Abstract
The Hawaiian Volcano Observatory uses an array of ten fixed, upward-looking ultraviolet spectrometer systems to measure SO2 emission rates at 10-second sample intervals from the Kīlauea summit. We present Kīlauea SO2 emission rates from the volcano’s summit and Middle East Rift Zone during 2014-2017 and discuss the major sources of error for these measurements. Due to the wide range of SO2 emissions encountered at the summit vent, we used a variable wavelength spectral analysis range to accurately quantify both high and low SO2 column densities. We present case studies comparing the measured emission rates from the fixed spectrometer array to independent road and helicopter-based traverse measurements and evaluate the magnitudes and sources of uncertainties for each method. To address the challenge of obtaining accurate plume speed measurements, we examine ground-based wind-speed, plume speed tracking via spectrometer, and SO2 camera derived plume speeds. Our analysis shows that 1) the summit array column densities calculated using a dual fit window, are within -6 to +22% of results obtained with a variety of other conventional and experimental retrieval methods 2) emission rates calculated from the summit array located ~3 km downwind of the Overlook vent provide the best, practical estimate of summit SO2 release under normal trade wind conditions 3) ground-based anemometer wind speeds are 22% less than plume speeds determined by cross-correlation of plume features 4) our best estimate of average Kīlauea SO2 release for 2014-2017 is 5100 t/d, which is comparable to the space-based OMI emissions of 5518 t/d 5) short-term variability of SO2 emissions reflect Kīlauea lava lake dynamics.
Highlights
Sulfur dioxide (SO2) release is an important indicator of volcanic activity, and high quality SO2 measurements inform interpretations of volcanic processes and may signal impending eruptions (e.g., Casadevall et al, 1987; Symonds et al, 1994; Sutton and Elias, 2014)
Focusing mainly on Kılauea’s summit area in this study, we examine the SO2 emission rates determined by the FLYSPEC array from 2014 to 2017
While SO2 release from the East Rift Zone (ERZ) was dominant from 1983 until the opening of the Overlook vent in 2008 (Elias and Sutton, 2017), summit emissions were an order of magnitude greater than those released from the rift during 2014–2017
Summary
Sulfur dioxide (SO2) release is an important indicator of volcanic activity, and high quality SO2 measurements inform interpretations of volcanic processes and may signal impending eruptions (e.g., Casadevall et al, 1987; Symonds et al, 1994; Sutton and Elias, 2014). When UV-spectroscopic measurements of optically dense plumes are evaluated with conventional DOAS approaches, the retrieved SO2 column densities have been found to depend on the wavelength range in which the spectral fitting is performed
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