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Atmospheric Measurement Techniques An interactive open-access journal of the European Geosciences Union

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https://doi.org/10.5194/amt-2017-169
© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.
Research article
04 Aug 2017
Review status
This discussion paper is a preprint. It is a manuscript under review for the journal Atmospheric Measurement Techniques (AMT).
Evaluation of a lower-powered analyser and sampling system for eddy-covariance measurements of nitrous oxide fluxes
Shannon E. Brown1, Steve Sargent2, and Claudia Wagner-Riddle1 1School of Environmental Sciences, University of Guelph, Guelph, Ontario, Canada
2Campbell Scientific Inc., Logan, Utah, USA
Abstract. Nitrous oxide (N2O) fluxes measured using the eddy-covariance method capture the spatial and temporal heterogeneity of N2O emissions. Most closed-path trace-gas analyzers for eddy-covariance measurements have large-volume, multi-pass absorption cells that necessitate high flow rates for ample frequency response, thus requiring high-power sample pumps. Other sampling system components, including rain caps, filters, dryers, and tubing can also degrade system frequency response. This field trial tested the performance of a closed-path eddy-covariance system for N2O flux measurements with improvements to use less power while maintaining the frequency response. The new system consists of a thermoelectrically cooled tunable diode laser absorption spectrometer configured to measure both N2O and carbon dioxide (CO2). The system features a relatively small, single- pass sample cell (200 ml) that provides good frequency response with a lower-powered pump (~ 250 W). A new filterless intake removes particulates from the sample air stream with no additional mixing volume that could degrade frequency response. A single-tube dryer removes water vapor from the sample to avoid the need for density or spectroscopic corrections, while maintaining frequency response. This eddy-covariance system was collocated with a previous tunable diode laser absorption spectrometer model to compare N2O and CO2 flux measurements for two full growing seasons (May 2015 to October 2016) in a fertilized cornfield in Southern Ontario, Canada. Both spectrometers were placed outdoors at the base of the sampling tower demonstrating ruggedness for a range of environmental conditions (minimum to maximum daily temperature range: −26.1 to 31.6 °C). The new system rarely required maintenance. An in situ frequency response test demonstrated that the cutoff frequency of the new system was better than the old system (3.5 Hz compared to 2.30 Hz), and similar to that of a closed-path CO2 eddy- covariance system (4.05 Hz) using shorter tubing and no dryer that was also collocated at the site. Values of the N2O fluxes were similar between the two spectrometer systems (slope = 1.01, r2 = 0.96); CO2 fluxes as measured by the short-tubed eddy-covariance system and the two spectrometer systems correlated well (slope = 1.03, r2 = 0.998). The new lower-powered tunable diode laser absorption spectrometer configuration with the filterless intake and single-tube dryer showed promise for deployment in remote areas.

Citation: Brown, S. E., Sargent, S., and Wagner-Riddle, C.: Evaluation of a lower-powered analyser and sampling system for eddy-covariance measurements of nitrous oxide fluxes, Atmos. Meas. Tech. Discuss., https://doi.org/10.5194/amt-2017-169, in review, 2017.
Shannon E. Brown et al.
Shannon E. Brown et al.
Shannon E. Brown et al.

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Short summary
Results are presented from a long-term field trial of a new eddy-covariance system optimized to measure N2O fluxes using less power than existing N2O EC systems (250 W vs 500–1000 W) while maintaining frequency response. The system operated outdoors continuously for 1.5 years and required minimal maintenance. Frequency response was determined in-situ and showed the improvement in response time as compared to an older N2O EC system. This EC system showed promise for deployment in remote areas.
Results are presented from a long-term field trial of a new eddy-covariance system optimized to...
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