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| Format: | Dataset Open Access |
| Language: | en |
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PANGAEA
2025
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| Subjects: | |
| Online Access: | https://doi.org/10.1594/PANGAEA.985076 |
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| _version_ | 1867171345974951936 |
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| author | Cohen, Marcelo Cancela Lisboa Fontes, Neuza Rodrigues, Érika do Socorro Ferreira Pessenda, Luiz C R França, Marlon Garret, Ed Ryu, Junghyung |
| author_facet | Cohen, Marcelo Cancela Lisboa Fontes, Neuza Rodrigues, Érika do Socorro Ferreira Pessenda, Luiz C R França, Marlon Garret, Ed Ryu, Junghyung |
| collection | Datos científicos de ciencias marinas y ambientales |
| contents | Fieldwork was conducted in August 2017 to sample sediment cores. The sediment cores were subsampled (1 cm³) at 5 cm intervals, resulting in a total of 125 samples that were processed using standard pollen analytical techniques, including acetolysis (Faegri and Iversen, 1989). |
| format | Dataset Open Access |
| id | pangaea_https___doi_org_10_1594_PANGAEA_985076 |
| institution | PANGAEA |
| language | en |
| publishDate | 2025 |
| publisher | PANGAEA |
| record_format | pangaea |
| spellingShingle | Pollen counts in sediment core SF-10 obtained along the coastal plain of Babitonga Bay-Santa Catarina-Brazil Cohen, Marcelo Cancela Lisboa Fontes, Neuza Rodrigues, Érika do Socorro Ferreira Pessenda, Luiz C R França, Marlon Garret, Ed Ryu, Junghyung Actinostemon; Aizoaceae; Alchornea; Alismataceae; Alnus; Alseis; Amaranthaceae; Amaranthaceae/Chenopodiaceae; Amaranthus; Amaryllidaceae; Ambrosia; Anacardiaceae; Anemia; Apiaceae; Apocynaceae; Aquifoliaceae; Araceae; Araliaceae; Araucaria; Arecaceae; Asteraceae; Avicennia; BabitongaBay_SF-10; Baccharis; Banara; Begonia; Bignoniaceae; Blechnaceae; Boraginaceae; Brazil; Bromeliaceae; Byrsonima; Calophyllum; Cecropia; Cedrela; Celastraceae; Celtis; Chrysobalanaceae; Chrysophyllum; Clethra; Clusiaceae; Combretaceae/Melastomataceae; Connaraceae; Convolvulaceae; Cordia; Counting, pollen grains and spores; Counts; Crudia; Cunoniaceae; Cupania; Cyathea; Cyperaceae; Delachampia; DEPTH, sediment/rock; Didymopanax; Dilleniaceae; Dinoflagellate cyst; Dinoflagellate cyst indeterminata; Dodonaea; Echinodorus; Erythroxylum; Euphorbiaceae; Euterpe; Fabaceae; Fern spores; Ficus; Flacourtiaceae; Gallesia; Goupia; Heydiosmun; Humiriaceae; Hyeronima; Ilex; Iresine; isotopes; Laguncularia; Lithraea; Malpigiaceae; mangrove; Marcgraviaceae; Matayba; Maytenus; Meliaceae; Menispermaceae; Merremia; Microforaminifer; Mimosa; Moraceae/Urticaceae; Myristicaceae; Myrsinaceae; Myrtaceae; Nymphaea; Oreopanax; Ouratea; Papaveraceae; Passifloraceae; Pera; Pinus; Piperaceae; Plumbago; Poaceae; Podocarpus; Pollen, aquatic herbs; Pollen, epiphytes; Pollen, herbs; Pollen, lianas; Pollen, mangrove; Pollen, palms; Pollen, total; Pollen, trees and shrubs; Pollen indeterminata; Polypodiaceae; Ponteridaceae; Potamogeton; Pradosia; Prockia crucis; Pseudolmedia; Psychotria; Pyrostegia; Radiocarbon age; Rheedia; Rhizophora; Rinorea; Roupala; RSAMP; Rubiaceae; Russian sampler; Rutaceae; Salicaceae; Salix; Sapindaceae; Sapium; Sapotaceae; Sauvagesia; Schefflera; Schinus; Schwartzia brasiliensis; Sebastiania; Sebastiania commersoniana; SF-10; Simarouba; Sloanea; Smilax; Solanaceae; South Brazil; Spiniferites; Spores, algae; Spores, monolete; Spores, trilete; Sterculiaceae; Styrax; Symplocos; Tapirira; Trema; Typha; Verbenaceae; Vitex; Vochysiaceae; Vouarana; Weinmannia; Xyridaceae; Zanthoxylum Fieldwork was conducted in August 2017 to sample sediment cores. The sediment cores were subsampled (1 cm³) at 5 cm intervals, resulting in a total of 125 samples that were processed using standard pollen analytical techniques, including acetolysis (Faegri and Iversen, 1989). |
| title | Pollen counts in sediment core SF-10 obtained along the coastal plain of Babitonga Bay-Santa Catarina-Brazil |
| topic | Actinostemon; Aizoaceae; Alchornea; Alismataceae; Alnus; Alseis; Amaranthaceae; Amaranthaceae/Chenopodiaceae; Amaranthus; Amaryllidaceae; Ambrosia; Anacardiaceae; Anemia; Apiaceae; Apocynaceae; Aquifoliaceae; Araceae; Araliaceae; Araucaria; Arecaceae; Asteraceae; Avicennia; BabitongaBay_SF-10; Baccharis; Banara; Begonia; Bignoniaceae; Blechnaceae; Boraginaceae; Brazil; Bromeliaceae; Byrsonima; Calophyllum; Cecropia; Cedrela; Celastraceae; Celtis; Chrysobalanaceae; Chrysophyllum; Clethra; Clusiaceae; Combretaceae/Melastomataceae; Connaraceae; Convolvulaceae; Cordia; Counting, pollen grains and spores; Counts; Crudia; Cunoniaceae; Cupania; Cyathea; Cyperaceae; Delachampia; DEPTH, sediment/rock; Didymopanax; Dilleniaceae; Dinoflagellate cyst; Dinoflagellate cyst indeterminata; Dodonaea; Echinodorus; Erythroxylum; Euphorbiaceae; Euterpe; Fabaceae; Fern spores; Ficus; Flacourtiaceae; Gallesia; Goupia; Heydiosmun; Humiriaceae; Hyeronima; Ilex; Iresine; isotopes; Laguncularia; Lithraea; Malpigiaceae; mangrove; Marcgraviaceae; Matayba; Maytenus; Meliaceae; Menispermaceae; Merremia; Microforaminifer; Mimosa; Moraceae/Urticaceae; Myristicaceae; Myrsinaceae; Myrtaceae; Nymphaea; Oreopanax; Ouratea; Papaveraceae; Passifloraceae; Pera; Pinus; Piperaceae; Plumbago; Poaceae; Podocarpus; Pollen, aquatic herbs; Pollen, epiphytes; Pollen, herbs; Pollen, lianas; Pollen, mangrove; Pollen, palms; Pollen, total; Pollen, trees and shrubs; Pollen indeterminata; Polypodiaceae; Ponteridaceae; Potamogeton; Pradosia; Prockia crucis; Pseudolmedia; Psychotria; Pyrostegia; Radiocarbon age; Rheedia; Rhizophora; Rinorea; Roupala; RSAMP; Rubiaceae; Russian sampler; Rutaceae; Salicaceae; Salix; Sapindaceae; Sapium; Sapotaceae; Sauvagesia; Schefflera; Schinus; Schwartzia brasiliensis; Sebastiania; Sebastiania commersoniana; SF-10; Simarouba; Sloanea; Smilax; Solanaceae; South Brazil; Spiniferites; Spores, algae; Spores, monolete; Spores, trilete; Sterculiaceae; Styrax; Symplocos; Tapirira; Trema; Typha; Verbenaceae; Vitex; Vochysiaceae; Vouarana; Weinmannia; Xyridaceae; Zanthoxylum |
| url | https://doi.org/10.1594/PANGAEA.985076 |