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    Bubble flux measurements and concentrations at two sites on the Virginia Eastern Shore, July 2017
    
  
  
    
    

Bubble flux measurements and concentrations at two sites on the Virginia Eastern Shore, July 2017

Website: https://www.bco-dmo.org/dataset/772793
Data Type: Other Field Results
Version: 1
Version Date: 2019-07-11

Project
» Toward an Improved Understanding of Blue Carbon: The Role of Seagrasses in Sequestering CO2 (Seagrass Blue Carbon)
ContributorsAffiliationRole
Long, MatthewWoods Hole Oceanographic Institution (WHOI)Principal Investigator
Burdige, David J.Old Dominion University (ODU)Co-Principal Investigator
Zimmerman, Richard C.Old Dominion University (ODU)Co-Principal Investigator
Copley, NancyWoods Hole Oceanographic Institution (WHOI BCO-DMO)BCO-DMO Data Manager

Abstract
Bubble flux measurements and concentrations at two sites on the Virginia Eastern Shore, July 2017.


Coverage

Spatial Extent: N:37.344 E:-75.798 S:37.266 W:-75.835
Temporal Extent: 2017-07-14 - 2017-07-21

Dataset Description

Bubble flux measurements and concentrations at two sites on the Virginia Eastern Shore, July 2017.


Acquisition Description

Gas fluxes from simple inverted bubble traps described in:

Oxygen % of samples was determined by isotope ratio mass spectrometry (IRMS) and an oxygen optode.

These data will be published in Long MH, Sutherland K, Wankel SD, Burdige DJ, Zimmerman RC. Ebullition of Oxygen from Seagrasses under Supersaturated Conditions. In Revision: Limnology and Oceanography.


Processing Description

BCO-DMO Processing:
- added conventional header with dataset name, PI name, version date
- modified parameter names to conform with BCO-DMO naming conventions
- reduced precision of O2_Ar and d18O to match input
- split date_time column into separate date, time and ISO_DateTIme_Local columns
- added lat and lon columns from associated dataset

 


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Parameters

ParameterDescriptionUnits
date_localsampling date unitless
time_localsampling time (local) unitless
ISO_DateTime_Localdate and time in ISO format: yyyy-mm-ddTHH:MM:SS unitless
Sitesampling location unitless
Trapsnumber of bubble traps deployed traps
Deployment_durationduration of bubble trap deployment hours
Gas_Fluxgas flux measurement microMol/meter^2/hour (mMol/m2/h)
Gas_Flux_stdevstandard deviation of gas flux measurement microMol/meter^2/hour (mMol/m2/h)
Gas_samplesnumber of gas samples analyzed samples
O2_Optodeoxygen concentration from optode percent
O2_Optode_stdevstandard deviation of oxygen concentration from optode percent
O2_Arratio of oxygen to argon unitless
O2_Ar_stdevstandard deviation of ratio of oxygen to argon unitless
d18Oratio oxygen 16 to oxygen 18 corrected to PDB standard parts per thousand (ppt)
d18O_stdevstandard deviation of delta 18O parts per thousand (ppt)
latlatitude; north is positive decimal degrees
lonlongitude; east is positive decimal degrees

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Project Information

Toward an Improved Understanding of Blue Carbon: The Role of Seagrasses in Sequestering CO2 (Seagrass Blue Carbon)

Coverage: Chesapeake Bay, Northern Gulf of Mexico, and Bahamas Banks


NSF abstract: This research will develop a quantitative understanding of the factors controlling carbon cycling in seagrass meadows that will improve our ability to quantify their potential as blue carbon sinks and predict their future response to climate change, including sea level rise, ocean warming and ocean acidification. This project will advance a new generation of bio-optical-geochemical models and tools (ECHOES) that have the potential to be transform our ability to measure and predict carbon dynamics in shallow water systems. This study will utilize cutting-edge methods for evaluating oxygen and carbon exchange (Eulerian and eddy covariance techniques) combined with biomass, sedimentary, and water column measurements to develop and test numerical models that can be scaled up to quantify the dynamics of carbon cycling and sequestration in seagrass meadows in temperate and tropical environments of the West Atlantic continental margin that encompass both siliciclastic and carbonate sediments. The comparative analysis across latitudinal and geochemical gradients will address the relative contributions of different species and geochemical processes to better constrain the role of seagrass carbon sequestration to global biogeochemical cycles. Specifically the research will quantify: (i) the relationship between C stocks and standing biomass for different species with different life histories and structural complexity, (ii) the influence of above- and below-ground metabolism on carbon exchange, and (iii) the influence of sediment type (siliciclastic vs. carbonate) on Blue Carbon storage. Seagrass biomass, growth rates, carbon content and isotope composition (above- and below-ground), organic carbon deposition and export will be measured. Sedimentation rates and isotopic composition of PIC, POC, and iron sulfide precipitates, as well as porewater concentrations of dissolved sulfide, CO2, alkalinity and salinity will be determined in order to develop a bio-optical-geochemical model that will predict the impact of seagrass metabolism on sediment geochemical processes that control carbon cycling in shallow waters. Model predictions will be validated against direct measurements of DIC and O2 exchange in seagrass meadows, enabling us to scale-up the density-dependent processes to predict the impacts of seagrass distribution and density on carbon cycling and sequestration across the submarine landscape. Status, as of 09 June 2016: This project has been recommended for funding by NSF's Division of Ocean Sciences.


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Funding

Funding SourceAward
NSF Division of Ocean Sciences (NSF OCE)
NSF Division of Ocean Sciences (NSF OCE)

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This document is created by info v 4.1f 5 Oct 2018 from the content of the BCO-DMO metadata database.    2020-02-18  14:44:22