2011
DOI: 10.4319/lom.2011.9.340
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Simple, robust eddy correlation amplifier for aquatic dissolved oxygen and hydrogen sulfide flux measurements

Abstract: The aquatic application of the eddy correlation (EC) technique is growing more popular and is gradually becoming a standard method for resolving benthic O 2 fluxes. By including the effects of the local hydrodynamics, the EC technique provides greater insight into the nature of benthic O 2 exchange than traditional methods (i.e., benthic chambers and lander microprofilers). The growing popularity of the EC technique has led to a greater demand for easily accessible and robust EC instrumentation. Currently, the… Show more

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Cited by 53 publications
(56 citation statements)
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“…The eddy correlation instrument consisted of an acoustic Doppler velocimeter (ADV, Nortek-AS), coupled to a fastresponding (90% response time , 0.3 s) Clark-type O 2 microsensor (Unisense Science) via a submersible picoamp amplifier (McGinnis et al 2011). These sensors are selfcontained and mounted on a stainless steel tripod designed to minimize disturbance to the natural flow.…”
Section: Methodsmentioning
confidence: 99%
“…The eddy correlation instrument consisted of an acoustic Doppler velocimeter (ADV, Nortek-AS), coupled to a fastresponding (90% response time , 0.3 s) Clark-type O 2 microsensor (Unisense Science) via a submersible picoamp amplifier (McGinnis et al 2011). These sensors are selfcontained and mounted on a stainless steel tripod designed to minimize disturbance to the natural flow.…”
Section: Methodsmentioning
confidence: 99%
“…The setup of the ECMs was similar to the original design by Berg et al (2003). The main components of the ECMs consisted of an acoustic Doppler velocimeter (ADV; Vector, Nortek) and Clark-type O 2 microelectrodes (Revsbech 1989) that relayed the signal to the ADV via submersible amplifiers (McGinnis et al 2011). The O 2 electrodes had 90% response times of 0.5 s while the stirring sensitivity was below 0.5% (Gundersen et al 1998).…”
Section: Eddy Correlation Measurementsmentioning
confidence: 99%
“…The ADV recorded the velocity components as well as the O 2 microsensor signals at a frequency of 64 Hz and, in addition, collected ancillary information such as the sampling distance from the seabed, flow direction, and signal strength. Each ECM was mounted onto a small stainless steel tripod frame that was designed specifically for deployment by ROV (McGinnis et al 2011). A small conductivitytemperature-depth (CTD) logger equipped with an O 2 Aanderaa optode was mounted onto each ECM to collect background environmental information and for in situ calibration of the O 2 electrodes.…”
Section: Eddy Correlation Measurementsmentioning
confidence: 99%
“…The main components consisted of an acoustic Doppler velocimeter (ADV, Vector, Nortek) and an O 2 microelectrode with the same measuring characteristics as described above. The O 2 microsensor signal was relayed to the ADV via a submersible amplifier (McGinnis et al 2011). The vertically aligned ADV recorded the longitudinal, traverse and vertical velocity components along with the output from the O 2 microsensor at a frequency of 32 Hz, which allowed full resolution of the current-driven turbulence transporting O 2 to the seafloor.…”
Section: Eddy Covariance Measurementsmentioning
confidence: 99%