bay | LSU rDNA | isolation characteristics | Freshwater & Marine Ecology | species diversity | SSU rDNA | SEM | Oceanography | GREVILLEI | MORPHOLOGICAL VARIABILITY | POSITION | GENETICS | OCEANOGRAPHY | SP-NOV | DIATOM | COSTATUM BACILLARIOPHYCEAE | Research | Marine ecology | Diatoms | Varieties | Distribution | Biological diversity | Deoxyribonucleic acid--DNA
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Loading RightsCryptogamie, Algologie, ISSN 0181-1568, 2012, Volume 33, Issue 3, pp. 245 - 263
Summary Skeletonema costatum like cells are recorded globally and often generate a huge biomass when blooming. In the present study we performed a taxonomic...
Skeletonema | resting cells | Xiamen Harbour | China | seasonal occurrence | resting stages | COASTAL PLANKTONIC DIATOMS | COSTATUM | GREVILLEI | SUCCESSION | PLANT SCIENCES | PHYLOGENETIC POSITION | BRITISH-COLUMBIA | MARINE & FRESHWATER BIOLOGY | SP-NOV | BAY | PHYTOPLANKTON
Skeletonema | resting cells | Xiamen Harbour | China | seasonal occurrence | resting stages | COASTAL PLANKTONIC DIATOMS | COSTATUM | GREVILLEI | SUCCESSION | PLANT SCIENCES | PHYLOGENETIC POSITION | BRITISH-COLUMBIA | MARINE & FRESHWATER BIOLOGY | SP-NOV | BAY | PHYTOPLANKTON
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Loading RightsBulletin of the Plankton Society of Japan, ISSN 0387-8961, 2013, Volume 60, Issue 1, pp. 18 - 28
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日本水産学会誌, ISSN 0021-5392, 2017, Volume 83, Issue 1, pp. 25 - 33
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Loading Rights日本水産学会誌, ISSN 0021-5392, 2016
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Loading RightsPlankton and Benthos Research, ISSN 1880-8247, 2014, Volume 9, Issue 3, pp. 168 - 175
Species compositions of planktonic cells and benthic resting-stage cells of the marine diatom Skeletonema were investigated in Osaka and Tokyo Bays. Seven to...
Skeletonema | Osaka Bay | resting-stage cell | species composition | Tokyo Bay | Resting-stage cell | Species composition
Skeletonema | Osaka Bay | resting-stage cell | species composition | Tokyo Bay | Resting-stage cell | Species composition
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Loading RightsPlant Pathology Journal, ISSN 1598-2254, 2015, Volume 31, Issue 2, pp. 186 - 191
Diatoms are a major component of the biological community, serving as the principal primary producers in the food web and sustaining oxygen levels in aquatic...
Algal virus | Diatom | Skeletonema costatum | BLOOM | diatom | algal virus | PLANT SCIENCES | STRANDED-DNA VIRUS | AGRICULTURE, MULTIDISCIPLINARY | DIVERSITY | BAY | BACILLARIOPHYCEAE | MICROALGA | IMPACTS | HAV | Note | 농수해양학
Algal virus | Diatom | Skeletonema costatum | BLOOM | diatom | algal virus | PLANT SCIENCES | STRANDED-DNA VIRUS | AGRICULTURE, MULTIDISCIPLINARY | DIVERSITY | BAY | BACILLARIOPHYCEAE | MICROALGA | IMPACTS | HAV | Note | 농수해양학
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Loading RightsJournal of Oceanography, ISSN 0916-8370, 8/2019, Volume 75, Issue 4, pp. 319 - 334
Skeletonema is a dominant diatom, especially in coastal waters. However, species identification and quantification in the natural environment has not yet been...
Multiplex PCR | Earth Sciences | Skeletonema | Real-time PCR | Freshwater & Marine Ecology | Identification | Oceanography | COSTATUM | BIOGEOGRAPHY | QUANTIFICATION | GENUS SKELETONEMA | TIME PCR ASSAY | PHYLOGENETIC POSITION | ALEXANDRIUM-TAMARENSE | OCEANOGRAPHY | DIVERSITY | BACILLARIOPHYCEAE | DOKAI BAY | Polymerase chain reaction | Microbiological assay | Diatoms | Observations | Identification and classification | Methods | Multiplexing | Check lists | Nucleotide sequence | Species composition | Rivers | Samples | DNA | Light microscopy | Coastal waters | Coastal environments | Species identification
Multiplex PCR | Earth Sciences | Skeletonema | Real-time PCR | Freshwater & Marine Ecology | Identification | Oceanography | COSTATUM | BIOGEOGRAPHY | QUANTIFICATION | GENUS SKELETONEMA | TIME PCR ASSAY | PHYLOGENETIC POSITION | ALEXANDRIUM-TAMARENSE | OCEANOGRAPHY | DIVERSITY | BACILLARIOPHYCEAE | DOKAI BAY | Polymerase chain reaction | Microbiological assay | Diatoms | Observations | Identification and classification | Methods | Multiplexing | Check lists | Nucleotide sequence | Species composition | Rivers | Samples | DNA | Light microscopy | Coastal waters | Coastal environments | Species identification
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Loading RightsProtist, ISSN 1434-4610, 2008, Volume 159, Issue 2, pp. 177 - 193
Recent studies have shown that the cosmopolitan diatom sensu lato is composed of several morphologically and genetically distinct species. To assess whether...
phytoplankton | Skeletonema costatum | distribution | biogeography | LSU rDNA | cryptic species | MOLECULAR EVIDENCE | COMPLEX BACILLARIOPHYCEAE | SPRING BLOOM | GENUS SKELETONEMA | MICROBIOLOGY | GENETIC-VARIATION | DIATOM DITYLUM-BRIGHTWELLII | CRYPTIC SPECIATION | NARRAGANSETT BAY | COSTATUM BACILLARIOPHYCEAE | REPRODUCTIVE ISOLATION | Geography | Diatoms - genetics | RNA, Ribosomal, 5.8S - genetics | Diatoms - classification | Molecular Sequence Data | Diatoms - isolation & purification | Biodiversity | Sequence Analysis, DNA | RNA, Ribosomal, 5S - genetics | Diatoms - cytology | DNA, Algal - genetics | RNA, Ribosomal, 28S - genetics | DNA, Ribosomal - genetics
phytoplankton | Skeletonema costatum | distribution | biogeography | LSU rDNA | cryptic species | MOLECULAR EVIDENCE | COMPLEX BACILLARIOPHYCEAE | SPRING BLOOM | GENUS SKELETONEMA | MICROBIOLOGY | GENETIC-VARIATION | DIATOM DITYLUM-BRIGHTWELLII | CRYPTIC SPECIATION | NARRAGANSETT BAY | COSTATUM BACILLARIOPHYCEAE | REPRODUCTIVE ISOLATION | Geography | Diatoms - genetics | RNA, Ribosomal, 5.8S - genetics | Diatoms - classification | Molecular Sequence Data | Diatoms - isolation & purification | Biodiversity | Sequence Analysis, DNA | RNA, Ribosomal, 5S - genetics | Diatoms - cytology | DNA, Algal - genetics | RNA, Ribosomal, 28S - genetics | DNA, Ribosomal - genetics
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Loading RightsPLoS ONE, ISSN 1932-6203, 09/2012, Volume 7, Issue 9, p. e45664
DNA barcoding is a molecular tool that exploits a unique DNA sequence of a standardized gene or non-coding region for the species identification of unknown...
TAXONOMY | RDNA | DNA | MULTIDISCIPLINARY SCIENCES | BARCODING DIATOMS | DIVERSITY | COX1 | SKELETONEMA-COSTATUM | UTILITY | MARINE | RBCL | Likelihood Functions | Microscopy, Electron, Scanning | Diatoms - genetics | RNA, Ribosomal, 18S - genetics | Base Sequence | Polymerase Chain Reaction | Diatoms - classification | Diatoms - ultrastructure | Phylogeny | DNA Primers | DNA Barcoding, Taxonomic | Sequence Homology, Nucleic Acid | Cytochrome | Nucleotide sequence | Taxonomy | Ecosystems | Ecology | Identification | Ecosystem biology | Gene sequencing | Taxa | Mitochondria | Morphology | Phylogenetics | rRNA 18S | Deoxyribonucleic acid--DNA | Deoxyribonucleic acid
TAXONOMY | RDNA | DNA | MULTIDISCIPLINARY SCIENCES | BARCODING DIATOMS | DIVERSITY | COX1 | SKELETONEMA-COSTATUM | UTILITY | MARINE | RBCL | Likelihood Functions | Microscopy, Electron, Scanning | Diatoms - genetics | RNA, Ribosomal, 18S - genetics | Base Sequence | Polymerase Chain Reaction | Diatoms - classification | Diatoms - ultrastructure | Phylogeny | DNA Primers | DNA Barcoding, Taxonomic | Sequence Homology, Nucleic Acid | Cytochrome | Nucleotide sequence | Taxonomy | Ecosystems | Ecology | Identification | Ecosystem biology | Gene sequencing | Taxa | Mitochondria | Morphology | Phylogenetics | rRNA 18S | Deoxyribonucleic acid--DNA | Deoxyribonucleic acid
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Loading RightsMarine Drugs, ISSN 1660-3397, 01/2014, Volume 12, Issue 1, pp. 368 - 384
Marine planktonic organisms, such as diatoms, are prospective sources of novel bioactive metabolites. Oxygenated derivatives of fatty acids, generally referred...
Lipoxygenase pathways | Diatoms | Docosahexaenoic acid | Eicosapentaenoic acid | Leptocylindrus | Oxylipins | CHEMISTRY, MEDICINAL | ACID | SPECIES COMPLEX BACILLARIOPHYTA | SPECIFICITY | 15-LIPOXYGENASE | GENUS SKELETONEMA BACILLARIOPHYCEAE | ALGAL OXYLIPINS | eicosapentaenoic acid | diatoms | CHAETOCEROS-SOCIALIS | METABOLISM | docosahexaenoic acid | PSEUDO-NITZSCHIA-DELICATISSIMA | oxylipins | lipoxygenase pathways | SELLAPHORA | Species Specificity | Diatoms - genetics | Docosahexaenoic Acids - chemistry | Stereoisomerism | Molecular Conformation | Phylogeny | DNA - genetics | Likelihood Functions | Lipoxygenases - metabolism | Oxylipins - isolation & purification | Signal Transduction - physiology | Diatoms - chemistry | Proteins - chemistry | Oxylipins - chemistry
Lipoxygenase pathways | Diatoms | Docosahexaenoic acid | Eicosapentaenoic acid | Leptocylindrus | Oxylipins | CHEMISTRY, MEDICINAL | ACID | SPECIES COMPLEX BACILLARIOPHYTA | SPECIFICITY | 15-LIPOXYGENASE | GENUS SKELETONEMA BACILLARIOPHYCEAE | ALGAL OXYLIPINS | eicosapentaenoic acid | diatoms | CHAETOCEROS-SOCIALIS | METABOLISM | docosahexaenoic acid | PSEUDO-NITZSCHIA-DELICATISSIMA | oxylipins | lipoxygenase pathways | SELLAPHORA | Species Specificity | Diatoms - genetics | Docosahexaenoic Acids - chemistry | Stereoisomerism | Molecular Conformation | Phylogeny | DNA - genetics | Likelihood Functions | Lipoxygenases - metabolism | Oxylipins - isolation & purification | Signal Transduction - physiology | Diatoms - chemistry | Proteins - chemistry | Oxylipins - chemistry
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Loading RightsPLoS ONE, ISSN 1932-6203, 2014, Volume 9, Issue 8, p. e103810
Background: Continuous efforts to estimate actual diversity and to trace the species distribution and ranges in the natural environments have gone in equal...
COMPLEX BACILLARIOPHYCEAE | CHAETOCEROS-SOCIALIS | BIOGEOGRAPHY | MULTIDISCIPLINARY SCIENCES | ENVIRONMENT | PHYLOGENETIC ANALYSES | RIBOSOMAL-RNA | LEPTOCYLINDRUS-DANICUS | MORPHOLOGY | GENUS SKELETONEMA BACILLARIOPHYCEAE | REVEALS | Genetic Variation | Diatoms - genetics | Diatoms - classification | High-Throughput Nucleotide Sequencing | Phylogeny | DNA Barcoding, Taxonomic | DNA, Ribosomal - genetics | Seawater | Analysis | Bar codes | DNA | Sediments (Geology) | Biological diversity | Taxonomy | Science | Biogeography | Organisms | New taxa | Sediments | Gene expression | Biodiversity | Data bases | Gene sequencing | Species diversity | Taxa | Microorganisms | Databases | Plankton | Morphology | Data sets | Phylogenetics | Coastal waters | Coastal environments | Deoxyribonucleic acid--DNA | DNA sequencing | Life Sciences | Biochemistry, Molecular Biology | Genomics | Deoxyribonucleic acid
COMPLEX BACILLARIOPHYCEAE | CHAETOCEROS-SOCIALIS | BIOGEOGRAPHY | MULTIDISCIPLINARY SCIENCES | ENVIRONMENT | PHYLOGENETIC ANALYSES | RIBOSOMAL-RNA | LEPTOCYLINDRUS-DANICUS | MORPHOLOGY | GENUS SKELETONEMA BACILLARIOPHYCEAE | REVEALS | Genetic Variation | Diatoms - genetics | Diatoms - classification | High-Throughput Nucleotide Sequencing | Phylogeny | DNA Barcoding, Taxonomic | DNA, Ribosomal - genetics | Seawater | Analysis | Bar codes | DNA | Sediments (Geology) | Biological diversity | Taxonomy | Science | Biogeography | Organisms | New taxa | Sediments | Gene expression | Biodiversity | Data bases | Gene sequencing | Species diversity | Taxa | Microorganisms | Databases | Plankton | Morphology | Data sets | Phylogenetics | Coastal waters | Coastal environments | Deoxyribonucleic acid--DNA | DNA sequencing | Life Sciences | Biochemistry, Molecular Biology | Genomics | Deoxyribonucleic acid
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Loading RightsJournal of Phycology, ISSN 0022-3646, 12/2018, Volume 54, Issue 6, pp. 850 - 859
We investigated shifts in growth rates and cell size reduction–restoration processes in two species of diatoms, Skeletonema japonicum and Skeletonema dohrnii....
Skeletonema | competition | growth rate | diatom | cell size | LIFE-CYCLE | MARINE DIATOM | COSTATUM | GREVILLEI | GENUS SKELETONEMA | PLANT SCIENCES | REDUCTION | MARINE & FRESHWATER BIOLOGY | DIVERSITY | BACILLARIOPHYCEAE | DIFFERENTIATION | DOKAI BAY | Cell culture | Growth rate | Size | Cultures | Density | Cells | Cell density | Size reduction | Restoration | Cell size | Interactions | Diatoms | Species
Skeletonema | competition | growth rate | diatom | cell size | LIFE-CYCLE | MARINE DIATOM | COSTATUM | GREVILLEI | GENUS SKELETONEMA | PLANT SCIENCES | REDUCTION | MARINE & FRESHWATER BIOLOGY | DIVERSITY | BACILLARIOPHYCEAE | DIFFERENTIATION | DOKAI BAY | Cell culture | Growth rate | Size | Cultures | Density | Cells | Cell density | Size reduction | Restoration | Cell size | Interactions | Diatoms | Species
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Loading RightsPhycologia, ISSN 0031-8884, 01/2019, Volume 58, Issue 1, pp. 95 - 107
Species of the genus Skeletonema are one of the most common marine planktonic diatoms of the temperate zone of the World Ocean. Despite the worldwide...
Skeletonema | LSU rDNA | Morphology | Diversity | SEM | Diatoms | TEM | Cryptic diversity | SPECIES-DIVERSITY | MARINE DIATOM | COSTATUM | GREVILLEI | DIATOM GENUS SKELETONEMA | PHYLOGENETIC ANALYSIS | IDENTIFICATION | WATERS | PLANT SCIENCES | ZINGONE | MARINE & FRESHWATER BIOLOGY | HARBOR | Genetic variability | Algae | Criteria | Topology | Biodiversity | Water temperature | Gene sequencing | Studies | Species diversity | Plankton | Strains | DNA | Genetic analysis | Distribution | Phytoplankton | Benthos | Temperate zones
Skeletonema | LSU rDNA | Morphology | Diversity | SEM | Diatoms | TEM | Cryptic diversity | SPECIES-DIVERSITY | MARINE DIATOM | COSTATUM | GREVILLEI | DIATOM GENUS SKELETONEMA | PHYLOGENETIC ANALYSIS | IDENTIFICATION | WATERS | PLANT SCIENCES | ZINGONE | MARINE & FRESHWATER BIOLOGY | HARBOR | Genetic variability | Algae | Criteria | Topology | Biodiversity | Water temperature | Gene sequencing | Studies | Species diversity | Plankton | Strains | DNA | Genetic analysis | Distribution | Phytoplankton | Benthos | Temperate zones
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Microbial Ecology, ISSN 0095-3628, 4/2018, Volume 75, Issue 3, pp. 674 - 687
The diatom genus Skeletonema is globally distributed and often an important constituent of the phytoplankton community. In the marine phytoplankton of the...
Life Sciences | Microbial Ecology | Nature Conservation | Microbiology | Geoecology/Natural Processes | Water Quality/Water Pollution | Northern Adriatic | Phytoplankton | Ecology | Skeletonema marinoi | Diatoms | Skeletonema grevillei | SEASONAL OCCURRENCE | COSTATUM | SEQUENCE DATA | MICROBIOLOGY | WATERS | SEA | MARINE & FRESHWATER BIOLOGY | ECOLOGY | SP-NOV | DIVERSITY | BACILLARIOPHYCEAE | MORPHOLOGY | Ecosystems | Salinity | Nutrients (mineral) | Introduced species | Water column | Communities | Bays | Ballast | Fresh water | Nutrient concentrations | Plankton | Blooms | Inland water environment | Genetic analysis | Salinity effects | Ecological monitoring | Nutrients | Coastal waters | Columns (structural)
Life Sciences | Microbial Ecology | Nature Conservation | Microbiology | Geoecology/Natural Processes | Water Quality/Water Pollution | Northern Adriatic | Phytoplankton | Ecology | Skeletonema marinoi | Diatoms | Skeletonema grevillei | SEASONAL OCCURRENCE | COSTATUM | SEQUENCE DATA | MICROBIOLOGY | WATERS | SEA | MARINE & FRESHWATER BIOLOGY | ECOLOGY | SP-NOV | DIVERSITY | BACILLARIOPHYCEAE | MORPHOLOGY | Ecosystems | Salinity | Nutrients (mineral) | Introduced species | Water column | Communities | Bays | Ballast | Fresh water | Nutrient concentrations | Plankton | Blooms | Inland water environment | Genetic analysis | Salinity effects | Ecological monitoring | Nutrients | Coastal waters | Columns (structural)
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Loading RightsBMC Evolutionary Biology, ISSN 1471-2148, 2012, Volume 12, Issue 1, pp. 209 - 209
Background: Marine phytoplankton drift passively with currents, have high dispersal potentials and can be comprised of morphologically cryptic species. To...
Phytoplankton | Physiology | Dispersal | Intraspecific diversity | Phylogeography | EVOLUTIONARY SUCCESS | GENETIC DIFFERENTIATION | GENUS SKELETONEMA BACILLARIOPHYCEAE | SEXUAL REPRODUCTION | EVOLUTIONARY BIOLOGY | GENETICS & HEREDITY | NITZSCHIA-PUNGENS BACILLARIOPHYCEAE | NARRAGANSETT BAY | RNA SECONDARY STRUCTURE | DITYLUM-BRIGHTWELLII | PLANKTONIC DIATOM | REPRODUCTIVE ISOLATION | Geography | Diatoms - physiology | Species Specificity | Diatoms - genetics | Atlantic Ocean | Diatoms - classification | Molecular Sequence Data | DNA, Ribosomal Spacer - chemistry | Phylogeny | DNA, Ribosomal - chemistry | Sequence Analysis, DNA | Genetic Variation | DNA, Ribosomal Spacer - genetics | Base Sequence | Genome Size | Pacific Ocean | RNA, Ribosomal, 28S - genetics | DNA, Ribosomal - genetics | Genetic variation | Divergent evolution | Genetic aspects | Molecular systematics | Research | Diatoms | Identification and classification | Natural history | Studies | Microbiology | Genes | Surface water | Ribosomal DNA | Evolution | Genetics | Genomes
Phytoplankton | Physiology | Dispersal | Intraspecific diversity | Phylogeography | EVOLUTIONARY SUCCESS | GENETIC DIFFERENTIATION | GENUS SKELETONEMA BACILLARIOPHYCEAE | SEXUAL REPRODUCTION | EVOLUTIONARY BIOLOGY | GENETICS & HEREDITY | NITZSCHIA-PUNGENS BACILLARIOPHYCEAE | NARRAGANSETT BAY | RNA SECONDARY STRUCTURE | DITYLUM-BRIGHTWELLII | PLANKTONIC DIATOM | REPRODUCTIVE ISOLATION | Geography | Diatoms - physiology | Species Specificity | Diatoms - genetics | Atlantic Ocean | Diatoms - classification | Molecular Sequence Data | DNA, Ribosomal Spacer - chemistry | Phylogeny | DNA, Ribosomal - chemistry | Sequence Analysis, DNA | Genetic Variation | DNA, Ribosomal Spacer - genetics | Base Sequence | Genome Size | Pacific Ocean | RNA, Ribosomal, 28S - genetics | DNA, Ribosomal - genetics | Genetic variation | Divergent evolution | Genetic aspects | Molecular systematics | Research | Diatoms | Identification and classification | Natural history | Studies | Microbiology | Genes | Surface water | Ribosomal DNA | Evolution | Genetics | Genomes
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