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Gillard, Benjamin ; Chatzievangelou, Damianos ; Thomsen, Laurenz ; [et al.]

Frontiers Media SA ; 2019

In: Frontiers in Marine Science Vol. 6 ( 2019-7-23)

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In: Frontiers in Marine Science, Frontiers Media SA, Vol. 6 ( 2019-7-23)

Type of Medium: Online Resource

ISSN: 2296-7745

URL: Article

DOI: 10.3389/fmars.2019.00462

DOI: 10.3389/fmars.2019.00462.s001

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2019

detail.hit.zdb_id: 2757748-X

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Data_Sheet_1.docx

Gillard, Benjamin ; Harbour, Rob P. ; Nowald, Nicolas ; [et al.]

Frontiers Media SA ; 2022

In: Frontiers in Marine Science Vol. 9 ( 2022-2-16)

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In: Frontiers in Marine Science, Frontiers Media SA, Vol. 9 ( 2022-2-16)

Abstract: Most studies on the potential impacts of deep-sea mining in the Clarion Clipperton Zone (CCZ) have largely focused on benthic ecosystems but ignore the pelagic environment. To model full-scale impacts, it is important to understand how sediment discharge might affect the pelagic zone as well. This study combines in situ optics, hydrography, and remote sensing to describe particle abundance and size distribution through the entire water column in the CCZ (German sector). CCZ surface waters were characterized as productive over the year. During the winter, we observed the formation of a sharp transition zone in Chla concentration, identifying the area as a productive transitional zone toward a more depleted ocean gyre. In the German sector, median particle size was small (± 77 μm), and large particles ( & gt;300 μm) were rare. By assessing particle flux attenuation, we could show that the presence of a thick oxygen minimum zone (OMZ) plays an essential role in export and transformation of settling aggregates, with strong diel variations. We suggest that the combination of small aggregate size, bottom currents and slow seafloor consolidation may explain the extremely low sedimentation rate in the CCZ. We conclude that sediment incorporations and ballasting effect on settling particulate matter represent the most significant hazard on midwater and benthic ecosystems.

Type of Medium: Online Resource

ISSN: 2296-7745

URL: Article

DOI: 10.3389/fmars.2022.820947

DOI: 10.3389/fmars.2022.820947.s001

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2022

detail.hit.zdb_id: 2757748-X

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Presentation_1.pdf

Haalboom, Sabine ; Schoening, Timm ; Urban, Peter ; [et al.]

Frontiers Media SA ; 2022

In: Frontiers in Marine Science Vol. 9 ( 2022-6-9)

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In: Frontiers in Marine Science, Frontiers Media SA, Vol. 9 ( 2022-6-9)

Abstract: The abyssal seafloor in the Clarion-Clipperton Zone (CCZ) in the NE Pacific hosts the largest abundance of polymetallic nodules in the deep sea and is being targeted as an area for potential deep-sea mining. During nodule mining, seafloor sediment will be brought into suspension by mining equipment, resulting in the formation of sediment plumes, which will affect benthic and pelagic life not naturally adapted to any major sediment transport and deposition events. To improve our understanding of sediment plume dispersion and to support the development of plume dispersion models in this specific deep-sea area, we conducted a small-scale, 12-hour disturbance experiment in the German exploration contract area in the CCZ using a chain dredge. Sediment plume dispersion and deposition was monitored using an array of optical and acoustic turbidity sensors and current meters placed on platforms on the seafloor, and by visual inspection of the seafloor before and after dredge deployment. We found that seafloor imagery could be used to qualitatively visualise the redeposited sediment up to a distance of 100 m from the source, and that sensors recording optical and acoustic backscatter are sensitive and adequate tools to monitor the horizontal and vertical dispersion of the generated sediment plume. Optical backscatter signals could be converted into absolute mass concentration of suspended sediment to provide quantitative data on sediment dispersion. Vertical profiles of acoustic backscatter recorded by current profilers provided qualitative insight into the vertical extent of the sediment plume. Our monitoring setup proved to be very useful for the monitoring of this small-scale experiment and can be seen as an exemplary strategy for monitoring studies of future, upscaled mining trials. We recommend that such larger trials include the use of AUVs for repeated seafloor imaging and water column plume mapping (optical and acoustical), as well as the use of in-situ particle size sensors and/or particle cameras to better constrain the effect of suspended particle aggregation on optical and acoustic backscatter signals.

Type of Medium: Online Resource

ISSN: 2296-7745

URL: Article

DOI: 10.3389/fmars.2022.882155

DOI: 10.3389/fmars.2022.882155.s001

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2022

detail.hit.zdb_id: 2757748-X

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Physical and hydrodynamic properties of deep sea mining-generated, abyssal sediment plumes in the Clarion Clipperton Fracture Zone (eastern-central Pacific)

Gillard, Benjamin ; Purkiani, Kaveh ; Chatzievangelou, Damianos ; [et al.]

University of California Press ; 2019

In: Elementa: Science of the Anthropocene Vol. 7 ( 2019-01-01)

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In: Elementa: Science of the Anthropocene, University of California Press, Vol. 7 ( 2019-01-01)

Abstract: The anthropogenic impact of polymetallic nodule harvesting in the Clarion-Clipperton Fracture Zone is expected to strongly affect the benthic ecosystem. To predict the long-term, industrial-scale impact of nodule mining on the deep-sea environment and to improve the reliability of the sediment plume model, information about the specific characteristics of deep-sea particles is needed. Discharge simulations of mining-related fine-grained (median diameter ≈ 20 μm) sediment plumes at concentrations of 35–500 mg L–1 (dry weight) showed a propensity for rapid flocculation within 10 to 135 min, resulting in the formation of large aggregates up to 1100 μm in diameter. The results indicated that the discharge of elevated plume concentrations (500 mg L–1) under an increased shear rate (G ≥ 2.4 s–1) would result in improved efficiency of sediment flocculation. Furthermore, particle transport model results suggested that even under typical deep-sea flow conditions (G ≈ 0.1 s–1), rapid deposition of particles could be expected, which would restrict heavy sediment blanketing (several centimeters) to a smaller fall-out area near the source, unless subsequent flow events resuspended the sediments. Planning for in situ tests of these model projections is underway.

Type of Medium: Online Resource

ISSN: 2325-1026

URL: Article

DOI: 10.1525/elementa.343

DOI: 10.1525/elementa.343.f1

DOI: 10.1525/elementa.343.f2

DOI: 10.1525/elementa.343.f3

DOI: 10.1525/elementa.343.f4

DOI: 10.1525/elementa.343.f5

DOI: 10.1525/elementa.343.f6

DOI: 10.1525/elementa.343.t1

DOI: 10.1525/elementa.343.s1

DOI: 10.1525/elementa.343.s2

DOI: 10.1525/elementa.343.s3

Language: English

Publisher: University of California Press

Publication Date: 2019

detail.hit.zdb_id: 2745461-7

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Numerical Simulation of Deep-Sea Sediment Transport Induced by a Dredge Experiment in the Northeastern Pacific Ocean

Purkiani, Kaveh ; Gillard, Benjamin ; Paul, André ; [et al.]

Frontiers Media SA ; 2021

In: Frontiers in Marine Science Vol. 8 ( 2021-8-31)

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In: Frontiers in Marine Science, Frontiers Media SA, Vol. 8 ( 2021-8-31)

Abstract: Predictability of the dispersion of sediment plumes induced by potential deep-sea mining activities is still very limited due to operational limitations on in-situ observations required for a thorough validation and calibration of numerical models. Here we report on a plume dispersion experiment carried out in the German license area for the exploration of polymetallic nodules in the northeastern tropical Pacific Ocean in 4,200 m water depth. The dispersion of a sediment plume induced by a small-scale dredge experiment in April 2019 was investigated numerically by employing a sediment transport module coupled to a high-resolution hydrodynamic regional ocean model. Various aspects including sediment characteristics and ocean hydrodynamics were examined to obtain the best statistical agreement between sensor-based observations and model results. Results show that the model is capable of reproducing suspended sediment concentration and redeposition patterns observed during the dredge experiment. Due to a strong southward current during the dredging, the model predicts no sediment deposition and plume dispersion north of the dredging tracks. The sediment redeposition thickness reaches up to 9 mm directly next to the dredging tracks and 0.07 mm in about 320 m away from the dredging center. The model results suggest that seabed topography and variable sediment release heights above the seafloor cause significant changes especially for the low sedimentation pattern in the far-field area. Near-bottom mixing is expected to strongly influence vertical transport of suspended sediment.

Type of Medium: Online Resource

ISSN: 2296-7745

URL: Article

DOI: 10.3389/fmars.2021.719463

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2021

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