Distribution of organic-walled dinoflagellate cysts in surface sediments of the Benguela upwelling system


Autoria(s): Holzwarth, Ulrike; Esper, Oliver; Zonneveld, Karin A F
Cobertura

MEDIAN LATITUDE: -25.095086 * MEDIAN LONGITUDE: 14.533904 * SOUTH-BOUND LATITUDE: -32.730000 * WEST-BOUND LONGITUDE: 10.720000 * NORTH-BOUND LATITUDE: -17.070000 * EAST-BOUND LONGITUDE: 18.210000 * DATE/TIME START: 1970-06-17T00:00:00 * DATE/TIME END: 1979-11-18T00:00:00

Data(s)

31/03/2007

Resumo

To obtain insight in the relationship between the spatial distribution of organic-walled dinoflagellate cysts (dinocysts) and local environmental conditions, fifty-eight surface sediment samples from the coastal shelf off SW Africa were investigated on their dinocyst content with special focus on the two main river systems and the active upwelling that characterise this region. To avoid possible overprint by species-selective preservation, samples have been selected mainly from shelf sites where high sedimentation rates and/or low bottom water oxygen concentrations prevail. Multivariate ordination analyses have been carried out to investigate the relationship between the distribution patterns of individual species to environmental parameters of the upper water column and sediment transport processes. The main oceanographical variables at the surface (temperature, salinity, nutrients chlorophyll-a) in the region show onshore-offshore gradients. This pattern is reflected in the dinocyst associations with high relative abundances of heterotrophic dinocyst species in neritic regions characterised by high chlorophyll-aand low salinity conditions in surface waters. Phototrophic dinocyst species, notably Operculodinium centrocarpum, dominate in the more oceanic area. Differences in the distribution of phototrophic dinocyst species can be related to sea surface salinity and sea surface temperature gradients and to a lesser extent to chlorophyll-a concentrations. Apart from longitudinal gradients the dinocyst distribution clearly reflects regional environmental features. Six groups of species can be distinguished, characteristic for (1) coastal regions (cysts of Polykrikos kofoidii and Selenopemphix quanta), (2) the vicinity of active upwelling (Brigantedinium spp., Echinidinium aculeatum, Echinidinium spp. and Echinidinium transparantum), (3) river mouths (Lejeunecysta oliva, cysts of Protoperidinium americanum, Selenopemphix nephroides and Votadinium calvum), (4) slope and open ocean sediments (Dalella chathamense, Impagidinium patulum and Operculodinium centrocarpum, (5) the southern Benguela region (south of 24°S) (Spiniferites ramosus) and (6) the northern Benguela region (north of 24°S) (Nematosphaeropsis labyrinthus and Pyxidinopsis reticulata). No indication of overprint of the palaeo-ecological signal by lateral transport of allochthonous species could be observed.

Formato

application/zip, 2 datasets

Identificador

https://doi.pangaea.de/10.1594/PANGAEA.714259

doi:10.1594/PANGAEA.714259

Idioma(s)

en

Publicador

PANGAEA

Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted

Fonte

Supplement to: Holzwarth, Ulrike; Esper, Oliver; Zonneveld, Karin A F (2007): Distribution of organic-walled dinoflagellate cysts in shelf surface sediments of the Benguela upwelling system in relationship to environmental conditions. Marine Micropaleontology, 64(1-2), 91-119, doi:10.1016/j.marmicro.2007.04.001

Palavras-Chave #2278; 2282; 2340; 2341; 2682; 2684; 2687; 2727; 2736; 2753; 2861; 2865; 3091; 3175; 3177; 3179; 3183; 3187; 3255; 3265; 3292; 3318; 3347; 3457; 3513; 3540; 3634; 3639; 3642; 3651; 3664; 3666; 3674; 3700; 3807; 3816; 3820; 3821; 3844; 3883; 3884; 3885; 3886; 3889; 3901; 3902; 3908; 3917; 3918; 3933; 4649; 4668; 4687; 4724; 4741; 4804; 6314; 6320; annual nitrate concentration at the surface; annual phosphate concentration at the surface; austral autumn; austral autumn, chlorophyll-a content at the surface; austral spring; austral spring, chlorophyll-a content at the surface; austral summer; austral summer, chlorophyll-a content at the surface; austral winter; austral winter, chlorophyll-a content at the surface; Benguela Upwelling; bottom water oxygen content; Brigantedinium spp.; Carbon, organic, total; Center for Marine Environmental Sciences; Chl a; Chlorophyll a; Counting, palynology; cyst of Pentapharsodinium dalei; cyst of Polykrikos kofoidii; cyst of Protoperidinium americanum; D. chathamensis; Dalella chathamensis; Depth; DEPTH, sediment/rock; Dinoflagellate cyst; Dinoflagellate cyst per unit mass; Dinoflagellate cyst reworked; Dinofl cyst; Dinofl cyst rew; E. aculeatum; E. delicatum; E. monospinum; E. transparantum; Echinidinium aculeatum; Echinidinium delicatum; Echinidinium monospinum; Echinidinium spp.; Echinidinium transparantum; Event; GC; Gravity corer; I. aculeatum; I. paradoxum; I. patulum; I. plicatum; I. sphaericum; I. strialatum; I. variaseptum; Impagidinium aculeatum; Impagidinium paradoxum; Impagidinium patulum; Impagidinium plicatum; Impagidinium sphaericum; Impagidinium spp.; Impagidinium strialatum; Impagidinium variaseptum; L. oliva; Lejeunecysta oliva; MARUM; MDL; Mixed layer depth; N. labyrinthus; Nematosphaeropsis labyrinthus; Nitrate; NO3; O. centrocarpum; O. israelianum; O. janduchenei; O2; Operculodinium centrocarpum; Operculodinium israelianum; Operculodinium janduchenei; Oxygen; P. americanum; P. dalei; P. kofoidii; P. reticulata; P. zoharyi; Pentapharsodinium dalei; Phosphate; PO4; Polykrikos kofoidii; Polysphaeridium zoharyi; Protoperidinium americanum; Pyxidinopsis reticulata; S. bentorii; S. bulloides; S. delicatus; S. membranaceus; S. mirabilis; S. nephroides; S. quanta; S. ramosus; S. stellatum; Sea surface salinity; Sea surface temperature, autumn; Sea surface temperature, spring; Sea surface temperature, summer; Sea surface temperature, winter; see reference(s); Selenopemphix nephroides; Selenopemphix quanta; Spiniferites bentorii; Spiniferites bulloides; Spiniferites delicatus; Spiniferites membranaceus; Spiniferites mirabilis; Spiniferites ramosus; Spiniferites sp.; Spiniferites sp. 1; Spiniferites spp.; SSS; SST aut; SST spr; SST sum; SST win; Stelladinium stellatum; T. applanatum; TBD236; TBD236_2278; TBD236_2282; TBD239; TBD239_2340; TBD239_2341; TBD257; TBD257_2682; TBD257_2684; TBD257_2687; TBD257_2727; TBD257_2736; TBD257_2753; TBD261; TBD261_2861; TBD261_2865; TBD268; TBD268_3091; TBD268_3175; TBD268_3177; TBD268_3179; TBD268_3183; TBD268_3187; TBD268_3255; TBD268_3265; TBD268_3292; TBD268_3318; TBD273; TBD273_3347; TBD273_3457; TBD273_3513; TBD273_3540; TBD279; TBD279_3634; TBD279_3639; TBD279_3642; TBD279_3651; TBD279_3664; TBD279_3666; TBD279_3674; TBD279_3700; TBD283; TBD283_3807; TBD283_3816; TBD283_3820; TBD283_3821; TBD283_3844; TBD283_3883; TBD283_3884; TBD283_3885; TBD283_3886; TBD283_3889; TBD283_3901; TBD283_3902; TBD283_3908; TBD283_3917; TBD283_3918; TBD283_3933; TBD300; TBD300_4649; TBD300_4668; TBD300_4687; TBD300_4724; TBD300_4741; TBD300_4804; TBD398; TBD398_6314; TBD398_6320; Thomas B. Davie; TOC; total dinocysts; total organic carbon content of the sediment; Trinovantedinium applanatum; V. calvum; Votadinium calvum
Tipo

Dataset