Publikationsdatum:
2024-04-20
Schlagwort(e):
Abrupt Climate Changes and Environmental Responses; Acacia; Acaena; Accumulation model; ACER; Araucaria; Arecaceae; Asteraceae; Avicennia marina; Baeckea/Tristania; Banksia; Brassicaceae; Bruguiera/Ceriops; Calendar age; Calendar age, maximum/old; Calendar age, minimum/young; Callitris; Casuarinaceae; Celtis; Chenopodiaceae; Classical age-modeling approach, CLAM (Blaauw, 2010); Comesperma; Counting, palynology; Cunoniaceae; Cyathea; Cyperaceae; Dacrydium guillauminii; DEPTH, sediment/rock; Dodonaea; Drosera; Elaeocarpus; Epacridaceae; Eucalyptus; Euphorbiaceae; Ficus; Flindersia; Gleichenia; Gyrostemonaceae; Hakea; Histiopteris; Leptospermum; Lindsaea; Lomatia; Lonchocarpus; Lycopodium; Lygodium; Macaranga/Mallotus; Malvaceae; Melaleuca; Meliaceae; Monotoca; Myriophyllum; Myrsinaceae; Native_Companion_Lagoon; Nothofagus moorei; Nymphoides; Olea paniculata; Ophioglossum; Pandanus; Persoonia; Pimelea; Pipturus; Plantago; Poaceae; Podocarpus; Polygonum; Polypodiales; Potamogeton; Quintinia; Rapanea; Restionaceae; Rhamnaceae; Rhizophora stylosa; Rutaceae; Sample ID; Sapindaceae; Sapotaceae; Selaginella; Sphagnum; Syzygium; Terminalia; Trema; Triglochin; Type of age model; Urtica
Materialart:
Dataset
Format:
text/tab-separated-values, 5864 data points
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