ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

1

Monograph available for loan

Operational estimation and prediction of nitrification dynamics in the activated sludge process (1981)

Beck, M. B.

Laxenburg : Internat. Inst. for Applied Systems Analysis

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Call number: MOP 46081 / Mitte

Type of Medium: Monograph available for loan

Pages: III, [18] S. : graph. Darst.

Series Statement: International Institute for Applied Systems Analysis research report 82,7

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Branch Library: GFZ Library

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2

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Operational water quality management, beyond planning and design : executive report 7, based on research conducted at the International Institute for Applied Systems Analysis (IIASA) (1981)

Beck, M. B.

Laxenburg : Intern. Inst. for Applied Systems Analysis

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Call number: MOP 46076 / Mitte

Type of Medium: Monograph available for loan

Pages: IX, 74 S. : graph. Darst.

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Accuracy of fully coupled and sequential approaches for modeling hydro- and geomechanical processes (2020)

Beck, M. ; Rinaldi, A. P. ; Flemisch, B. ; [et al.]

Springer International Publishing

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Publication Date: 2023-06-09

Description: Subsurface flow and geomechanics are often modeled with sequential approaches. This can be computationally beneficial compared with fully coupled schemes, while it requires usually compromises in numerical accuracy, at least when the sequential scheme is non-iterative. We discuss the influence of the choice of scheme on the numerical accuracy and the expected computational effort based on a comparison of a fully coupled scheme, a scheme employing a one-way coupling, and an iterative scheme using a fixed-stress split for two subsurface injection scenarios. All these schemes were implemented in the numerical simulator DuMux. This study identifies conditions of problem settings where differences due to the choice of the model approach are as important as differences in geologic features. It is shown that in particular transient and multiphase flow, effects can be causing significant deviations between non-iterative and iterative sequential schemes, which might be in the same order of magnitude as geologic uncertainty. An iterated fixed-stress split has the same numerical accuracy as a fully coupled scheme but only for a certain number of iterations which might use up the computational advantage of solving two smaller systems of equations rather than a big monolithical one.

Description: Deutsche Forschungsgemeinschaft https://doi.org/10.13039/501100001659

Description: H2020 European Research Council https://doi.org/10.13039/100010663

Keywords: ddc:550.2 ; Flow and geomechanics ; Fully coupled and sequential schemes ; Fixed-stress scheme ; Numerical accuracy ; Geologic uncertainty

Language: English

Type: doc-type:article

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Spatial and Temporal Patterns of Pore Water Chemistry in the Inter-Tidal Zone of a High Energy Beach (2019)

Waska, Hannelore ; Greskowiak, J. ; Ahrens, J. ; [et al.]

In: EPIC3Frontiers in Marine Science, 6, ISSN: 2296-7745

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Publication Date: 2020-02-13

Description: Submarine groundwater discharge (SGD) is a ubiquitous source of meteoric fresh groundwater and recirculating seawater to the coastal ocean. Due to the hidden distribution of SGD, as well as the hydraulic- and stratigraphy-driven spatial and temporal heterogeneities, one of the biggest challenges to date is the correct assessment of SGD-driven constituent fluxes. Here, we present results from a 3-dimensional seasonal sampling campaign of a shallow subterranean estuary in a high-energy, meso-tidal beach, Spiekeroog Island, Northern Germany. We determined beach topography and analyzed physico-chemical and biogeochemical parameters such as salinity, temperature, dissolved oxygen, Fe(II) and dissolved organic matter fluorescence (FDOM). Overall, the highest gradients in pore water chemistry were found in the cross-shore direction. In particular, a strong physico-chemical differentiation between the tidal high water and low water line was found and reflected relatively stable in- and exfiltrating conditions in these areas. Contrastingly, in between, the pore water compositions in the existing foreshore ridge and runnel system were very heterogeneous on a spatial and temporal scale. The reasons for this observation may be the strong morphological changes that occur throughout the entire year, which affect the exact locations and heights of the ridge and runnel structures and associated flow paths. Further, seasonal changes in temperature and inland hydraulic head, and the associated effect on microbial mediated redox reactions likely overprint these patterns. In the long-shore direction the pore water chemistry varied less than the along the cross-shore direction. Variation in long-shore direction was probably occurring due to topography changes of the ridge-runnel structure and a physical heterogeneity of the sediment, which produced non-uniform groundwater flow conditions. We conclude that on meso-tidal high energy beaches, the rapidly changing beach morphology produces zones with different approximations to steady-state conditions. Therefore, we suggest that zone-specific endmember sampling is the optimal strategy to reduce uncertainties of SGD-driven constituent fluxes.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Field intercomparison of radiometer measurements for ocean colour validation. (2020)

Tilstone, G. ; Dall'Olmo, G. ; Hieronymi, M. ; [et al.]

MDPI AG

In: EPIC3Remote Sensing, MDPI AG, 12(10), pp. 1587, ISSN: 2072-4292

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Publication Date: 2020-06-04

Description: A field intercomparison was conducted at the Acqua Alta Oceanographic Tower (AAOT) in the northern Adriatic Sea, from 9 to 19 July 2018 to assess differences in the accuracy of in- and above-water radiometer measurements used for the validation of ocean colour products. Ten measurement systems were compared. Prior to the intercomparison, the absolute radiometric calibration of all sensors was carried out using the same standards and methods at the same reference laboratory. Measurements were performed under clear sky conditions, relatively low sun zenith angles, moderately low sea state and on the same deployment platform and frame (except in-water systems). The weighted average of five above-water measurements was used as baseline reference for comparisons. For downwelling irradiance ( Ed ), there was generally good agreement between sensors with differences of 〈6% for most of the sensors over the spectral range 400 nm–665 nm. One sensor exhibited a systematic bias, of up to 11%, due to poor cosine response. For sky radiance ( Lsky ) the spectrally averaged difference between optical systems was 〈2.5% with a root mean square error (RMS) 〈0.01 mWm−2 nm−1 sr−1. For total above-water upwelling radiance ( Lt ), the difference was 〈3.5% with an RMS 〈0.009 mWm−2 nm−1 sr−1. For remote-sensing reflectance ( Rrs ), the differences between above-water TriOS RAMSES were 〈3.5% and 〈2.5% at 443 and 560 nm, respectively, and were 〈7.5% for some systems at 665 nm. Seabird-Hyperspectral Surface Acquisition System (HyperSAS) sensors were on average within 3.5% at 443 nm, 1% at 560 nm, and 3% at 665 nm. The differences between the weighted mean of the above-water and in-water systems was 〈15.8% across visible bands. A sensitivity analysis showed that Ed accounted for the largest fraction of the variance in Rrs , which suggests that minimizing the errors arising from this measurement is the most important variable in reducing the inter-group differences in Rrs . The differences may also be due, in part, to using five of the above-water systems as a reference. To avoid this, in situ normalized water-leaving radiance ( Lwn ) was therefore compared to AERONET-OC SeaPRiSM Lwn as an alternative reference measurement. For the TriOS-RAMSES and Seabird-HyperSAS sensors the differences were similar across the visible spectra with 4.7% and 4.9%, respectively. The difference between SeaPRiSM Lwn and two in-water systems at blue, green and red bands was 11.8%. This was partly due to temporal and spatial differences in sampling between the in-water and above-water systems and possibly due to uncertainties in instrument self-shading for one of the in-water measurements.

Repository Name: EPIC Alfred Wegener Institut

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Non-conservative behaviour of molybdenum in coastal waters: Coupling geochemical, biological, and sedimentological processes (2007)

Dellwig, O. ; Beck, M. ; Lemke, A. ; [et al.]

In: EPIC3Geochemica et Cosmochemica Acta.

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Publication Date: 2019-07-17

Repository Name: EPIC Alfred Wegener Institut

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Radium-based pore water fluxes of silica, alkalinity, manganese, DOC, and uranium: A decade of studies in the German Wadden Sea (2011)

Moore, W. S. ; Beck, M. ; Riedel, T. ; [et al.]

In: EPIC3Geochimica et Cosmochimica Acta., 75, pp. 6535-6555

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Publication Date: 2019-07-16

Description: A decade of studies of metal and nutrient inputs to the back-barrier area of Spiekeroog Island, NW German Wadden Sea, have concluded that pore water discharge provides a significant source of the enrichments of many components measured in the tidal channels during low tide. In this paper we add studies of radium isotopes to help quantify fluxes into and out of this system. Activities of radium isotopes in surface water from tidal channels in the back-barrier area exhibit pronounced changes in concert with the tide, with highest activities occurring near low tide. Other dissolved components: silica, alkalinity, manganese, and DOC exhibit similar changes, with patterns matching the Ra isotopes. Uranium follows a reverse pattern with highest concentrations at high tide. Here we use radium isotope measurements in water column and pore water samples to estimate the fluxes of pore waters that enter the tidal channels during low tide. Using a flushing time of four days and the average activities of 224Ra, 223Ra, and 228Ra measured in the back-barrier surface and pore waters, we construct a balance of these isotopes, which is sustained by pore water flux of (2-4) x 108 liters per tidal cycle. This flux transports Ra and the other enriched components to the tidal channels and causes the observed low tide enrichments. An independent estimate of pore water discharge is based on the depletion of U in the tidal channels. The U-based recharge is about 2x greater than the Ra-based discharge; however, other sinks of U could reduce the recharge estimate. Because the pore waters have wide ranges of enrichment in silica, alkalinity, manganese, DOC, and depletion of U with depth, we estimate concentrations of these components in pore water from the depth expected to contribute the majority of the pore water flux, 3.5 m, to determine fluxes of these components to the tidal channels. We also estimate the exports of these components (and import of U) due to mixing based on average measured concentrations in the tidal creeks and the 4 day flushing time. A comparison of these estimates reveals that the exports (negative in the case of U) equal or exceed the pore water fluxes. By using values slightly higher than the minimum concentrations in the pore waters to calculate inputs, the two estimates could be forced to match. We conclude that pore water drainage is the major factor regulating fluxes of Ra isotopes, silica, alkalinity, manganese, DOC, and uranium in this system.

Repository Name: EPIC Alfred Wegener Institut

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A comparative study of manganese dynamics in the water column and sediments of intertidal systems of the North Sea (2012)

Kowalski, N. ; Dellwig, O. ; Beck, M. ; [et al.]

In: EPIC3Estuarine and Coastal Shelf Science.

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Publication Date: 2016-06-13

Repository Name: EPIC Alfred Wegener Institut

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Expanding marine protected areas to include degraded coral reefs (2016)

Abelson, Avigdor ; Belmaker, Jonathan ; Nelson, Peter A. ; [et al.]

In: EPIC3Conservation Biology

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Publication Date: 2017-02-16

Description: Coral reefs of the world face rapid degradation of biodiversity and ecosystem services, and marine protected areas (MPAs) are a commonly applied solution. Nevertheless, coral reefs continue to decline worldwide, raising questions about the adequacy of management and protection efforts. We argue that expanding the range of MPA targets to also include degraded reefs (i.e. 'DR-MPA'), could help reverse this trend. This approach requires new ecological criteria for MPA design, siting, and management. Rather than focusing solely on preserving healthy reefs, the proposed approach focuses on the potential for biodiversity recovery and renewal of ecosystem services. The new criteria highlight sites with the highest potential for recovery, the greatest resistance to future threats (e.g., temperature and acidification) and the largest contribution to connectivity of MPA networks. The DR-MPA approach is not a substitute for traditional MPA selection criteria; it is rather a complimentary framework when traditional approaches are inadequate. We believe that the DR-MPA approach can help to: 1. Enhance the natural, or restoration-assisted, recovery of degraded reefs and their ecosystem services, 2. Increase the total reef area available for protection, 3. Promote more resilient and better-connected MPA networks, and 4. More effectively contribute to improved conditions for human communities dependent on these ecosystem services. This article is protected by copyright. All rights reserved.

Repository Name: EPIC Alfred Wegener Institut

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Sulphate, dissolved organic carbon, nutrients and terminal metabolic products in deep pore waters of an intertidal flat (2008)

Beck, M. ; Dellwig, O. ; Holstein, J. M. ; [et al.]

In: EPIC3Biogeochemistry, 89, pp. 221-238

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Publication Date: 2019-07-17

Description: This study addresses deep pore water chemistry in a permeable intertidal sand flat at the NW German coast. Sulphate, dissolved organic carbon (DOC), nutrients, and several terminal metabolic products were studied down to 5 m sediment depth. By extending the depth domain to several meters, insights into the functioning of deep sandy tidal flats were gained. Despite the dynamic sedimentological conditions in the study area, the general depth profiles obtained in the relatively young intertidal flat sediments of some metres depth are comparable to those determined in deep marine surface sediments. Besides diffusion and lithology which control pore water profiles in most marine surface sediments, biogeochemical processes are influenced by advection in the studied permeable intertidal flat sediments. This is supported by the model setup in which advection has to be implemented to reproduce pore water profiles. Water exchange at the sediment surface and in deeper sediment layers converts these permeable intertidal sediments into a “bio-reactor” where organic matter is recycled, and nutrients and DOC are released. At tidal flat margins, a hydraulic gradient is generated, which leads to water flow towards the creekbank. Deep nutrient-rich pore waters escaping at tidal flat margins during low tide presumably form a source of nutrients for the overlying water column in the study area. Significant correlations between the inorganic products of terminal metabolism (NH4 + and PO4 3−) and sulphate depletion suggest sulphate reduction to be the dominant pathway of anaerobic carbon remineralisation. Pore water concentrations of sulphate, ammonium, and phosphate were used to elucidate the composition of organic matter degraded in the sediment. Calculated C:N and C:P ratios were supported by model results.

Repository Name: EPIC Alfred Wegener Institut

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