<div><p>Two cylindrical plexiglass chambers (one clear and one dark) measuring 0.31 m tall and 0.20 m in diameter, as described by Rao and Charette (2012), were installed to a depth of 0.15 m into the sediments. Each chamber had a stirring motor and battery pack, with the stir rates set at the maximum of 44 revolutions min-1 to approximate natural advection and its impact on advective porewater flow. Each chamber was fitted with a data sonde (600XLM; YSI, USA) that monitored the pH, O2, temperature and salinity within each chamber.</p>
<p>Sampling ports on the chambers were used to collect samples for DIC and TA at the same time the water column was sampled. A 40 mL sample was withdrawn every ~ 2 h with one 20 mL portion poisoned with mercuric chloride for TA analysis and the other portion sealed and kept on ice for DIC analysis. Due to the lower sample volumes from the chambers, the DIC samples were analyzed within 24 h on a AS-C3 DIC Analyzer (Apollo SciTech, USA) and TA was analyzed with a small volume alkalinity titrator (808 Titrando; Metrohm, CH).</p></div>
O2, pH, temperature, and salinity in a light chamber
<div><p>This dataset includes O2, pH, temperature, and salinity data from a data sonde located within a clear benthic chamber.</p>
<p><strong>Related Reference:</strong></p>
<p>Long MH, Charette MA, Martin WR, McCorkle DC. (2015) Oxygen metabolism and pH in coastal ecosystems: Eddy Covariance Hydrogen ion and Oxygen Exchange System (ECHOES). Limnology and Oceanography: Methods. DOI: 10.1002/lom3.10038</p>
<p><strong>Related Datasets:</strong></p>
<p><a href="http://www.bco-dmo.org/dataset/563656" target="_blank">Datasonde in water column</a><br /><a href="http://www.bco-dmo.org/dataset/568429" target="_blank">Eddy covariance proton and oxygen flux data</a></p></div>
Datasonde in light chamber
<div><p>MATLAB code was developed to calculate the EC fluxes. Several data treatment procedures were tested; most of them were adapted from commonly used calculation procedures for terrestrial eddy covariance measurements (e.g. Baldocchi et al. 2003). The flux was determined over periods of 0.25 h. Data were averaged to 8Hz for flux calculations due to the ~ 10 Hz sample output refresh rate of the O2 optode meter. The fluctuating components of the vertical velocity, O2 and H+ (Eq. 1), were determined by Reynolds decomposition with the means determined by a running average window of 5 minutes, which was identified to be the optimal time period for maintaining a constant flux signal while removing non-turbulent fluctuations (McGinnis et al. 2008).</p>
<p>Inherent in the high-frequency ADV velocity data were anomalous spikes that contaminated the EC signal. These velocity data spikes were replaced with interpolated data using existing MATLAB de-spiking procedures described by Goring and Nikora (2002) that resulted in the interpolation of <1 % of the vertical velocities used to calculate the flux. The ECHOES H+ and O2 signals were compared to the water column data sonde measurements to verify that the sensors had not malfunctioned by confirming that the real-time correlation between sensors and data sonde matched that of the overall correlation (i.e. the calibration curves). All signals were then examined manually to remove any further data spikes that were due to malfunction, fouling, or debris contacting the sensors. A GoPro camera (HERO2, GoPro, USA) on the ECHOES frame helped identify fouling of the sensors. Due to the difficulty of accurately leveling the instrument in the field, and the resulting potential to bias the vertical velocity measurements, a planar rotation was used based on the methods described by Lorke et al. (2013) that uses an average rotation angle for the different current directions.</p>
<p>The benthic chamber fluxes were calculated from the change in O2, H+, DIC and TA concentrations in the chambers through time, using the known volume and sediment surface area of the chamber. Corrections for the removal of water for DIC and TA samples were included to account for the influx of ambient water, utilizing the measured water column conditions.</p>
<p><strong>BCO-DMO Processing:</strong></p>
<p>- added conventional header with dataset name, PI name, version date, reference information<br />
- renamed parameters to BCO-DMO standard<br />
- reformatted date<br />
- added depth in meters column</p></div>
563439
Datasonde in light chamber
2015-07-29T16:16:13-04:00
2015-07-29T16:16:13-04:00
2023-07-07T16:10:26-04:00
urn:bcodmo:dataset:563439
Data describing O2, pH, temperature, and salinity in a light chamber (ECHOES project)
false
Long, M. H., Charette, M. A., McCorkle, D. C., Martin, W. (2015) Data describing O2, pH, temperature, and salinity in a light chamber (ECHOES project). Biological and Chemical Oceanography Data Management Office (BCO-DMO). (Version 2015-07-29) Version Date 2015-07-29 [if applicable, indicate subset used]. http://lod.bco-dmo.org/id/dataset/563439 [access date]
true
2015-07-29
false
2015-07-29
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