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| Format: | Dataset Open Access |
| Language: | en |
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PANGAEA
2015
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| Online Access: | https://doi.org/10.1594/PANGAEA.846695 |
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| _version_ | 1867170057692381184 |
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| author | Shumilovskikh, Lyudmila S Schlütz, Frank Achterberg, Inke E M Bauerochse, Andreas Leuschner, Hanns Hubert |
| author_facet | Shumilovskikh, Lyudmila S Schlütz, Frank Achterberg, Inke E M Bauerochse, Andreas Leuschner, Hanns Hubert |
| collection | Datos científicos de ciencias marinas y ambientales |
| contents | In order to reconstruct regional vegetation changes and local conditions during the fen-bog transition in the Borsteler Moor (northwestern Germany), a sediment core covering the period between 7.1 and 4.5 cal kyrs BP was palynologically in vestigated. The pollen diagram demonstrates the dominance of oak forests and a gradual replacement of trees by raised bog vegetation with the wetter conditions in the Late Atlantic. At ~ 6 cal kyrs BP, the non-pollen palynomorphs (NPP) demonstrate the succession from mesotrophic conditions, clearly indicated by a number of fungal spore types, to oligotrophic conditions, indicated by Sphagnum spores, Bryophytomyces sphagni, and testate amoebae Amphitrema, Assulina and Arcella, etc. Four relatively dry phases during the transition from fen to bog are clearly indicated by the dominance of Calluna and associated fungi as well as by the increase of microcharcoal. Several new NPP types are described and known NPP types are identified. All NPP are discussed in the context of their palaeoecological indicator values. |
| format | Dataset Open Access |
| id | pangaea_https___doi_org_10_1594_PANGAEA_846695 |
| institution | PANGAEA |
| language | en |
| publishDate | 2015 |
| publisher | PANGAEA |
| record_format | pangaea |
| spellingShingle | Pollen and non-pollen palynomorphs counting data from Borsteler Moor (Germany) Shumilovskikh, Lyudmila S Schlütz, Frank Achterberg, Inke E M Bauerochse, Andreas Leuschner, Hanns Hubert Abies; Acer; Aconitum group; Acrogenospora sphaerocephala; Alnus; Amphitrema flavum; Anthostomella fuegiana; Apiaceae; Arcella sp.; Artemisia; Assulina muscorum; Ballota-type; Betula; Borsteler_Moor; Brachysporium cf. bloxami; Brachysporium pendulisporum; Bryophytomyces (Tilletia) sphagni; Calluna vulgaris; Campanula trachelium-type; Cannabis/Humulus; Carpinus betulus; Caryophyllaceae; Cercophora sp.; Cerealia-type; Charcoal; Chenopodiaceae; Cichorioideae; Coniochaeta lignaria; Copepoda spermatophore; Corylus; Cyperaceae; Delitschia sp.; DEPTH, sediment/rock; Dictyosporium ausrtraliense; Drosera rotundifolia-type; Empetrum/Ledum; Fabaceae; Fagus; Fern sporangium; Fern spores, monolete; Fern spores, trilete; Filipendula; Frangula alnus; Fraxinus excelsior-type; Fruit-body; Galium-type; GC; Gelasinospora retispora; Gelasinospora sp.; Geoglossum sphagnophilum; Gravity corer; Habrotrocha angusticolis; Hedera helix; Helicoon pluriseptatum; Indeterminata; Isthmospora spinosa; Lasiosphaeria caudata; Lower Saxony, Northern Germany; Lycopodium annotinum-type; Lycopodium spores counted; Lycopodium spores per tablet; Lycopodium tablets; Matricaria-type; Melampyrum; Meliola ellissii; Menyanthes trifoliata; Neurospora crassa; Palynomorpha, non-pollen; Picea; Pinus; Pinus diploxylon-type; Plantago lanceolata-type; Poaceae; Podospora curvispora; Podospora sp.; Polypodium vulgare; Populus; Quercus robur-type; Ranunculus acris-type; Rhabdocoela cocoons; Rumex acetosa-type; Salix; Sambucus nigra-type; Scheuchzeria; Sorbus group; Sordaria sp.; Sparganium; Sphagnum, leaves; Sphagnum, spores; Sum; Taxus; Teleutospore; Thalictrum; Thelypteris palustris; Tilia cordata-type; Tilia platyphyllos-type; Typha latifolia; Ulmus; Uredospora; Urticaceae; Ustulina deusta-type; Vaccinium-type; Viburnum opulus-type; Viscum album In order to reconstruct regional vegetation changes and local conditions during the fen-bog transition in the Borsteler Moor (northwestern Germany), a sediment core covering the period between 7.1 and 4.5 cal kyrs BP was palynologically in vestigated. The pollen diagram demonstrates the dominance of oak forests and a gradual replacement of trees by raised bog vegetation with the wetter conditions in the Late Atlantic. At ~ 6 cal kyrs BP, the non-pollen palynomorphs (NPP) demonstrate the succession from mesotrophic conditions, clearly indicated by a number of fungal spore types, to oligotrophic conditions, indicated by Sphagnum spores, Bryophytomyces sphagni, and testate amoebae Amphitrema, Assulina and Arcella, etc. Four relatively dry phases during the transition from fen to bog are clearly indicated by the dominance of Calluna and associated fungi as well as by the increase of microcharcoal. Several new NPP types are described and known NPP types are identified. All NPP are discussed in the context of their palaeoecological indicator values. |
| title | Pollen and non-pollen palynomorphs counting data from Borsteler Moor (Germany) |
| topic | Abies; Acer; Aconitum group; Acrogenospora sphaerocephala; Alnus; Amphitrema flavum; Anthostomella fuegiana; Apiaceae; Arcella sp.; Artemisia; Assulina muscorum; Ballota-type; Betula; Borsteler_Moor; Brachysporium cf. bloxami; Brachysporium pendulisporum; Bryophytomyces (Tilletia) sphagni; Calluna vulgaris; Campanula trachelium-type; Cannabis/Humulus; Carpinus betulus; Caryophyllaceae; Cercophora sp.; Cerealia-type; Charcoal; Chenopodiaceae; Cichorioideae; Coniochaeta lignaria; Copepoda spermatophore; Corylus; Cyperaceae; Delitschia sp.; DEPTH, sediment/rock; Dictyosporium ausrtraliense; Drosera rotundifolia-type; Empetrum/Ledum; Fabaceae; Fagus; Fern sporangium; Fern spores, monolete; Fern spores, trilete; Filipendula; Frangula alnus; Fraxinus excelsior-type; Fruit-body; Galium-type; GC; Gelasinospora retispora; Gelasinospora sp.; Geoglossum sphagnophilum; Gravity corer; Habrotrocha angusticolis; Hedera helix; Helicoon pluriseptatum; Indeterminata; Isthmospora spinosa; Lasiosphaeria caudata; Lower Saxony, Northern Germany; Lycopodium annotinum-type; Lycopodium spores counted; Lycopodium spores per tablet; Lycopodium tablets; Matricaria-type; Melampyrum; Meliola ellissii; Menyanthes trifoliata; Neurospora crassa; Palynomorpha, non-pollen; Picea; Pinus; Pinus diploxylon-type; Plantago lanceolata-type; Poaceae; Podospora curvispora; Podospora sp.; Polypodium vulgare; Populus; Quercus robur-type; Ranunculus acris-type; Rhabdocoela cocoons; Rumex acetosa-type; Salix; Sambucus nigra-type; Scheuchzeria; Sorbus group; Sordaria sp.; Sparganium; Sphagnum, leaves; Sphagnum, spores; Sum; Taxus; Teleutospore; Thalictrum; Thelypteris palustris; Tilia cordata-type; Tilia platyphyllos-type; Typha latifolia; Ulmus; Uredospora; Urticaceae; Ustulina deusta-type; Vaccinium-type; Viburnum opulus-type; Viscum album |
| url | https://doi.org/10.1594/PANGAEA.846695 |