Phreatic eruption on 27 July followed by intermittent explosions through to 17 September 2019

Tangkuban is located in the West Bandung and Subang Regencies in the West Java Province and has two main summit craters, Ratu and Upas (figure 3). Recent activity has largely consisted of phreatic explosions and gas-and-steam plumes at the Ratu crater. Prior to July 2019, the most recent activity occurred in 2012-2013, ending with a phreatic eruption on 5 October 2013 (BGVN 40:04). Background activity includes geothermal activity in the Ratu crater consisting of gas and steam emission (figure 4). This area is a tourist destination with infrastructure, and often people, overlooking the active crater. This report summarizes activity during 2014 through September 2019 and is based on official agency reports. Monitoring is the responsibility of Pusat Vulkanologi dan Mitigasi Bencana Geologi (PVMBG, also known as Indonesian Center for Volcanology and Geological Hazard Mitigation, CVGHM).

Figure 3. Map of Tangkuban Parahu showing the Sunda Caldera rim and the Ratu, Upas, and Domas craters. Basemap is the August 2019 mosaic, copyright 2019 Planet Labs, Inc.

Figure 4. Background activity at the Ratu crater of Tangkuban Parahu is shown in these images from 1 May 2012. The top image is an overview of the crater and the bottom four images show typical geothermal activity. Copyrighted photos by Øystein Lund Andersen, used with permission.

The first reported activity in 2014 consisted of gas-and-steam plumes during October-December, prompting PVMBG to increase the alert level from I to II on 31 December 2014. These white plumes reached a maximum of 50 m above the Ratu crater (figure 5) and were accompanied by elevated seismicity and deformation. This prompted the implementation of an exclusion zone with a radius of 1.5 km around the crater. The activity decreased and the alert level was lowered back to I on 8 January 2015. There was no further reported activity from January 2015 through mid-2019.

Figure 5. Changes at the Ratu crater of Tangkuban Parahu during 25 December 2014 to 8 January 2015. Rain water accumulated in the crater in December and intermittent gas-and-steam plumes were observed. Courtesy of PVMBG (8 January 2015 report).

From 27 June 2019 an increase in activity was recorded in seismicity, deformation, gas chemistry, and visual observations. By 24 July the responsible government agencies had communicated that the volcano could erupt at any time. At 1548 on 26 July a phreatic (steam-driven) explosion ejected an ash plume that reached 200 m; a steam-rich plume rose to 600 m above the Ratu crater (figures 6, and 7). People were on the crater rim at the time and videos show a white plume rising from the crater followed by rapid jets of ash and sediment erupting through the first plume. Deposition of eruption material was 5-7 cm thick and concentrated within a 500 m radius from the point between the Rata and Upas craters, and wider deposition occurred within 2 km of the crater (figures 8 and 9). According to seismic data, the eruption lasted around 5 minutes and 30 seconds (figure 10). Videos show several pulses of ash that fell back into the crater, followed by an ash plume moving laterally towards the viewers.

Figure 6. These screenshots are from a video taken from the Ratu crater rim at Tangkuban Parahu on 26 July 2019. Initially there is a white gas-and-steam plume rising from the crater, then a high-velocity black jet of ash and sediment rises through the plume. This video was widely shared across multiple social media platforms, but the original source could not be identified.

Figure 7. The ash plume at Tangkuban Parahu on 26 July 2019. Courtesy of BNPB.

Figure 8. Volcanic ash and lapilli was deposited around the Ratu crater of Tangkuban Parahu during a phreatic eruption on 26 July 2019. Note that the deposits have slumped down the window and are thicker than the actual ashfall. Courtesy of BNPB.

Figure 9. Ash was deposited on buildings that line the Ratu crater at Tangkuban Parahu during a phreatic eruption on 26 July 2019. Photo courtesy of Novrian Arbi/via Reuters.

Figure 10. A seismogram showing the onset of the 26 July 2019 eruption of Tangkuban Parahu and the elevated seismicity following the event. Courtesy of PVMBG via Øystein Lund Andersen.

On 27 July, the day after the eruption, Øystein Lund Andersen observed the volcano using a drone camera, operated from outside the restricted zone. Over a period of two hours the crater produced a small steam plume; ashfall and small blocks from the initial eruption are visible in and around the crater (figure 11). The ashfall is also visible in satellite imagery, which shows that deposition was restricted to the immediate vicinity to the SW of the crater (figure 12).

Figure 11. Photos of the Ratu crater of Tangkuban Parahu on 27 July 2019, the day after a phreatic eruption. A small steam plume continued through the day. Courtesy of Øystein Lund Andersen.

Figure 12. PlanetScope satellite images showing the Ratu crater of Tangkuban Parahu before (17 July 2019) and after (28 July 2019) the explosion that took place on 26 July 2019. Natural color PlanetScope Imagery, copyright 2019 Planet Labs, Inc.

Another eruption occurred at 2046 on 1 August 2019 and lasted around 11 minutes, producing a plume up to 180 m above the vent. Additional explosions occurred at 0043 on 2 August, lasting around 3 minutes according to seismic data, but were not observed. Explosions continued to be recorded at 0145, 0357, and 0406 at the time of the PVMBG report when the last explosion was ongoing, and a photo shows an explosion at 0608 (figure 13). The explosions produced plumes that reached between 20 and 200 m above the vent. Due to elevated activity the Alert Level was increased to II on 2 August. Ash emission continued through the 4th. During 5-11 August events ejecting ash continued to produce plumes up to 80 m, and gas-and-steam plumes up to 200 m above the vent. Ashfall was localized around Ratu crater. The following week, 12-18 August, activity continued with ash and gas-and-steam plumes reaching 100-200 m above the vent. During 19-25 August, similar activity sent ash to 50-180 m, and gas-and-steam plumes to 200 m. A larger phreatic explosion occurred at 0930 on 31 August with an ash plume reaching 300 m, and a gas-and-steam plume reaching 600 m above the vent, depositing ash and sediment around the crater.

Figure 13. A small ash plume below a white gas-and-steam plume erupting from the Ratu crater of Tangkuban Parahu on 2 August 2019 at 0608. Courtesy of PVBMG (2 August 2019 report).

In early September activity consisted of gas-and-steam plumes up to 100-180 m above the vent with some ash plumes observed (figure 14). Two larger explosions occurred at 1657 and 1709 on 7 September with ash reaching 180 m, and gas-and-steam up to 200 m above the vent. Ash and sediment deposited around the crater. Due to strong winds to the SSW, the smell of sulfur was reported around Cimahi City in West Bandung, although there was no detected increase in sulfur emissions. A phreatic explosion on 17 September produced an ash plume to 40 m and a steam plume to 200 m above the crater. Weak gas-and-steam emissions reaching 200 m above the vent continued through to the end of September.

Figure 14. A phreatic explosion at Tangkuban Parahu in the Ratu crater at 0724 on 4 September 2019, lasting nearly one minute. The darker ash plume reached around 100 m above the vent. Courtesy of PVGHM (4 September 2019 report).

Information Contacts: Pusat Vulkanologi dan Mitigasi Bencana Geologi (PVMBG, also known as Indonesian Center for Volcanology and Geological Hazard Mitigation, CVGHM), Jalan Diponegoro 57, Bandung 40122, Indonesia (URL: http://www.vsi.esdm.go.id/); Badan Nasional Penanggulangan Bencana (BNPB), National Disaster Management Agency, Graha BNPB - Jl. Scout Kav.38, East Jakarta 13120, Indonesia (URL: http://www.bnpb.go.id/); Øystein Lund Andersen (Twitter: @OysteinLAnderse, https://twitter.com/OysteinLAnderse, URL: https://www.oysteinlundandersen.com/tangkuban-prahu/tangkuban-prahu-volcano-west-java-one-day-after-the-26th-july-phreatic-eruption/); Reuters (URL: https://www.reuters.com/news/picture/editors-choice-pictures-idUSRTX71F3E); Planet Labs, Inc. (URL: https://www.planet.com/); .

Information is preliminary and subject to change. All times are local (unless otherwise noted)

August 1983 (SEAN 08:08) Cite this Report

Increased seismicity; thermal activity; inflation

Tangkubanparahu has shown increased seismicity, thermal activity, and inflation during the past several months. A VSI seismograph recorded as many as seven shallow volcanic tremors/day in early June, 19/day by early August and 25/day the last week in August. At the beginning of September, seismicity increased sharply from an average of 14 to 60-74 events per day and by the middle of the month reached a daily average of 106-110. Epicenters were in the vicinity of Baru fumarolic field, on the W wall of Crater 3. No deep volcanic earthquakes have been detected. A telemetering seismograph (obtained through the VSI-USGS cooperative program) permitted monitoring from Bandung, 30 km S of the volcano.

Little change in surface activity was observed until September. Three fumarole fields (Baru, Ratu, and Upas) were monitored, with highest temperatures recorded at Baru, increasing to 98°C from an average of 94°C. On 13 September, a pair of white steam columns rose from Baru field for about 20 minutes each, reaching heights of 100-150 m. SO₂ emission measured by COSPEC increased from 70 t/d in August to 80 t/d in September. Since July, dry tilt measurements have shown a consistent inflation centered on Baru fumarole field totaling about 20 µrad.

Civil authorities warned of the volcanic hazard and the National Park has issued an alert to tourists. Within a 3-km danger zone, camping and auto parking were forbidden.

Information Contacts: A. Sudradjat, VSI.

October 1983 (SEAN 08:10) Cite this Report

Seismicity continues to increase

Seismicity continued to increase through mid-October but no surface changes have been noted. Tectonic earthquakes and both A-and B-type microtremors were recorded. A-type events occurred irregularly, usually at 1-3 per day, but as many as five were detected on several days. B-type earthquakes increased substantially, as shown in table 1.

Table 1. Number of B-type events/day at Tangkubanparahu, May to mid-October 1983.

Ground deformation did not show regular changes. From 10 to 25 mm of irregular inflation and deflation were detected but their significance is doubtful. Fumarole temperatures remained stable at 96°C in the three fumarole fields (Baru, Ratu, and Upas). The previously declared forbidden zone of 3-km-radius remained in effect.

Information Contacts: A. Sudradjat, VSI.

November 1985 (SEAN 10:11) Cite this Report

Crater temperatures rise; seismicity unchanged

Temperatures in Kawah Baru, a small vent on the W side of the summit crater, active during the 1896 eruption, rose steadily from 90 to 140°C in the two weeks prior to 9 December. No changes have been detected in the volcano's continuing low-level background seismicity.

Information Contacts: T. Casadevall and L. Pardyanto, VSI.

November 1985 (BVE 25)

Minor steam explosions

[Minor steam explosions were reported from Kawah Baru crater on 15 November 1985. The explosions were described as essentially phreatic, producing a 200-m-high eruption cloud. There was no mention of tephra ejection. After this event, temperatures in the Kawah Baru solfatara field increased from 95 to 168°C].

Information Contacts: A. Sudradjat, Kaswanda, and Tulus, VSI (as reported in BVE, no. 25, March 1988).

December 1985 (SEAN 10:12) Cite this Report

Elevated fumarole temperatures in December

Fumarole temperatures at Kawah Baru continued to climb through December, reaching a maximum of 171°C on 31 December. In January, temperatures have gradually declined to 148°C as of the 11th. No seismicity was recorded.

Information Contacts: Suparto S. and T. Casadevall, VSI.

January 1986 (SEAN 11:01) Cite this Report

Decreasing fumarole temperatures

"In November [1985], Tangkubanparahu showed increased activity with strong gas emission, thick white solfataric fume, and increased temperature at Kawah Baru, a small vent on the W side of the summit crater (10:11-12). Temperatures, normally 95-97°C, rose to 141°C on 30 November, increased progressively to 173°C on 3 January, then slowly decreased. At the end of January the temperature was 158°C. Seismic observations Nov-Jan showed no signs of changes. The average number of volcanic earthquakes was 2/day."

Information Contacts: A. Sudradjat, VSI.

March 1986 (SEAN 11:03) Cite this Report

Inflation; tremor; high fumarole temperatures

Fumaroles of the Kawah Baru field continued to have elevated temperatures that ranged from 152 to 158°C during March. Seismic tremor was recorded on the seismometer at Kawah Ratu on 17 March, from about 0900 until 2400. Tremor was again recorded briefly on 18 and 19 March.

"During March the complete EDM network was reoccupied for the first time since 1983. The results of the survey are consistent with long term inflation of Tangkubanparahu as detected by spirit level tilt measurements from 1981 through January 1986. The center of inflation . . . is located at Kawah Upas, ~500 m E of the Kawah Baru fumaroles. The epicentral area of the late 1983 seismic activity was in the S half of Kawah Upas, approximately coincident with the center of uplift determined from tilt measurements."

Information Contacts: Kaswanda, H. Said, A. Sudradjat, and T. Casadevall, VSI.

April 1986 (SEAN 11:04) Cite this Report

Fumarole temperatures remain high

Fumarole temperatures at Kawah Baru crater remained elevated, reaching 161°C during April, but no additional seismic tremor was observed during the month.

Information Contacts: Olas, Suratman, Suparto, Kaswanda, and A. Sudradjat, VSI.

May 1986 (SEAN 11:05) Cite this Report

Fumarole temperarures remain high

No additional seismic activity was reported [in May], but fumarole temperatures remained elevated.

Information Contacts: A. Sudradjat, L. Pardyanto, and T. Casadevall, VSI.

June 1986 (SEAN 11:06) Cite this Report

Fumarole temperatures still high

Fumaroles in the W crater continued to have elevated temperatures. The ephemeral lake in the E crater (Kawah Ecoma) has dried up, most likely the result of the end of the wet season.

Information Contacts: L. Pardyanto, Olas, Kaswanda, A. Sudradjat, and T. Casadevall, VSI.

September 1986 (SEAN 11:09) Cite this Report

Fumarole temperatures increase

"The only significant changes . . . during September were an increase in fumarole temperatures. As of 20 September, fumarole temperatures in Kawah Ratu crater had risen from their normal 97 to ~112°C, and had increased further in Kawah Baru crater to 189°C (from 161°C in April). No changes in seismicity or other activity were observed."

Information Contacts: L. Pardyanto, Olas, Kaswanda, Suratman, A. Sudradjat, and T. Casadevall, VSI.

November 1992 (BGVN 17:11) Cite this Report

Increased seismicity but no surface changes evident

Seismicity began to increase on 28 September. B-type earthquakes were continuing in early December, at rates of 47-204/week. None of the vents on the crater floor showed signs of unusual activity. Visitors are still advised to avoid descending to the bottom of the crater.

Information Contacts: W. Modjo, VSI.

September 2002 (BGVN 27:09) Cite this Report

First elevated seismicity since 1992

The Volcanological Survey of Indonesia (VSI) reported that Tangkubanparahu reactivated during late August 2002. On 2 September the Alert Level was raised to 2, following an elevated number of earthquakes that were registered during the previous two weeks. The temperatures of Domas and Ratu craters increased ~2-4°C; Domas crater was at 74-93°C and Ratu crater at 95-100°C. No visual changes accompanied the temperature increase inside the craters, but several animals were found dead in Ratu crater. Seismicity totals for the week of 26 August-1 September were three deep-volcanic (A-type), 172 shallow-volcanic (B-type), and 12 tectonic earthquakes. During 2-8 September, four A-type, 224 B-type, and two tectonic earthquakes were registered.

Information Contacts: Volcanological Survey of Indonesia (VSI), Jalan Diponegoro No. 57, Bandung 40122, Indonesia (URL: http://www.vsi.esdm.go.id/).

August 2003 (BGVN 28:08) Cite this Report

Elevated seismicity during August-October 2002

In August and September 2002 Tankubanparahu showed its first elevated seismicity since 1992 (BGVN 27:09). This activity continued in October of 2002. The volcano is at Alert Level 2.

From September through 6 October, volcanic events dominated seismicity, particularly during the week of 16-22 September, when there were 331 shallow volcanic [B-type] events. Crater fumarole temperatures of 92-95°C were recorded at Domas and Ratu craters; the hotspring temperature at Ciater was 47°C. H₂S concentrations were above detections limits, ranging from 80 to more than 100 ppm at Ratu; more than 80 ppm H₂S was also recorded at Jagal. A "thin white ash plume" was observed to rise 2.5 m, and a whizzing sound could be heard 50 m away. A strong sulfur smell and sulfur sublimation were noted.

Between 7 and 13 October, volcanic events again dominated seismic activity, but numbers were lower than the previous week, with 151 B-type events, down from 199, and four A-type events, down from five. Tectonic activity occurred at the same rate as the previous week, with 21 events. The following week volcanic activity again dropped, with 57 shallow volcanic (B-type) events. However, deep volcanic (A-type) events increased slightly, to 15. Observations during the week included a "white-thin ash plume" to 2 m and medium-strong gas pressure. A strong sulfur smell and yellow sublimation were also noted. The fumarole temperature at Ratu crater was 95°C.

Shallow volcanic earthquakes increased through the week of 21-27 October, with 123 events. Deep volcanic events dropped to 7, and tectonic activity again remained stable, with 19 events. On 25 October Upas crater was measured at 44°C; a "white-thin ash plume" was only noted to rise 0.5-1 m, and the sulfur smell was weak.

Information Contacts: Dali Ahmad, Volcanological Survey of Indonesia (VSI), Jalan Diponegoro No. 57, Bandung 40122, Indonesia (URL: http://www.vsi. esdm.go.id/).

December 2005 (BGVN 30:12) Cite this Report

Seismic unrest during 12-19 April 2005

Typically quiet, Tangkubanparahu went into a period of unrest from 12 to 19 April 2005. After that, it became relatively quiet again. The reports during this period did not in general cover an entire day, but rather only 6 or 12 hours. The reports chiefly discussed a seismic crisis and elevated SO₂ fluxes. A brief review for this period follows.

Seismic activity increased dramatically beginning on 12 April 2005. Normally about two volcanic eruptions occurred daily. Volcanic earthquakes recorded on 12 April consisted of five deep (type-A events with peak-to-peak amplitudes of 7-24 mm) and 56 shallow (type-B events with peak-to-peak amplitudes of 3-10 mm), with numbers increasing throughout the day. About 8 hours of tremor on 13 April, a swarm of earthquakes took place, of which 111 were deep type-A events and 181 were shallow type-B events. The peak of the activity occurred on 14 April, when the deep events numbered 108 and the shallow events numbered 327. A located hypocenter was 1.6-1.9 km beneath the Domas crater.

Based on the above seismic data, the hazard status for the volcano was raised on 13 April 2005 at 0825 to Level 2, and then at 1300 to Level 3.

The SO₂ measurement around Domas crater yielded about 10 metric tons/day (t/d) on 14 April. It was less than 2 t/d on 18 April.

The hazard status of the volcano was downgraded to Level 2 on 19 April 2005 at 1200, and the area was re-opened to the public. The other craters (Upas, Domas, Baru, Jarian) remained closed to the public.

Information Contacts: Directorate of Volcanology and Geological Hazard Mitigation (DVGHM), Jalan Diponegoro 57, Bandung 40122, Indonesia (URL: http://www.vsi.esdm.go.id/).

November 2012 (BGVN 37:11) Cite this Report

Earthquakes and hot gas emissions in August 2012

Our most recent report on Tangkubanparahu (also known as Tangkuban Perahu) described increased seismicity during April 2005, consisting primarily of volcanic earthquakes and tremor (BGVN 30:12). This report describes elevated seismicity during August-September 2012. The Center of Volcanology and Geological Hazard Mitigation (CVGHM) notes that at least three magmatic eruptions and four phreatic eruptions had occurred at Ratu Crater, the most active vent, during 1829-1994. Ratu Crater is about 30 km N of Bandung in W Java. Figure 1 indicates the general location of the volcano.

Figure 1. Sketch maps of Indonesia and W Java indicating the location of Tangkubanparahu (Tangkuban Perahu). Courtesy of Kartadinata and others (2002).

The next report we received on Tangkubanparahu described activity starting in August 2012. According to CVGHM, the frequency of earthquakes and tremor increased on both 13 and 23 August. Around this time, hot blasts of sulfuric gases, white in color, rose from Ratu Crater to heights of 50-400 m above the crater's floor. CVGHM reported that the temperature of emissions from Ratu Crater on 24 August was 246°C, compared to a measurement of 111°C on 18 August. On 23 August, the Alert Level was raised to 2 (on a scale of 1-4), and visitors and residents were prohibited within a 1.5-km radius of the active crater.

Seismic activity declined on 23 August; shallow volcanic earthquakes continued to be recorded but were less frequent through 21 September (table 2 provides data through 20 September). Hypocenters of volcanic tremors during this period were located beneath an area W of Ratu Crater at depths of 4-12 km. Soil temperatures at Ratu Crater were 30.5°C on 26 August, then were 35°C on 30 August, but then gradually declined during 31 August-21 September to ~34°C.

Table 2. Type and occurrence of earthquakes at Tangkubanparahu between 24 August and 20 September 2012. Courtesy of CVGHM.

Between 5-11 September, sulfur dioxide gas emissions were elevated in an area NW of the crater associated with the plume, but in the latter part of September 2012 concentrations averaged4in Ratu Crater increased from 0.11 in December 2011 to ~4 on 24 August 2012 and remained at that level on 11 September 2012, which suggested to CVGHM that hot fluid was rising to the surface.

Based on seismicity, visual observations, deformation data, gas measurements, and soil and crater lake water temperatures, the Alert Level was lowered to 1 on 21 September 2012.

The eruptive history of Tangkubanparahu was described by Kartadinata and others (2002).

Reference. Kartadinata, M., Okuno, M., Nakamura, T., and Kobayashi, T., 2002, Eruptive history of Tangkuban Perahu volcano, West Java, Indonesia: A preliminary report, Journal of Geography, v. 111, issue 3, p. 404-409.

Information Contacts: Center of Volcanology and Geological Hazard Mitigation (CVGHM), Jalan Diponegoro 57, Bandung 40122, Indonesia (URL: http://www.vsi.esdm.go.id/).

April 2015 (BGVN 40:04) Cite this Report

West Java volcano issues very small eruption in March 2013; months of tremor and few volcanic earthquakes

Tangkubanparahu (Tankuban Parahu) erupted multiple times during the interval of reporting from February 2013 through December 2014. The eruptions were from Ratu crater and of quite small size (highest reported plumes only rose to 100 m tall). The vent grew in size as a result of these eruptions, reaching in early March 2013 a diameter of 20 m. The small eruptions contained minor ash but did not emit a dome or lava flows and accordingly did not lead to thermal anomalies detected via the MODVOLC satellite-based infrared detection system (and this is the case going back to at least the year 2010).

In past reports during the past few decades, Tangkubanparahu has largely been quiet but with occasional tremor and volcanic earthquakes (eg., late August-October 2002, 12-19 April 2005, and August-September 2012; BGVN 27:09, 28:08, 30:12, and 37:11). The location of the volcano in Java is shown in figure 1 of BGVN 37:11.

According to the Center of Volcanology and Geological Hazard Mitigation (CVGHM, also known as Pusat Vulkanologi dan Mitigasi Bencana Geologi, PVMBG), tremor increased on 21 February 2013 and diffuse ash emissions rose from Ratu Crater. Based on the seismicity, visual observations, and temperature increases of the land around the crater, CVGHM raised the Alert Level to 2 (on a scale of 1-4) and visitors were reminded not to approach the crater within a radius of 1.5 km.

CVGHM reported that phreatic eruptions from Tangkubanparahu's Ratu Crater occurred on 28 February and during 4-6 March 2013, and generated ash plumes that rose up to 100 m above the crater.

A news report (kompas.com) quoted CVGHM as stating that the March explosion was much stronger than the one on 21 February 2013. The news report said that the 6 March eruption lasted for ~8 minutes. The Jakarta Post also said that the 6 March eruption lasted ~8 minutes and ejected ash about 30 m above Ratu Crater. The Jakarta Post reported that on 18 March, CVGHM lowered the Alert Level to 1 (normal) because of a significant decrease in the tremor frequency. The article also quoted CVGHM as stating that deformation, using a Global Positioning System (GPS) and Electronic Distance Measurement (EDM), found at one or more stations a decline in relative elevation from 6.84 cm to a few millimeters by 18 March. Deflation was again detected from 24 February through early March 2013, but was stable during 7-14 March 2013.

According to CVGHM, sulfur dioxide emissions increased to 5.3 metric tons per day (t/d) on 24 February 2013, decreased through 3 March 2013 to 2.1 t/d, and then increased again during 5-9 March 2013 to 4.9 t/d. CVGHM speculated that the increase was due to an enlargement of the eruptive vent, which had grown to a diameter of 20 m.

Gas emissions decreased abruptly on 10 March 2013 to 2.1 t/d and emission sounds stopped. On 4 March 2013, a new solfatara vent opened, but SO₂ levels could not be measured on that day because of weather conditions.

On 5 October 2013, a phreatic eruption occurred, causing CVHGM to raise the Alert Level to 2. Figure 2 is an image of Ratu Crater.

Figure 2. Photo of Tangkubanparahu's Ratu crater taken (or posted?) in June 2014. Ratu crater is the currently active crater and one of two large craters on the volcano; it is about 1 km in diameter and has a depth of about 400 m. CVGHM reporting notes that, overall, the volcano hosts 9 craters. Image courtesy of Marietha S as posted on Tripadvisor.com.

CVGHM reported that during November-December 2014 white plumes rose up to 50 m above Ratu Crater. Deformation occurred and seismicity increased. On 31 December the Alert level rose to 2 (on a scale of 1-4), cautioning people to remain at least 1.5 km from the crater.

Seismicity. The CVGHM report discussing late 2014 features a plot of seismic data during December 2012 through December 2014, which the authors termed significant, the chief observation prompting a rise in alert level (to II).

Tremor was most prominent beginning mid-2013 to early March 2014. Both low-frequency and hybrid earthquakes were nearly absent except during a short sequence in late 2014 (each with over 100 earthquakes; see table below). Type-B earthquakes were common at levels from a few to ten events per 20-day interval, and like the low-frequency and hybrid earthquakes, peaked in latest December 2014 (~50 type-B events). Type-A earthquakes showed little or no tendency to cluster and remained below 5 events per 20 day interval and on many days they were absent.

Table 3 indicates the types and frequencies of seismic activity at Tangkubanparahu during selected, mostly active periods during 2013. Shallow volcanic earthquakes predominated during many of these periods. The number of tremor was high during the first week of March 2013, but significantly declined thereafter. The 25 September 2013-5 October 2013 period contained somewhat elevated seismicity, yet apparently lacked significant eruptive activity. Note the emergence of 513 low-frequency earthquakes during 1-31 December 2014 (lower right). That data is in the same year-end report (issued in early 2014 and written in Indonesian) and is also noteworthy in terms of the plot of distance (EDM) data to various reflectors around the crater during the entire year of 2013.

Table 3. A compilation of earthquake counts and tremor durations recorded at Tangkubanparahu for selected periods during 2012-2014. Definitions: -- signifies no data (presumably no episodes); VA, volcanic type-A earthquake; VB, type B (shallow volcanic earthquake); TJ, deep tectonic earthquake; BQ, an earthquake indicative of emissions; and TL, local tectonic earthquake. Courtesy of CVGHM.

Information Contacts: Center of Volcanology and Geological Hazard Mitigation (CVGHM) (URL: http:proxy.vsi.esdm.go.id/index.php); kompas.com (URL: kompas.com); and The Jakarta Post (URL: http://www.thejakartapost.com/).

October 2019 (BGVN 44:10) Cite this Report

Phreatic eruption on 27 July followed by intermittent explosions through to 17 September 2019

Tangkuban is located in the West Bandung and Subang Regencies in the West Java Province and has two main summit craters, Ratu and Upas (figure 3). Recent activity has largely consisted of phreatic explosions and gas-and-steam plumes at the Ratu crater. Prior to July 2019, the most recent activity occurred in 2012-2013, ending with a phreatic eruption on 5 October 2013 (BGVN 40:04). Background activity includes geothermal activity in the Ratu crater consisting of gas and steam emission (figure 4). This area is a tourist destination with infrastructure, and often people, overlooking the active crater. This report summarizes activity during 2014 through September 2019 and is based on official agency reports. Monitoring is the responsibility of Pusat Vulkanologi dan Mitigasi Bencana Geologi (PVMBG, also known as Indonesian Center for Volcanology and Geological Hazard Mitigation, CVGHM).

Figure 3. Map of Tangkuban Parahu showing the Sunda Caldera rim and the Ratu, Upas, and Domas craters. Basemap is the August 2019 mosaic, copyright 2019 Planet Labs, Inc.

Figure 4. Background activity at the Ratu crater of Tangkuban Parahu is shown in these images from 1 May 2012. The top image is an overview of the crater and the bottom four images show typical geothermal activity. Copyrighted photos by Øystein Lund Andersen, used with permission.

The first reported activity in 2014 consisted of gas-and-steam plumes during October-December, prompting PVMBG to increase the alert level from I to II on 31 December 2014. These white plumes reached a maximum of 50 m above the Ratu crater (figure 5) and were accompanied by elevated seismicity and deformation. This prompted the implementation of an exclusion zone with a radius of 1.5 km around the crater. The activity decreased and the alert level was lowered back to I on 8 January 2015. There was no further reported activity from January 2015 through mid-2019.

Figure 5. Changes at the Ratu crater of Tangkuban Parahu during 25 December 2014 to 8 January 2015. Rain water accumulated in the crater in December and intermittent gas-and-steam plumes were observed. Courtesy of PVMBG (8 January 2015 report).

From 27 June 2019 an increase in activity was recorded in seismicity, deformation, gas chemistry, and visual observations. By 24 July the responsible government agencies had communicated that the volcano could erupt at any time. At 1548 on 26 July a phreatic (steam-driven) explosion ejected an ash plume that reached 200 m; a steam-rich plume rose to 600 m above the Ratu crater (figures 6, and 7). People were on the crater rim at the time and videos show a white plume rising from the crater followed by rapid jets of ash and sediment erupting through the first plume. Deposition of eruption material was 5-7 cm thick and concentrated within a 500 m radius from the point between the Rata and Upas craters, and wider deposition occurred within 2 km of the crater (figures 8 and 9). According to seismic data, the eruption lasted around 5 minutes and 30 seconds (figure 10). Videos show several pulses of ash that fell back into the crater, followed by an ash plume moving laterally towards the viewers.

Figure 6. These screenshots are from a video taken from the Ratu crater rim at Tangkuban Parahu on 26 July 2019. Initially there is a white gas-and-steam plume rising from the crater, then a high-velocity black jet of ash and sediment rises through the plume. This video was widely shared across multiple social media platforms, but the original source could not be identified.

Figure 7. The ash plume at Tangkuban Parahu on 26 July 2019. Courtesy of BNPB.

Figure 8. Volcanic ash and lapilli was deposited around the Ratu crater of Tangkuban Parahu during a phreatic eruption on 26 July 2019. Note that the deposits have slumped down the window and are thicker than the actual ashfall. Courtesy of BNPB.

Figure 9. Ash was deposited on buildings that line the Ratu crater at Tangkuban Parahu during a phreatic eruption on 26 July 2019. Photo courtesy of Novrian Arbi/via Reuters.

Figure 10. A seismogram showing the onset of the 26 July 2019 eruption of Tangkuban Parahu and the elevated seismicity following the event. Courtesy of PVMBG via Øystein Lund Andersen.

On 27 July, the day after the eruption, Øystein Lund Andersen observed the volcano using a drone camera, operated from outside the restricted zone. Over a period of two hours the crater produced a small steam plume; ashfall and small blocks from the initial eruption are visible in and around the crater (figure 11). The ashfall is also visible in satellite imagery, which shows that deposition was restricted to the immediate vicinity to the SW of the crater (figure 12).

Figure 11. Photos of the Ratu crater of Tangkuban Parahu on 27 July 2019, the day after a phreatic eruption. A small steam plume continued through the day. Courtesy of Øystein Lund Andersen.

Figure 12. PlanetScope satellite images showing the Ratu crater of Tangkuban Parahu before (17 July 2019) and after (28 July 2019) the explosion that took place on 26 July 2019. Natural color PlanetScope Imagery, copyright 2019 Planet Labs, Inc.

Another eruption occurred at 2046 on 1 August 2019 and lasted around 11 minutes, producing a plume up to 180 m above the vent. Additional explosions occurred at 0043 on 2 August, lasting around 3 minutes according to seismic data, but were not observed. Explosions continued to be recorded at 0145, 0357, and 0406 at the time of the PVMBG report when the last explosion was ongoing, and a photo shows an explosion at 0608 (figure 13). The explosions produced plumes that reached between 20 and 200 m above the vent. Due to elevated activity the Alert Level was increased to II on 2 August. Ash emission continued through the 4th. During 5-11 August events ejecting ash continued to produce plumes up to 80 m, and gas-and-steam plumes up to 200 m above the vent. Ashfall was localized around Ratu crater. The following week, 12-18 August, activity continued with ash and gas-and-steam plumes reaching 100-200 m above the vent. During 19-25 August, similar activity sent ash to 50-180 m, and gas-and-steam plumes to 200 m. A larger phreatic explosion occurred at 0930 on 31 August with an ash plume reaching 300 m, and a gas-and-steam plume reaching 600 m above the vent, depositing ash and sediment around the crater.

Figure 13. A small ash plume below a white gas-and-steam plume erupting from the Ratu crater of Tangkuban Parahu on 2 August 2019 at 0608. Courtesy of PVBMG (2 August 2019 report).

In early September activity consisted of gas-and-steam plumes up to 100-180 m above the vent with some ash plumes observed (figure 14). Two larger explosions occurred at 1657 and 1709 on 7 September with ash reaching 180 m, and gas-and-steam up to 200 m above the vent. Ash and sediment deposited around the crater. Due to strong winds to the SSW, the smell of sulfur was reported around Cimahi City in West Bandung, although there was no detected increase in sulfur emissions. A phreatic explosion on 17 September produced an ash plume to 40 m and a steam plume to 200 m above the crater. Weak gas-and-steam emissions reaching 200 m above the vent continued through to the end of September.

Figure 14. A phreatic explosion at Tangkuban Parahu in the Ratu crater at 0724 on 4 September 2019, lasting nearly one minute. The darker ash plume reached around 100 m above the vent. Courtesy of PVGHM (4 September 2019 report).

Information Contacts: Pusat Vulkanologi dan Mitigasi Bencana Geologi (PVMBG, also known as Indonesian Center for Volcanology and Geological Hazard Mitigation, CVGHM), Jalan Diponegoro 57, Bandung 40122, Indonesia (URL: http://www.vsi.esdm.go.id/); Badan Nasional Penanggulangan Bencana (BNPB), National Disaster Management Agency, Graha BNPB - Jl. Scout Kav.38, East Jakarta 13120, Indonesia (URL: http://www.bnpb.go.id/); Øystein Lund Andersen (Twitter: @OysteinLAnderse, https://twitter.com/OysteinLAnderse, URL: https://www.oysteinlundandersen.com/tangkuban-prahu/tangkuban-prahu-volcano-west-java-one-day-after-the-26th-july-phreatic-eruption/); Reuters (URL: https://www.reuters.com/news/picture/editors-choice-pictures-idUSRTX71F3E); Planet Labs, Inc. (URL: https://www.planet.com/); .