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Annual averages of fluxes of MIR97_40N-2_trap (2003)

Honda, Makio C

PANGAEA

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Publication Date: 2024-04-16

Keywords: 40N; Aluminium, flux; Calcium carbonate, flux; Calculated; Calculated, see reference(s); Carbon, organic, particulate, flux; DEPTH, water; Duration, number of days; Element analyser CHN, Perkin-Elmer 240; Inductively coupled plasma atomic emission spectroscope (ICP-AES); JGOFS; Joint Global Ocean Flux Study; MIR97; MIR97_40N-2_trap; Mirai; North Pacific; Opal, flux; Total mass, flux per day; Trap, sediment; TRAPS

Type: Dataset

Format: text/tab-separated-values, 18 data points

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Annual averages of fluxes of MIR97_KNOT-1_trap (2003)

Honda, Makio C

PANGAEA

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Publication Date: 2024-04-16

Keywords: Aluminium, flux; Calcium carbonate, flux; Calculated; Calculated, see reference(s); Carbon, organic, particulate, flux; DEPTH, water; Duration, number of days; Element analyser CHN, Perkin-Elmer 240; Inductively coupled plasma atomic emission spectroscope (ICP-AES); JGOFS; Joint Global Ocean Flux Study; KNOT-1; MIR97; MIR97_KNOT-1_trap; Mirai; North Pacific; Opal, flux; Total mass, flux per day; Trap, sediment; TRAPS

Type: Dataset

Format: text/tab-separated-values, 18 data points

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Annual averages of fluxes of MIR97_50N-2_trap (2003)

Honda, Makio C

PANGAEA

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Publication Date: 2024-04-16

Keywords: 50N; Aluminium, flux; Calcium carbonate, flux; Calculated; Calculated, see reference(s); Carbon, organic, particulate, flux; DEPTH, water; Duration, number of days; Element analyser CHN, Perkin-Elmer 240; Inductively coupled plasma atomic emission spectroscope (ICP-AES); JGOFS; Joint Global Ocean Flux Study; MIR97; MIR97_50N-2_trap; Mirai; North Pacific; Opal, flux; Total mass, flux per day; Trap, sediment; TRAPS

Type: Dataset

Format: text/tab-separated-values, 18 data points

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Annual averages of fluxes of MIR97_KNOT-2_trap (2003)

Honda, Makio C

PANGAEA

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Publication Date: 2024-04-16

Keywords: Aluminium, flux; Calcium carbonate, flux; Calculated; Calculated, see reference(s); Carbon, organic, particulate, flux; DEPTH, water; Duration, number of days; Element analyser CHN, Perkin-Elmer 240; Inductively coupled plasma atomic emission spectroscope (ICP-AES); JGOFS; Joint Global Ocean Flux Study; KNOT-2; MIR97; MIR97_KNOT-2_trap; Mirai; North Pacific; Opal, flux; Total mass, flux per day; Trap, sediment; TRAPS

Type: Dataset

Format: text/tab-separated-values, 18 data points

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Annual averages of fluxes of MIR97_40N-1_trap (2003)

Honda, Makio C

PANGAEA

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Publication Date: 2024-04-16

Keywords: 40N; Aluminium, flux; Calcium carbonate, flux; Calculated; Calculated, see reference(s); Carbon, organic, particulate, flux; DEPTH, water; Duration, number of days; Element analyser CHN, Perkin-Elmer 240; Inductively coupled plasma atomic emission spectroscope (ICP-AES); JGOFS; Joint Global Ocean Flux Study; MIR97; MIR97_40N-1_trap; Mirai; North Pacific; Opal, flux; Total mass, flux per day; Trap, sediment; TRAPS

Type: Dataset

Format: text/tab-separated-values, 18 data points

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Annual averages of fluxes of MIR97_50N-1_trap (2003)

Honda, Makio C

PANGAEA

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Publication Date: 2024-04-16

Keywords: 50N; Aluminium, flux; Calcium carbonate, flux; Calculated; Calculated, see reference(s); Carbon, organic, particulate, flux; DEPTH, water; Duration, number of days; Element analyser CHN, Perkin-Elmer 240; Inductively coupled plasma atomic emission spectroscope (ICP-AES); JGOFS; Joint Global Ocean Flux Study; MIR97; MIR97_50N-1_trap; Mirai; North Pacific; Opal, flux; Total mass, flux per day; Trap, sediment; TRAPS

Type: Dataset

Format: text/tab-separated-values, 18 data points

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Supplemental Information Data files S1-S13 (2021)

Ikenoue, Takahito ; Kimoto, Katsunori ; Nakamura, Yuriko ; [et al.]

PANGAEA

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Publication Date: 2024-04-20

Description: Data files S1-S13. Microfocus X-ray Computed Tomography cross-sectional images of 13 selected radiolarian skeletons in the western Arctic Ocean. The CT-scanned 3D images can be visualized by 3D image viewer Molcer Plus (http://www.white-rabbit.jp/molcerPlusE.html). Data file S1. Microfocus X-ray Computed Tomography cross-sectional images of Actinomma boreale Data file S2. Microfocus X-ray Computed Tomography cross-sectional images of Actinomma leptodermum leptodermum Data file S3. Microfocus X-ray Computed Tomography cross-sectional images of Actinommidae spp. juvenile form Data file S4. Microfocus X-ray Computed Tomography cross-sectional images of Amphimelissa setosa adult form Data file S5. Microfocus X-ray Computed Tomography cross-sectional images of Amphimelissa setosa juvenile form Data file S6. Microfocus X-ray Computed Tomography cross-sectional images of Joergensenium arcticum adult form Data file S7. Microfocus X-ray Computed Tomography cross-sectional images of Joergensenium arcticum juvenile form Data file S8. Microfocus X-ray Computed Tomography cross-sectional images of Nassellarida indet. Data file S9. Microfocus X-ray Computed Tomography cross-sectional images of Phormacantha hystrix Data file S10. Microfocus X-ray Computed Tomography cross-sectional images of Pseudodictyophimus clevei Data file S11. Microfocus X-ray Computed Tomography cross-sectional images of Pseudodictyophimus gracilipes gracilipes Data file S12. Microfocus X-ray Computed Tomography cross-sectional images of Pseudodictyophimus spp. juvenile form Data file S13. Microfocus X-ray Computed Tomography cross-sectional images of Spongotrochus glacialis

Keywords: Arctic Ocean; Binary Object; Binary Object (File Size); Binary Object (Media Type); biogenic silica; biogeochemical cycles; File content; Microfocus X-ray CT; protists; Radiolaria; Rhizaria; silica cycle

Type: Dataset

Format: text/tab-separated-values, 26 data points

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Revisiting carbon flux through the ocean's twilight zone (2010)

Buesseler, Ken O. ; Lamborg, Carl H. ; Boyd, Philip W. ; [et al.]

American Association for the Advancement of Science

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Publication Date: 2017-01-04

Description: Citation only. Published in Science 316: 567-570, doi: 10.1126/science.1137959

Description: Funding was obtained primarily through the NSF, Ocean Sciences Programs in Chemical and Biological Oceanography, with additional support from the U.S. Department of Energy, Office of Science, Biological and Environmental Research Program, and other national programs, including the Australian Cooperative Research Centre program and Australian Antarctic Division.

Keywords: Carbon flux ; Carbon sequestration ; Biological pump

Repository Name: Woods Hole Open Access Server

Type: Article

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VERTIGO (VERtical Transport In the Global Ocean) : a study of particle sources and flux attenuation in the North Pacific (2008)

Buesseler, Ken O. ; Trull, Thomas W. ; Steinberg, Deborah K. ; [et al.]

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Publication Date: 2022-05-26

Description: Author Posting. © Elsevier B.V., 2008. This is the author's version of the work. It is posted here by permission of Elsevier B.V. for personal use, not for redistribution. The definitive version was published in Deep Sea Research Part II: Topical Studies in Oceanography 55 (2008): 1522-1539, doi:10.1016/j.dsr2.2008.04.024.

Description: The VERtical Transport In the Global Ocean (VERTIGO) study examined particle sources and fluxes through the ocean’s “twilight zone” (defined here as depths below the euphotic zone to 1000 m). Interdisciplinary process studies were conducted at contrasting sites off Hawaii (ALOHA) and in the NW Pacific (K2) during 3 week occupations in 2004 and 2005, respectively. We examine in this overview paper the contrasting physical, chemical and biological settings and how these conditions impact the source characteristics of the sinking material and the transport efficiency through the twilight zone. A major finding in VERTIGO is the considerably lower transfer efficiency (Teff) of particulate organic carbon (POC), POC flux 500 / 150 m, at ALOHA (20%) vs. K2 (50%). This efficiency is higher in the diatom-dominated setting at K2 where silica-rich particles dominate the flux at the end of a diatom bloom, and where zooplankton and their pellets are larger. At K2, the drawdown of macronutrients is used to assess export and suggests that shallow remineralization above our 150 m trap is significant, especially for N relative to Si. We explore here also surface export ratios (POC flux/primary production) and possible reasons why this ratio is higher at K2, especially during the first trap deployment. When we compare the 500 m fluxes to deep moored traps, both sites lose about half of the sinking POC by 〉4000 m, but this comparison is limited in that fluxes at depth may have both a local and distant component. Certainly, the greatest difference in particle flux attenuation is in the mesopelagic, and we highlight other VERTIGO papers that provide a more detailed examination of the particle sources, flux and processes that attenuate the flux of sinking particles. Ultimately, we contend that at least three types of processes need to be considered: heterotrophic degradation of sinking particles, zooplankton migration and surface feeding, and lateral sources of suspended and sinking materials. We have evidence that all of these processes impacted the net attenuation of particle flux vs. depth measured in VERTIGO and would therefore need to be considered and quantified in order to understand the magnitude and efficiency of the ocean’s biological pump.

Description: Funding for VERTIGO was provided primarily by research grants from the US National Science Foundation Programs in Chemical and Biological Oceanography (KOB, CHL, MWS, DKS, DAS). Additional US and non-US grants included: US Department of Energy, Office of Science, Biological and Environmental Research Program (JKBB); the Gordon and Betty Moore Foundation (DMK); the Australian Cooperative Research Centre program and Australian Antarctic Division (TWT); Chinese NSFC and MOST programs (NZJ); Research Foundation Flanders and Vrije Universiteit Brussel (FD, ME); JAMSTEC (MCH); New Zealand Public Good Science Foundation (PWB); and internal WHOI sources and a contribution from the John Aure and Cathryn Ann Hansen Buesseler Foundation (KOB).

Repository Name: Woods Hole Open Access Server

Type: Preprint

Format: application/pdf

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Open ocean particle flux variability from surface to seafloor (2021)

Cael, B. Barry ; Bisson, Kelsey ; Conte, Maureen H. ; [et al.]

American Geophysical Union

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Publication Date: 2022-05-27

Description: © The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Cael, B. B., Bisson, K., Conte, M., Duret, M. T., Follett, C. L., Henson, S. A., Honda, M. C., Iversen, M. H., Karl, D. M., Lampitt, R. S., Mouw, C. B., Muller-Karger, F., Pebody, C. A., Smith, K. L., & Talmy, D. Open ocean particle flux variability from surface to seafloor. Geophysical Research Letters, 48(9), (2021): e2021GL092895, https://doi.org/10.1029/2021GL092895.

Description: The sinking of carbon fixed via net primary production (NPP) into the ocean interior is an important part of marine biogeochemical cycles. NPP measurements follow a log-normal probability distribution, meaning NPP variations can be simply described by two parameters despite NPP's complexity. By analyzing a global database of open ocean particle fluxes, we show that this log-normal probability distribution propagates into the variations of near-seafloor fluxes of particulate organic carbon (POC), calcium carbonate, and opal. Deep-sea particle fluxes at subtropical and temperate time-series sites follow the same log-normal probability distribution, strongly suggesting the log-normal description is robust and applies on multiple scales. This log-normality implies that 29% of the highest measurements are responsible for 71% of the total near-seafloor POC flux. We discuss possible causes for the dampening of variability from NPP to deep-sea POC flux, and present an updated relationship predicting POC flux from mineral flux and depth.

Description: B. B. Cael and S. A. Henson acknowledge support from the National Environmental Research Council (NE/R015953/1) and the Horizon 2020 Framework Programme (820989, project COMFORT). The work reflects only the authors' views; the European Commission and their executive agency are not responsible for any use that may be made of the information the work contains. S. A. Henson also acknowledges support from a European Research Council Consolidator grant (GOCART, agreement number 724416). C. L. Follett acknowledges support from the Simons Foundation (grants #827829 and #553242). M. H. Iversen acknowledges support from the DFG-Research Center/Cluster of Excellence “The Ocean Floor – Earth's Uncharted Interface”: EXC-2077-390741603 and the HGF Young Investigator Group SeaPump “Seasonal and regional food web interactions with the biological pump”: VH-NG-1000. M. C. Honda acknowledges financial support from the Ministry of Education, Culture, Sports, Science, and Technology – Japan (grants #: KAKENHI JP18H04144 and JP19H05667). M. Conte acknowledges support from the US National Science Foundation, Division of Ocean Sciences for support for the Oceanic Flux Program time-series since inception, most recently by NSF OCE grant 1829885. D. M. Karl acknowledges support from the Gordon and Betty Moore Foundation (#3794) and the Simons Foundation (SCOPE #329108).

Keywords: Ballast ; bathypelagic ; biogeochemistry ; log-normal ; particle flux ; variability

Repository Name: Woods Hole Open Access Server

Type: Article

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