Publication Date:
2024-05-27
Keywords:
Abies; Abrupt Climate Changes and Environmental Responses; Accumulation model; ACER; Acer circinatum; Alnus rubra-type; Alnus viridis ssp. sinuata-type; Ambrosia-type; Apiaceae; Arceuthobium; Artemisia; Asteraceae; Betula; Brasenia; Brassicaceae; Calendar age; Calendar age, maximum/old; Calendar age, minimum/young; Ceanothus; Chenopodiaceae; Cichorium-type; Classical age-modeling approach, CLAM (Blaauw, 2010); Counting, palynology; Cupressaceae; Cyperaceae; DEPTH, sediment/rock; Dryopteris-type; Epilobium; Equisetum; Ericaceae; Eriogonum; Fabaceae; Fargher_Lake; Galium; Gilia; Herbs; Isoetes; Liliaceae; Lysichitum; Myriophyllum; Nuphar; Picea; Pinus contorta; Pinus monticola; Poaceae; Pollen indeterminata; Polygonum; Polygonum californicum; Populus; Potamogeton-type; Pseudotsuga-type; Pteridium-type; Quercus; Ranunculaceae; Rhamnus; Rosaceae; Rumex; Salix; Sambucus; Sample ID; Sarcobatus; Shepherdia canadensis; Sparganium-type; Spiraea-type; Stellaria-type; Thalictrum; Tsuga heterophylla; Tsuga mertensiana; Type of age model; Typha; Unknown
Type:
Dataset
Format:
text/tab-separated-values, 8420 data points
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