Aggregate Feeding by the Copepods Calanus and Pseudocalanus Controls Carbon Flux Attenuation in the Arctic Shelf Sea During the Productive Period

Jagt, Helga van der; Wiedmann, Ingrid; Hildebrandt, Nicole; Niehoff, Barbara; Iversen, Morten Hvitfeldt

doi:10.3389/fmars.2020.543124

Cited by 22 publications

(17 citation statements)

References 81 publications

(119 reference statements)

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“…Particle abundances below the euphotic zone at 170 m water depth over time were imaged with the In Situ Camera (ISC) 66,67 attached to a surface-tethered, free-drifting sediment trap array at 170 m water depth during four deployments (Figure S1; Table S3) . The ISC consisted of an industrial camera illuminated by an infrared backlight which imaged a water volume of 62.3 mL at a frequency of 0.2 Hz.…”

Section: Particle Size and Volume Distribution From Sediment Trapsmentioning

confidence: 99%

A vast icefish breeding colony discovered in the Antarctic

et al. 2022

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Section: Particle Size and Volume Distribution From Sediment Trapsmentioning

confidence: 99%

A vast icefish breeding colony discovered in the Antarctic

et al. 2022

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“…Sinking particles or the vertical flux of microplastics can be assessed using moored sediment 16 traps such as those deployed annually year-round at HAUSGARTEN observatory (Lalande et al, 2016). However, determining the direction of microplastic transport within the water column (i.e., sinking and rising, lateral transport) remains a challenge with currently available technology, although systems such as the marine snow catcher or camera systems that are currently in use to study the carbon pump could be adapted to this purpose (van der Jagt et al, 2020). What is achievable in the near-term is comparable concentration data sets as a result of the common adoption of sampling nets and pump systems in microplastics studies globally.…”

Section: Strengths and Limitations Of Water Samplingmentioning

confidence: 99%

The power of multi-matrix monitoring in the Pan-Arctic region: plastics in water and sediment

et al. 2023

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Litter and microplastic assessments are being carried out worldwide. Arctic ecosystems are no exception and plastic pollution is high on the Arctic Council’s agenda. Water and sediment have been identified as two of the priority compartments for monitoring plastics under the Arctic Monitoring and Assessment Programme (AMAP). Recommendations for monitoring both compartments are presented in this publication. Alone, such samples can provide information on presence, fate, and potential impacts to ecosystems. Together, the quantification of microplastics in sediment and water from the same region produce a three-dimensional picture of plastics, not only a snapshot of floating or buoyant plastics in the surface water or water column but also a picture of the plastics reaching the shoreline or benthic sediments, in lakes, rivers, and the ocean. Assessment methodologies must be adapted to the ecosystems of interest to generate reliable data. In its current form, published data on plastic pollution in the Arctic is sporadic and collected using a wide spectrum of methods which limits the extent to which data can be compared. A harmonised and coordinated effort is needed to gather data on plastic pollution for the Pan-Arctic. Such information will aid in identifying priority regions and focusing mitigation efforts.

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“…export) is always between that of deep flux and NPP, but closer to that of deep flux, supporting the argument that most of the dampening of variability occurs at shallow depths. It has been argued that zooplankton act as gatekeepers for export flux at the base of the mixed layer (Jackson & Checkley, 2011); there is experimental evidence that zooplankton‐phytoplankton dynamics follow such dampening patterns and that this dampens carbon export variability (van der Jagt et al., 2020) but this dampening has not been demonstrated on the global scale. Globally representative measurements similar to those made in van der Jagt et al.…”

Section: Dampeningmentioning

confidence: 99%

Open Ocean Particle Flux Variability From Surface to Seafloor

Cael

Bisson

Conte

et al. 2021

Geophysical Research Letters

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Ocean biogeochemical cycles have much to do with vertical transport of carbon and other elements via particle sinking and other processes (Boyd et al., 2019). Net primary production (NPP) by phytoplankton largely controls how much carbon is available to the rest of the ecosystem (Osmond, 1989); most of this sustains the heterotrophic communities living in the euphotic zone, but a fraction is transported to deeper depths. This fraction is comparably small in the context of the carbon cycle (Muller-Karger et al., 2005) but results in a vertical flux that redistributes carbon and other elements from the surface all the way to the seafloor, connecting the ocean as a global ecosystem while also storing thousands of petagrams of carbon in deep waters for climatically relevant timescales (Ito & Follows, 2005). Quantitative understanding of this flux remains limited, however, not only because measurements of sinking particle flux are challenging and

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Aggregate Feeding by the Copepods Calanus and Pseudocalanus Controls Carbon Flux Attenuation in the Arctic Shelf Sea During the Productive Period

Cited by 22 publications

References 81 publications

A vast icefish breeding colony discovered in the Antarctic

A vast icefish breeding colony discovered in the Antarctic

The power of multi-matrix monitoring in the Pan-Arctic region: plastics in water and sediment

Open Ocean Particle Flux Variability From Surface to Seafloor

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