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CLAM age model and pollen profile of sediment core Stracciacappa
This dataset has no description
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Pollen profile ZURAWIEC, Zurawiec, Poland
Method: KOH, acetolysis.The EPD (http://www.europeanpollendatabase.net) accepted species name is given in the parameter comment. This dataset was archived on 2010-05-11 from the... -
Pollen profile ZPEAT76, Zarnowiec Peat Bog, Poland
The EPD (http://www.europeanpollendatabase.net) accepted species name is given in the parameter comment. This dataset was archived on 2010-05-11 from the EPD database. -
Pollen profile WOLIN2, Wolin, Poland
Method: KOH, acetolysis.The EPD (http://www.europeanpollendatabase.net) accepted species name is given in the parameter comment. This dataset was archived on 2010-05-11 from the... -
Pollen profile TO-9, Lake Balaton (Northeast), Hungary
Method: HCl 10%, ZnCl2, HF, HCl 10%, 2 drops of diluted formol.The EPD (http://www.europeanpollendatabase.net) accepted species name is given in the parameter comment. This... -
Pollen profile TO-25, Lake Balaton (Southwest), Hungary
Method: HCl of 10%, Zn CL2, Zinc Chloride, HF, HCl of 10%, 2 drops of diluted formol to it.The EPD (http://www.europeanpollendatabase.net) accepted species name is given in the... -
Pollen profile THORPE, Thorpe Bulmer, United Kingdom
The EPD (http://www.europeanpollendatabase.net) accepted species name is given in the parameter comment. This dataset was archived on 2010-05-11 from the EPD database. -
Pollen profile STEKLIN, Steklin, Poland
The EPD (http://www.europeanpollendatabase.net) accepted species name is given in the parameter comment. This dataset was archived on 2010-05-11 from the EPD database. -
Pollen profile ROZ1B_N, Roztoki, Poland
Method: Faegri and Iversen (1964).The EPD (http://www.europeanpollendatabase.net) accepted species name is given in the parameter comment. This dataset was archived on... -
Pollen profile PUSZDARZ, Darzlubie Forest, Poland
The EPD (http://www.europeanpollendatabase.net) accepted species name is given in the parameter comment. This dataset was archived on 2010-05-11 from the EPD database. -
Pollen profile NIE1BIS, Niechorze, Poland
Method according to Faegri and Iversen (1975). Addition of Lycopodium spores.The EPD (http://www.europeanpollendatabase.net) accepted species name is given in the parameter... -
Pollen profile LAKERACZ, Lake Racze, Poland
Method: KOH, HF,acetolysis.The EPD (http://www.europeanpollendatabase.net) accepted species name is given in the parameter comment. This dataset was archived on 2010-05-11 from... -
Pollen profile KOLCZEWO, Kolczewo, Poland
Method: KOH, HF acetolysis.The EPD (http://www.europeanpollendatabase.net) accepted species name is given in the parameter comment. This dataset was archived on 2010-05-11 from... -
Pollen profile GIERING, Giering, Austria
The EPD (http://www.europeanpollendatabase.net) accepted species name is given in the parameter comment. This dataset was archived on 2010-05-11 from the EPD database. -
Pollen profile BLEDOWO3, Bledowo Lake, Poland
Method: For mineral/calcareous sediments: boiling with concentrated HCl, flotation with acetone-bromoform after KNOX, Erdtman's acetolysis. For organic calcareous material... -
Pollen profile LOM1, Lomzyca, Poland
The EPD (http://www.europeanpollendatabase.net) accepted species name is given in the parameter comment. This dataset was archived on 2010-05-11 from the EPD database. -
Pollen and spores record of peat profile Weisses Lauch
This dataset has no description
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(Table 6) Floating fen- and shore-vegetation of Schwarzer See
Abundance: fruits and seeds: s = 1-2 pieces; m = 3-5 pieces; h = 6-14 pieces; H = > 15 pieces. Tissue: + = low abundances < 1% fruits and seeds of same species absent or... -
ORTHOSKIM PhyloNorway Samples
Low-coverage whole genome shotgun sequencing (or genome skimming) has emerged as an easy and cost-effective method for acquiring numerous genomic data in non-model organisms,... -
484 genome skims from the Norwegian arctic vascular flora
Large genomic databases are critical tools for increasing our understanding of species evolution, biodiversity patterns, and response to environmental changes. It is essential...
