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Dataset Overview | National Centers for Environmental Information (NCEI)

Moored sediment trap observations collected from fixed moorings in the Great Lakes region and Yellowstone Lake, Wyoming from 1977-04-28 to 2005-03-15 (NCEI Accession 0266598)

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This collection contains sediment trap observations from 2,743 samples in the Great Lakes region from 1977-2005 and Yellowstone Lake, Wyoming from 1995-1996. We included measurements of trap material sample weight, mass flux and constituents (total and organic carbon and organic nitrogen). Details about the sediment trap design and deployment are described in Muzzi and Eadie (2002) and details about the trap sampling methods are described in Eadie et al. (2000). Processing procedures for preparing sediments and running constituents analyses provided in the Supplemental Information. File formats included in this data package are csv.
  • Cite as: Eadie, Brian; Lansing, Margaret; Winkelman, Andy (2022). Moored sediment trap observations collected from fixed moorings in the Great Lakes region and Yellowstone Lake, Wyoming from 1977-04-28 to 2005-03-15 (NCEI Accession 0266598). [indicate subset used]. NOAA National Centers for Environmental Information. Dataset. https://www.ncei.noaa.gov/archive/accession/0266598. Accessed [date].
gov.noaa.nodc:0266598
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Distribution Formats
  • CSV
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Distributor NOAA National Centers for Environmental Information
+1-301-713-3277
NCEI.Info@noaa.gov
Dataset Point of Contact NOAA National Centers for Environmental Information
ncei.info@noaa.gov
Time Period 1977-04-28 to 2005-03-15
Spatial Bounding Box Coordinates
West: -110.528
East: -79.922
South: 41.904
North: 47.801
Spatial Coverage Map
General Documentation
Associated Resources
  • Oceanographic, surface meteorological, and chemical water quality parameter data collected from moored Real-time Coastal Observation Network (ReCON) buoys in the Great Lakes region by NOAA Great Lakes Environmental Research Laboratory since 2004
  • Eadie, B.J. 1997. Probing Particle Processes in Lake Michigan Using Sediment Traps Water, Air and Pollution 99: 133-139. https://doi.org/10.1007/BF02406852
  • Eadie, B.J., Robbins, J.A., Klump, J.V., Schwab, D.J. and Edgington, D.N., 2008. Winter-spring storms and their influence on sediment resuspension, transport, and accumulation patterns in southern Lake Michigan. Oceanography, 21(4), pp.118-135. https://www.glerl.noaa.gov/pubs/fulltext/2008/20080029.pdf
  • Eadie, B.J., G.S. Miller, M.B. Lansing, and A.G. Winkelman. 2000. Settling particle fluxes and current and temperature profiles in Grand Traverse Bay, Lake Michigan. NOAA Technical Memorandum GLERL-116. https://www.glerl.noaa.gov/pubs/tech_reports/glerl-116/
  • Eadie, B.J, Chambers, R.L., Gardner, W.S., and Bell, G.L. 1984. Sediment trap studies in Lake Michigan: resuspension and chemical fluxes in the southern basin. J. Great Lakes Res. 10:307–321. https://doi.org/10.1016/S0380-1330(84)71844-2
  • Muzzi, R. and Eadie, B. 2002. The design and performance of a sequencing sediment trap for lake research. Marine Technology Society Journal, 36( 2): 23-28. https://doi.org/10.4031/002533202787914025
    • Parent ID (indicates this dataset is related to other data):
    • gov.noaa.nodc:GLERL-ReCON
Publication Dates
  • publication: 2022-10-27
Data Presentation Form Digital table - digital representation of facts or figures systematically displayed, especially in columns
Dataset Progress Status Complete - production of the data has been completed
Historical archive - data has been stored in an offline storage facility
Data Update Frequency As needed
Supplemental Information
Total Carbon, Organic Carbon and Organic Nitrogen Great Lakes Trap Sample Processing Field Collection and Storage Trap bottles were capped on the ship deck, kept in coolers, transported back to the lab in coolers and stored upright under refrigeration. Samples were left to settle in the refrigerator until overlying water in the sample bottle was clear of suspended particles. Size Fractionation Approximately 30 ml of overlying water in a trap bottle was decanted into a beaker (to be used as a rinse). The remaining sample was shaken, sonified, and immediately poured through a 355 micron screen into a clean beaker. To ensure quantitative transfer of material from the trap bottle, it was rinsed with the overlying water previously set aside (see above). If there was still residual material in the trap bottle a DDW rinse was used. (In these cases we would try to minimize the use of DDW). The >355 micron fraction collected on the screen was back-rinsed off the screen and collected onto tared Whatman GF/F filters 4.7cm using a vacuum filter flask. These filters are dried at 70°C and weighed to determine >355 micron size fraction. The <355 micron size fraction collected in the beakers was placed in the refrigerator to settle until overlying water was clear of suspended particles. Overlying water in the sample beaker was siphoned off as much as possible without disturbing the sample. The sample beaker was then frozen. The sample was then freeze dried, weighed and ground with a mortar and pestle to a homogenous powder. The ground samples are transferred to combusted scintillation vials, and stored frozen in the GLERL Trap Archive. Additional Step for Organic Samples Sub-sampled the archived <355 micron size fraction (~25-50 mg) into labeled acetone rinsed 20 mL polyethylene scintillation vials. Covered with an excess of 2N HCl (approximately 2 mls) Samples were then shaken on a shaker table for 24 hours or until the carbonates stopped bubbling. Samples then dried in a 70°C degree oven, reground and stored in dessicator or freezer until CHN analysis. For CHN analysis (same for Organic and Total Carbon and Nitrogen samples) Re-dried samples at 70°C for 20 minutes on day of analysis, then cooled in a desiccator until ready to weigh (must be room temperature). Approximately 12-18mg of sample weighed into tin capsules for CHN analyses. Total Carbon, Organic Carbon and Nitrogen was determined on a CE Instruments EA 11120 CHN analyzer (ThermoQuest Italia, Milan Italy)
Purpose To measure particle flux and sediment resuspension through the use of sediment traps. Traps provide a tool for the collection of integrated samples of settling materials for analysis. Measuring the mass collected allows the calculation of the gross downward flux of particulate matter and associated constituents and to calculate both mass and constituent settling velocities.
Use Limitations
  • accessLevel: Public
  • Distribution liability: NOAA and NCEI make no warranty, expressed or implied, regarding these data, nor does the fact of distribution constitute such a warranty. NOAA and NCEI cannot assume liability for any damages caused by any errors or omissions in these data. If appropriate, NCEI can only certify that the data it distributes are an authentic copy of the records that were accepted for inclusion in the NCEI archives.
Dataset Citation
  • Cite as: Eadie, Brian; Lansing, Margaret; Winkelman, Andy (2022). Moored sediment trap observations collected from fixed moorings in the Great Lakes region and Yellowstone Lake, Wyoming from 1977-04-28 to 2005-03-15 (NCEI Accession 0266598). [indicate subset used]. NOAA National Centers for Environmental Information. Dataset. https://www.ncei.noaa.gov/archive/accession/0266598. Accessed [date].
Cited Authors
Principal Investigators
Contributors
Resource Providers
Points of Contact
Publishers
Acknowledgments
  • Funding Agency: US DOC; NOAA; OAR; Great Lakes Environmental Research Laboratory
Theme keywords NODC DATA TYPES THESAURUS NODC OBSERVATION TYPES THESAURUS WMO_CategoryCode
  • oceanography
Global Change Master Directory (GCMD) Science Keywords Provider Keywords
  • DEPTH - BOTTOM
  • DEPTH - OBSERVATION
  • SEDIMENTS - DRY WEIGHT
  • SEDIMENTS - ORGANIC CARBON
  • SEDIMENTS - TOTAL CARBON
  • Sediments - organic nitrogen
  • mass flux
Data Center keywords NODC COLLECTING INSTITUTION NAMES THESAURUS NODC SUBMITTING INSTITUTION NAMES THESAURUS Contributing Organizations
  • Cooperative Institute for Limnology and Ecosystems Research, University of Michigan
  • NOAA/OAR/GLERL
Global Change Master Directory (GCMD) Data Center Keywords
Platform keywords NODC PLATFORM NAMES THESAURUS Global Change Master Directory (GCMD) Platform Keywords Provider Platform Names
  • moorings
Instrument keywords NODC INSTRUMENT TYPES THESAURUS Global Change Master Directory (GCMD) Instrument Keywords Provider Instruments
  • CE Instruments EA 11120 CHN analyzer (ThermoQuest Italia, Milan Italy)
  • mass spectrometer
Place keywords NODC SEA AREA NAMES THESAURUS Global Change Master Directory (GCMD) Location Keywords Provider Place Names
  • Great Lakes region
  • Yellowstone Lake, Wyoming
Keywords NCEI ACCESSION NUMBER
Keywords Send2NCEI Submission Package ID
  • 09FUBT
Use Constraints
  • Cite as: Eadie, Brian; Lansing, Margaret; Winkelman, Andy (2022). Moored sediment trap observations collected from fixed moorings in the Great Lakes region and Yellowstone Lake, Wyoming from 1977-04-28 to 2005-03-15 (NCEI Accession 0266598). [indicate subset used]. NOAA National Centers for Environmental Information. Dataset. https://www.ncei.noaa.gov/archive/accession/0266598. Accessed [date].
Access Constraints
  • Use liability: NOAA and NCEI cannot provide any warranty as to the accuracy, reliability, or completeness of furnished data. Users assume responsibility to determine the usability of these data. The user is responsible for the results of any application of this data for other than its intended purpose.
Fees
  • In most cases, electronic downloads of the data are free. However, fees may apply for custom orders, data certifications, copies of analog materials, and data distribution on physical media.
Lineage information for: dataset
Processing Steps
  • 2022-10-27T00:19:33Z - NCEI Accession 0266598 v1.1 was published.
Output Datasets
Lineage information for: dataset
Processing Steps
  • Parameter or Variable: DEPTH - BOTTOM (measured); Units: attometer; Observation Category: in situ; Sampling Instrument: N/A.
  • Parameter or Variable: DEPTH - OBSERVATION (measured); Units: attometer; Observation Category: in situ; Sampling Instrument: N/A.
  • Parameter or Variable: SEDIMENTS - DRY WEIGHT (measured); Units: grams; Observation Category: laboratory analysis; Sampling Instrument: N/A.
  • Parameter or Variable: mass flux (measured); Units: grams per square meter per day; Observation Category: laboratory analysis; Sampling Instrument: N/A.
  • Parameter or Variable: SEDIMENTS - TOTAL CARBON (measured); Units: milligrams per gram; Observation Category: laboratory analysis; Sampling Instrument: CE Instruments EA 11120 CHN analyzer (ThermoQuest Italia, Milan Italy).
  • Parameter or Variable: SEDIMENTS - ORGANIC CARBON (measured); Units: milligrams per gram; Observation Category: laboratory analysis; Sampling Instrument: CE Instruments EA 11120 CHN analyzer (ThermoQuest Italia, Milan Italy).
  • Parameter or Variable: Sediments - organic nitrogen (measured); Units: milligrams per gram; Observation Category: laboratory analysis; Sampling Instrument: CE Instruments EA 11120 CHN analyzer (ThermoQuest Italia, Milan Italy).
Acquisition Information (collection)
Instrument
  • mass spectrometer
Platform
  • moorings
Last Modified: 2024-09-18T01:18:11Z
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