Publication Date:
2024-04-20
Keywords:
Abies; Abrupt Climate Changes and Environmental Responses; Accumulation model; Acer; ACER; Alisma; Alnus; Apiaceae; Aquatics; Artemisia; Asteraceae; Betula; Brassicaceae; Buxus; Calendar age; Calendar age, maximum/old; Calendar age, minimum/young; Campanulaceae; Carpinus betulus; Carpinus orientalis/Ostrya; Caryophyllaceae; Castanea; Cedrus; Chenopodiaceae; Cistus; Classical age-modeling approach, CLAM (Blaauw, 2010); Corylus; Counting, palynology; Cyperaceae; DEPTH, sediment/rock; Dipsacaceae; Ephedra distachya-type; Ephedra fragilis-type; Ericaceae; Euphorbia; Fagus; Filipendula; Fraxinus; Geranium; Hedera; Helianthemum; Herbs; Ilex; Juglans; Juniperus; Lamiaceae; Leguminosae; Liliaceae; Malvaceae; Myriophyllum; Number of trees; Nymphaeaceae; Olea; Phillyrea; Picea; Pinus; Plantago; Poaceae; Pollen indeterminata; Polypodiales; Polypodium; Populus; Pterocarya; Quercus; Quercus cerris/Quercus suber; Quercus ilex-type; Ranunculaceae; Rhamnus; Rosaceae; Rubiaceae; Rubus; Rumex; Salix; Sample ID; Sanguisorba; Sparganium-type; Tilia; Type of age model; Typha latifolia-type; Ulmus; Urticaceae; Valle_di_Castiglione; Viburnum; Viscum; Vitis; Zelkova
Type:
Dataset
Format:
text/tab-separated-values, 6637 data points
Permalink