Your search keyword '"mixing zones"' showing total 13 results

1. Abiotic Conditions in the Contemporary Baltic Sea

Author

Ojaveer, Evald and Ojaveer, Evald

Published

2017

2. Evaluation of mixing zones in a Latvian-Lithuanian transboundary river basin.

Author

Kriaučiūniene, Jūratė, Vircava, Ligita, Šarauskienė, Diana, Kublina, Anete, Spradze, Ieva, Meilutytė-Lukauskienė, Diana, Jakimavičius, Darius, and Irbinskas, Valdas

Subjects

*WATERSHEDS, *HOT spots (Pollution), *WATER quality management, *HEAVY metal content of water, *POLLUTION, *TRANSBOUNDARY waters

Abstract

The neighbouring countries of Latvia and Lithuania should use common water assessment methodologies and measures for water management in the transboundary rivers according to EU Water Framework Directive, establishing a framework for community action in the field of water policy. However, there are no national and local legislative acts describing how to harmonise water policy and activities for good water status at the cross-border level. This study intends to propose practical measures for management of chemical pollution risk in the cross-border region by mixing zones. The transboundary basin of the Venta River was used as a case study. After initial assessment of water quality status on both sides (Latvian and Lithuanian) in Venta River Basin District, 12 hot spots of pollution were selected for evaluation of mixing zones. Chemical analysis of cadmium, lead, nickel, chromium, copper, zinc, arsenic, phenols, formaldehyde, mercury, benzene as well as total nitrogen and total phosphorus in the water samples from the selected sites was performed. The modelling, using the selected Discharge Test, ensured evaluation of mixing zone dimensions. Such joint investigations might benefit the evaluation of possibilities to integrate mixing zones to the overall transboundary water body for harmonisation of water quality management. [ABSTRACT FROM AUTHOR]

Published

2016

3. Mixing and Attenuation of Upwelling Groundwater Contaminants in the Hyporheic Zone

Author

Santizo, Katherine Yoana and Santizo, Katherine Yoana

Abstract

The hyporheic zone is the reactive interface between surface water and groundwater found beneath streams and rivers, where chemical gradients and an abundant biological presence allow beneficial attenuation of contaminants. Such attenuation often requires reactants from surface water and groundwater to mix, but few studies have explored the controls on mixing of upwelling groundwater water in the hyporheic zone and its potential to foster mixing-dependent reactions. The goals of this dissertation are therefore to evaluate the effects of (1) hydraulic controls and (2) reaction kinetic controls on hyporheic mixing and mixing-dependent reactions, and (3) use two-dimensional visualization techniques to quantify patterns of hyporheic mixing and mixing-dependent reactions. These objectives were addressed by hyporheic zone simulations using a laboratory sediment mesocosm and numerical models. In the laboratory, a hyporheic flow cell was created to observe both conservative dye mixing and abiotic mixing-dependent reaction. The numerical models MODFLOW and SEAM3D were then used to simulate the experimental data to better understand hydraulic and transport processes underlying laboratory observations and provide sensitivity analysis on hydraulic and reaction kinetic parameters. Visualization techniques showed a distinct mixing zone developing over time for both conservative and reactive conditions. Mixing zone thickness in both conditions depended on surface water head drop and the ratio of boundary inflows of surface water and groundwater (inflow ratios). The abiotic reaction caused the mixing zone to shift even under steady-state hydraulics indicating that hyporheic zone mixing-dependent reactions affect the location of mixing as chemical transformations take place. The numerical model further showed the production zone to be thicker than the mixing zone and located where reactants had already been depleted. Finally, mapping of two-dimensional microbial respiration (i.e., e

Published

2021

4. Fracture zones in the Mid Atlantic Ridge lead to alterations in prokaryotic and viral parameters in deep-water masses

Author

Simone eMuck, Thomas eGriessler, Nicole eKöstner, Adam eKlimiuk, Christian eWinter, and Gerhard J Herndl

Subjects

Viruses, microbial communities, prokaryotes, North Atlantic, deep sea, mixing zones, Microbiology, QR1-502

Abstract

We hypothesized that mixing zones of deep-water masses act as ecotones leading to alterations in microbial diversity and activity due to changes in the biogeochemical characteristics of these boundary systems. We determined the changes in prokaryotic and viral abundance and production in the Vema Fracture Zone (VFZ) of the subtropical North Atlantic Ocean, where North Atlantic Deep Water (NADW) and Antarctic Bottom Water (AABW) are funneled through this narrow canyon and therefore, are subjected to intense vertical mixing. Consequently, salinity, potential temperature, oxygen, PO4, SiO4, NO3 were altered in the NADW inside the VFZ as compared to the NADW outside of the VFZ. Also, viral abundance, lytic viral production and the virus-to-prokaryote ratio were elevated in the NADW in the VFZ as compared to the NADW outside the VFZ. In contrast to lytic viral production, lysogenic VP and both the frequency of lytically (FIC) and lysogenically infected cells (FLC) did not significantly differ between in- and outside the VFZ. Generally, FIC was higher than FLC throughout the water column. Prokaryotic (determined by T-RFLP) and viral (determined by RAPD-PCR) community composition was depth-stratified inside and outside the VFZ. The viral community was more modified both with depth and over distance inside the VFZ as compared to the northern section and to the prokaryotic communities. However, no clusters of prokaryotic and viral communities characteristic for the VFZ were identified. Based on our observations, we conclude that turbulent mixing of the deep water masses impacts not only the physico-chemical parameters of the mixing zone but also the interaction between viruses and prokaryotes due to a stimulation of the overall activity. However, only minor effects of deep water mixing were observed on the community composition of the dominant prokaryotes and viruses.

Published

2014

5. Fracture zones in the Mid Atlantic Ridge lead to alterations in prokaryotic and viral parameters in deep-water masses.

Author

Muck, Simone, Griessler, Thomas, Köstner, Nicole, Klimiuk, Adam, Winter, Christian, and Herndl, Gerhard J.

Subjects

PROKARYOTES, MICROORGANISMS, VIRUSES, WATER masses, PHOTOSYNTHETIC oxygen evolution

Abstract

We hypothesized that mixing zones of deep-water masses act as ecotones leading to alterations in microbial diversity and activity due to changes in the biogeochemical characteristics of these boundary systems. We determined the changes in prokaryotic and viral abundance and production in the Vema Fracture Zone (VFZ) of the subtropical North Atlantic Ocean, where North Atlantic Deep Water (NADW) and Antarctic Bottom Water (AABW) are funneled through this narrow canyon and therefore, are subjected to intense vertical mixing. Consequently, salinity, potential temperature, oxygen, PO4, SiO4, NO3 were altered in the NADW inside the VFZ as compared to the NADW outside of the VFZ. Also, viral abundance, lytic viral production (VP) and the virus-to-prokaryote ratio (VPR) were elevated in the NADW in the VFZ as compared to the NADW outside the VFZ. In contrast to lytic VP, lysogenic VP and both the frequency of lytically (FIC) and lysogenically infected cells (FLC) did not significantly differ between in- and outside the VFZ. Generally, FIC was higher than FLC throughout the water column. Prokaryotic (determined by T-RFLP) and viral (determined by RAPD-PCR) community composition was depth-stratified inside and outside the VFZ. The viral community was more modified both with depth and over distance inside the VFZ as compared to the northern section and to the prokaryotic communities. However, no clusters of prokaryotic and viral communities characteristic for the VFZ were identified. Based on our observations, we conclude that turbulent mixing of the deep water masses impacts not only the physico-chemical parameters of the mixing zone but also the interaction between viruses and prokaryotes due to a stimulation of the overall activity. However, only minor effects of deep water mixing were observed on the community composition of the dominant prokaryotes and viruses. [ABSTRACT FROM AUTHOR]

Published

2014

6. Gill reactivity of aluminium-species following liming

Author

Teien, Hans-Christian, Kroglund, Frode, Salbu, Brit, and Rosseland, Bjørn Olav

Subjects

*FISH anatomy, *AQUATIC liming, *ULTRAFILTRATION, *CHROMATOGRAPHIC analysis

Abstract

Abstract: In acidified aluminium (Al) rich freshwater positively charged Al-species (Ali) are the key toxic components due to the accumulation in fish gills. As a countermeasure, liming is used to increase the pH and reduce the concentration of Ali-species; in particular low molecular mass (LMM) Ali-species by hydrolyses. However, very toxic high molecular mass (HMM) Al polymers can form in the unstable mixing zone immediately after liming. In the present work gill reactivity of LMM and HMM Al-species was studied under controlled conditions in eight channel–tank mixing zone systems in the field where Atlantic salmon (Salmo salar L.) kept in cages were exposed to defined mixing zone water. Mixing zones were created by continually liming acid river water (pH 5.0–5.7) high in LMM Ali to pH 6.0 and 6.4, respectively. Transformation processes affecting the Al-speciation as a function of time after liming were documented by in situ hollow fibre ultrafiltration interfaced with ion chromatography, while the Al accumulation in fish gills was used as bioindicator. For fish exposed to mixing zone water immediately after liming (1 min) the Al accumulation in gills (μg Al g−1) was higher (factor of 2) than for fish exposed to acid water prior to liming, due to the formation of gill reactive HMM Ali-species. The Al accumulation in gills followed a first order kinetic expression reaching steady-state conditions after 24-h exposures. The deposition rate of Al in gills (μg Al g−1 h−1) correlated with the water concentrations of HMM Ali (R 2 =0.80) in the mixing zones, and for LMM Ali in the acid water (R 2 =0.92). Due to the transient nature of HMM Ali the deposition rate of Al decreased from the point of liming with a factor of 10 downstream the channel–tank system (i.e. 100 min after liming). The concentration of gill accumulated Al was higher (factor of 3) immediately after high level liming (pH 6.4) than following low level liming (pH 6.0). However, high level liming was more efficient in detoxifying Al in downstream waters. Furthermore, the bioavailability of a given LMM Ali concentration as well as bioreactivity following liming was dependent on the TOC and silicon concentration in the acid water. Increased concentration of TOC (1.5 to 4.3 mg l−1) and silicon (0.3 to 1.0 mg l−1) reduced the gill reactivity of Ali by approximately 50%. [Copyright &y& Elsevier]

Published

2006

7. New experimental techniques for validation of marine discharge models

Author

Roberts, Philip J.W. and Tian, Xiaodong

Subjects

*LASER photochemistry, *FLUORESCENCE, *OFFSHORE oil well drilling, *PETROLEUM in submerged lands

Abstract

A new three-dimensional Laser-Induced Fluorescence (3DLIF) system was applied to study the mixing of a produced water outfall discharge typical of that used in offshore production operations. The outfall consists of a pipeline terminating in a multiport diffuser discharging into water about 12 m deep. Scaled laboratory experiments were done using conditions based on measured oceanographic conditions near the site. The current was perpendicular to the diffuser, and the receiving water was linearly stratified. The model was undistorted and the jet densimetric Froude number was the same as in the prototype. This scaling results in correct modeling of the source volume, momentum, and buoyancy fluxes, and equality of other line source dimensionless parameters. The experiments were conducted in a constant refractive-index environment which enabled detailed three-dimensional concentration measurements in the near field mixing zone to be obtained despite the density variations in the flow field. The mixing processes were found to be complex. The jets discharging upstream were quickly swept downstream, where they began merging with the downstream jets. Lateral mixing caused the concentration profiles to quickly become laterally homogeneous. Initially, dilution increased rapidly with distance from the diffuser, but farther away the rate of increase of dilution slowed as the turbulence became affected by the ambient density stratification. The dilution eventually becomes approximately constant; the location where this occurs defines the end of the near field, where mixing is primarily due to turbulence and other processes induced by the discharge itself. The end of the near field is marked by collapse of the self-induced turbulence under the influence of the ambient stratification.The results were compared to predictions of commonly used mathematical models of marine mixing zones: RSB, UM3, and CORMIX. The best predictions of the near field dilution and the length of the near field were by RSB. UM3 gave good predictions of the near field dilution, but CORMIX overestimated the dilution and rise height substantially. It is believed that this overestimation by CORMIX is due to its approximation of the diffuser as a row of vertically discharging jets of equivalent total momentum flux; this is clearly a poor approximation to the diffuser conditions modeled here.3DLIF is an exciting new technique that can give unprecedented insight into the complex hydrodynamics and processes occurring in buoyancy-modified mixing zones and to improvement of near field mathematical models. Experiments on other discharge configurations are continuing. [Copyright &y& Elsevier]

Published

2004

8. Groundwater mixing, nutrient diagenesis, and discharges across a sandy beachface, Cape Henlopen, Delaware (USA)

Author

Ullman, William J., Chang, Bonnie, Miller, Douglas C., and Madsen, John A.

Subjects

*GROUNDWATER

Abstract

Groundwater and associated nutrients discharge from the beachface to the Delaware Estuary at Cape Henlopen, Delaware, and appear to contribute significantly to the ecological structure of the adjacent intertidal and subtidal benthic communities. The cross-sectional distributions of salinity and nutrient concentrations at one seepage site indicate that there are two distinct groundwater masses that mix with seawater in the sandy beachface during discharge. The dissolved nutrient concentrations in the beachface at this site are substantially higher than those found in the adjacent estuarine surface water. Nutrient concentrations and distribution in the beachface water reflect: (1) the discharge of nutrient-rich upland water; (2) mixing between nutrient-rich groundwater and estuarine water; and (3) diagenetic recycling of estuarine organic material in the beachface mixing zone. Simple mixing and hydrological models are used to determine the relative magnitude of upland and diagenetic contributions and to estimate absolute nutrient discharges across the beachface. Nutrient fluxes during the summer at this site are sufficient to support carbon fixation rates of 4–17 mol C/m/year along the beachface. These nutrient fluxes are substantially higher than can be supported by the upland discharge alone. This suggests that beachfaces serve as traps and reservoirs of estuarine particulate matter and associated nutrient elements. During the summer, when samples were collected at the Cape Henlopen site, nutrient concentrations in the estuary are low and the remineralization of particles in the beachface may contribute significantly to the productivity of the dense plant and animal communities found adjacent to the beachface. [Copyright &y& Elsevier]

Published

2003

9. Dynamics of dissolved major (Na, K, Ca, Mg, and Si) and trace (Al, Fe, Mn, Zn, Cu, and Cr) elements along the lower Orinoco River

Author

Abrahan Rafael Mora Polanco and Jurgen Mahlknecht

Subjects

Silicon, Water resources, Preferential adsorption, water chemistry, Apure River, redox conditions, Iron compounds, Major elements, Dissolved oxygen, Mixing, Rivers, Magnesium, Bacillariophyta, Organic carbon, Orinoco River, Suspended sediments, Mixing zones, Manganese, Trace elements, concentration (composition), Organo-metallic complexes, Biochemical oxygen demand, Sodium, Biological materials, Organometallics, Major and trace elements, trace element, Venezuela, dissolved organic carbon, Carbon, Zinc, river water, 7 INGENIERÍA Y TECNOLOGÍA, confluence, Element concentrations, Process control, Total suspended sediments, Calcium, Dissolution, Aluminum

Abstract

This study addresses the changes in dissolved major and trace element concentrations along the Orinoco River, including the mixing zone between the Orinoco and Apure Rivers. Water samples from the Apure and Orinoco Rivers were collected monthly in four sectors over a period of 15 months. Auxiliary parameters (pH, dissolved oxygen, conductivity, and temperature), total suspended sediments, dissolved organic carbon (DOC), and major (Na, K, Ca, Mg, and Si) and trace (Al, Fe, Mn, Zn, Cu, and Cr) element concentrations were measured in all sectors. The relative contribution of both rivers after the Apure–Orinoco confluence was determined using Ca as a tracer. Moreover, a mixing model was developed to determine whether dissolved species exhibit a conservative behavior during mixing. The results indicate that DOC is removed from waters during the Apure–Orinoco mixing, probably due to absorption of DOC on mineral phases supplied by the Apure River. Dissolved Na, Ca, and Mg behave conservatively during the mixing processes, and their concentrations are controlled by a dilution process. The anomaly in the temporal pattern of K in the Orinoco is caused by the input of biogenic K originating from the Apure River during the high-water stage. The loss of dissolved Si during the low-water stage can be explained by the uptake of Si by diatoms. Dissolved Mn, Zn, Al, and Fe showed a non-conservative behavior during the Apure–Orinoco mixing. The removal of Mn and Zn from the dissolved phase can be explained by the formation of Mn-oxyhydroxides and the scavenging of Zn onto Mn oxides. Dissolved Fe is controlled by redox processes, although the removals of Fe and Al due to the preferential adsorption of large organometallic complexes by mineral surfaces after the Apure–Orinoco confluence can affect the mobility of both elements during transport. The conservative behavior shown by Cu and Cr can be related to the tendency of both elements to be complexed with small organic colloids, which are not preferentially adsorbed by clays. © 2016 The Authors Hydrological Processes Published by John Wiley & Sons Ltd.

Published

2017

10. Response of zooplankton, benthos, and fish to acidification: An overview

Author

Havas, Magda and Rosseland, Bjørn Olav

Published

1995

11. Common implementation strategy - Guidance on setting mixing zones under the EQS-directive (2008/105/EC) - Vurdering av retningslinjens betydning for norske forhold

Author

Ranneklev, S., Molvær, Jarle, Tjomsland, T., and Ranneklev, S. - Project manager

Subjects

priority substances, Matematikk og naturvitenskap: 400 [VDP], norge, prioriterte stoffer, norway, innblandingssoner, eqs-direktivet, mixing zones, eqs-directive

Abstract

EU har utarbeidet en retningslinje for bestemmelse av innblandingssoner under EQS-direktivet (2008/105/EC). Retningslinjen er vurdert blitt vurdert med hensyn til norske forhold. I vannforekomster hvor man har utslipp av de prioriterte stoffene vil det vil være aktuelt å fastsette innblandingssoner. Modeller og tilnærmelser for fastsetting av innblandingssoner som er beskrevet i EUs retningslinjer, tilsvarer langt på vei den praksis som er benyttet i Norge i dag. Retningslinjen som er utarbeidet av EU er dermed velegnet, men visse tilpasninger og hensyn må tas til norske vannforekomster, slik som innsjøer og fjorder. Det vil derfor være aktuelt å utarbeide en egen retningslinje med tilpasninger til norske forhold. Klif

Published

2010

12. High levels of natural radioactivity in biota from deep-sea hydrothermal vents: a preliminary communication

Author

Daniel Desbruyères, Pierre-Marie Sarradin, Jeanne Loyen, Sabine Charmasson, Antoine Le Faouder, Michèle Agarande, Institut de Radioprotection et de Sûreté Nucléaire (IRSN), IFREMER- Département Etude des Ecosystèmes Profonds (DEEP/LEP), and Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)

Subjects

uranium 238, marine environment, 010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, Fauna, uranium 234, [SDV]Life Sciences [q-bio], uranium 235, data analysis, Biodiversity, radiation exposure, Natural radionuclides, 010501 environmental sciences, lead isotope, radiation detection, 01 natural sciences, Biological samples, Mid-atlantic ridges, Water Pollutants, measurement method, radionuclide, Waste Management and Disposal, Atlantic Ocean, fauna, Radioactive, Trophic level, mass spectrometry, Mixing zones, Hot springs, environmental radioactivity, Radiation, Life spans, article, Biota, Lead alloys, General Medicine, Lead Radioisotopes, East Pacific Rise, Pollution, Natural radiations, Oceanography, Radioactivity, Inductively coupled plasma mass spectrometry, deep sea, Uranium, Uranium contents, Geology, Hydrothermal vent, Polonium, Mid-Atlantic Ridge, Water Pollutants, Radioactive, Number of datum, metal, biota, lead 210, Vents, hydrothermal vent, Hydrothermal circulation, Actinides, Radiation Monitoring, polonium isotope, Environmental Chemistry, Ecosystem, Seawater, controlled study, 14. Life underwater, Radiometry, 0105 earth and related environmental sciences, Radioisotopes, Radionuclide, sulfide, nonhuman, Pacific Ocean, radiation budget, Deep-sea hydrothermal vents, Lead, 13. Climate action, Toxic species, Natural radioactivity, uranium isotope, Transuranium elements

Abstract

Hydrothermal deep-sea vent fauna is naturally exposed to a peculiar environment enriched in potentially toxic species such as sulphides, heavy metals and natural radionuclides. It is now well established that some of the organisms present in such an environment accumulate metals during their lifespan. Though only few radionuclide measurements are available, it seems likely that hydrothermal vent communities are exposed to high natural radiation doses. Various archived biological samples collected on the East Pacific Rise and the Mid-Atlantic Ridge in 1996, 2001 and 2002 were analysed by ICP-MS in order to determine their uranium contents (238U, 235U and 234U). In addition 210Po-Pb were determined in 2 samples collected in 2002. Vent organisms are characterized by high U, and Po-Pb levels compared to what is generally encountered in organisms from outside hydrothermal vent ecosystems. Though the number of data is low, the results reveal various trends in relation to the site, the location within the mixing zone and/or the organisms' trophic regime. © 2009 Elsevier Ltd. All rights reserved.

Published

2009

13. New and revised Great Lakes water quality objectives Volume II

Author

International Joint Commission

Subjects

pH, toxic substances, organics, non-degradation, suspended solids, Great Lakes, water quality, mixing zones, inorganics

Abstract

Volume II of the New and Revised Great Lakes Water Quality Objectives contains the scientific summary and other factors upon which the recommended objectives were based. The work presented here was initially begun by the Water Quality Objectives Subcommittee of the Great Lakes Water Quality Board in 1973. As this Subcommittee became more and more deeply involved in developing an approach to the establishment and use of water quality objectives and determining specific objectives, it became apparent that the scientific expertise available from the Great Lakes Research Advisory Board was essential. Thus the Research Advisory Board's Scientific Basis for Water Quality Criteria Committee, now the Task Force on the Scientific Basis for Water Quality Criteria, was called upon to assist. This assistance has continued, not only through periodic joint meetings, but also by members undertaking literature searches and other reviews on behalf of the Committees. This volume is a compilation and consolidation of the work of these Committees which appeared in Appendix "A" of the Water Quality Board's Reports for 1974 and 1975. The Commission has accepted in principle, the water quality objectives and supporting rationale. The views expressed by the Committees are retained in this volume and therefore individual comments within the text may not necessarily reflect the views of the Commission.

Published

1977