http://lod.bco-dmo.org/id/dataset/768627
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
2019-05-28
ISO 19115-2 Geographic Information - Metadata - Part 2: Extensions for Imagery and Gridded Data
ISO 19115-2:2009(E)
Compiled dataset consisting of published and unpublished global nitrate d15N measurements from from 1975-2018
2019-05-28
publication
2019-05-28
revision
Marine Biological Laboratory/Woods Hole Oceanographic Institution Library (MBLWHOI DLA)
2019-06-17
publication
https://doi.org/10.1575/1912/bco-dmo.768627.1
Patrick Rafter
University of California-Irvine
principalInvestigator
Aaron Bagnell
University of California-Santa Barbara
principalInvestigator
Timothy DeVries
University of California-Santa Barbara
principalInvestigator
Dario Marconi
Princeton 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this dataset as: Rafter, P., Bagnell, A., DeVries, T., Marconi, D. (2019) Compiled dataset consisting of published and unpublished global nitrate d15N measurements from from 1975-2018. Biological and Chemical Oceanography Data Management Office (BCO-DMO). (Version 1) Version Date 2019-05-28 [if applicable, indicate subset used]. doi:10.1575/1912/bco-dmo.768627.1 [access date]
Published and unpublished nitrate d15N measurements Dataset Description: <p>Version Note:&nbsp;This version of the dataset (1.0) will be updated as new data are published.</p> Methods and Sampling: <p><strong>Data Compilation:</strong> Nitrate d15N observations were compiled from studies dating from 1975 to 2018. Whenever possible, the data was acquired via the original author, but in other cases the data was estimated from the publication directly. All observations were treated equally, although the failure to remove nitrite when using the "denitrifier method" may bias the nitrate d15N to low values (Rafter et al., 2013).</p>
<p>For complete methodology, refer to Rafter et al. (2019).</p>
Funding provided by NSF Division of Ocean Sciences (NSF OCE) Award Number: OCE-1658392 Award URL: http://www.nsf.gov/awardsearch/showAward.do?AwardNumber=1658392
onGoing
Patrick Rafter
University of California-Irvine
858-405-0539
31503 Shrewsbury Dr.
Laguna Beach
CA
92651
USA
prafter@uci.edu
pointOfContact
Aaron Bagnell
University of California-Santa Barbara
abagnell@ucsb.edu
pointOfContact
Timothy DeVries
University of California-Santa Barbara
805-893-5308
6804 Ellison Hall
Santa Barbara
CA
93106
USA
tdevries@geog.ucsb.edu
pointOfContact
Dario Marconi
Princeton University
dmarconi@Princeton.edu
pointOfContact
asNeeded
Dataset Version: 1
Unknown
Latitude
Longitude
Depth
nitrate_d15N
nitrate
reference
theme
None, User defined
latitude
longitude
depth
dN15_NO3
Nitrate
reference_paper
featureType
BCO-DMO Standard Parameters
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.
Collaborative research: Combining models and observations to constrain the marine iron cycle
https://www.bco-dmo.org/project/766423
Collaborative research: Combining models and observations to constrain the marine iron cycle
<p><em>NSF Award Abstract:</em><br />
Tiny marine organisms called phytoplankton play a critical role in Earth's climate, by absorbing carbon dioxide from the atmosphere. In order to grow, these phytoplankton require nutrients that are dissolved in seawater. One of the rarest and most important of these nutrients is iron. Even though it is a critical life-sustaining nutrient, oceanographers still do not know much about how iron gets into the ocean, or how it is removed from seawater. In the past few years, scientists have made many thousands of measurements of the amount of dissolved iron in seawater, in environments ranging from the deep sea, to the Arctic, to the tropical oceans. They found that the amount of iron in seawater varies dramatically from place to place. Can this data tell us about how iron gets into the ocean, and how it is ultimately removed? Yes. In this project, scientists working on making measurements of iron in seawater will come together with scientists who are working on computer models of iron inputs and removal in the ocean. The goal is to work together to create a program that allows our computer models to "learn" from the data, much like an Artificial Intelligence program. This program will develop a "best estimate" of where and how much iron is coming into the ocean, how long it stays in the ocean, and ultimately how it gets removed. This will lead to a better understanding of how climate change will impact the delivery of iron to the ocean, and how phytoplankton will respond to climate change. With better climate models, society can make more informed decisions about how to respond to climate change. The study will also benefit a future generation of scientists, by training graduate students in a unique collaboration between scientists making seawater measurements, and those using computer models to interpret those measurements. Finally, the project aims to increase the participation of minority and low-income students in STEM (Science, Technology, Engineering, and Mathematics) research, through targeted outreach programs.</p>
<p>Iron (Fe) is an important micronutrient for marine phytoplankton that limits primary productivity over much of the ocean; however, the major fluxes in the marine Fe cycle remain poorly quantified. Ocean models that attempt to synthesize our understanding of Fe biogeochemistry predict widely different Fe inputs to the ocean, and are often unable to capture first-order features of the Fe distribution. The proposed work aims to resolve these problems using data assimilation (inverse) methods to "teach" the widely used Biogeochemical Elemental Cycling (BEC) model how to better represent Fe sources, sinks, and cycling processes. This will be achieved by implementing BEC in the efficient Ocean Circulation Inverse Model and expanding it to simulate the cycling of additional tracers that constrain unique aspects of the Fe cycle, including aluminum, thorium, helium and Fe isotopes. In this framework, the inverse model can rapidly explore alternative representations of Fe-cycling processes, guided by new high-quality observations made possible in large part by the GEOTRACES program. The work will be the most concerted effort to date to synthesize these rich datasets into a realistic and mechanistic model of the marine Fe cycle. In addition, it will lead to a stronger consensus on the magnitude of fluxes in the marine Fe budget, and their relative importance in controlling Fe limitation of marine ecosystems, which are areas of active debate. It will guide future observational efforts, by identifying factors that are still poorly constrained, or regions of the ocean where new data will dramatically reduce remaining uncertainties and allow new robust predictions of Fe cycling under future climate change scenarios to be made, ultimately improving climate change predictions. A broader impact of this work on the scientific community will be the development of a fast, portable, and flexible global model of trace element cycling, designed to allow non-modelers to test hypotheses and visualize the effects of different processes on trace metal distributions. The research will also support the training of graduate students, and outreach to low-income and minority students in local school districts.</p>
Fe Cycle Models and Observations
largerWorkCitation
project
eng; USA
oceans
-180
180
-78
83
1975-01-01
2018-12-31
0
BCO-DMO catalogue of parameters from Compiled dataset consisting of published and unpublished global nitrate d15N measurements from from 1975-2018
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/768641.rdf
Name: Latitude
Units: degrees North
Description: Latitude in degrees north
http://lod.bco-dmo.org/id/dataset-parameter/768642.rdf
Name: Longitude
Units: degrees East
Description: Longitude in degrees East
http://lod.bco-dmo.org/id/dataset-parameter/768643.rdf
Name: Depth
Units: meters (m)
Description: Depth
http://lod.bco-dmo.org/id/dataset-parameter/768646.rdf
Name: nitrate_d15N
Units: per mil
Description: The N isotopic composition of nitrate
http://lod.bco-dmo.org/id/dataset-parameter/768647.rdf
Name: nitrate
Units: micromoles per kilogram (umol kg-1)
Description: nitrate
http://lod.bco-dmo.org/id/dataset-parameter/768648.rdf
Name: reference
Units: unitless
Description: Reference(s)
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
551341
https://darchive.mblwhoilibrary.org/bitstream/1912/24276/1/dataset-768627_global-observed-nitrate-d15n__v1.tsv
download
https://doi.org/10.1575/1912/bco-dmo.768627.1
download
onLine
dataset
<p><strong>Data Compilation:</strong> Nitrate d15N observations were compiled from studies dating from 1975 to 2018. Whenever possible, the data was acquired via the original author, but in other cases the data was estimated from the publication directly. All observations were treated equally, although the failure to remove nitrite when using the "denitrifier method" may bias the nitrate d15N to low values (Rafter et al., 2013).</p>
<p>For complete methodology, refer to Rafter et al. (2019).</p>
Specified by the Principal Investigator(s)
<p><strong>Building the neural network model:</strong> We utilize an ensemble of artificial neural networks (EANNs) to interpolate this global ocean nitrate d15N database. For model results, see the related dataset: <a href="https://www.bco-dmo.org/dataset/768655" target="_blank">https://www.bco-dmo.org/dataset/768655</a></p>
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