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Pollen profile from sediment core Akazienweg
This dataset has no description
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Pollen profile from sediment core Ottostrasse
Lake sediment; zone 9: reworked material, no autochthonous pollen. A proven hiatus at 43.26 m depth. -
Pollen profile from sediment core Wallensen
Exposure in former brown coal pit; samples taken between 1948 to 1950. All but one (missing) of the pollen samples studied by Rabien (1953) were studied anew in 1967 to check... -
Pollen profile from sediment core Elm D
Profile taken in the sinkhole SE of sinkhole 21 of Goedeke, R. (1966) Die Oberflächenformen des Elm. Göttinger Geographische Abhandlungen, Heft 35: 95 pp.The sediment is a more... -
Pollen profile from sediment core Elm K
Profile taken in sinkhole 21 of Goedeke, R. (1966) Die Oberflächenformen des Elm. Göttinger Geographische Abhandlungen, Heft 35: 95 pp.Sediment: a more or less humous lacustrine... -
Pollen profile from sediment core Elm C
Profile taken in sinkhole 21 of Goedeke, R. (1966) Die Oberflächenformen des Elm. Göttinger Geographische Abhandlungen, Heft 35: 95 pp.Sediment: a more or less humous lacustrine... -
Pollen profile from sediment core Elm B
Profile taken in sinkhole 21 of Goedeke, R. (1966) Die Oberflächenformen des Elm. Göttinger Geographische Abhandlungen, Heft 35: 95 pp.Sediment: a more or less humous lacustrine... -
Pollen profile from sediment core Elm A
Profile taken in sinkhole 21 of Goedeke, R. (1966) Die Oberflächenformen des Elm. Göttinger Geographische Abhandlungen, Heft 35: 95 pp.Sediment: a more or less humous lacustrine... -
Pollen profile from sediment core Osterholz
Cromerian lake marl below till. Zero at the top of the profile. -
(Table 3) Pollen record of sediment core V32-161
Pollen percentages are based on the total number of arboreal and nonarboreal pollen. Sphagnum percentages are calculated on the percentage of spores in relation to the sum of... -
(Table 3) Pollen record of sediment core V32-159
Pollen percentages are based on the total number of arboreal and nonarboreal pollen. Sphagnum percentages are calculated on the percentage of spores in relation to the sum of... -
(Fig. 3) Pollen profile from exposure Fluderbach Ia, Samerberg
Horizontal sample surface 6 cm x 6 cm. Zero at the base of the profile. See doi:10.1594/PANGAEA.727045 for the pollen concentration profile. -
(Fig. 3) Pollen concentration profile from exposure Fluderbach Ia, Samerberg
Horizontal sample surface 6 cm x 6 cm. Zero at the base of the profile. See doi:10.1594/PANGAEA.727046 for the percentages pollen profil. -
(Enclosure 1, Fig. 2) Macroremains of the samples represented by the composit...
If not otherwise specified the macroremains are seeds, fruits or parts of fruits. Diameter of the drilling samples = 130 mm, otherwise 6 cm x 6 cm. -
(Enclosure 1, Fig. 2) Macroremains from exposure Fluderbach I, Samerberg
If not otherwise specified the macroremains are seeds, fruits or parts of fruits. Horizontal sample surface 6 cm x 6 cm. Zero at the base of the profile. Hiatus at 0.17 m, 0.27... -
(Enclosure 1, Fig. 2) Macroremains from sediment core Samerberg 1
If not otherwise specified the macroremains are seeds, fruits or parts of fruits. Diameter of the core = 130 mm. Zero at the top of the profile. Hiatus (proven) at 9.8 m, 11.78... -
(Enclosure 2, middle part) Pollen profile from exposure Fluderbach I, Samerberg
Horizontal sample surface 6 cm x 6 cm. Zero at the base of the profile. Hiatus at 0.17 m, 0.27 m, most likely also at 0.2 m. -
(Enclosure 2, upper part) Pollen profile from exposure Fluderbach C, Samerberg
Horizontal sample surface 6 cm x 6 cm. Zero at the base of the profile. -
(Enclosure 2, lower part) Pollen profile from sediment core Fluderbach, Samer...
Zero at the top of the profile. Hiatus at 1.15 m. -
(Enclosure 1, Fig. 1) Complete pollen spectra of the samples represented by t...
Diameter of the drilling samples = 130 mm, otherwise 6 cm x 6 cm.
