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  • 16S rRNA; Actinochloris terrestris; algae; Amandinea punctata; Asterococcus sp.; Bacidina etayana; Brachythecium albicans; Bracteacoccus sp.; Bryum capillare; Caloplaca cerinella; Campylopus introflexus; Cephaloziella divaricata; Ceratodon purpureus; Chlorella vulgaris; Chlorococcum sp.; Chloroidium cf. ellipsoideum; Chlorokybus atmophyticus; Chlorolobion sp.; Cladonia arbuscula; Cladonia chlorophaea; Cladonia ciliata; Cladonia coccifera; Cladonia conista; Cladonia fimbriata; Cladonia floerkeana; Cladonia foliacea; Cladonia furcata; Cladonia glauca; Cladonia gracilis; Cladonia humilis; Cladonia macilenta; Cladonia novochlorophaea; Cladonia phyllophora; Cladonia portentosa; Cladonia ramulosa; Cladonia rangiformis; Cladonia rei; Cladonia scabriuscula; Cladonia subulata; Cladonia uncialis ssp. biuncialis; Coccomyxa sp.; Coelastrella sp.; Crusts; Cylindrocystis cf. crassa; Cylindrocystis sp.; Darßer Ort, Mecklenburg Western Pomerania, Germany; DATE/TIME; Dicranum scoparium; Diplosphaera chodatii; DOBD; DOeGD; DOlGD; DOWD; dune; Elevation of event; Elliptochloris subsphaerica; Eremochloris sp.; Event label; Evernia prunastri; Field experiment; Hennediella heimii; Hypnum cupressiforme; Hypnum cupressiforme var. lacunosum; Hypnum jutlandicum; Hypogymnia physodes; Interfilum cf. massjukiae; Interfilum terricola; Klebsormidium cf. flaccidum; Klebsormidium cf. subtile; Klebsormidium crenulatum; Latitude of event; Lecania cyrtella; Lecanora hagenii; Lecanora persimilis; Leptolyngbya sp.; Light microscope; Light microscope, Olympus Ltd, BX53, with Nomarski DIC optics; Lobochlamys sp.; Location; Longitude of event; Lophozia bicuspidata; Macrochloris sp.; Micarea misella; Microcoleus vaginatus; Myrmecia cf. irregularis; Nannochloris sp.; Nodosilinea cf. epilithica; Nostoc cf. commune; Nostoc cf. edaphicum; Nostoc cf. linckia; Nostoc sp.; Oxyrrhynchium praelongum; Parietochloris cf. alveolaris; Parmelia sulcata; Peltigera extenuata; Peltigera hymenia; Physcia tenella; Placynthiella uliginosa; Planophila sp.; Pleurozium schreberi; POBD; POGD; Pohlia nutans; Polytrichum juniperinum; Polytrichum piliferum; POWD; POWW; Pramort, Mecklenburg Western Pomerania, Germany; PreDCI; PreIS; Prerow, Mecklenburg Western Pomerania, Germany; ProGD; ProH; Pseudochlorella sp.; Pseudomuriella cf. aurantiaca; Pseudoscleropodium purum; Ptilidium ciliatum; Ptychostomum capillare; Ptychostomum compactum; Ptychostomum imbricatulum; Ptychostomum moravicum; Racomitrium canescens; Racomitrium elongatum; Rügen, Mecklenburg Western Pomerania, Germany; SchBD; SchGD; SchPD; SchWD; Scoliciosporum gallurae; sediment analysis; Site; soil ecology; Spongiochloris sp.; Stenomitos sp.; Stichococcus allas; Stichococcus cf. bacillaris; Syntrichia ruraliformis; Tetracystis cf. sarcinalis; Tetradesmus arenicola; Thin layer chromatography; Timaviella sp.; Tolypothrix cf. byssoidea; VerctF; Verden (Aller), Lower Saxony, Germany; VerTsZ; Watanabea cf. acidophila; Xanthoria parietina  (1)
  • Benthocosm_A1; Benthocosm_A2; Benthocosm_B1; Benthocosm_B2; Benthocosm_C1; Benthocosm_C2; Benthocosm_D1; Benthocosm_D2; Benthocosm_E1; Benthocosm_E2; Benthocosm_F1; Benthocosm_F2; BIOACID; Biological Impacts of Ocean Acidification; Chlorophyll a; Chlorophyll c2; chlorophyll fluorescence; Comment; Date; Electron transport rate efficiency; Event label; Experiment; Experimental treatment; Gross primary production of oxygen; Kiel Fjord; Light saturation point; Maximal electron transport rate, relative; MESO; mesocosm; Mesocosm experiment; Non photochemical quenching, maximum; Photochemical quantum yield; Photosynthesis; Sample code/label; Season  (1)
  • 2020-2024  (2)
Document type
Keywords
Publisher
Years
  • 2020-2024  (2)
Year
  • 1
    facet.materialart.
    Unknown
    Seasonal photophysiological responses of Fucus vesiculosus in the Kiel Outdoor Benthocosms – PI-curve parameters, non-photochemical quenching, maximum quantum yield, gross oxygen production and chlorophyll concentrations (2021)
    PANGAEA
    Details
    Publication Date: 2023-06-13
    Description: Ocean warming and acidification may substantially affect the photophysiological performance of keystone species such as Fucus vesiculosus (Phaeophyceae) in shallow coastal waters. In four consecutive benthic mesocosm experiments (Kiel Outdoor Benthocosm, Kiel, Germany, 54°20'N; 10°09'E), we compared the photophysiological performance (i.e., oxygen production, in vivo chlorophyll a fluorescence, energy dissipation pathways and chlorophyll concentration) of Baltic Sea Fucus under the single and combined impact of elevated seawater temperature (Δ + 5°C) and pCO2 (1100 ppm). Fucus specimens were sampled, in each season (spring: April 2, 2013; summer: July 2, 2013; autumn: 8 October; winter: January 14, 2014) from a depth of 0.2–1 m in the Kiel Fjord (Bülk), western Baltic Sea, Germany (54°27'N; 10°11,5'E). Photosynthetic performance was measured with two different methods, one based on in vivo chlorophyll a fluorescence measurements of photosystem II (PSII), the other one based on oxygen production. For each experiment and treatment, three Fucus specimens 15–25 cm long with 91 ± 30 total apices and apparently equal vigor were chosen, each individually growing on a stone (10–15 cm in diameter) from a single holdfast. For details see material and methods in Graiff et al. 2021. Photosynthesis was highest in spring/early summer when water temperature and solar irradiance increases naturally, and was lowest in winter (December to January/February). Temperature had a stronger effect than pCO2 on photosynthetic performance of Fucus in all seasons. Photophysiological responses were generally positive during the cooler spring months, but strongly negatively affected during summer (due to a marine heat-wave). Especially, future summer temperatures exceeded the thermal tolerance threshold of western Baltic Sea Fucus and had a deleterious impact overall. Potential benefits of the combination of future ocean warming and increased pCO2 over most of the year for Fucus photophysiological performance are suggested by our study, but not during summer peak temperatures.
    Keywords: Benthocosm_A1; Benthocosm_A2; Benthocosm_B1; Benthocosm_B2; Benthocosm_C1; Benthocosm_C2; Benthocosm_D1; Benthocosm_D2; Benthocosm_E1; Benthocosm_E2; Benthocosm_F1; Benthocosm_F2; BIOACID; Biological Impacts of Ocean Acidification; Chlorophyll a; Chlorophyll c2; chlorophyll fluorescence; Comment; Date; Electron transport rate efficiency; Event label; Experiment; Experimental treatment; Gross primary production of oxygen; Kiel Fjord; Light saturation point; Maximal electron transport rate, relative; MESO; mesocosm; Mesocosm experiment; Non photochemical quenching, maximum; Photochemical quantum yield; Photosynthesis; Sample code/label; Season
    Type: Dataset
    Format: text/tab-separated-values, 1446 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 2
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    Unknown
    Morphological determination of the phototrophic community composition of biological soil crusts in coastal sand dunes in northern Germany (2022)
    PANGAEA
    Details
    Publication Date: 2024-01-24
    Description: This dataset comprises the microbial community composition of biological soil crusts in north-German sand dunes. For this we obtained enrichment cultures of phototrophic microorganisms, by placing fragments of biocrusts of the same Petri dishes as used for sequencing, in Petri dishes with Bold Basal (1N BBM) agarized medium (Bischoff and Bold 1963). Cultures were grown under standard laboratory conditions: with a 12-hour alteration of light and dark phases and irradiation of 25 μmol photons m-2 s-1 at a temperature 20 ± 5 ºС. Microscopic study of these raw cultures began in the third week of cultivation. Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany). Micrographs were taken with a digital camera (Olympus LC30) attached to the microscope, and processed by the Olympus software cellSens Entry. Direct microscopy of rewetted samples was performed in parallel with cultivation for evaluation of dominating species of algae and cyanobacteria in the original samples. Morphological identification of the biocrust organisms was based mainly on Ettl and Gärtner (2014) for green microalgae, and on Komárek (2013) for cyanobacteria, as well as on some monographs and papers devoted to taxonomic revisions of the taxa of interest (Darienko and Pröschold 2019). Moss and lichens samples were air-dried after collection. For determination, a microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020). Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A.
    Keywords: 16S rRNA; Actinochloris terrestris; algae; Amandinea punctata; Asterococcus sp.; Bacidina etayana; Brachythecium albicans; Bracteacoccus sp.; Bryum capillare; Caloplaca cerinella; Campylopus introflexus; Cephaloziella divaricata; Ceratodon purpureus; Chlorella vulgaris; Chlorococcum sp.; Chloroidium cf. ellipsoideum; Chlorokybus atmophyticus; Chlorolobion sp.; Cladonia arbuscula; Cladonia chlorophaea; Cladonia ciliata; Cladonia coccifera; Cladonia conista; Cladonia fimbriata; Cladonia floerkeana; Cladonia foliacea; Cladonia furcata; Cladonia glauca; Cladonia gracilis; Cladonia humilis; Cladonia macilenta; Cladonia novochlorophaea; Cladonia phyllophora; Cladonia portentosa; Cladonia ramulosa; Cladonia rangiformis; Cladonia rei; Cladonia scabriuscula; Cladonia subulata; Cladonia uncialis ssp. biuncialis; Coccomyxa sp.; Coelastrella sp.; Crusts; Cylindrocystis cf. crassa; Cylindrocystis sp.; Darßer Ort, Mecklenburg Western Pomerania, Germany; DATE/TIME; Dicranum scoparium; Diplosphaera chodatii; DOBD; DOeGD; DOlGD; DOWD; dune; Elevation of event; Elliptochloris subsphaerica; Eremochloris sp.; Event label; Evernia prunastri; Field experiment; Hennediella heimii; Hypnum cupressiforme; Hypnum cupressiforme var. lacunosum; Hypnum jutlandicum; Hypogymnia physodes; Interfilum cf. massjukiae; Interfilum terricola; Klebsormidium cf. flaccidum; Klebsormidium cf. subtile; Klebsormidium crenulatum; Latitude of event; Lecania cyrtella; Lecanora hagenii; Lecanora persimilis; Leptolyngbya sp.; Light microscope; Light microscope, Olympus Ltd, BX53, with Nomarski DIC optics; Lobochlamys sp.; Location; Longitude of event; Lophozia bicuspidata; Macrochloris sp.; Micarea misella; Microcoleus vaginatus; Myrmecia cf. irregularis; Nannochloris sp.; Nodosilinea cf. epilithica; Nostoc cf. commune; Nostoc cf. edaphicum; Nostoc cf. linckia; Nostoc sp.; Oxyrrhynchium praelongum; Parietochloris cf. alveolaris; Parmelia sulcata; Peltigera extenuata; Peltigera hymenia; Physcia tenella; Placynthiella uliginosa; Planophila sp.; Pleurozium schreberi; POBD; POGD; Pohlia nutans; Polytrichum juniperinum; Polytrichum piliferum; POWD; POWW; Pramort, Mecklenburg Western Pomerania, Germany; PreDCI; PreIS; Prerow, Mecklenburg Western Pomerania, Germany; ProGD; ProH; Pseudochlorella sp.; Pseudomuriella cf. aurantiaca; Pseudoscleropodium purum; Ptilidium ciliatum; Ptychostomum capillare; Ptychostomum compactum; Ptychostomum imbricatulum; Ptychostomum moravicum; Racomitrium canescens; Racomitrium elongatum; Rügen, Mecklenburg Western Pomerania, Germany; SchBD; SchGD; SchPD; SchWD; Scoliciosporum gallurae; sediment analysis; Site; soil ecology; Spongiochloris sp.; Stenomitos sp.; Stichococcus allas; Stichococcus cf. bacillaris; Syntrichia ruraliformis; Tetracystis cf. sarcinalis; Tetradesmus arenicola; Thin layer chromatography; Timaviella sp.; Tolypothrix cf. byssoidea; VerctF; Verden (Aller), Lower Saxony, Germany; VerTsZ; Watanabea cf. acidophila; Xanthoria parietina
    Type: Dataset
    Format: text/tab-separated-values, 1962 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
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