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Data from: Phytoplankton responses to nitrogen enrichment in Pacific Northwest, USA mountain lakes
负责人:
关键词:
Navicula radiosa;Cosmarium margaritatum;Navicula;Tribonema cells;ammonia;Trachelomonas hexangulata;Yellow Synurophyte;Chrysophyta;Chroococcus;Gomphonema;Nitzschia microcephala;Cosmarium navicula;Cyanobacteria;Dinobryon;Rhodomonas;Aulacoseira lirata;Bitrichia Chrysophycean;Katablepharis;Synura clump;Boldi-like thallus;nitrogen deposition;Pennate 26-30 um;Closteriopsis;Achnanthes flexella;Spinoclosterium;Large yellow synurophyte;Ankistrodesmus;Microcystis;Cyclotella distinguenda _7um;\Round;Fragilaria zeilleri;Borzia chain;Euglena acus;Keratococcus;Aulacoseira nivalis;Non-motile green algae;Fragilaria incognita type;Small Pennate <30um;Anabaena;Stenopterobia;Aulacoseira;Coccoid cyanobacteria;Desmidiaceae;Desmid\/Cerasterias;national parks;Aulacoseira alpigena 10um;Borzia 3-chain;Stenopterobia-like;Cyclotella comensis;Gymnodinium;Chrysolepidomonas;Nonmotile unicelular green algae sp.;Diatoma;Cosmarium;Discostella glomerata 7-8um;Gomphonema undiff;Synurophyte;Large pennate >30um;Filamentous Cyanobacteria chain;Large yellow balls w\/o flag;Cosmarium small butterfly;Desmid-Teilingia;Pennate diatoms <30 um;Aulacoseira ambigua (chain);Fragilaria exigua;Coccoid cyanobacterium;Fragilaria 20-30 um;Cyanotetras;Tabellaria;Schroederia;ciliated 3-pack\;Scenedesmus;Discostella glomerata;Cyclotella _7 um cf distinguenda;Pediastrium;Anabaena chain;Fragilaria zeilleri var. elliptica;Fragilaria undiff 25-30 um;Navicula undiff;Discostella stelligera 8-10um;Fragilaria crotonensis type 2;Surirella;nutrient limitation;Small Fragilaria undiff;Aulacoseira valida;Tetrospora;Achnanthes ~10um;Closterium navicula;Anomoeoneis brachysira;Cyclotella <7 um distinguenda;Teilingia;Synechocystis sp.;Fragilaria tenera;Large Pennate <30um;Chlorophyceae;Aulacoseira ambigua;Fragilaria undiff 25-35 um;Asterionella;Euglena;Cryptomonad 15-30um;Nitzschia gracilis;Diploneis;Small Euglena;Large pennate >30um;Centronella;phytoplankton;Tetraspora;Aulacoseira alpigena;water chemistry;mountain lakes;Gonium sp.;Spinoclosterium desmid;Fragilaria 20-30 um undif;Mallomonas;Coccoid green algae <5um;Teilingia Desmid;Aulocosiera lirata;Aulacoseira pusilla <5um;Boldia thallus;Large Pennate >30 um;Navicula 25 um;Staurodesmus type;Bi-flagellated green algae;Anomoeones;Eunotia;Blue green algae;Microcystis colony;Closterium;Coccoid green algae;Cymbella cistula;Fragilaria arcus;Cyclotella comensis gr;Fragilaria capucina;Achnanthes 15um;Achnanthes <25um;Chain 4-8 cf Heterodesmus;cyanobacterium;Staurodesmus;Borzia;unicellular Chrysophyta 10 um\;Cyclotella michiganiana;Stephanodiscus;Cerasterias;Heterodesmus;Small green w\/one flagella;Small golden w\/o flagella;Synura;Synura colony;Cymbella undiff;nitrate;Unknown unicellular Chrysophyta 5-7 um;Synura balloon type;Aulacoseira pusilla 6um;Chrysolepidomonas\/Chlorophyceae;Gloeomonas;Cryptomonad 7-15 um;Achnanthes;Small Pennate >30um;Oocystis;Pacific Northwest;Small pennate diatoms;Fragilaria crotonensis;Small synurophyte;Peridinium;Crucigenia quadrata;Asterionella formosa;Aulacoseira pusilla;chlorophyll;Fragilaria capensis;Chrysodidimus;Synedra;Gomphonema variostriatum;Gonium;\Unknown;Fragilaria capucina var. perminuta;Discostella stelligera;3-pack\;Fragilaria;Gonium colony;Chrysodidymus;Large yellow synurophyte;Pennate diatoms >50um;Achnanthes undiff;Gomphonema 25 um;Chrysopycean Bitrichia;Cyclotella distinguenda
DOI:
doi:10.5061/dryad.4fp90
摘要:
-saturation constants (K s) for 18 of these taxa. DIN thresholds in nitrogen-limited lakes were 13 ?g N l?1 for any increase in chlorophyll a, and 25
Data from: Macroalgal-bacterial interactions: role of dimethylsulfoniopropionate in microbial gardening by Ulva (Chlorophyta)
负责人:
关键词:
Dimethylsulfoniopropionate;Ulva mutabilis;chemical ecology;Algae;Roseovarius sp.;Roseovarius;Ulva;chemotaxis;Maribacter sp.
DOI:
doi:10.5061/dryad.68pc2
摘要:
The marine macroalga Ulva mutabilis (Chlorophyta) develops into callus-like colonies consisting of undifferentiated cells and abnormal cell walls
Data from: Patterns in evolutionary origins of heme, chlorophyll a and isopentenyl diphosphate biosynthetic pathways suggest non-ph
负责人:
关键词:
DOI:
doi:10.5061/dryad.591sm73
摘要:
metabolic pathways synthesizing chlorophyll a (Chl a), heme and isoprene. The origins of the individual proteins of our interest were investigated, and assessed
Data from: Neofunctionalization within the Omp85 protein superfamily during chloroplast evolution
负责人:
关键词:
protein transport;Rhodophyta;beta-barrel proteins;Omp85;Arabidopsis;plastids;OEP80;Arabidopsis thaliana;Chlorophyta;Toc75;Physcomitrella patens;Cyanobacteria;Archaeplastida;Neofunctionalisation;chloroplast protein import;Viridiplantae
DOI:
doi:10.5061/dryad.r47q769s
摘要:
is responsible for importing nucleus-encoded proteins into chloroplasts, while the function of OEP80 remains uncertain. Deficiency of Toc75 in plants that hav
Data from: CO2 alters community composition and response to nutrient enrichment of freshwater phytoplankton
负责人:
关键词:
Chlorophyte;global change;CO2;mesocosm;Cyanobacteria;phytoplankton;Algae;diatom;Freshwater;Lake
DOI:
doi:10.5061/dryad.68434
摘要:
by current day CO2 concentrations, chlorophytes, increased in relative frequency at elevated CO2. This predictable change in community composition with change
Data from: Early photosynthetic eukaryotes inhabited low-salinity habitats
负责人:
关键词:
Cyanothece sp. PCC8801;Gloeomargarita lithophora;Volvox carteri nagariensis UTE2908;Fistulifera sp. JPCC DA0580;Pseudendoclonium akinetum;Pyramimonas parkeae;Precambrian;Anabaena cylindrica PCC7122;Photosynthetic eukaryotes;Cyanophora paradoxa;Prochlorococcus marinus str. MIT9515;Parachlorella kessleri;Synechococcus sp. WH8016;Synechococcus sp. PCC7002;Cyanidium caldarium;Cycas taitungensis;Pedinomonas minor;Chlamydomonas reinhardtii;Psilotum nudum;relaxed molecular clock.;Gloeobacter violaceus PCC7421;Prochloron didemni P2 Fiji;Anthoceros formosae;Mesoproterozoic;Thermosynechococcus elongatus BP1;Welwitschia mirabilis;Prasinoderma colonial;Pseudanabaena biceps PCC7429;Cyanothece sp. PCC7425;Angiopteris evecta;Cyanothece sp. PCC7424;Chlorokybus atmophyticus;Synechococcus sp. JA-3-3Ab;Coccomyxa sp. C169;Floydiella terrestris;Schizomeris leibleinii;Richelia intracellularis HH01;Microcystis aeruginosa NIES843 Micromonas sp. RCC299;Nodularia spumigena CCY9414;Porphyra purpurea;Adiantum capillus veneris;Buus microphylla;Calycanthus floridus;Nymphaea alba;Phaeodactylum tricornutum;Spinacia oleracea;Nodosilinea nodulosa PCC7104;Odontella sinensis;Chloroplast;Physcomitrella patens subsp patens;Great Oxidation Event;Aneura mirabilis;Cyanobacteria;Leptolyngbya sp. PCC7375;Synedra acus;Prochlorococcus marinus str. MIT9211;Cyanobium sp. PCC7001;Leptolyngbya sp. PCC7376;Verdigellas peltata;Bryopsis hypnoides;Gracilaria tenuistipitata;Synechococcus sp. RCC307;Ptilidium pulcherrimum;Prasinococcus sp. CCMP1194;Dunaliella salina;Nostoc azollae 0708;Ranunculus macranthus;Microcoleus vaginatus FGP2;Scenedesmus obliques;Synechococcus sp. PCC7335;Chaetosphaeridium globosum;Oscillatoria sp. PCC6506;Pseudanabaena sp. PCC7367;Raphidiopsis brookii D9;Richelia intracellularis HM01;Trichodesmium erythraeum IMS101;Prochloron didemni P3 Solomon;primary endosymbiotic event;Klebsormidium flaccidum;Acaryochloris marina MBIC11017;Arthrospira sp. PCC8005;Marchantia polymorpha;Staurastrum punctulatum;Coffea arabica;Porphyra yezoensis;Crocosphaera watsonii WH0003;Stigeoclonium helveticum;Pleurocapsa sp. PCC7327;Proterozoic;Gnetum parvifolium;Thalassiosira oceanica CCMP1005;Chara vulgaris;Leptosira terrestris;Cyanidioschyzon merolae strain 10D;Synechococcus sp. CB0101;Paulinella chromatophora;Nostoc punctiforme PCC73102;Pycnococcus provasolii;Illicium oligandrum;Prochlorococcus marinus str. AS9601;Nostoc sp. PCC7120;Fischerella sp. JSC11;Synechocystis sp. PCC6803;Cyanobium gracile PCC6307;Zygnema circumcarinatum;Microcoleus chthonoplastes PCC7420;Neoproterozoic;Pinus contorta;Calothrix sp. PCC6303;Ephedra equisetina;Synechococcus elongatus PCC6301;Amborella trichopoda;Cryptomeria japonica;Monomasti sp. OKE1;Pseudanabaena sp. PCC6802;phylogenomics;Lyngbya sp. PCC8106;Pre-Cambrian;Synechococcus sp. JA-2-3B'a(2-13);Oltmannsiellopsis viridis Oocystis solitaria SAG83 80;Syntrichia ruralis;Nephroselmis olivacea;Synechococcus sp. CC9605;Mesostigma viride;Ostreococcus tauri;Lyngbya majuscula 3L;Oedogonium cardiacum;Prochlorococcus marinus str. MIT9303;Cyanothece sp. CCY0110
DOI:
doi:10.5061/dryad.421p2
摘要:
, share a common ancestor that lived ?1.9 Bya. Whereas crown group Rhodophyta evolved in the Mesoproterozoic Era (1,600–1,000 Mya), crown groups Chlorophyta
Data from: Functional traits for carbon access in macrophytes
负责人:
关键词:
Rhodophyta;Aquatic plant ecology;Chlorophyta;macrophyte;inorganic carbon acquisition;Seaweed;phylogeny;cosmopolitan family-level phylogenetic analysis;Ochrophyta;ancestral state reconstruction;carbon concentrating mechanism;Phaeophyceae
DOI:
doi:10.5061/dryad.6tq74
摘要:
east Pacific Ocean to a) query whether macrophytes have a CCM and b) determine the evolutionary history of CCMs, using ancestral state reconstructions and stoch
Data from: Long-term dynamics in microbial eukaryotes communities: a paleolimnological view based on sedimentary DNA
负责人:
关键词:
DNA Barcoding;Protists;climate change;Lake;eutrophication
DOI:
doi:10.5061/dryad.6vd87
摘要:
ups, such as Chlorophyta, Dinophyceae, Haptophyceae and Ciliophora, that were not previously considered in lacustrine sediment record analyses appeared

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