Your search keyword '"Rutgers van der Loeff, Michiel M."' showing total 6 results

1. Comparison of carbon and opal export rates between summer and spring bloom periods in the region of the Antarctic Polar Front, SE Atlantic.

Author

Rutgers van der Loeff, Michiel M., Buesseler, Ken, Bathmann, Uli, Hense, Inga, and Andrews, John

Subjects

*CARBON, *SEASONS, *BIOACCUMULATION

Abstract

Compares the carbon and opal export rates between summer and spring bloom periods in the Antarctic Polar Front region. Average primary production in the region; Value o export rate observed during the spring bloom; Contribution of the summer flux to the export budget in spring bloom; Role of the Southern Ocean in the silica budget.

Published

2002

2. A two-tracer ([sup210]Po-[sup234]Th) approach to distinguish organic carbon and biogenic silica export flux in the Antarctic Circumpolar Current.

Author

Friedrich, Jana and Rutgers van der Loeff, Michiel M.

Subjects

*CARBON, *SILICA, *OCEAN currents

Abstract

Presents information on a study which developed a two-tracer model to characterize the nature of organic carbon and biogenic silica export flux in the Antarctic Circumpolar Current. Methods; Results; Discussion.

Published

2002

3. Fractionation of 230Th, 231Pa, and 10Be induced by particle size and composition within an opal-rich sediment of the Atlantic Southern Ocean

Author

Kretschmer, Sven, Geibert, Walter, Rutgers van der Loeff, Michiel M., Schnabel, Christoph, Xu, Sheng, and Mollenhauer, Gesine

Subjects

*PARTICLE size distribution, *OPALS, *SEDIMENTS, *RADIOISOTOPES, *SEDIMENTARY rocks, *ADSORPTION (Chemistry), *THORIUM isotopes

Abstract

Abstract: This study centers on the question: How sensitive are 231Pa/230Th and 10Be/230Th to sediment composition and redistribution? The natural radionuclides 231Pa, 230Th and 10Be recorded in deep sea sediments are tracers for water mass advection and particle fluxes. We investigate the influence of oceanic particle composition on the element adsorption in order to improve our understanding of sedimentary isotope records. We present new data on particle size specific 231Pa and 10Be concentrations. An additional separation step, based on settling velocities, led to the isolation of a very opal-rich phase. We find that opal-rich particles contain the highest 231Pa and 10Be concentrations, and higher 231Pa/230Th and 10Be/230Th isotope ratios than opal-poor particles. The fractionation relative to 230Th induced by the adsorption to opal-rich particles is more pronounced for 231Pa than for 10Be. We conclude that bulk 231Pa/230Th in Southern Ocean sediments is most suitable as a proxy for past opal fluxes. The comparison between two neighboring cores with rapid and slow accumulation rates reveals that these isotope ratios are not influenced significantly by the intensity of sediment focusing at these two study sites. However, a simulation shows that particle sorting by selective removal of sediment (winnowing) could change the isotope ratios. Consequently, 231Pa/230Th should not be used as paleocirculation proxy in cases where a strong loss of opal-rich material due to bottom currents occurred. [Copyright &y& Elsevier]

Published

2011

4. Grain size effects on 230Thxs inventories in opal-rich and carbonate-rich marine sediments

Author

Kretschmer, Sven, Geibert, Walter, Rutgers van der Loeff, Michiel M., and Mollenhauer, Gesine

Subjects

*THORIUM isotopes, *TRACERS (Chemistry), *CARBONATES, *MARINE sediments, *PALEOCEANOGRAPHY, *SEDIMENT transport, *PARTICLE size distribution

Abstract

Abstract: Excess Thorium-230 (230Thxs) as a constant flux tracer is an essential tool for paleoceanographic studies, but its limitations for flux normalization are still a matter of debate. In regions of rapid sediment accumulation, it has been an open question if 230Thxs-normalized fluxes are biased by particle sorting effects during sediment redistribution. In order to study the sorting effect of sediment transport on 230Thxs, we analyzed the specific activity of 230Thxs in different particle size classes of carbonate-rich sediments from the South East Atlantic, and of opal-rich sediments from the Atlantic sector of the Southern Ocean. At both sites, we compare the 230Thxs distribution in neighboring high vs. low accumulation settings. Two grain-size fractionation methods are explored. We find that the 230Thxs distribution is strongly grain size dependent, and 50–90% of the total 230Thxs inventory is concentrated in fine material smaller than 10µm, which is preferentially deposited at the high accumulation sites. This leads to an overestimation of the focusing factor Ψ, and consequently to an underestimation of the vertical flux rate at such sites. The distribution of authigenic uranium indicates that fine organic-rich material has also been re-deposited from lateral sources. If the particle sorting effect is considered in the flux calculations, it reduces the estimated extent of sediment focusing. In order to assess the maximum effect of particle sorting on Ψ, we present an extreme scenario, in which we assume a lateral sediment supply of only fine material (<10µm). In this case, the focusing factor of the opal-rich core would be reduced from Ψ =5.9 to Ψ =3.2. In a more likely scenario, allowing silt-sized material to be transported, Ψ is reduced from 5.9 to 5.0 if particle sorting is taken into consideration. The bias introduced by particle sorting is most important for strongly focused sediments. Comparing 230Thxs-normalized mass fluxes biased by sorting effects with uncorrected mass fluxes, we suggest that 230Thxs-normalization is still a valid tool to correct for lateral sediment redistribution. However, differences in focusing factors between core locations have to be evaluated carefully, taking the grain size distributions into consideration. [Copyright &y& Elsevier]

Published

2010

5. Benthic organic carbon flux and oxygen penetration reflect different plankton provinces in the Southern Ocean

Author

Sachs, Oliver, Sauter, Eberhard J., Schlüter, Michael, Rutgers van der Loeff, Michiel M., Jerosch, Kerstin, and Holby, Ola

Subjects

*ORGANIC compounds, *CARBON compounds, *DIATOMS, *MARINE sediments, *OXYGEN, *MARINE plankton, *BENTHIC plants

Abstract

Abstract: For the investigation of organic carbon fluxes reaching the seafloor, oxygen microprofiles were measured at 145 sites in different sub-regions of the Southern Ocean. At 11 sites, an in situ oxygen microprofiler was deployed for the measurement of oxygen profiles and the calculation of organic carbon fluxes. At four sites, both in situ and ex situ data were determined for high latitudes. Based on this data set as well as on previous published data, a relationship was established for the estimation of fluxes derived by ex situ measured O2 profiles. The fluxes of labile organic matter range from 0.5 to 37.1mgCm−2 d−1. The high values determined by in situ measurements were observed in the Polar Front region (water depth of more than 4290m) and are comparable to organic matter fluxes observed for high-productivity, upwelling areas like off West Africa. The oxygen penetration depth, which reflects the long-term organic matter flux to the sediment, was correlated with assemblages of key diatom species. In the Scotia Sea (∼3000m water depth), oxygen penetration depths of less than 15cm were observed, indicating high benthic organic carbon fluxes. In contrast, the oxic zone extends down to several decimeters in abyssal sediments of the Weddell Sea and the southeastern South Atlantic. The regional pattern of organic carbon fluxes derived from microsensor data suggests that episodic and seasonal sedimentation pulses are important for the carbon supply to the seafloor of the deep Southern Ocean. [Copyright &y& Elsevier]

Published

2009

6. On the cycling of 231Pa and 230Th in benthic nepheloid layers.

Author

Chen, Si-Yuan Sean, Marchal, Olivier, Lerner, Paul E., McCorkle, Daniel C., and Rutgers van der Loeff, Michiel M.

Subjects

*TURBULENT mixing, *CONTINENTAL slopes, *ATTENUATION of light, *ATTENUATION coefficients, *CONTINENTAL shelf, *SHIPPING rates, *FREIGHT trucking

Abstract

The naturally-occurring radionuclides protactinium-231 (231Pa) and thorium-230 (230Th) are produced at approximately uniform rates in the ocean and thought to be removed from the water column through a reversible exchange with settling particles. Recent measurements along the U.S. GEOTRACES North Atlantic transect (GA03) revealed two features which are at odds with current understanding about 231Pa and 230Th cycling in the ocean: (i) a sharp decrease in dissolved 231Pa (231Pa d) and 230Th (230Th d) activities with depth below 2000–4000 m and (ii) very high particulate 231Pa (231Pa p) and 230Th (230Th p) activities near the bottom, at a number of stations between the New England continental shelf and Bermuda. Concomitant measurements of light attenuation from beam transmissometry showed that both features occur in benthic nepheloid layers (BNLs), which suggests that these features may stem, at least partly, from the presence of resuspended sediment in the deep water column. Here we explore the behaviour of 231Pa and 230Th in BNLs by using (i) radionuclide, optical, and hydrographic data from the western segment of GA03 (west of Bermuda) and (ii) a simplified model of particle and radionuclide cycling that includes a lateral particle source. First, the BNLs observed at GA03 stations are characterized from measurements of the beam attenuation coefficient converted to particle concentrations. At all stations, particle concentrations below the clear water minimum were the highest in the bottom mixed layer, whose thickness ranged from 95 to 320 m, and decreased generally with height above the bottom. The thickness of strong BNLs varied from 482 to 1358 m and the vertical integral of particle concentration in excess to that at the clear water minimum varied from 1 × 1 0 4 to 2 × 1 0 6 mg m−2, among different stations. Second, the particle-radionuclide model is fitted to data from stations GT11-04 (New England continental rise) and GT11-08 (Hatteras abyssal plain), where samples for radionuclide analyses were collected in the BNL. The model can reproduce simultaneously the increase of particle concentration with depth, the low 231Pa d and 230Th d in the BNLs, and the high 231Pa p and 230Th p near the bottom. According to the model, at heights less than about 300 m above the seafloor, the dissolved phase was set primarily by a balance between adsorption and desorption, with vertical turbulent mixing playing a secondary role, whilst the particulate phase behaved largely as a non-reactive constituent supplied laterally and transported vertically by particle settling and turbulent mixing. Sensitivity tests with the model suggest that lateral particle sources near continental slopes and similar reliefs can produce significant biases both in the 230Th normalization method and in the interpretation of sediment 231Pa/230Th records. Our findings yield insights into the influence of sediment resuspension and transport on 231Pa and 230Th in the deep ocean and highlight the need for considering these processes in paleoceanographic applications. • A model of particle, thorium, and protactinium in nepheloid layers is developed. • Sediment redistribution explains their unusual distribution in Northwest Atlantic. • Dissolved phase is primarily controlled by solid-solution exchanges. • Particulate phase is primarily controlled by settling, mixing, and redistribution. • Processes in nepheloid layers complicate the interpretation of sediment records. [ABSTRACT FROM AUTHOR]

Published

2021