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Der äolische Sandstrom aus der W-Sahara zur Atlantikküste (1974)

Sarnthein, Michael ; Walger, Eckart

Springer

International journal of earth sciences 63 (1974), S. 1065-1087

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ISSN: 1437-3262

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Description / Table of Contents: Abstract Fairly constant winds from N to NNE (Fig. 2) prevail at present at the Western Sahara coast. Accordingly, a relatively narrow field of barchan dunes of only 80 km width reaches the coast SE of Cape Blanc (Fig. 1). Very uniform pebble plains form their ground of advance in the study area 60 km wide and 18 km long. Height H, volume V, and distance D from the southern border of the study area were determined for 963 dunes from aerial photographs (Figs. 5 and 6). Data on the dune advance rate were estimated for the particular region byCoursin (1964). Consequently it was possible to calculate a dune sand discharge amounting to 93 000 m3/yr/80 km crossing the southern border of the study area at the time the aerial photographs were taken. Based on the areal distribution pattern of the dunes this sand flow probably might increase threefold within the next 800 years (Fig. 7). Corresponding to the dune sand-discharge QT a saltation sand-discharge (Q and q), 50–100 times larger, of 5,0 and 7–13 Mio m3/yr/80 km, respectively, reaches the Atlantic from the Sahara. The estimates were derived from two independant calculations: the dune advance rate and the wind data. If one compares the wind transported load from the Sahara with that of the mouths of large rivers (e. g. Niger River: 40 Mio. m3/yr) it seems only of minor importance. Because of the relatively coarse grain sizes (Md≈220μm) the wind sand supply is deposited mainly along the strand line. Consequently, remarkably wide sebkha plains are built forward and the shelf becomes unusually narrow. Several independent criteria (e. g. Fig. 7) suggest a fairly young age, close to 500 years of the recent barchan field. A different wind direction, from the NE, and a lowered sea-level might have resulted during the ice-ages in as much as 5 times larger wind load (? 25 Mio m3/yr) arriving at the shelf edge and from there flowing down to the deep sea as turbidity currents. The present wind load has a content of iron oxides of roughly 1.2 per thousand. This value increased to 3.2 per thousand in Pleistocene dune sands.

Abstract: Résumé Actuellement, des vents assez constants de N à NNE, prédominant le long de la côte occidentale du Sahara, produisent un champ de barkhanes, de 80 km seulement de large, qui atteint la côte de l'Atlantique au SE du Cap Blanc (fig. 1). Des plaines de cailloux forment la base des dunes dans la zone étudiée qui est 60 km de large et 18 km de long. Ici, la hauteur H, le volume V et la distance D à la limite sud de la zone étudiée ont été déterminé pour 963 dunes d'après des photos aériennes (fig. 5 et 6). A l'aide de données sur la vitesse du déplacement des dunes (Coursin, 1964) il a été possible de calculer l'écoulement des sables dunaires (la quantité de sable transporté par les dunes). Il atteint 93.000 m3/an/80 km près de la limite sud de la zone, à l'époque où les photos aériennes ont été prises. D'après la répartition des dunes de cette zone, il est probable que cet écoulement de sable triplera au cours des prochains 800 ans (fig. 7). A l'écoulement des sables de dune (QT) correspond un mouvement des sables par saltation (Q et q). Il est 50–100 fois plus important, soit de 5 soit de 7–13× 106 m3/an/80 km, et atteint l'Atlantique en venant du Sahara. Ces données estimées résultent de deux méthodes de calculs indépendantes (Bagnold, 1941); 1. de la vitesse de déplacement des dunes, 2. des données sur la force du vent. Comparé à l'apport des grands fleuves (p. E. le Niger: 40×106 m3/an), l'apport du au vent est de moindre importance. Le sable dunaire est cependant déposé près de la côte à cause de la taille assez grande des grains (Md ≈220μ). Ainsi de larges sebhkas sont formés et le plateau continental devient exceptionellement étroit. Plusieurs arguments indépendants (fig. 7) permettent de supposer un âge très jeune, 500 ans, pour le champ de barkhanes. Pendant l'époque glaciaire, le vent venait du NE et le niveau marin était plus bas. Ainsi, l'apport sableux par le vent, probablement 5 fois plus important que celui d'aujourd'hui (25×106 m3/an), atteignait le bord du plateau continental et influençait, par des turbidites, la sédimentation dans l'océan profond. Le matériel apporté actuellement par le vent, contient 1,2 ‰ d'oxydes de fer. Dans les sables pleistocènes, cette valeur accroît jusqu'à 3,2 ‰

Notes: Zusammenfassung Konstante Winde aus N bis NNE lassen aus der Sahara derzeit ein nur 80 km breites Feld Barchandünen SE von Cap Blanc zur Atlantikküste vordringen. Peneplainartige Kiesebenen bilden hier einen gleichmäßigen Untergrund für ein Meßfeld von 60 km Breite und 18 km Tiefe. Darauf wurden aus Luftbildern für 963 Dünen Höhe H, Volumen V und Abstand D von der Südgrenze des Meßfeldes bestimmt (Abb. 5 und 6). Bereits vorhandene Angaben über die Dünenwandergeschwindigkeit (Coursin, 1964) erlaubten aus diesen Daten den Dünen-Sandstrom zu berechnen. Für die Südgrenze des Meßfeldes ergaben sich für den Zeitpunkt der Luftbildaufnahme 93 000 m3/J./80 km. Aufgrund der Verteilung der Dünen auf dem Meßfeld ist zu erwarten, daß binnen 800 Jahren dieser Sandstrom auf das Dreifache anwachsen dürfte (Abb. 7). Dem Dünen-Sandstrom QT entspricht ein rund 50–100mal größerer Sprung-Sandstrom (Q bzw. q) Sahara—Atlantik mit 5,0 bzw. 7–13 Mio. m3/J./80 km. Diese Schätzwerte beruhen auf zwei voneinander unabhängigen Berechnungswegen (Bagnold, 1941): 1. aus der Dünenwandergeschwindigkeit, 2. aus Winddaten. Verglichen mit der Fracht in großen Flußmündungen (z. B. Niger: 40 Mio. m3/J.) ist die Windfracht der Sahara eher unbedeutend. Wegen ihrer relativ groben Korngrößen (Md≈220μ) wird sie vor allem nahe der Strandlinie abgelagert. Sie führt damit zum Vorbau besonders weiter Salzmarschen („Sebkhas“) und zu einer außergewöhnlichen Verengung des Schelfes. Mehrere unabhängige Argumente (u. a. Abb. 7) deuten auf ein sehr jugendliches Alter des Barchanfeldes von knapp 500 Jahren. Während der Eiszeiten dürften andere Windrichtungen (aus NE) und ein niedrigerer Meeresspiegel dazu beigetragen haben, daß ein etwa fünfmal größerer Windsandstrom (? 25 Mio. m3/J.) die Schelfkante des Atlantiks erreichte und durch abgleitende Suspensionsströme die Tiefseesedimentation mit beeinflußte. Die heutige Windfracht führt rund 1,2 ‰ Eisenoxide mit sich. Dieser Betrag steigt bei den Pleistozänsanden auf 3,2 ‰

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01821323

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Peak glacial 14C ventilation ages suggest major draw-down of carbon into the abyssal ocean (2013)

Sarnthein, Michael ; Schneider, Birgit ; Grootes, P. M.

Copernicus Publications (EGU)

In: Climate of the Past, 9 (6). pp. 2595-2614.

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Publication Date: 2020-07-27

Description: Ice core records demonstrate a glacial–interglacial atmospheric CO2 increase of ~ 100 ppm, while 14C calibration efforts document a strong decrease in atmospheric 14C concentration during this period. A calculated transfer of ~ 530 Gt of 14C-depleted carbon is required to produce the deglacial coeval rise of carbon in the atmosphere and terrestrial biosphere. This amount is usually ascribed to oceanic carbon release, although the actual mechanisms remained elusive, since an adequately old and carbon-enriched deep-ocean reservoir seemed unlikely. Here we present a new, though still fragmentary, ocean-wide Δ14C data set showing that during the Last Glacial Maximum (LGM) and Heinrich Stadial 1 (HS-1) the maximum 14C age difference between ocean deep waters and the atmosphere exceeded the modern values by up to 1500 14C yr, in the extreme reaching 5100 14C yr. Below 2000 m depth the 14C ventilation age of modern ocean waters is directly linked to the concentration of dissolved inorganic carbon (DIC). We propose as a working hypothesis that the modern regression of DIC vs. Δ14C also applies for LGM times, which implies that a mean LGM aging of ~ 600 14C yr corresponded to a global rise of ~ 85–115 μmol DIC kg−1 in the deep ocean. Thus, the prolonged residence time of ocean deep waters may indeed have made it possible to absorb an additional ~ 730–980 Gt DIC, one third of which possibly originated from intermediate waters. We also infer that LGM deep-water O2 dropped to suboxic values of 〈 10 μmol kg−1 in the Atlantic sector of the Southern Ocean, possibly also in the subpolar North Pacific. The deglacial transfer of the extra-aged, deep-ocean carbon to the atmosphere via the dynamic ocean–atmosphere carbon exchange would be sufficient to account for two trends observed, (1) for the increase in atmospheric CO2 and (2) for the 190‰ drop in atmospheric Δ14C during the so-called HS-1 "Mystery Interval", when atmospheric 14C production rates were largely constant

Type: Article , PeerReviewed

Format: text

DOI: 10.5194/cp-9-2595-2013

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Technical note: Late Pliocene age control and composite depths at ODP Site 982, revisited (2012)

Khelifi, Nabil ; Sarnthein, Michael ; Naafs, B. D. A.

Copernicus Publications (EGU)

In: Climate of the Past, 8 (1). pp. 79-87.

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Publication Date: 2019-09-23

Description: Ocean Drilling Program (ODP) Site 982 provided a key sediment section at Rockall Plateau for reconstructing northeast Atlantic paleoceanography and monitoring benthic δ18O stratigraphy over the late Pliocene to Quaternary onset of major Northern Hemisphere glaciation. A renewed hole-specific inspection of magnetostratigraphic reversals and the addition of epibenthic δ18O records for short Pliocene sections in holes 982A, B, and C, crossing core breaks in the δ18O record published for Hole 982B, now imply a major revision of composite core depths. After tuning to the orbitally tuned reference record LR04, the new composite δ18O record results in a hiatus, where the Kaena magnetic subchron might have been lost, and in a significant age reduction for all proxy records by 130 to 20 ky over the time span 3.2–2.7 million years ago (Ma). Our study demonstrates the general significance of reliable composite-depth scales and δ18O stratigraphies in ODP sediment records for generating ocean-wide correlations in paleoceanography. The new concept of age control makes the late Pliocene trends in SST (sea surface temperature) and atmospheric pCO2 at Site 982 more consistent with various paleoclimate trends published from elsewhere in the North Atlantic.

Type: Article , PeerReviewed

Format: text

DOI: 10.5194/cp-8-79-2012

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Oberflächensedimente im Persischen Golf und Golf von Oman, II: Quantitative Komponentenanalyse der Grobfraktion (1971)

Sarnthein, Michael

Bornträger

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Publication Date: 2022-07-11

Type: Article , PeerReviewed

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Peak glacial 14C ventilation ages suggest major draw-down of carbon into the abyssal ocean (tables) (2013)

Sarnthein, Michael ; et al, ...

PANGAEA

In: EPIC3Bremerhaven, PANGAEA

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Publication Date: 2019-07-17

Repository Name: EPIC Alfred Wegener Institut

Type: PANGAEA Documentation , notRev

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Supplementary data (2014)

Sarnthein, Michael

PANGAEA

In: EPIC3Bremerhaven, PANGAEA

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Publication Date: 2014-10-28

Repository Name: EPIC Alfred Wegener Institut

Type: PANGAEA Documentation , notRev

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Deep water formation in the North Pacific and deglacial CO2 rise (2014)

Rae, James W B ; Sarnthein, Michael ; Foster, Gavin L ; [et al.]

PANGAEA

In: Supplement to: Rae, James W B; Sarnthein, Michael; Foster, Gavin L; Ridgwell, Andy; Grootes, Pieter Meiert; Elliott, Tim (2014): Deep water formation in the North Pacific and deglacial CO2 rise. Paleoceanography, 29(6), 645-667, https://doi.org/10.1002/2013PA002570

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Publication Date: 2023-01-13

Description: Deep water formation in the North Atlantic and Southern Ocean is widely thought to influence deglacial CO2 rise and climate change; here we suggest that deep water formation in the North Pacific may also play an important role. We present paired radiocarbon and boron isotope data from foraminifera from sediment core MD02-2489 at 3640 m in the North East Pacific. These show a pronounced excursion during Heinrich Stadial 1, with benthic-planktic radiocarbon offsets dropping to ~350 years, accompanied by a decrease in benthic d11B. We suggest this is driven by the onset of deep convection in the North Pacific, which mixes young shallow waters to depth, old deep waters to the surface, and low-pH water from intermediate depths into the deep ocean. This deep water formation event was likely driven by an increase in surface salinity, due to subdued atmospheric/monsoonal freshwater flux during Heinrich Stadial 1. The ability of North Pacific Deep Water (NPDW) formation to explain the excursions seen in our data is demonstrated in a series of experiments with an intermediate complexity Earth system model. These experiments also show that breakdown of stratification in the North Pacific leads to a rapid ~30 ppm increase in atmospheric CO2, along with decreases in atmospheric d13C and D14C, consistent with observations of the early deglaciation. Our inference of deep water formation is based mainly on results from a single sediment core, and our boron isotope data are unavoidably sparse in the key HS1 interval, so this hypothesis merits further testing. However we note that there is independent support for breakdown of stratification in shallower waters during this period, including a minimum in d15N, younging in intermediate water 14C, and regional warming. We also re-evaluate deglacial changes in North Pacific productivity and carbonate preservation in light of our new data, and suggest that the regional pulse of export production observed during the Bølling-Allerød is promoted by relatively stratified conditions, with increased light availability and a shallow, potent nutricline. Overall, our work highlights the potential of NPDW formation to play a significant and hitherto unrealized role in deglacial climate change and CO2 rise.

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Format: application/zip, 7 datasets

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Chlorine concentration in sediment core MD01-2378 (2010)

Sarnthein, Michael ; Grootes, Pieter Meiert ; Holbourn, Ann E ; [et al.]

PANGAEA

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Publication Date: 2023-06-27

Keywords: AGE; Chlorine; DEPTH, sediment/rock; Giant piston corer; GPC; IMAGES; IMAGES VII - WEPAMA; International Marine Global Change Study; Marion Dufresne (1995); MD012378; MD01-2378; MD122; Timor Sea

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Format: text/tab-separated-values, 31 data points

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Age control of sediment core MD01-2378 (2010)

Sarnthein, Michael ; Grootes, Pieter Meiert ; Holbourn, Ann E ; [et al.]

PANGAEA

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Publication Date: 2023-06-27

Keywords: Age, 14C AMS; Age, calculated calendar years; Age, comment; Age, dated; Age, dated standard deviation; Age model; Calculated, see reference(s); DEPTH, sediment/rock; Giant piston corer; GPC; IMAGES; IMAGES VII - WEPAMA; International Marine Global Change Study; Marion Dufresne (1995); MD012378; MD01-2378; MD122; Reservoir effect/correction; Sedimentation rate; Timor Sea

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Format: text/tab-separated-values, 379 data points

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Stable oxygen isotope ratios on G. ruber from sediment core MD01-2378 (2010)

Sarnthein, Michael ; Grootes, Pieter Meiert ; Holbourn, Ann E ; [et al.]

PANGAEA

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Publication Date: 2023-06-27

Keywords: AGE; DEPTH, sediment/rock; Giant piston corer; Globigerinoides ruber, δ18O; GPC; IMAGES; IMAGES VII - WEPAMA; International Marine Global Change Study; Marion Dufresne (1995); MD012378; MD01-2378; MD122; Timor Sea

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Format: text/tab-separated-values, 170 data points

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