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Storeatula
University of Oklahoma
Freshwater Algae in Britain and Ireland - Bibliography
Protista (PDF)
Marine Biological Laboratory) Data Are All from EST Analyses
Baffinellaceae Fam. Nov., Cryptophyceae) from Baffin Bay: Morphology, Pigment Profile, Phylogeny, and Growth Rate Response to Three Abiotic Factors1
Protozoologica Special Issue: Marine Heterotrophic Protists Guest Editors: John R
Light Capture and Pigment Diversity in Marine and Freshwater Cryptophytes1
CRYPTOMONAD EVOLUTION: NUCLEAR 18S Rdna PHYLOGENY VERSUS CELL MORPHOLOGY and PIGMENTATION1
1 FATTY ACIDS in PHOTOTROPHIC and MIXOTROPHIC GYRODINIUM GALATHE- ANUM (DINOPHYCEAE) Adolf, J. E.1, Place, A. R.2, Lund, E.2, St
Intraspecific Variations in Macronutrient, Amino Acid, and Fatty Acid Composition of Mass-Cultured Teleaulax Amphioxeia (Cryptophyceae) Strains
Effects of the Estuarine Dinoflagellate Pfiesteria Shumwayae
3-8 August, 1998 & Flagstaff, Arizona 86011
Kingdom Chromista and Its Eight Phyla: a New Synthesis Emphasising Periplastid Protein Targeting, Cytoskeletal and Periplastid Evolution, and Ancient Divergences
Origin of Cryptophyte Plastids in Dinophysis from Galician Waters: Results from Field and Culture Experiments
Anders-Wold---Master-Thesis.Pdf (11.66Mb)
Taxonomy and Phylogeny of the Genus Cryptomonas (Cryptophyceae, Cryptophyta) from Korea
Functional Biology, Photophysiology and Nutrient Dynamics of Non-Constitutive Mixotrophic Protists
High Grazing Rates on Cryptophyte Algae in Chesapeake Bay
Top View
Unveiling the Hidden Genetic Diversity and Chloroplast Type of Marine
Aquatic Microbial Ecology 78:147
Marine Cryptophytes Are Great Sources of EPA and DHA
Comparative Mitochondrial Genomics of Cryptophyte Algae: Gene Shuffling and Dynamic Mobile Genetic Elements
Growth Responses of the Marine Photosynthetic Ciliate Myrionecta Rubra to Different Cryptomonad Strains
Seasonal Succession of Ciliate Mesodinium Spp. with Red, Green, Or
A Key to High Resolution Monitoring of Marine Phytoplankton
Cryptophyceae, Cryptophyta)
The Potential of Cryptophyte Algae in Biomedical and Pharmaceutical Applications
Identification of a New Eukaryotic Phylum ‘Picozoa’ in the Oceanic Environment
Pitfalls of Establishing DNA Barcoding Systems in Protists: the Cryptophyceae As a Test Case
M57 Algae Source to Treatment Table of Contents
Evolutionary Dynamics of Cryptophyte Plastid Genomes
Program, University of Maryland, College Park, MD, USA
Jeu12691 Am.Pdf
High Grazing Rates on Cryptophyte Algae in Chesapeake Bay
Biodiversity Monitoring in Seaweed Farms by DNA Metabarcoding Using Settlement Plates and Water Samples