Phytoplanktonic microfossil groups of sediments from the South and Equatorial Atlantic


Autoria(s): Vink, Annemiek; Baumann, Karl-Heinz; Boeckel, Babette; Esper, Oliver; Kinkel, Hanno; Volbers, Andrea N A; Willems, Helmut; Zonneveld, Karin A F
Cobertura

MEDIAN LATITUDE: -14.497527 * MEDIAN LONGITUDE: -30.915188 * SOUTH-BOUND LATITUDE: -49.128867 * WEST-BOUND LONGITUDE: -64.161667 * NORTH-BOUND LATITUDE: 18.933333 * EAST-BOUND LONGITUDE: 17.861667 * DATE/TIME START: 1989-01-02T00:00:00 * DATE/TIME END: 2000-03-04T02:21:00

Data(s)

19/04/2003

Resumo

Individual planktonic microfossil species, or assemblage groups of different species, are often used to, qualitatively and/or quantitatively, reconstruct past (sub)surface-water conditions of the world's oceans and seas. Until now, little information has been available on the surface sediment distribution patterns and paleoenvironmental reconstruction potential of coccolith, calcareous dinoflagellate cyst and organic-walled dinoflagellate cyst assemblages of the South and equatorial Atlantic, especially at the species level. This paper (i) summarizes the distributions of these three phytoplanktonic microfossil groups in numerous Atlantic surface sediments from 20°N-50°S and 30°E-65°W and determines their relationship with the physicochemical and trophic conditions of the overlying (sub)surface-waters, and (ii) determines the synecology of the three phytoplankton groups by carrying out statistical analyses (i.e. detrended and canonical correspondence analyses) on all groups simultaneously. Ecological relationships are additionally strengthened by statistically comparing the distribution patterns of the phytoplankton groups with those of planktonic foraminifera (Pflaumann et al. 1996; Niebler et al. 1998), as the ecological preferences of the latter are much better known. Many of the analyzed phytoplanktonic microfossil species or groups of species in the surface sediments do show restricted distributions which primarily reflect the environmental conditions of the upper water masses above them (e.g. sea-surface temperature, productivity, stratification). The acquired 'reference' data sets are large and diverse enough to allow future development of transfer functions for the reconstruction of past surface-water conditions, and show that there is still an enormous paleoenvironmental reconstruction potential concealed in many fossil coccolith and dinoflagellate cyst assemblages.

Formato

application/zip, 7 datasets

Identificador

https://doi.pangaea.de/10.1594/PANGAEA.779587

doi:10.1594/PANGAEA.779587

Idioma(s)

en

Publicador

PANGAEA

Relação

Vink, Annemiek (2004): Calcareous dinoflagellate cysts in South and equatorial Atlantic surface sediments: diversity, distribution, ecology and potential for palaeoenvironmental reconstruction. Marine Micropaleontology, 50(1-2), 43-88, doi:10.1016/S0377-8398(03)00067-7

Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted

Fonte

Supplement to: Vink, Annemiek; Baumann, Karl-Heinz; Boeckel, Babette; Esper, Oliver; Kinkel, Hanno; Volbers, Andrea N A; Willems, Helmut; Zonneveld, Karin A F (2003): Coccolithophorid and dinoflagellate synecology in the South and Equatorial Atlantic: Improving the palaeoecological significance of phytoplanktonic microfossils. In: Wefer, G; Mulitza, S & Ratmeyer, V (eds.), The South Atlantic in the Late Quaternary: Reconstruction of Material Budgets and Current Systems, Springer, Berlin, Heidelberg, New York, 101-120, doi:10.1007/978-3-642-18917-3_6

Palavras-Chave #* 10**6/g; 06MT15_2; 06MT41_3; A-21; A-24; A-30; A-32; A-38; A-39; A-9; Amazon Fan; Amazon Shelf/Fan; Angola Basin; ANT-X/4; ANT-X/6; Ascencion Island; Atlantic Caribbean Margin; AWI_Paleo; B_LANDER; B-32; B-39; B-47; B-5; BC; Bottom lander; Box corer; Brazil Basin; Brigantedinium; C. albatrosianum; C. arctica; C. elongatum; C. leptoporus; C. levantinum; Calcidiscus leptoporus; Calciodinellum albatrosianum; Calciodinellum elongatum; Calciodinellum levantinum; Calciodinellum sp.; Cape Basin; Caracomia arctica; Ceara Rise; Central Brazil Basin; Central South Atlantic; Continental slope off Brazil; Counting, dinoflagellate cysts; Counting, palynology; D. chathamensis; Dalella chathamensis; Dinoflagellate cyst, calcareous; Dinofl cyst calc; E. huxleyi; East Brazil Basin; Eastern Niger fan; Eastern Rio Grande Rise; Echinidinium spp.; Emiliania huxleyi; Equatorial Atlantic; Event; F. profunda; Florisphaera profunda; G. ericsonii; G. muellerae; GeoB; GeoB1101-4; GeoB1102-3; GeoB1103-3; GeoB1104-5; GeoB1105-3; GeoB1106-5; GeoB1108-6; GeoB1111-5; GeoB1113-7; GeoB1114-3; GeoB1115-4; GeoB1116-1; GeoB1117-3; GeoB1118-2; GeoB1119-2; GeoB1203-2; GeoB1204-3; GeoB1207-2; GeoB1208-1; GeoB1211-1; GeoB1211-2; GeoB1212-2; GeoB1213-2; GeoB1216-2; GeoB1217-1; GeoB1220-2; GeoB1311-2; GeoB1403-2; GeoB1413-2; GeoB1414-2; GeoB1415-1; GeoB1417-2; GeoB1418-1; GeoB1419-1; GeoB1420-1; GeoB1421-1; GeoB1503-2; GeoB1505-4; GeoB1506-1; GeoB1508-1; GeoB1515-2; GeoB1516-1; GeoB1517-2; GeoB1520-1; GeoB1521-2; GeoB1522-1; GeoB1523-2; GeoB1703-5; GeoB1704-1; GeoB1705-2; GeoB1706-1; GeoB1707-2; GeoB1709-3; GeoB1710-2; GeoB1711-5; GeoB1712-2; GeoB1713-6; GeoB1714-1; GeoB1715-1; GeoB1716-2; GeoB1717-1; GeoB1718-1; GeoB1719-5; GeoB1720-4; GeoB1721-4; GeoB1722-3; GeoB1724-3; GeoB1724-4; GeoB1726-1; GeoB1728-3; GeoB1729-1; GeoB1901-1; GeoB1902-3; GeoB1903-1; GeoB1904-1; GeoB1905-1; GeoB1907-1; GeoB1908-1; GeoB2001-1; GeoB2007-1; GeoB2008-1; GeoB2009-1; GeoB2011-1; GeoB2018-1; GeoB2019-2; GeoB2021-4; GeoB2022-3; GeoB2109-3; GeoB2111-2; GeoB2118-1; GeoB2130-1; GeoB2207-2; GeoB2704-1; GeoB2714-5; GeoB2905-1; GeoB2906-3; GeoB2907-1; GeoB2908-8; GeoB2909-1; GeoB2910-2; GeoB3601-1; GeoB3602-2; GeoB3603-1; GeoB3604-4; GeoB3605-1; GeoB3606-2; GeoB3607-1; GeoB3608-1; GeoB3701-1; GeoB3702-1; GeoB3703-1; GeoB3705-1; GeoB3706-1; GeoB3707-1; GeoB3709-1; GeoB3710-1; GeoB3711-1; GeoB3715-1; GeoB3717-1; GeoB3718-4; GeoB3718-8; GeoB3719-2; GeoB3720-1; GeoB3720-3; GeoB3721-4; GeoB3722-1; GeoB3723-1; GeoB3723-2; GeoB3724-1; GeoB3725-1; GeoB3801-5; GeoB3802-2; GeoB3803-1; GeoB3804-2; GeoB3806-2; GeoB3807-2; GeoB3808-7; GeoB3809-1; GeoB3810-2; GeoB3812-2; GeoB3822-1; GeoB3825-1; GeoB3826-2; GeoB3827-1; GeoB3906-9; GeoB3908-11; GeoB3909-1; GeoB3910-3; GeoB3911-1; GeoB3912-2; GeoB3913-2; GeoB3914-3; GeoB3916-1; GeoB3918-1; GeoB3925-2; GeoB3935-1; GeoB3936-2; GeoB3937-1; GeoB3938-2; GeoB3939-1; GeoB4303-6; GeoB4304-1; GeoB4306-1; GeoB4307-1; GeoB4308-2; GeoB4311-1; GeoB4315-1; GeoB4319-11; GeoB4401-3; GeoB4402-3; GeoB4403-2; GeoB4404-2; GeoB4407-2; GeoB4408-3; GeoB4410-3; GeoB4411-1; GeoB4412-3; GeoB4413-1; GeoB4414-2; GeoB4415-2; GeoB4417-5; GeoB4418-2; GeoB4419-5; GeoB4420-3; GeoB4421-2; GeoB4422-1; GeoB4423-3; GeoB4424-2; GeoB4901-5; GeoB4902-4; GeoB4903-2; GeoB4904-6; GeoB4905-2; GeoB4906-5; GeoB4907-2; GeoB4908-3; GeoB4909-3; GeoB4910-4; GeoB4911-1; GeoB4912-3; GeoB4913-3; GeoB4914-4; GeoB4915-2; GeoB4916-3; GeoB4917-4; GeoB4918-3; GeoB5002-1; GeoB5004-2; GeoB5006-1; GeoB5007-1; GeoB5008-3; GeoB5110-5; GeoB5112-5; GeoB5115-2; GeoB5117-2; GeoB5121-2; GeoB5130-1; GeoB5132-2; GeoB5134-1; GeoB5136-2; GeoB5140-3; GeoB5201-8; GeoB6201-3; GeoB6201-4; GeoB6206-1; GeoB6209-2; GeoB6210-1; GeoB6212-2; GeoB6224-1; GeoB6226-2; GeoB6231-1; GeoB6301-1; GeoB6308-1; GeoB6311-2; GeoB6313-2; GeoB6317-2; GeoB6330-1; GeoB6402-6; GeoB6403-4; GeoB6406-1; GeoB6407-2; GeoB6409-2; GeoB6410-1; GeoB6411-4; GeoB6413-4; GeoB6414-1; GeoB6416-2; GeoB6417-2; GeoB6418-3; GeoB6419-1; GeoB6420-2; GeoB6421-1; GeoB6422-5; GeoB6423-1; GeoB6425-1; GeoB6426-2; GeoB6427-1; GeoB6429-1; GEOMAR; Geosciences, University of Bremen; Gephyrocapsa ericsonii; Gephyrocapsa muellerae; Giant box corer; GIK17836-1; GIK17843-1; GIK17851-1; GIK17862-1; GIK17884-1; GIK17912-1; GKG; Gravity corer (Kiel type); Guayana continental slope; Guinea Basin; Helmholtz Centre for Ocean Research Kiel; I. variaseptum; Impagidinium sp.; Impagidinium variaseptum; JOPSI-3; JOPSI-8; L. granifera; L. machaerophorum; Leonella granifera; Lingulodinium machaerophorum; M. berlinensis; M12/1; M15/2; M16/1; M16/2; M20/2; M23/1; M23/2; M23/3; M29/1; M29/3; M34/1; M34/2; M34/3; M34/4; M35/1; M35003-4; M35004-3; M35005-4; M35006-7; M35008-3; M35010-3; M38/1; M38/2; M41/1; M41/2; M41/3; M41/4; M46/2; M46/3; M46/4; M9/4; Melodomuncula berlinensis; Meteor (1986); MIC; Midatlantic Ridge; Mid Atlantic Ridge; Mid-Atlantic Ridge; MiniCorer; MUC; MultiCorer; N. labyrinthus; Namibia Continental Margin; Namibia continental slope; Nematosphaeropsis labyrinthus; NE off San Thome; Northeast Brasilian Margin; Northern Brasil Basin; Northern Cape Basin; northern Congo fan; Northwestern Vema Channel; off Angola; off Cameroon; off Gabun; off Kunene; off northern Gabun; off south Gabun; P. reticulata; P. reticulatum long; P. tuberosa; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Pernambugia tuberosa; Pixidinopsis reticulata; Polarstern; Protoceratium reticulatum long; Protoperidiniaceae; PS21 06AQANTX_4; PS22; PS22/902; PS22/973; PS2230-1; PS2367-1; PS2376-2; Rhabdothorax spp.; S. nodosa; S. regalis; S. trochoidea; Sample mass; Sample volume; Samp m; Samp vol; Scanning electron microscope (SEM); Scrippsiella regalis; Scrippsiella trochoidea; see reference(s); Sierra Leone Rise; size: < 20 µm; size: < 20 µm, authors species no 3; size: < 20 µm, unspecified; size: < 20 µm; unspecified; size: 20 -65 µm; size: 20 - 65 µm; size: 20 -65 µm, unspecified; size: 20 - 65 µm, unspecified; size: 20 - 65 µm; unspecified; size: 20 -65 µm: unspecified; SL; slide vol; Slide volume; Slope off Argentina; SO84; Sonne; South African margin; South Atlantic; South Atlantic Ocean; Southern Cape Basin; southern Congo fan; South of Cape Verde; Spiniferites; ST. HELENA HOTSPOT; Syracosphaera nodosa; T. heimii; Thoracosphaera heimii; Total counts; van Veen Grab; Vema Channel; VGRAB; Victor Hensen; Walvis Ridge; West Angola Basin; Western Equatorial Atlantic
Tipo

Dataset