http://lod.bco-dmo.org/id/dataset/2593 eng; USA utf8 dataset Highest level of data collection, from a common set of sensors or instrumentation, usually within the same research project Biological and Chemical Oceanography Data Management Office (BCO-DMO) Unavailable 508-289-2009 WHOI MS#36 Woods Hole MA 02543 USA info@bco-dmo.org http://www.bco-dmo.org Monday - Friday 8:00am - 5:00pm For questions regarding this resource, please contact BCO-DMO via the email address provided. pointOfContact 2010-06-16 ISO 19115-2 Geographic Information - Metadata - Part 2: Extensions for Imagery and Gridded Data ISO 19115-2:2009(E) Deep sea sediment trap particle flux and lipid data from U.S. JGOFS Sediment Traps from the Arabian Sea in 1995 (U.S. JGOFS Arabian Sea project) 2000-04-12 publication 2000-04-12 revision BCO-DMO Linked Data URI 2000-04-12 creation http://lod.bco-dmo.org/id/dataset/2593 Stuart Wakeham Skidaway Institute of Oceanography principalInvestigator Dr John Hedges University of Washington principalInvestigator Cindy Lee Stony Brook University principalInvestigator Biological and Chemical Oceanography Data Management Office (BCO-DMO) Unavailable 508-289-2009 WHOI MS#36 Woods Hole MA 02543 USA info@bco-dmo.org http://www.bco-dmo.org Monday - Friday 8:00am - 5:00pm For questions regarding this resource, please contact BCO-DMO via the email address provided. publisher Cite this dataset as: Wakeham, S., Lee, C., Hedges, J. (2000) Deep sea sediment trap particle flux and lipid data from U.S. JGOFS Sediment Traps from the Arabian Sea in 1995 (U.S. JGOFS Arabian Sea project). Biological and Chemical Oceanography Data Management Office (BCO-DMO). (Version April 12, 2000) Version Date 2000-04-12 [if applicable, indicate subset used]. http://lod.bco-dmo.org/id/dataset/2593 [access date] Deep sea sediment trap particle flux and lipid data Methods and Sampling: &lt;p&gt;See Platform deployments for cruise specific documentation&lt;/p&gt; &lt;p&gt; Note: MS-1, MS-2, MS-3, MS-4, MS-5 in published article are equivalent to J1, J2, J3, J4, J5 in the online data files &lt;/p&gt; &lt;p&gt; Honjo, S., J. Dymond, W. Prell, V. Ittekot. 1999. Monsoon-controlled export fluxes to the interior of the Arabian Sea. Deep Sea Research II. 46: 1859-1902 &lt;/p&gt; completed Stuart Wakeham Skidaway Institute of Oceanography USA stuart@skio.peachnet.edu pointOfContact Dr John Hedges University of Washington USA pointOfContact Cindy Lee Stony Brook University 631-632-8741 109 Challenger Hall Stony Brook NY 11794-5000 USA Cindy.Lee@stonybrook.edu pointOfContact asNeeded Dataset Version: April 12, 2000 Unknown site mooring trap_type deploy depth_trap date_set lat lon carousel cup date_open time_open days_open sample_id flux_tot lipids_neut lipids_acid lipids_tot IRS Sediment Trap theme None, User defined No BCO-DMO term mooring identification latitude longitude featureType BCO-DMO Standard Parameters Sediment Trap - IRS instrument BCO-DMO Standard Instruments TT041 TT047 TT055 JGOFS_sedTrap_S1d1 JGOFS_sedTrap_S1d2 JGOFS_sedTrap_S3d1 JGOFS_sedTrap_S3d2 JGOFS_sedTrap_S4d1 JGOFS_sedTrap_S4d2 service Deployment Activity Arabian Sea U.S. JGOFS Arabian Sea place Locations otherRestrictions otherRestrictions Access Constraints: none. Use Constraints: Please follow guidelines at: http://www.bco-dmo.org/terms-use Distribution liability: Under no circumstances shall BCO-DMO be liable for any direct, incidental, special, consequential, indirect, or punitive damages that result from the use of, or the inability to use, the materials in this data submission. If you are dissatisfied with any materials in this data submission your sole and exclusive remedy is to discontinue use. U.S. Joint Global Ocean Flux Study http://usjgofs.whoi.edu/ U.S. Joint Global Ocean Flux Study The United States Joint Global Ocean Flux Study was a national component of international JGOFS and an integral part of global climate change research. The U.S. launched the Joint Global Ocean Flux Study (JGOFS) in the late 1980s to study the ocean carbon cycle. An ambitious goal was set to understand the controls on the concentrations and fluxes of carbon and associated nutrients in the ocean. A new field of ocean biogeochemistry emerged with an emphasis on quality measurements of carbon system parameters and interdisciplinary field studies of the biological, chemical and physical process which control the ocean carbon cycle. As we studied ocean biogeochemistry, we learned that our simple views of carbon uptake and transport were severely limited, and a new "wave" of ocean science was born. U.S. JGOFS has been supported primarily by the U.S. National Science Foundation in collaboration with the National Oceanic and Atmospheric Administration, the National Aeronautics and Space Administration, the Department of Energy and the Office of Naval Research. U.S. JGOFS, ended in 2005 with the conclusion of the Synthesis and Modeling Project (SMP). U.S. JGOFS largerWorkCitation program U.S. JGOFS Arabian Sea http://usjgofs.whoi.edu/research/arabian.html U.S. JGOFS Arabian Sea <p>The U.S. Arabian Sea Expedition which began in September 1994 and ended in January 1996, had three major components: a U.S. JGOFS Process Study, supported by the National Science Foundation (NSF); Forced Upper Ocean Dynamics, an Office of Naval Research (ONR) initiative; and shipboard and aircraft measurements supported by the National Aeronautics and Space Administration (NASA). The Expedition consisted of 17 cruises aboard the R/V Thomas Thompson, year-long moored deployments of five instrumented surface buoys and five sediment-trap arrays, aircraft overflights and satellite observations. Of the seventeen ship cruises, six were allocated to repeat process survey cruises, four to SeaSoar mapping cruises, six to mooring and benthic work, and a single calibration cruise which was essentially conducted in transit to the Arabian Sea.</p> Arabian Sea largerWorkCitation project eng; USA oceans Arabian Sea; U.S. JGOFS Arabian Sea 2000-04-12 Arabian Sea 0 BCO-DMO catalogue of parameters from Deep sea sediment trap particle flux and lipid data from U.S. JGOFS Sediment Traps from the Arabian Sea in 1995 (U.S. JGOFS Arabian Sea project) Biological and Chemical Oceanography Data Management Office (BCO-DMO) Unavailable 508-289-2009 WHOI MS#36 Woods Hole MA 02543 USA info@bco-dmo.org http://www.bco-dmo.org Monday - Friday 8:00am - 5:00pm For questions regarding this resource, please contact BCO-DMO via the email address provided. pointOfContact http://lod.bco-dmo.org/id/dataset-parameter/10475.rdf Name: site Units: unknown Description: <p>Arabian Sea site designation</p> http://lod.bco-dmo.org/id/dataset-parameter/10476.rdf Name: mooring Units: dimensionless Description: <p>Mooring identification</p> http://lod.bco-dmo.org/id/dataset-parameter/10477.rdf Name: trap_type Units: unknown Description: <p>WM= wide mouth particle interceptor (xs area 0.33 m2) NM= narrow mouth particle interceptor (xs area 0.017 m2) IRS=indented rotating sphere valve in line C=sample carousel in line NVC=No Valve (and no carousel) Control</p> http://lod.bco-dmo.org/id/dataset-parameter/10478.rdf Name: deploy Units: unknown Description: <p>Deployment number</p> http://lod.bco-dmo.org/id/dataset-parameter/10479.rdf Name: depth_trap Units: meters Description: <p>Depth of trap</p> http://lod.bco-dmo.org/id/dataset-parameter/10480.rdf Name: date_set Units: YYYYMMDD Description: <p>Date of trap deployment</p> http://lod.bco-dmo.org/id/dataset-parameter/10481.rdf Name: lat Units: decimal degrees Description: <p>Latitude</p> http://lod.bco-dmo.org/id/dataset-parameter/10482.rdf Name: lon Units: decimal degrees Description: <p>Longitude</p> http://lod.bco-dmo.org/id/dataset-parameter/10483.rdf Name: carousel Units: unknown Description: <p>Identification number of sample carousel<br /> on multi-trap arrays 1 = carousel #1 2 = carousel #2 3 = carousel #1 and #2 combined</p> http://lod.bco-dmo.org/id/dataset-parameter/10484.rdf Name: cup Units: unknown Description: <p>Sample cup number (position) in carousel</p> http://lod.bco-dmo.org/id/dataset-parameter/10485.rdf Name: date_open Units: YYYYMMDD Description: <p>Date sample cup opened</p> http://lod.bco-dmo.org/id/dataset-parameter/10486.rdf Name: time_open Units: hhmm Description: <p>Time sample cup opened</p> http://lod.bco-dmo.org/id/dataset-parameter/10487.rdf Name: days_open Units: days Description: <p>Elapsed time sample cup collected particle flux</p> http://lod.bco-dmo.org/id/dataset-parameter/10488.rdf Name: sample_id Units: unknown Description: <p>Unique analytical ID# given to each sample</p> http://lod.bco-dmo.org/id/dataset-parameter/10489.rdf Name: flux_tot Units: milligrams/m2/day Description: <p>Particulate mass flux</p> http://lod.bco-dmo.org/id/dataset-parameter/10490.rdf Name: lipids_neut Units: micrograms/m2/day Description: <p>Total of chromatographically-resolved compounds in the neutral lipid fraction</p> http://lod.bco-dmo.org/id/dataset-parameter/10491.rdf Name: lipids_acid Units: micrograms/m2/day Description: <p>Total of chromatographically-resolved compounds in the acidic fraction</p> http://lod.bco-dmo.org/id/dataset-parameter/10492.rdf Name: lipids_tot Units: micrograms/m2/day Description: <p>Sum of neutral and acidic fractions</p> GB/NERC/BODC > British Oceanographic Data Centre, Natural Environment Research Council, United Kingdom Biological and Chemical Oceanography Data Management Office (BCO-DMO) Unavailable 508-289-2009 WHOI MS#36 Woods Hole MA 02543 USA info@bco-dmo.org http://www.bco-dmo.org Monday - Friday 8:00am - 5:00pm For questions regarding this resource, please contact BCO-DMO via the email address provided. pointOfContact 28524 https://datadocs.bco-dmo.org/file/qAAoE4RUOYlr1O/sedtrap_lipid.csv sedtrap_lipid.csv Primary data file for dataset ID 2593 download https://osprey.bco-dmo.org/dataset/2593/data/download download onLine dataset &lt;p&gt;See Platform deployments for cruise specific documentation&lt;/p&gt; &lt;p&gt; Note: MS-1, MS-2, MS-3, MS-4, MS-5 in published article are equivalent to J1, J2, J3, J4, J5 in the online data files &lt;/p&gt; &lt;p&gt; Honjo, S., J. Dymond, W. Prell, V. Ittekot. 1999. Monsoon-controlled export fluxes to the interior of the Arabian Sea. Deep Sea Research II. 46: 1859-1902 &lt;/p&gt; from Cruise: TT041 <pre> <b>PI:</b> Stuart Wakeham <b>of:</b> Skidaway Institute of Oceanography <b>dataset:</b> Deep sea sediment trap particle flux and lipid data <b>project/cruise:</b> Arabian Sea set: TTN-041,<br> serviced: TTN-047,<br> recovered: TTN-055 <b>ship:</b> Thomas Thompson </pre> <h2> Organic geochemistry deep sea sediment trap particle flux and composition data</h2> <h3> Drs. Stuart Wakeham, John Hedges and Cindy Lee, principal investigators</h3> US JGOFS Arabian Sea 1994-1996 <pre> PI notes and methodology: Sediment trap arrays -------------------- 1. Organic geochemistry sediment trap arrays were deployed on the WHOI-OSU sediment trap moorings at 3 of the 5 mooring sites, 1, 3, and 4. See Honjo et al 1999 Monsoon-controlled export fluxes to the interior of the Arabian Sea. Deep-Sea Research Part II: Topical Studies in Oceanography. 46, 1859-1902. 2. Arrays deployed during the winter monsoon consisted of 2 NM-IRSC traps, 1 WM-IRS trap, and 1 NVC trap. 3. Arrays deployed during the summer monsoon consisted of 1 NM-IRSC traps, 1 WM-IRSC trap, 1 NM-IRS trap, and 1 NVC trap. 4. Non-carousel traps (IRS and NVC traps) collected material from the time of deployment until the time of retrieval. 5. Closing date and time of each cup is the opening date and time of each succeeding cup. 6. The IRS valved sediment trap design is described in Peterson et al. 1993. Field evaluation of a valved sediment trap. Limnology and Oceanography, 38, 1741-1761. 7. Photographs of the IRS traps and actual ASPS deployments are available at http://boto.ocean.washington.edu/aog/traps/irs_traps.html Sample treatment ---------------- Samples were treated similarly to those described in Hernes et al 2000 (submitted DSR) with the exception that only HgCl2 was used to poison the samples. All sample splits were made using a McClean WSD-10 wet sample splitter. Lipid analyses were done according to S. G. Wakeham, J. I. Hedges, C. Lee, M. L. Peterson and P. J. Hernes. (1997) Compositions and transport of lipid biomarkers through the water column and surficial sediments of the Equatorial Pacific Ocean. Deep-Sea Res. II 44: 2131-2162.</pre> from Cruise: TT047 <pre> <b>PI:</b> Stuart Wakeham <b>of:</b> Skidaway Institute of Oceanography <b>dataset:</b> Deep sea sediment trap particle flux and lipid data <b>project/cruise:</b> Arabian Sea set: TTN-041,<br> serviced: TTN-047,<br> recovered: TTN-055 <b>ship:</b> Thomas Thompson </pre> <h2> Organic geochemistry deep sea sediment trap particle flux and composition data</h2> <h3> Drs. Stuart Wakeham, John Hedges and Cindy Lee, principal investigators</h3> US JGOFS Arabian Sea 1994-1996 <pre> PI notes and methodology: Sediment trap arrays -------------------- 1. Organic geochemistry sediment trap arrays were deployed on the WHOI-OSU sediment trap moorings at 3 of the 5 mooring sites, 1, 3, and 4. See Honjo et al 1999 Monsoon-controlled export fluxes to the interior of the Arabian Sea. Deep-Sea Research Part II: Topical Studies in Oceanography. 46, 1859-1902. 2. Arrays deployed during the winter monsoon consisted of 2 NM-IRSC traps, 1 WM-IRS trap, and 1 NVC trap. 3. Arrays deployed during the summer monsoon consisted of 1 NM-IRSC traps, 1 WM-IRSC trap, 1 NM-IRS trap, and 1 NVC trap. 4. Non-carousel traps (IRS and NVC traps) collected material from the time of deployment until the time of retrieval. 5. Closing date and time of each cup is the opening date and time of each succeeding cup. 6. The IRS valved sediment trap design is described in Peterson et al. 1993. Field evaluation of a valved sediment trap. Limnology and Oceanography, 38, 1741-1761. 7. Photographs of the IRS traps and actual ASPS deployments are available at http://boto.ocean.washington.edu/aog/traps/irs_traps.html Sample treatment ---------------- Samples were treated similarly to those described in Hernes et al 2000 (submitted DSR) with the exception that only HgCl2 was used to poison the samples. All sample splits were made using a McClean WSD-10 wet sample splitter. Lipid analyses were done according to S. G. Wakeham, J. I. Hedges, C. Lee, M. L. Peterson and P. J. Hernes. (1997) Compositions and transport of lipid biomarkers through the water column and surficial sediments of the Equatorial Pacific Ocean. Deep-Sea Res. II 44: 2131-2162.</pre> from Cruise: TT055 <pre> <b>PI:</b> Stuart Wakeham <b>of:</b> Skidaway Institute of Oceanography <b>dataset:</b> Deep sea sediment trap particle flux and lipid data <b>project/cruise:</b> Arabian Sea set: TTN-041,<br> serviced: TTN-047,<br> recovered: TTN-055 <b>ship:</b> Thomas Thompson </pre> <h2> Organic geochemistry deep sea sediment trap particle flux and composition data</h2> <h3> Drs. Stuart Wakeham, John Hedges and Cindy Lee, principal investigators</h3> US JGOFS Arabian Sea 1994-1996 <pre> PI notes and methodology: Sediment trap arrays -------------------- 1. Organic geochemistry sediment trap arrays were deployed on the WHOI-OSU sediment trap moorings at 3 of the 5 mooring sites, 1, 3, and 4. See Honjo et al 1999 Monsoon-controlled export fluxes to the interior of the Arabian Sea. Deep-Sea Research Part II: Topical Studies in Oceanography. 46, 1859-1902. 2. Arrays deployed during the winter monsoon consisted of 2 NM-IRSC traps, 1 WM-IRS trap, and 1 NVC trap. 3. Arrays deployed during the summer monsoon consisted of 1 NM-IRSC traps, 1 WM-IRSC trap, 1 NM-IRS trap, and 1 NVC trap. 4. Non-carousel traps (IRS and NVC traps) collected material from the time of deployment until the time of retrieval. 5. Closing date and time of each cup is the opening date and time of each succeeding cup. 6. The IRS valved sediment trap design is described in Peterson et al. 1993. Field evaluation of a valved sediment trap. Limnology and Oceanography, 38, 1741-1761. 7. Photographs of the IRS traps and actual ASPS deployments are available at http://boto.ocean.washington.edu/aog/traps/irs_traps.html Sample treatment ---------------- Samples were treated similarly to those described in Hernes et al 2000 (submitted DSR) with the exception that only HgCl2 was used to poison the samples. All sample splits were made using a McClean WSD-10 wet sample splitter. Lipid analyses were done according to S. G. Wakeham, J. I. Hedges, C. Lee, M. L. Peterson and P. J. Hernes. (1997) Compositions and transport of lipid biomarkers through the water column and surficial sediments of the Equatorial Pacific Ocean. Deep-Sea Res. II 44: 2131-2162.</pre> from Deployment: JGOFS_sedTrap_S1d1 <pre> <b>PI:</b> Stuart Wakeham <b>of:</b> Skidaway Institute of Oceanography <b>dataset:</b> Deep sea sediment trap particle flux and lipid data <b>project/cruise:</b> Arabian Sea set: TTN-041,<br> serviced: TTN-047,<br> recovered: TTN-055 <b>ship:</b> Thomas Thompson </pre> <h2> Organic geochemistry deep sea sediment trap particle flux and composition data</h2> <h3> Drs. Stuart Wakeham, John Hedges and Cindy Lee, principal investigators</h3> US JGOFS Arabian Sea 1994-1996 <pre> PI notes and methodology: Sediment trap arrays -------------------- 1. Organic geochemistry sediment trap arrays were deployed on the WHOI-OSU sediment trap moorings at 3 of the 5 mooring sites, 1, 3, and 4. See Honjo et al 1999 Monsoon-controlled export fluxes to the interior of the Arabian Sea. Deep-Sea Research Part II: Topical Studies in Oceanography. 46, 1859-1902. 2. Arrays deployed during the winter monsoon consisted of 2 NM-IRSC traps, 1 WM-IRS trap, and 1 NVC trap. 3. Arrays deployed during the summer monsoon consisted of 1 NM-IRSC traps, 1 WM-IRSC trap, 1 NM-IRS trap, and 1 NVC trap. 4. Non-carousel traps (IRS and NVC traps) collected material from the time of deployment until the time of retrieval. 5. Closing date and time of each cup is the opening date and time of each succeeding cup. 6. The IRS valved sediment trap design is described in Peterson et al. 1993. Field evaluation of a valved sediment trap. Limnology and Oceanography, 38, 1741-1761. 7. Photographs of the IRS traps and actual ASPS deployments are available at http://boto.ocean.washington.edu/aog/traps/irs_traps.html Sample treatment ---------------- Samples were treated similarly to those described in Hernes et al 2000 (submitted DSR) with the exception that only HgCl2 was used to poison the samples. All sample splits were made using a McClean WSD-10 wet sample splitter. Lipid analyses were done according to S. G. Wakeham, J. I. Hedges, C. Lee, M. L. Peterson and P. J. Hernes. (1997) Compositions and transport of lipid biomarkers through the water column and surficial sediments of the Equatorial Pacific Ocean. Deep-Sea Res. II 44: 2131-2162.</pre> from Deployment: JGOFS_sedTrap_S1d2 <pre> <b>PI:</b> Stuart Wakeham <b>of:</b> Skidaway Institute of Oceanography <b>dataset:</b> Deep sea sediment trap particle flux and lipid data <b>project/cruise:</b> Arabian Sea set: TTN-041,<br> serviced: TTN-047,<br> recovered: TTN-055 <b>ship:</b> Thomas Thompson </pre> <h2> Organic geochemistry deep sea sediment trap particle flux and composition data</h2> <h3> Drs. Stuart Wakeham, John Hedges and Cindy Lee, principal investigators</h3> US JGOFS Arabian Sea 1994-1996 <pre> PI notes and methodology: Sediment trap arrays -------------------- 1. Organic geochemistry sediment trap arrays were deployed on the WHOI-OSU sediment trap moorings at 3 of the 5 mooring sites, 1, 3, and 4. See Honjo et al 1999 Monsoon-controlled export fluxes to the interior of the Arabian Sea. Deep-Sea Research Part II: Topical Studies in Oceanography. 46, 1859-1902. 2. Arrays deployed during the winter monsoon consisted of 2 NM-IRSC traps, 1 WM-IRS trap, and 1 NVC trap. 3. Arrays deployed during the summer monsoon consisted of 1 NM-IRSC traps, 1 WM-IRSC trap, 1 NM-IRS trap, and 1 NVC trap. 4. Non-carousel traps (IRS and NVC traps) collected material from the time of deployment until the time of retrieval. 5. Closing date and time of each cup is the opening date and time of each succeeding cup. 6. The IRS valved sediment trap design is described in Peterson et al. 1993. Field evaluation of a valved sediment trap. Limnology and Oceanography, 38, 1741-1761. 7. Photographs of the IRS traps and actual ASPS deployments are available at http://boto.ocean.washington.edu/aog/traps/irs_traps.html Sample treatment ---------------- Samples were treated similarly to those described in Hernes et al 2000 (submitted DSR) with the exception that only HgCl2 was used to poison the samples. All sample splits were made using a McClean WSD-10 wet sample splitter. Lipid analyses were done according to S. G. Wakeham, J. I. Hedges, C. Lee, M. L. Peterson and P. J. Hernes. (1997) Compositions and transport of lipid biomarkers through the water column and surficial sediments of the Equatorial Pacific Ocean. Deep-Sea Res. II 44: 2131-2162.</pre> from Deployment: JGOFS_sedTrap_S3d1 <pre> <b>PI:</b> Stuart Wakeham <b>of:</b> Skidaway Institute of Oceanography <b>dataset:</b> Deep sea sediment trap particle flux and lipid data <b>project/cruise:</b> Arabian Sea set: TTN-041,<br> serviced: TTN-047,<br> recovered: TTN-055 <b>ship:</b> Thomas Thompson </pre> <h2> Organic geochemistry deep sea sediment trap particle flux and composition data</h2> <h3> Drs. Stuart Wakeham, John Hedges and Cindy Lee, principal investigators</h3> US JGOFS Arabian Sea 1994-1996 <pre> PI notes and methodology: Sediment trap arrays -------------------- 1. Organic geochemistry sediment trap arrays were deployed on the WHOI-OSU sediment trap moorings at 3 of the 5 mooring sites, 1, 3, and 4. See Honjo et al 1999 Monsoon-controlled export fluxes to the interior of the Arabian Sea. Deep-Sea Research Part II: Topical Studies in Oceanography. 46, 1859-1902. 2. Arrays deployed during the winter monsoon consisted of 2 NM-IRSC traps, 1 WM-IRS trap, and 1 NVC trap. 3. Arrays deployed during the summer monsoon consisted of 1 NM-IRSC traps, 1 WM-IRSC trap, 1 NM-IRS trap, and 1 NVC trap. 4. Non-carousel traps (IRS and NVC traps) collected material from the time of deployment until the time of retrieval. 5. Closing date and time of each cup is the opening date and time of each succeeding cup. 6. The IRS valved sediment trap design is described in Peterson et al. 1993. Field evaluation of a valved sediment trap. Limnology and Oceanography, 38, 1741-1761. 7. Photographs of the IRS traps and actual ASPS deployments are available at http://boto.ocean.washington.edu/aog/traps/irs_traps.html Sample treatment ---------------- Samples were treated similarly to those described in Hernes et al 2000 (submitted DSR) with the exception that only HgCl2 was used to poison the samples. All sample splits were made using a McClean WSD-10 wet sample splitter. Lipid analyses were done according to S. G. Wakeham, J. I. Hedges, C. Lee, M. L. Peterson and P. J. Hernes. (1997) Compositions and transport of lipid biomarkers through the water column and surficial sediments of the Equatorial Pacific Ocean. Deep-Sea Res. II 44: 2131-2162.</pre> from Deployment: JGOFS_sedTrap_S3d2 <pre> <b>PI:</b> Stuart Wakeham <b>of:</b> Skidaway Institute of Oceanography <b>dataset:</b> Deep sea sediment trap particle flux and lipid data <b>project/cruise:</b> Arabian Sea set: TTN-041,<br> serviced: TTN-047,<br> recovered: TTN-055 <b>ship:</b> Thomas Thompson </pre> <h2> Organic geochemistry deep sea sediment trap particle flux and composition data</h2> <h3> Drs. Stuart Wakeham, John Hedges and Cindy Lee, principal investigators</h3> US JGOFS Arabian Sea 1994-1996 <pre> PI notes and methodology: Sediment trap arrays -------------------- 1. Organic geochemistry sediment trap arrays were deployed on the WHOI-OSU sediment trap moorings at 3 of the 5 mooring sites, 1, 3, and 4. See Honjo et al 1999 Monsoon-controlled export fluxes to the interior of the Arabian Sea. Deep-Sea Research Part II: Topical Studies in Oceanography. 46, 1859-1902. 2. Arrays deployed during the winter monsoon consisted of 2 NM-IRSC traps, 1 WM-IRS trap, and 1 NVC trap. 3. Arrays deployed during the summer monsoon consisted of 1 NM-IRSC traps, 1 WM-IRSC trap, 1 NM-IRS trap, and 1 NVC trap. 4. Non-carousel traps (IRS and NVC traps) collected material from the time of deployment until the time of retrieval. 5. Closing date and time of each cup is the opening date and time of each succeeding cup. 6. The IRS valved sediment trap design is described in Peterson et al. 1993. Field evaluation of a valved sediment trap. Limnology and Oceanography, 38, 1741-1761. 7. Photographs of the IRS traps and actual ASPS deployments are available at http://boto.ocean.washington.edu/aog/traps/irs_traps.html Sample treatment ---------------- Samples were treated similarly to those described in Hernes et al 2000 (submitted DSR) with the exception that only HgCl2 was used to poison the samples. All sample splits were made using a McClean WSD-10 wet sample splitter. Lipid analyses were done according to S. G. Wakeham, J. I. Hedges, C. Lee, M. L. Peterson and P. J. Hernes. (1997) Compositions and transport of lipid biomarkers through the water column and surficial sediments of the Equatorial Pacific Ocean. Deep-Sea Res. II 44: 2131-2162.</pre> from Deployment: JGOFS_sedTrap_S4d1 <pre> <b>PI:</b> Stuart Wakeham <b>of:</b> Skidaway Institute of Oceanography <b>dataset:</b> Deep sea sediment trap particle flux and lipid data <b>project/cruise:</b> Arabian Sea set: TTN-041,<br> serviced: TTN-047,<br> recovered: TTN-055 <b>ship:</b> Thomas Thompson </pre> <h2> Organic geochemistry deep sea sediment trap particle flux and composition data</h2> <h3> Drs. Stuart Wakeham, John Hedges and Cindy Lee, principal investigators</h3> US JGOFS Arabian Sea 1994-1996 <pre> PI notes and methodology: Sediment trap arrays -------------------- 1. Organic geochemistry sediment trap arrays were deployed on the WHOI-OSU sediment trap moorings at 3 of the 5 mooring sites, 1, 3, and 4. See Honjo et al 1999 Monsoon-controlled export fluxes to the interior of the Arabian Sea. Deep-Sea Research Part II: Topical Studies in Oceanography. 46, 1859-1902. 2. Arrays deployed during the winter monsoon consisted of 2 NM-IRSC traps, 1 WM-IRS trap, and 1 NVC trap. 3. Arrays deployed during the summer monsoon consisted of 1 NM-IRSC traps, 1 WM-IRSC trap, 1 NM-IRS trap, and 1 NVC trap. 4. Non-carousel traps (IRS and NVC traps) collected material from the time of deployment until the time of retrieval. 5. Closing date and time of each cup is the opening date and time of each succeeding cup. 6. The IRS valved sediment trap design is described in Peterson et al. 1993. Field evaluation of a valved sediment trap. Limnology and Oceanography, 38, 1741-1761. 7. Photographs of the IRS traps and actual ASPS deployments are available at http://boto.ocean.washington.edu/aog/traps/irs_traps.html Sample treatment ---------------- Samples were treated similarly to those described in Hernes et al 2000 (submitted DSR) with the exception that only HgCl2 was used to poison the samples. All sample splits were made using a McClean WSD-10 wet sample splitter. Lipid analyses were done according to S. G. Wakeham, J. I. Hedges, C. Lee, M. L. Peterson and P. J. Hernes. (1997) Compositions and transport of lipid biomarkers through the water column and surficial sediments of the Equatorial Pacific Ocean. Deep-Sea Res. II 44: 2131-2162.</pre> from Deployment: JGOFS_sedTrap_S4d2 <pre> <b>PI:</b> Stuart Wakeham <b>of:</b> Skidaway Institute of Oceanography <b>dataset:</b> Deep sea sediment trap particle flux and lipid data <b>project/cruise:</b> Arabian Sea set: TTN-041,<br> serviced: TTN-047,<br> recovered: TTN-055 <b>ship:</b> Thomas Thompson </pre> <h2> Organic geochemistry deep sea sediment trap particle flux and composition data</h2> <h3> Drs. Stuart Wakeham, John Hedges and Cindy Lee, principal investigators</h3> US JGOFS Arabian Sea 1994-1996 <pre> PI notes and methodology: Sediment trap arrays -------------------- 1. Organic geochemistry sediment trap arrays were deployed on the WHOI-OSU sediment trap moorings at 3 of the 5 mooring sites, 1, 3, and 4. See Honjo et al 1999 Monsoon-controlled export fluxes to the interior of the Arabian Sea. Deep-Sea Research Part II: Topical Studies in Oceanography. 46, 1859-1902. 2. Arrays deployed during the winter monsoon consisted of 2 NM-IRSC traps, 1 WM-IRS trap, and 1 NVC trap. 3. Arrays deployed during the summer monsoon consisted of 1 NM-IRSC traps, 1 WM-IRSC trap, 1 NM-IRS trap, and 1 NVC trap. 4. Non-carousel traps (IRS and NVC traps) collected material from the time of deployment until the time of retrieval. 5. Closing date and time of each cup is the opening date and time of each succeeding cup. 6. The IRS valved sediment trap design is described in Peterson et al. 1993. Field evaluation of a valved sediment trap. Limnology and Oceanography, 38, 1741-1761. 7. Photographs of the IRS traps and actual ASPS deployments are available at http://boto.ocean.washington.edu/aog/traps/irs_traps.html Sample treatment ---------------- Samples were treated similarly to those described in Hernes et al 2000 (submitted DSR) with the exception that only HgCl2 was used to poison the samples. All sample splits were made using a McClean WSD-10 wet sample splitter. Lipid analyses were done according to S. G. Wakeham, J. I. Hedges, C. Lee, M. L. Peterson and P. J. Hernes. (1997) Compositions and transport of lipid biomarkers through the water column and surficial sediments of the Equatorial Pacific Ocean. Deep-Sea Res. II 44: 2131-2162.</pre> Specified by the Principal Investigator(s) asNeeded 7.x-1.1 Biological and Chemical Oceanography Data Management Office (BCO-DMO) Unavailable 508-289-2009 WHOI MS#36 Woods Hole MA 02543 USA info@bco-dmo.org http://www.bco-dmo.org Monday - Friday 8:00am - 5:00pm For questions regarding this resource, please contact BCO-DMO via the email address provided. pointOfContact IRS Sediment Trap IRS Sediment Trap PI Supplied Instrument Name: IRS Sediment Trap PI Supplied Instrument Description:Indented Rotary Sphere Sediment Trap Instrument Name: Sediment Trap - IRS Instrument Short Name:Sed Trap - IRS Instrument Description: Sediment traps are specially designed containers deployed in the water column for periods of time to collect particles from the water column falling toward the sea floor. In general a sediment trap has a jar at the bottom to collect the sample and a broad funnel-shaped opening at the top with baffles to keep out very large objects and help prevent the funnel from clogging. The Indented Rotating Sphere (IRS) Sediment Trap is described in Peterson et al. (Field evaluation of a valved sediment trap. 1993. Limnology and Oceanography, 38, pp. 1741-1761 and Novel techniques for collection of sinking particles in the ocean and determining their settling rates. 2005. Limnology and Oceanography Methods 3, pp. 520-532). The IRS trap consists of four cylindrical modules; a particle interceptor, an IRS valve; a skewed funnel, and an eleven sample carousel (designated IRSC trap). The key to the trap design is the patented IRS valve located between the particle interceptor and particle accumulator portions of the trap. The valve and carousel are regulated by a TattleTale IVA (manufactured by Onset Computer Corp.) microprocessor and custom software. The IRS sediment trap was specifically designed to exclude zooplankton (Trull et al. 2008. Deep-Sea Research II v.55 pp. 1684-1695). Community Standard Description: http://vocab.nerc.ac.uk/collection/L05/current/33/ Cruise: TT041 TT041 R/V Thomas G. Thompson Community Standard Description International Council for the Exploration of the Sea R/V Thomas G. Thompson vessel TT041 Susumu Honjo Woods Hole Oceanographic Institution Cruise: TT047 TT047 R/V Thomas G. Thompson Community Standard Description International Council for the Exploration of the Sea R/V Thomas G. Thompson vessel TT047 Jack Dymond Oregon State University Cruise: TT055 TT055 R/V Thomas G. Thompson Community Standard Description International Council for the Exploration of the Sea R/V Thomas G. Thompson vessel TT055 Cindy Lee Stony Brook University - MSRC Deployment: JGOFS_sedTrap_S1d1 JGOFS_sedTrap_S1d1 JGOFS Sediment Trap mooring JGOFS_sedTrap_S1d1 Susumu Honjo Woods Hole Oceanographic Institution Deployment: JGOFS_sedTrap_S1d2 JGOFS_sedTrap_S1d2 JGOFS Sediment Trap mooring JGOFS_sedTrap_S1d2 Susumu Honjo Woods Hole Oceanographic Institution Deployment: JGOFS_sedTrap_S3d1 JGOFS_sedTrap_S3d1 JGOFS Sediment Trap mooring JGOFS_sedTrap_S3d1 Susumu Honjo Woods Hole Oceanographic Institution Deployment: JGOFS_sedTrap_S3d2 JGOFS_sedTrap_S3d2 JGOFS Sediment Trap mooring JGOFS_sedTrap_S3d2 Susumu Honjo Woods Hole Oceanographic Institution Deployment: JGOFS_sedTrap_S4d1 JGOFS_sedTrap_S4d1 JGOFS Sediment Trap mooring JGOFS_sedTrap_S4d1 Susumu Honjo Woods Hole Oceanographic Institution Deployment: JGOFS_sedTrap_S4d2 JGOFS_sedTrap_S4d2 JGOFS Sediment Trap mooring JGOFS_sedTrap_S4d2 Susumu Honjo Woods Hole Oceanographic Institution R/V Thomas G. Thompson Community Standard Description International Council for the Exploration of the Sea R/V Thomas G. Thompson vessel JGOFS Sediment Trap mooring