Volcano Watch: Doppler radar in Ka‘u is more than a weather radar

  • Radar image of the May 17, 2018 eruption of ash from Halemaʻumaʻu Crater. This image is a slice through the cloud at an altitude of 14,000 ft (4 km) above sea level at 4:12 a.m., HST. The colors scale is radar reflectivity, a measure of the size of the particles and their concentration within the ash cloud. Colors indicate the different echo intensities or reflectivity. Reflectivity is the amount of transmitted power returned to the radar receiver, and because it occurs over a wide range, a logarithmic (or decibel, dBZ) scale is used. Data could also be displayed in cross section to estimate the height of the cloud.

  • USGS photo by C. Neal Naalehu radome is 39 ft (about 12 m) in diameter. The radar dish inside is 28 ft (8.5 m) across. More details on the technical specifications of this instrument can be found at the following website: https://bit.ly/31ls3kw

Driving Highway 11 from Volcano to Wai‘ohinu on sunny, vog-free days, it’s hard to miss that bright white soccer ball on the slope of Mauna Loa above Pahala Town.

The curious white orb is the radome (housing) of the South Hawaii or Naalehu Weather Surveillance Doppler radar installation owned by the Federal Aviation Administration and operated by the National Oceanic and Atmospheric Administration’s National Weather Service. It is one of two such facilities on the Island of Hawaii; the other sits atop Kohala to the north.


The radar’s job is to scan the atmosphere rapidly in all directions to locate and track weather clouds. Around the clock, the resulting information, maps and animations of the intensity of radar returns from the atmosphere extending more than 100 miles (161 km) from the site. In the case of station PHWA, or the Naalehu radar, this extends from well southwest of South Point sweeping counterclockwise northeast off Cape Kumukahi and Hilo Bay. Data are displayed for all to see on a NOAA website.

Radar is a very useful tool because it penetrates clouds where the radar energy bounces off particles within the atmosphere and returns to the antenna. The strength of the return signals (known as reflectivity) are directly related to size and concentration of reflectors (usually rain droplets or ice particles). These data are used daily by weather forecasters, mariners, and anyone wanting helpful information on weather conditions and related hazards such as thunderstorms, hail, tornadoes, heavy rain, or flash flooding.

In 2018, this radar provided an additional service to Hawaii residents. Data from the Naalehu installation assisted the USGS Hawaiian Volcano Observatory, NWS, and other agencies to rapidly detect and characterize ash clouds that erupted from Kilauea Volcano’s Halema‘uma‘u Crater repeatedly in May and June. Although not strictly weather clouds, these plumes of rock, mineral, and glass particles behaved a lot like normal meteorological clouds: they rose through the atmosphere, mixing with or punching through the existing weather cloud deck, and then drifted downwind.

By examining the radar snapshot of the clouds within minutes of formation, NWS and HVO could estimate the maximum height of the cloud and then use a computer model to visualize where the cloud would move and how much ash might fall. This capability was especially useful at night when direct visual observations were not possible.

Most of the 2018 clouds were not very energetic as volcanic ash plumes go, rising less than 10,000 ft (3 km) above the ground and producing only a trace of ashfall (about the thickness of a dime — less than 1 mm or 0.04 in) as they drifted downwind, typically to the southwest with the trade winds. A few, however, contained more significant amounts of ash and left irritating amounts in the Ka‘u Desert and communities downwind including Pahala, Naalehu, Ocean View, and possibly farther.

The tallest cloud was produced in the predawn hours of May 17, 2018. Based on radar, it reached as high as 30,000 ft (9 km) above sea level, well above the elevations of the summits of Mauna Kea and Mauna Loa! Portions of the cloud moved northeast dropping ash on the Kilauea summit area including the Volcano Golf Course and Volcano Village.

Although a towering and impressive cloud, characteristics of the radar imagery and the resulting fallout pattern indicate that the upper portion of this cloud was ash-poor and consisted primarily of water or ice droplets. This is not surprising, as condensation of water high in an eruption cloud is a well-known occurrence in ash-producing eruptions worldwide.

In early 2020, the Naalehu radar was upgraded with a new pedestal to hold up the radar antenna and new internal electronics, communications, and other components. The work is part of a larger program of NOAA, the FAA, and the Department of Defense to refurbish all Doppler installations across the nation.

Here in Hawaii, we can rest assured that should Kilauea again produce ash clouds of any significance, the Naalehu radar stands guard, 24/7, to assist in rapid response. For more information about how a Doppler radar works, see this informative NWS website. https://www.weather.gov/iwx/wsr_88d.

Volcano activity updates

Kilauea Volcano is not erupting. Its USGS Volcano Alert level remains at NORMAL (https://volcanoes.usgs.gov/vhp/about_alerts.html). Kilauea updates are issued monthly.

Kilauea monitoring data for the past month show variable but typical rates of seismicity and ground deformation, low rates of sulfur dioxide emissions, and only minor geologic changes since the end of eruptive activity in September 2018. The water lake at the bottom of Halema‘uma‘u continues to slowly expand and deepen. For the most current information on the lake, see https://volcanoes.usgs.gov/volcanoes/Kilauea/summit_water_resources.html.

Mauna Loa is not erupting and remains at Volcano Alert Level ADVISORY. This alert level does not mean that an eruption is imminent or that progression to eruption from current level of unrest is certain. Mauna Loa updates are issued weekly.

This past week, about 144 small-magnitude earthquakes were recorded beneath the upper-elevations of Mauna Loa; most of these occurred at shallow depths of less than 8 kilometers (about 5 miles). Global Positioning System measurements show long-term slowly increasing summit inflation, consistent with magma supply to the volcano’s shallow storage system. Gas concentrations and fumarole temperatures as measured at both Sulphur Cone and the summit remain stable. Webcams show no changes to the landscape. For more information on current monitoring of Mauna Loa Volcano, see: https://volcanoes.usgs.gov/volcanoes/mauna_loa/monitoring_summary.html.

There were 8 events with 3 or more felt reports in the Hawaiian Islands during the past week: a M3.4 earthquake 19 km (11 mi) NNW of Kalaoa at 42 km (26 mi) depth on Aug. 19 at 7:43 p.m. HST, a M2.9 earthquake 6 km (3 mi) SE of Pa‘auilo at 12 km (7 mi) depth on Aug. 16 at 8:56 a.m. HST, a M2.1 earthquake 8 km (4 mi) E of Pahala at 32 km (19 mi) depth on Aug. 16 at 6:09 a.m. HST, a M2.7 earthquake 5 km (3 mi) SSW of Volcano at 11 km (7 mi) depth on Aug. 16 at 5:47 a.m. HST, a M3.6 earthquake 5 km (3 mi) SSW of Volcano at 11 km (7 mi) depth on Aug. 16 at 5:45 a.m. HST, a M1.1 earthquake 6 km (3 mi) S of Volcano at 1 km (1 mi) depth on Aug. 16 at 1:27 a.m. HST, a M3.5 earthquake 8 km (4 mi) NNE of Naalehu at 33 km (20 mi) depth on Aug. 16 at 1:25 a.m. HST, and a M1.9 earthquake 4 km (2 mi) SW of Kukuihaele at 10 km (6 mi) depth on Aug. 15 at 3:22 p.m. HST.

HVO continues to closely monitor both Kilauea and Mauna Loa for any signs of increased activity.


Please visit HVO’s website for past Volcano Watch articles, for past Volcano Watch articles, Kilauea and Mauna Loa updates, volcano photos, maps, recent earthquake info, and more. Email questions to askHVO@usgs.gov.

Volcano Watch is a weekly article and activity update written by U.S. Geological Survey Hawaiian Volcano Observatory scientists and affiliates.

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