Age, pollen and spores of ODP Site 175-1082, supplement to: Dupont, Lydie M (2006): Late Pliocene vegetation and climate in Namibia (southern Africa) derived from palynology of ODP Site 1082. Geochemistry, Geophysics, Geosystems, 7(1), Q05007

The present-day condition of bipolar glaciation characterized by rapid and large climate fluctuations began at the end of the Pliocene with the intensification of the Northern Hemisphere continental glaciations. The global cooling steps of the late Pliocene have been documented in numerous studies o...

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Bibliographic Details
Main Author: Dupont, Lydie M
Format: Dataset
Language:English
Published: PANGAEA - Data Publisher for Earth & Environmental Science 2006
Subjects:
AGE
DEPTH, sediment/rock
Depth, composite
Sample code/label
Volume
Marker, added
Marker, found
Pollen total
Fern spores
Botryococcus
Pediastrum
Spores, monolete
Pteridium
Pteris
Tetraploa aristata conidia
Spores, trilete
Spores, trilete reticulate
Abrus
Abutilon
Acacia/Parkia
Acanthaceae
Aizoaceae
Alchornea
Allanblackia
Aloe-type
Antidesma-type
Arctotis-type
Arecaceae
Asphodelus
Balanites
Baphia-type
Barleria
Bignoniaceae
Blepharis
Blighia-type
Bombax
Borassus-type
Boscia-type
Bosqueia
Boswellia
Brachystegia
Brassicaceae
Bridelia
Burkea
Butyrospermum
Centaurea Africa
Cadaba
Calligonum
Calycobolus-type
Caperonia
Caryophyllaceae
Cassia-type
Celastraceae/Hippocrateaceae
Celtis
Amaranthaceae/Chenopodiaceae
Chrozophora
Chrysophyllum
Cissus
Clematis-type
Cleome
Clutia
Cnestis-type
Coccinia
Coffea-type
Cola cordifolia
Combretaceae/Melastomataceae
Commiphora
Corchorus
Crossopteryx
Cucurbitaceae
Cuviera
Cyperaceae undifferentiated
Daisy-type
Daniellia-type
Detarium
Dialium-type
Diodia-type
Diospyros
Dodonaea viscosa
Dorstenia
Dracaena
Ecbolium
Entada-type
Ericaceae undifferentiated
Erythrina
Eugenia/Syzygium
Euphorbia-type
Euphorbiaceae undifferentiated
Fagonia
Gazania-type
Colophospermum mopane
Gomphrena-type
Grewia
Araliaceae undifferentiated
Heliotropium
Heritiera-type
Hermannia
Hibiscus-type
Hygrophila-type
Hymenocardia
Hyphaene
Hypoestes type
Icacinaceae undifferentiated
Ilex cf.. mitis
Indeterminata/varia
Indigofera-type
Iodes
Irvingia
Isoberlinia-type
Ixora
Justicia/Monechma
Kedrostis
Khaya
Klaineanthus
Lannea
Leea
Compositae Liguliflorae
Liliaceae undifferentiated
Lophira
Luffa
Lythraceae
Maerua-type
Mallotus
Manilkara
Meliaceae
Melochia
Monopetalanthus
Morinda
Myrica
Neurada/Grielum
Newbouldia
Nitraria
Nothofagus
Nyctaginaceae
Nymphaea
Ocimum
Olea
Olea capensis
Ormocarpum
Polygonum senegalense-type
Pandanus
Papilionoideae
Parinari
Pavetta
Peganum
Pelargonium
Pentas
Pentaclethra
Pentzia/Cotula-type
Afrormosia
Petalidium
Phyllanthus
Piliostigma
Plantago
Plumbaginaceae undifferentiated
Poaceae undifferentiated
Podocarpus
Polycarpon
Polygala-type
Polygonum aviculare-type
Portulaca
Priva
Protea
Pseudoprosopis
Pterocarpus
Pycnanthus
Raphia
Restionaceae
Rhamnaceae undifferentiated
Rhizophora
Rhus-type
Rhynchosia-type
Rubiaceae undifferentiated
Rubiaceae tetrade
Rumex
Sabicea
Salvadora persica
Sapotaceae
Jasminum
Sesbania-type
Solanum-type
Sopubia
Spathodea
Borreria
Stachytarpheta
Sterculiaceae
Sterculia-type
Stereospermum
Stipularia africana
Stoebe-type
Strophanthus-type
Strychnos
Tamarindus/Cryptosepalum
Tapinanthus
Tarchonanthus/Artemisia-type
Telephium
Tephrosia
Teucrium
Thesium
Thymelaeaceae
Tribulus
Triumfetta
Compositae Tubuliflorae
Typha angustifolia-type
Uapaca
Urticaceae
Compositae Vernonieae
Viscum
Welwitschia
Zanthoxylum
Zygophyllum
Composite Core
Intercore correlation
DSDP/ODP/IODP sample designation
Counting, palynology
Leg175
Joides Resolution
Center for Marine Environmental Sciences MARUM
Ocean Drilling Program ODP
Southern Ocean
Indian
Online Access:https://dx.doi.org/10.1594/pangaea.315843
https://doi.pangaea.de/10.1594/PANGAEA.315843
Description
Summary:The present-day condition of bipolar glaciation characterized by rapid and large climate fluctuations began at the end of the Pliocene with the intensification of the Northern Hemisphere continental glaciations. The global cooling steps of the late Pliocene have been documented in numerous studies of Ocean Drilling Program (ODP) sites from the Northern Hemisphere. However, the interactions between oceans and between land and ocean during these cooling steps are poorly known. In particular, data from the Southern Hemisphere are lacking. Therefore I investigated the pollen of ODP Site 1082 in the southeast Atlantic Ocean in order to obtain a high-resolution record of vegetation change in Namibia between 3.4 and 1.8 Ma. Four phases of vegetation development are inferred that are connected to global climate change. (1) Before 3 Ma, extensive, rather open grass-rich savannahs with mopane trees existed in Namibia, but the extension of desert and semidesert vegetation was still restricted. (2) Increase of winter rainfall dependent Renosterveld-like vegetation occurred between 3.1 and 2.2 Ma connected to strong advection of polar waters along the Namibian coast and a northward shift of the Polar Front Zone in the Southern Ocean. (3) Climatically induced fluctuations became stronger between 2.7 and 2.2 Ma and semiarid areas extended during glacial periods probably as the result of an increased pole-equator thermal gradient and consequently globally enhanced atmospheric circulation. (4) Aridification and climatic variability further increased after 2.2 Ma, when the Polar Front Zone migrated southward and the influence of Atlantic moisture brought by the westerlies to southern Africa declined. It is concluded that the positions of the frontal systems in the Southern Ocean which determine the locations of the high-pressure cells over the South Atlantic and the southern Indian Ocean have a strong influence on the climate of southern Africa in contrast to the climate of northwest and central Africa, which is dominated by the Saharan low-pressure cell.

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