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  • 1
    Electronic Resource
    Electronic Resource
    Variations of Younger Dryas atmospheric radiocarbon explicable without ocean circulation changes (2000)
    [s.l.] : Macmillian Magazines Ltd.
    Nature 403 (2000), S. 877-880 
    Details
    ISSN: 1476-4687
    Source: Nature Archives 1869 - 2009
    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
    Notes: [Auszug] The concentration of radiocarbon, 14C, in the atmosphere depends on its production rate by cosmic rays, and on the intensity of carbon exchange between the atmosphere and other reservoirs, for example the deep oceans. For the Holocene (the past ∼11,500 years), it has ...
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1038/35002547
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    Paper (German National Licenses)
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  • 2
    Electronic Resource
    Electronic Resource
    High concentration of atmospheric 14 C during the Younger Dryas cold episode (1995)
    [s.l.] : Nature Publishing Group
    Nature 377 (1995), S. 414-417 
    Details
    ISSN: 1476-4687
    Source: Nature Archives 1869 - 2009
    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
    Notes: [Auszug] FIG. 1 Combined diagram of proxy climate data recorded in the Late Glacial and Early Holocene part of the Lake Gosciaz sediment, compared with the 〈5180 record in the GRIP site, central Greenland. PB, Preboreal; YD, Younger Dryas; AL, Aller0d; SMOW, standard mean ocean ...
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1038/377414a0
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  • 3
    Electronic Resource
    Electronic Resource
    Anthropogenic changes in the sediment composition of Lake Gości& aogon;ż (central Poland), during the last 330 yrs* (1999)
    Springer
    Journal of paleolimnology 22 (1999), S. 171-185 
    Details
    ISSN: 1573-0417
    Keywords: Lake Gościąż ; varved sediments ; human impact ; eutrophication
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Geosciences
    Notes: Abstract According to historical sources, the development of settlement around Lake Gości& aogon;ż during the last 330 yrs was intense at two time periods: the second half of the 1700's, and from ca. 1880 until 1944. The small farms were then abandoned, following which the lake surroundings were planted with forest trees. The presented study of human influence on the lake ecosystem and surrounding vegetation has been based on analyses of general sediment composition and its chemistry, pollen, Cyanobacteria, Chlorophyceae, Rotatoria, Cladocera, and a preliminary diatom survey. The history of human impact has been divided into four phases: 1. Phase of small local hamlets (before ca. 1770): The human impact was rather moderate then, but the cultivation of Canabis sativa, Secale cereale and later of Fagopyrum is evidenced from that time. 2. Phase of ‘Hollandii’ settlement (ca. 1770-1863). Its influence is indicated first by the recession of deciduous wood (Corylus, Carpinus) stands, which triggered drastic drop of calcium in sediments. The development of rural economy in the area, including, an extension of agriculture (Secale and other cereals, crucifers, potatoes), and animal breeding based partly on grazing in the forest, is evidenced only after 1820. 3. Phase of German colonization (1863-1944): In the early periods (before 1910) the pollen spectra do not document any essential change in the type of farming, however, a serious disturbance of the lake ecosystem and sediment chemistry is evidenced by the blooms of Araphidinae diatoms and Tetraedron minimum, a maximum frequency of Bosmina longirostris, disturbances of the regular spring blooms of Chrysophyceae, appearance of vivianite, distinct maxima of organic matter, potassium, and iron concentration in sediments and an increase of the sedimentation rate. An intensification of agricultural activities commenced around 1910; woods, including also pinewoods, were then heavily devastated, and farming extended on poor soils, what was symptomatic for the general poverty of population. Coincidently in the lake, Centriceae showed blooms, Araphidinae diatoms and Tetraedron minimum developed, and the content of potassium, iron and phosphorus increased substantially, indicating altogether rising eutrophication. 4. Phase of restoration of the natural landscape (after 1945): The farm degradation from ca. 1944 is very weakly expressed in pollen data, which show a substantial fall of farming indicators from 1953/6 only, when the whole area was used for forest plantation. It was accompanied by a certainly spontaneous development of Betula and Alnus woods, this process progressing till recent time. The gradual extinction of farming activity near Lake Gościąż was accompanied by abrupt changes in the lake ecosystem, expressed by the restored blooms of Chrysophyceae expansion of planktonic Cladocera, rapid decline of phosphorus and extinction of vivianite from sediments. As documented by the drop of Cu/Zn ratio, lake hypolimnion has been weakly oxidized since 1949, what was probably responsible for the drop of Fe and Mn content in sediments. Increasing strength of overturns affected preservation of laminae in sediments, which almost completely disappeared after 1966.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1023/A:1008096032117
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  • 4
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    Water chemical parameters from Lake Kushu (Rebun Island) and Hime-numa Pond (Rishiri Island), northern Japan (2018)
    PANGAEA
    Details
    Publication Date: 2023-03-16
    Keywords: AWI_Envi; Comment; Conductivity; Date/Time of event; DEPTH, water; Deuterium excess; Elevation of event; Event label; Funadomari Bay; Hime-numa Pond; Kushu Lake; Kushu Lake outflow; Latitude of event; Location of event; Longitude of event; Osawa River; Oshonnai River; Oxygen saturation; pH; Polar Terrestrial Environmental Systems @ AWI; RI14-01; RI14-02; RI14-03; RI14-04; RI14-07; RI14-09; RI14-10; RI14-11; RI14-12; RI14-13; RI14-14; RI14-15; Temperature, water; Water sample; WS; δ18O, standard deviation; δ18O, water; δ Deuterium, standard deviation; δ Deuterium, water
    Type: Dataset
    Format: text/tab-separated-values, 97 data points
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  • 5
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    X-ray fluorescence elemental analysis results from the sediment core RK12, Lake Kushu, Rebun Island, northern Japan (2018)
    PANGAEA
    Details
    Publication Date: 2023-03-16
    Keywords: AGE; AWI_Envi; Calcium; Chlorine; COMPCORE; Composite Core; DEPTH, sediment/rock; Iron; Kushu_RK12; Polar Terrestrial Environmental Systems @ AWI; Potassium; Rebun Island, Japan; Silicon; Strontium; Titanium; Vanadium; X-ray fluorescence spectrometry (portable XRF)
    Type: Dataset
    Format: text/tab-separated-values, 13600 data points
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  • 6
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    Methodology, results and calibration of X-ray fluorescence analysis from the sediment core RK12, Lake Kushu, Rebun Island, northern Japan, links to files (2018)
    PANGAEA
    Details
    Publication Date: 2023-03-16
    Keywords: AWI_Envi; COMPCORE; Composite Core; File content; File format; File name; File size; Kushu_RK12; Polar Terrestrial Environmental Systems @ AWI; Rebun Island, Japan; Uniform resource locator/link to file
    Type: Dataset
    Format: text/tab-separated-values, 15 data points
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  • 7
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    Modern and fossil diatoms from Lake Kushu, northern Japan (2018)
    PANGAEA
    In:  Supplement to: Schmidt, Mareike; Leipe, Christian; Becker, Fabian; Goslar, Tomasz; Hoelzmann, Philipp; Mingram, Jens; Müller, Stefanie; Tjallingii, Rik; Wagner, Mayke; Tarasov, Pavel E (2018): A multi-proxy palaeolimnological record of the last 16,600 years from coastal Lake Kushu in northern Japan. Palaeogeography, Palaeoclimatology, Palaeoecology, https://doi.org/10.1016/j.palaeo.2018.11.010
    Details
    Publication Date: 2023-03-16
    Description: This supplement contains results of fossil diatom counting and results and methodology of XRF analysis of a sediment core (RK12) from Lake Kushu (Rebun Island) as well as modern water chemistry data and modern diatom counts of samples from Lake Kushu and Hime-numa Pond (Rishiri Island) in northern Hokkaido, Japan.
    Keywords: AWI_Envi; Polar Terrestrial Environmental Systems @ AWI
    Type: Dataset
    Format: application/zip, 5 datasets
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  • 8
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    Modern diatom counts (relative abundances) from Lake Kushu (Rebun Island) and Hime-numa Pond (Rishiri Island), northern Japan (2018)
    PANGAEA
    Details
    Publication Date: 2023-07-09
    Keywords: Achnanthidium exiguum; Achnanthidium minutissimum; Amphora copulata; Amphora inariensis; Amphora indistincta; Aneumastus tusculus; Aulacoseira ambigua; Aulacoseira granulata; Aulacoseira islandica; AWI_Envi; Belonastrum berolinensis; Caloneis limosa; Cavinula vincentii; Cocconeis neothumensis; Cocconeis pediculus; Cocconeis placentula; Cyclotella choctawhatcheeana; Cyclotella meneghiniana; Cymatopleura solea; Cymbella amoyensis; Cymbella cistula; Diatoma mesodon; Diatoma tenuis; Diatoms indeterminata; Diploneis ovalis; Diploneis subovalis; Discostella pseudostelligera; Discostella stelligera; Ellerbeckia arenaria; Encyonema caespitosum; Encyonema silesiacum; Epithemia adnata; Epithemia sorex; Epithemia turgida; Eunotia bilunaris; Eunotia diodon; Eunotia incisa; Event label; Fallacia insociabilis; Fragilaria construens; Fragilaria vaucheriae; Frustulia vulgaris; Gomphoneis tetrastigmatum; Gomphonema acuminatum; Gomphonema acuminatum var. brebissonii; Gomphonema augur; Gomphonema gracile; Gomphonema grovei var. lingulatum; Gomphonema parvulum; Gomphonema truncatum; Hime-numa Pond; Hippodonta capitata; Karayevia clevei; Kushu Lake; Kushu Lake outflow; Latitude of event; Location of event; Longitude of event; Melosira varians; Meridion circulare var. constrictum; Navicula gregaria; Navicula lanceolata; Navicula nipponica; Navicula notha; Navicula oppugnata; Navicula radiosa; Navicula sp.; Navicula vaneei; Navigeia decussis; Navigeia ignota; Neidium ampliatum; Nitzschia dissipata; Nitzschia frustulum; Nitzschia palea; Nitzschia paleacea; Osawa River; Oshonnai River; Pinnularia nobilis; Pinnularia similiformis; Planothidium delicatulum; Planothidium joursacense; Planothidium lanceolatum; Planothidium rostratum; Platessa bahlsii; Polar Terrestrial Environmental Systems @ AWI; Pseudostaurosira brevistriata; Rhoicosphenia abbreviata; Rhopalodia gibba; RI14-01; RI14-02; RI14-03; RI14-04; RI14-05; RI14-06; RI14-07; RI14-08; RI14-09; RI14-11; RI14-13; RI14-15; Sample ID; Sellaphora laevissima; Sellaphora pupula; Staurosira construens var. binodis; Staurosirella pinnata; Stephanodiscus hantzschii; Surirella brebissonii; Synedra sp.; Tabellaria fenestrata; Tabularia fasciculata; Tryblionella littoralis; Ulnaria delicatissima; Water sample; WS
    Type: Dataset
    Format: text/tab-separated-values, 1424 data points
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  • 9
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    Fossil diatom counts (relative abundances) from the sediment core RK12, Lake Kushu, Rebun Island, northern Japan (2018)
    PANGAEA
    Details
    Publication Date: 2023-07-09
    Keywords: Achnanthes brevipes; Achnanthidium exiguum; Achnanthidium minutissimum; Actinoptychus senarius; AGE; Amphora birnirkiana; Amphora copulata; Amphora inariensis; Amphora indistincta; Aneumastus tusculus; Anomoeoneis sphaerophora; Asterionella formosa; Asteromphalus parvulus; Aulacoseira ambigua; Aulacoseira granulata; Aulacoseira islandica; Aulacoseira subarctica; AWI_Envi; Bacillaria paxillifer; Belonastrum berolinensis; Caloneis limosa; Campylodiscus imperialis; Cavinula lacustris; Cavinula scutelloides; Cavinula vincentii; Chaetoceros, resting spores; Chaetoceros diadema; Chaetoceros didymus; Chaetoceros lorenzianus; Chaetoceros radicans; Chaetoceros seiracanthus; Cocconeis neothumensis; Cocconeis placentula; Cocconeis scutellum; COMPCORE; Composite Core; Conticribra guillardii; Coscinodiscus oculus-iridis; Coscinodiscus radiatus; Craticula accomoda; Ctenophora pulchella; Cyclostephanus dubius; Cyclotella choctawhatcheeana; Cyclotella meneghiniana; Cyclotella pseudostelligera; Cymatopleura solea; Cymbella amoyensis; Cymbella aspera; Cymbella cistula; Cymbella tumida; Cymbopleura anglica; DEPTH, sediment/rock; Diatoma mesodon; Diatoma tenuis; Diatoms indeterminata; Diploneis boldtiana; Diploneis crabro; Diploneis ovalis; Diploneis parma; Diploneis smithii; Diploneis suborbicularis; Diploneis subovalis; Discostella stelligera; Ellerbeckia arenaria; Encyonema caespitosum; Encyonema silesiacum; Epithemia adnata; Epithemia sorex; Epithemia turgida; Eunotia bilunaris; Eunotia diodon; Eunotia incisa; Eunotia praerupta; Fallacia insociabilis; Fragilaria construens; Fragilaria grunowii; Fragilaria vaucheriae; Gomphonema acuminatum; Gomphonema acuminatum var. brebissonii; Gomphonema augur; Gomphonema gracile; Gomphonema grovei var. lingulatum; Gomphonema parvulum; Gomphonema truncatum; Grammatophora hamulifera; Gyrosigma acuminatum; Halamphora subholsatica; Halamphora subsalina; Hannaea arcus; Hantzschia amphioxys; Hippodonta capitata; Hippodonta linearis; Iconella tenera; Karayevia clevei; Karayevia laterostrata; Kushu_RK12; Lyrella atlantica; Martyana martyi; Mastogloia elliptica; Mastogloia pumila; Mastogloia smithii; Melosira arctica; Melosira undulata; Melosira varians; Meridion circulare var. constrictum; Navicula alpha; Navicula cryptocephala; Navicula cryptotenella; Navicula directa; Navicula gregaria; Navicula lanceolata; Navicula nipponica; Navicula notha; Navicula oppugnata; Navicula perminuta; Navicula radiosa; Navicula salinarum; Navicula sp.; Navicula subconcentrica; Navicula subrostellata; Navicula vaneei; Navigeia acceptata; Navigeia decussis; Neidium ampliatum; Nitzschia dissipata; Nitzschia frustulum; Nitzschia lanceolata; Nitzschia palea; Nitzschia paleacea; Odontella aurita; Odontidium hyemale; Parlibellus crucicula; Petroneis marina; Pinnularia borealis; Pinnularia elegans; Pinnularia episcopalis; Pinnularia mesolepta; Pinnularia nobilis; Pinnularia oriunda; Pinnularia silvatica; Pinnularia similiformis; Pinnularia viridis; Pinnunavis yarrensis; Placoneis clementis; Placoneis clementis var. nipponica; Placoneis placentula; Placoneis undulata; Planothidium delicatulum; Planothidium joursacense; Planothidium lanceolatum; Planothidium rostratum; Pleurosigma elongatum; Polar Terrestrial Environmental Systems @ AWI; Psammodictyon panduriforme; Pseudofallacia tenera; Pseudostaurosira americana; Pseudostaurosira brevistriata; Pseudostaurosira elliptica; Rebun Island, Japan; Rhabdonema arcuatum; Rhoicosphenia abbreviata; Rhopalodia acuminata; Rhopalodia brebissonii; Rhopalodia gibba; Rossithidium anastasiae; Sellaphora laevissima; Sellaphora pupula; Seminavis robusta; Stauroneis smithii; Staurophora brantii; Staurophora tackei; Staurosira construens var. binodis; Staurosirella pinnata; Stephanodiscus hantzschii; Stephanopyxis sp.; Surirella fastuosa; Surirella ovalis; Tabellaria fenestrata; Tabularia fasciculata; Thalassiosira allenii; Thalassiosira angulata; Thalassiosira ferelineata; Trigonium sp.; Tryblionella apiculata; Tryblionella compressa; Tryblionella granulata; Tryblionella persuadens; Tryblionella salinarum; Tryblionella scalaris; Ulnaria capitata; Ulnaria ulna
    Type: Dataset
    Format: text/tab-separated-values, 19032 data points
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  • 10
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    Centennial-resolution pollen record of the Last Glacial Maximum derived from a 28,000 – 20,000-year-old sediment of Lake Ochaul in Cis-Baikal (Eastern Siberia) (2022)
    PANGAEA
    Details
    Publication Date: 2023-11-01
    Description: This detailed pollen record represents the accelerator mass spectrometry dated Last Glacial Maximum sediment core section (Och18-II-4) from Lake Ochaul (54°14'N, 106°28'E; 641 m a.s.l.). The lake is situated in Eastern Siberia, ca. 100 km northwest of Lake Baikal. Altogether, 40 samples from the 160-cm-long core section have been treated using dense media separation to extract pollen and non-pollen palynomorphs for further microscopic analysis. The results show that non-arboreal pollen dominate throughout the record (mean value ca. 92.6%), however, pollen of boreal tree and shrub taxa including Betula sect. Albae (0.6–4.8%), Picea (0.6–2.8%), Pinus sibirica (Haploxylon type) (up to 1.5%), Pinus sylvestris (Diploxylon type) (up to 2%), Larix (up to 0.6%), Abies (up to 0.6%), Betula sect. Nanae/Fruticosae (2–5.2%) and Salix (up to 3.2%) continuously present.
    Keywords: Abies; AGE; Allium; Alnus fruticosa-type; Apiaceae; arboreal pollen; Artemisia; Asteraceae subf. Asteroideae; Asteraceae subf. Chicorioideae; Betula sect. Albae-type; Betula sect. Nanae/Fruticosae-type; biome reconstruction; Botryococcus, coenobia; Brassicaceae; Campanulaceae; Cannabaceae; Caryophyllaceae; Chenopodiaceae; Chironomidae, coenobia; Cis-Baikal; Counting, palynology; Cyperaceae; DEPTH, sediment/rock; Ephedra fragilis-type; Equisetum; Ericales; Fabaceae; Glomus; Hippophae; Juglandaceae; Lake Ochaul, Eastern Siberia; Lamiaceae; Larix; LGM; Liliaceae; Linum; Lycopodium (added); Lycopodium (counted); Myriophyllum; Och18-II; Papaveraceae; PCOR; Pediastrum; Pediastrum angulosum, coenobia; Pediastrum boryanum, coenobia; Pediastrum kawraiskyi, coenobia; Pediastrum orientale, coenobia; Pediastrum simplex, coenobia; Percussion corer; Picea; Pinus diploxylon-type; Pinus haploxylon-type; Plantago; Poaceae; Pollen; Pollen, per unit sediment mass; Pollen, terrestrial; Pollen indeterminata; Polygonaceae; Polypodiales; Potentilla; Primulaceae; productive vegetation; Ranunculaceae; Ribes; Rosaceae; Rubiaceae; Rumex; Salix; Sample ID; Sample mass; Sanguisorba; Saxifragaceae; Scrophulariaceae; Sparganium-type; Thalictrum; Tilia; Ulmus pumila-type; Valeriana; Verbascum
    Type: Dataset
    Format: text/tab-separated-values, 2640 data points
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