David A. Rothery scite author profile

Forward Looking Infrared Radiometer (FLIR) cameras offer a unique view of explosive volcanism by providing an image of calibrated temperatures. In this study, 344 eruptive events at Stromboli volcano, Italy, were imaged in 2001-2004 with a FLIR camera operating at up to 30 Hz. The FLIR was effective at revealing both ash plumes and coarse ballistic scoria, and a wide range of eruption styles was recorded. Eruptions at Stromboli can generally be classified into two groups: Type 1 eruptions, which are dominated by coarse ballistic particles, and Type 2 eruptions, which consist of an optically-thick, ash-rich plume, with (Type 2a) or without (Type 2b) large numbers of ballistic particles. Furthermore, Type 2a plumes exhibited gas thrust velocities (>15 m s −1 ) while Type 2b plumes were limited to buoyant velocities (<15 m s −1 ) above the crater rim. A given vent would normally maintain a particular gross eruption style (Type 1 vs. 2) for days to weeks, indicating stability of the uppermost conduit on these timescales. Velocities at the crater rim had a range of 3-101 m s −1 , with an overall mean value of 24 m s −1 . Mean crater rim velocities by eruption style were: Type 1= 34 m s −1 , Type 2a=31 m s −1 , Type 2b=7 m s −1 . Eruption durations had a range of 6-41 s, with a mean of 15 s, similar among eruption styles. The ash in Type 2 eruptions originates from either backfilled material (crater wall slumping or ejecta rollback) or rheological changes in the uppermost magma column. Type 2a and 2b behaviors are shown to be a function of the overpressure of the bursting slug. In general, our imaging data support a broadening of the current paradigm for strombolian behavior, incorporating an uppermost conduit that can be more variable than is commonly considered.

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A chronology of the 1991 to 1993 Mount Etna eruption using advanced very high resolution radiometer data: Implications for real‐time thermal volcano monitoring

Harris¹,

Blake²,

Rothery³

et al. 1997

J. Geophys. Res.

186

212

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Abstract. Between December 1991 and March 1993 a continuous effusive eruption at MountEtna built a 7.6 km 2 lava flow field. Flows extended to within 1 km of the town of Zafferana before a successful artificial diversion was carried out higher up the volcano. During this eruption the spaceborne advanced very high resolution radiometer (AVHRR) acquired 308 images on which the activity could be detected. Since these data can be freely and directly available, such coverage potentially allows regular, real-time monitoring. Ground observations and a flow map that we produced using a SPOT image and electronic distance measurement allowed us to develop and test data extraction techniques. AVHRR radiance maps were consistent with known locations of surface activity. These documented the transition from channel to tube fed phases, the changing threat to Zafferana, and flow diversion. Quantitative analysis of the AVHRR data enabled estimation of active lava area, thermal flux, effusion rates, and total flow field volume. Our estimates for eruption rate and total flow field volume, 5.6 to 7.6 m3/s and 220 x 106 to 300 x 106 m 3, respectively, are in agreement with published ground-based estimates of 5.8 m3/s and 235 x 106 m 3. These correlations demonstrate the high degree of confidence that can now be placed in interpretations of AVHRR time series for eruptions where ground-based data are scanty.

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Volcano monitoring using short wavelength infrared data from satellites

Rothery¹,

Francis²,

Wood³

1988

J. Geophys. Res.

283

183

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Data from remote sensing satellites operating in the short-wavelength infrared can be used to measure temperatures of about 150øC and above. The gain settings of the Landsat Thematic Mapper (TM) sensors are such that to record pixel-integrated temperatures from 150øC to over 1000øC requires the use of several spectral bands. If the radiant source occupies less than a whole pixel, as is the case for fumaroles or a crusted lava surface with incandescent cracks, then the pixel-integrated temperature is less than the actual surface temperature of the hot areas and appears to be different at each wavelength. By determining pixel-integrated temperature in two spectral bands we can estimate both the temperature and size of hot areas which occupy less than a complete pixel. In some cases our observations provide the only available data on the state of activity of a particular volcano; in others they support and refine field observations. Our Landsat TM data reveal otherwise unobserved precursor and subsequent activity related to the September 1986 eruption of Lascar volcano (Chile) and supplement other data on the March 1986 eruption of Augustine volcano (Alaska). They also indicate the continued presence of lava lakes at Erta 'Ale (Ethiopia) in the absence of any ground-based observations and document minor eruptive activity at Mount Erebus (Antarctica). Landsat Multispectral Scanner data have been used to measure the variation in temperature along a lava flow on Sierra Negra (Galapagos Islands) which occurred in 1979.

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Correlations between SO₂ flux, seismicity, and outgassing activity at the open vent of Villarrica volcano, Chile

Palma

Calder

Basualto³

et al. 2008

J. Geophys. Res.

134

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[1] The characteristics of the open vent activity of Villarrica volcano, Chile, were studied in detail by integrating visual observations of the lava lake, analysis of the seismic tremor, and measurements of SO 2 flux. The outgassing activity comprises a persistent gas plume emission from the bottom of the crater as well as frequent explosive events. Three main styles of bubble bursting were identified at the surface of the active lava lake: seething magma, small short-lived lava fountains, and Strombolian explosions. Seething magma consists of continual burst of relatively small bubbles (a few meters in diameter) with varying strength over the entire surface of the lava lake. Small lava fountains, seen as a vigorous extension of seething magma, commonly have durations of 20-120 s and reach 10-40 m high above the lava lake. Correlations between seismicity and visual observations indicate that the seismic tremor is mostly caused by the explosive outgassing activity. Furthermore, for different periods between 2000 and 2006, during which the activity remained comparable, the real-time seismic amplitude measurement system (RSAM) and SO 2 emission rates show a very good correlation. Higher SO 2 emissions appeared to be related to higher levels of the lava lake, stronger bubble bursting activity, and changes in the morphology and texture of the crater floor. Background (low) levels of activity correspond to a lava lake located >80 m below the crater rim, small and/or blocky morphology of the roof, seismic amplitude (RSAM) lower than 25 units, few volcano-tectonic earthquakes, and daily averages of SO 2 emissions lower than 600 Mg/d.

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A simple explanation for the space-based calculation of lava eruption rates

Wright

Blake

Harris

et al. 2001

Earth and Planetary Science Letters

141

137

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David A. Rothery

Strombolian explosive styles and source conditions: insights from thermal (FLIR) video

A chronology of the 1991 to 1993 Mount Etna eruption using advanced very high resolution radiometer data: Implications for real‐time thermal volcano monitoring

Volcano monitoring using short wavelength infrared data from satellites

Correlations between SO₂ flux, seismicity, and outgassing activity at the open vent of Villarrica volcano, Chile

A simple explanation for the space-based calculation of lava eruption rates

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About

David A. Rothery

Strombolian explosive styles and source conditions: insights from thermal (FLIR) video

A chronology of the 1991 to 1993 Mount Etna eruption using advanced very high resolution radiometer data: Implications for real‐time thermal volcano monitoring

Volcano monitoring using short wavelength infrared data from satellites

Correlations between SO2 flux, seismicity, and outgassing activity at the open vent of Villarrica volcano, Chile

A simple explanation for the space-based calculation of lava eruption rates

Contact Info

Product

Resources

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Correlations between SO₂ flux, seismicity, and outgassing activity at the open vent of Villarrica volcano, Chile