Crustal structure of the southeast flank of Kilauea Volcano, Hawaii, from seismic refraction measurements

abstract In November 1976, the U.S. Geological Survey, in conjunction with the Hawaii Institute of Geophysics, established a 100-km-long seismic refraction line normal to the southeast coast of Hawaii across the submarine flank of Kilauea Volcano. Interpretation of the data suggests that the oceanic crust dips about 2° toward the island underneath the volcanic pile. The unreversed Pn velocity is 7.9 km/ sec with crustal velocities varying strongly along the profile. Profiles across the rift zones of Kilauea suggest that the velocity in the rifts is higher than the velocity in the surrounding extrusive rocks and that the velocity in the southwest rift (∼6.5 km/sec) is lower than the velocity in the east rift (∼7.0 km/sec). The rift boundaries seem to dip away from the rift such that a large part of the volcanic pile is composed of the higher velocity core of riftzone rock.

Download Full-text

Communication strategy of the U.S. Geological Survey Hawaiian Volcano Observatory during the lava-flow crisis of 2014–2015, Kīlauea Volcano, Hawai‘i

Field Volcanology: A Tribute to the Distinguished Career of Don Swanson ◽

10.1130/2018.2538(16) ◽

2019 ◽

Cited By ~ 2

Author(s):

Steven R. Brantley ◽

James P. Kauahikaua ◽

Janet L. Babb ◽

Tim R. Orr ◽

Matthew R. Patrick ◽

...

Keyword(s):

Lava Flow ◽

Kilauea Volcano ◽

Communication Strategy ◽

Geological Survey ◽

Volcano Observatory ◽

Kīlauea Volcano ◽

Hawaiian Volcano ◽

The U.S

Download Full-text

Crustal structure southwest of the San Andreas fault from quarry blasts

Bulletin of the Seismological Society of America ◽

10.1785/bssa0540010067 ◽

1964 ◽

Vol 54 (1) ◽

pp. 67-77

Author(s):

Robert M. Hamilton ◽

Alan Ryall ◽

Eduard Berg

Keyword(s):

San Francisco ◽

Crustal Structure ◽

San Andreas Fault ◽

P Wave ◽

Geological Survey ◽

San Andreas ◽

Crustal Model ◽

Crystalline Crust ◽

The U.S

abstract To determine a crustal model for the southwest side of the San Andreas fault, six large quarry blasts near Salinas, California, were recorded at 27 seismographic stations in the region around Salinas, and along a line northwest of the quarry toward San Francisco. Data from these explosions are compared with results of explosion-seismic studies carried out by the U.S. Geological Survey on a profile along the coast of California from San Francisco to Camp Roberts. The velocity of Pg, the P wave refracted through the crystalline crust, in the Salinas region is 6.2 km/sec and the velocity of Pn is about 8.0 km/sec. Velocities of the direct P wave in near-sur-face rocks vary from one place to another, and appear to correlate well with gross geologic features. The thickness of the crust in the region southwest of the San Andreas fault from Salinas to San Francisco is about 22 kilometers.

Download Full-text

Displacement of the south flank of Kilauea Volcano; the result of forceful intrusion of magma into the rift zones

Professional Paper ◽

10.3133/pp963 ◽

1976 ◽

Cited By ~ 107

Author(s):

Donald A. Swanson ◽

Wendell A. Duffield ◽

Richard S. Fiske

Keyword(s):

Kilauea Volcano ◽

The South ◽

Kīlauea Volcano ◽

Rift Zones

Download Full-text

An Isotopic Perspective into the Magmatic Evolution and Architecture of the Rift Zones of Kīlauea Volcano

Journal of Petrology ◽

10.1093/petrology/egy098 ◽

2018 ◽

Vol 59 (12) ◽

pp. 2311-2352 ◽

Cited By ~ 8

Author(s):

Aaron J Pietruszka ◽

Jared P Marske ◽

Daniel E Heaton ◽

Michael O Garcia ◽

J Michael Rhodes

Keyword(s):

Kilauea Volcano ◽

Magmatic Evolution ◽

Kīlauea Volcano ◽

Rift Zones

Download Full-text

Periodic dike intrusions at Kīlauea volcano, Hawaiʻi

Geology ◽

10.1130/g47970.1 ◽

2020 ◽

Author(s):

Emily K. Montgomery-Brown ◽

Asta Miklius

Keyword(s):

Rift Zone ◽

Volcanic Hazards ◽

Kilauea Volcano ◽

Magma Supply ◽

Kīlauea Volcano ◽

Recurrence Intervals ◽

Rift Zones ◽

Intrusive Activity

Forecasting heightened magmatic activity is key to assessing and mitigating global volcanic hazards, including eruptions from lateral rift zones at basaltic volcanoes. At Kīlauea volcano, Hawaiʻi (United States), planar dikes intrude its east rift zone (ERZ) and repeatedly affect the same segments. Here we show that Kīlauea’s upper and middle ERZ dikes in the last four decades intruded at regular intervals of ~8 or ~14 yr. Segments with shorter recurrence intervals are adjacent to faster-moving parts of the flank, and ~1–5 MPa of tension accumulates from flank spreading in the time between dike events. Intrusion frequency was neither advanced nor delayed during magma supply variations, supporting the role of long-term flank motion on the timing of dike intrusions. Although fewer historical dikes have occurred near the 2018 CE eruption site in the lower ERZ and the adjacent slowly sliding lower eastern flank, similar tension accumulated between the 1955 and 2018 eruptions. Regular dike intrusion recurrence intervals indicate the importance of including both extrusive and (commonly neglected) intrusive activity in eruption hazard analyses.

Download Full-text