Geology of Daisen Volcano

Tsukui, Masashi

doi:10.5575/geosoc.90.643

Cited by 28 publications

(39 citation statements)

References 0 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Asai et al ., ; Jefferson et al ., ). Volcanic activities at Daisen volcano ended at 17 ka (Tsukui, ; Kimura et al , 2005). The volcanic region we observed corresponds to the young and uneroded stage described by Jefferson et al .…”

Section: Discussionmentioning

confidence: 97%

Influence of bedrock groundwater on streamflow characteristics in a volcanic catchment

Fujimoto

Ohte

Kawasaki

et al. 2015

Hydrological Processes

View full text Add to dashboard Cite

Groundwater movements in volcanic mountains and their effects on streamflow discharge and representative elementary area (REA) have remained largely unclear. We surveyed the discharge and chemical composition of spring and stream water in two catchments: the Hontani river (NR) catchment (6.6 km2) and the Hosotani river (SR) catchment (4.0 km2) at the southern part of Daisen volcano, Japan. Daisen volcano is a young volcano (17 × 103 years) at an early stage of erosion. Our study indicated that deep groundwater that moved through thick lava and pyroclastic flows and that could not be explained by shallow movements controlled by surface topography contributed dominantly to streamflow at larger catchment areas. At the NR catchment, the deep groundwater contribution clearly increased at a catchment boundary defined by an area of 3.0 km2 and an elevation of 800 m. At the SR catchment, the contribution deep groundwater to the stream also increased suddenly at a boundary threshold of 2.0 and 700 m. Beyond these thresholds, the contributions of deep bedrock groundwater remained constant, indicating that the REA is between 2 and 3 km2 at the observed area. These results indicate that the hydrological conditions of base flow were controlled mainly by the deep bedrock groundwater that moved through thick lava and pyroclastic flows in the undissected volcanic body of the upper part of the catchment. Our study demonstrates that deep and long groundwater movements via a deep bedrock layer including thick deposits of volcanic materials at the two catchments on Daisen volcano strongly determined streamflow discharge instead of the mixing of small‐scale hydrological conditions. Copyright © 2015 John Wiley & Sons, Ltd.

show abstract

Section: Discussionmentioning

confidence: 97%

Influence of bedrock groundwater on streamflow characteristics in a volcanic catchment

Fujimoto

Ohte

Kawasaki

et al. 2015

Hydrological Processes

View full text Add to dashboard Cite

show abstract

“…1a). The Daisen–Hiruzen Volcano Group has an age range between 1 Ma and 17 ka, with intermittent eruptions of dacite lava domes (Tsukui 1984; Tsukui et al . 1985; Kimura et al .…”

Section: Introductionmentioning

confidence: 99%

Geology and geochemistry of Karasugasen lava dome, Daisen–Hiruzen Volcano Group, southwest Japan

2005

View full text Add to dashboard Cite

The geology and geochemistry of pyroclastic flows and fallout tephras formed during the Karasugasen dome eruption in the Daisen-Hiruzen Volcano Group in southwest Japan have been examined in detail. The Karasugasen lava dome erupted at about 26 ka. The eruption began with a vulcanian ash fall, and this was followed by at least eight block and ash flows and a pumice flow. The block and ash flows were produced by the successive collapses of a growing lava dome. This main eruption phase was followed by an eruption of vulcanian ash falls, and finally ended with a sub-Plinian pumice fall. This eruption sequence is typical of the Daisen Volcano during the last three eruption events, which occurred at 58, 26 and 17 ka. The magma produced during the Karasugasen eruption was a typical adakite, with extremely high Sr/Y ratios and low HREE/LREE ratios compared to normal arc lavas. The chemistry of the Karasugasen lavas is almost identical to other Daisen-Hiruzen lavas that were produced from eruptions over an interval of a million years. The continuous supply of a huge amount of adakitic magma ( > 100 km 3 ) for such a long period suggests a massive homogeneous source material, such as molten Philippine Sea Plate slab. Slab melting is a plausible mechanism for the production of the adakitic lavas at Karasugasen, and hence the Daisen-Hiruzen Volcano Group.

show abstract

“…1). Daisen is a large composite volcano, more than 120 km 3 in volume, ranging in age from 0.017 to 1.2 Ma, and consisting of several clustered and overlapping lava domes (Kimura et al, 2005;Tamura et al, 2000Tamura et al, , 2003Tsukui, 1984Tsukui, , 1985Tsukui et al, 1985). Samples discussed here were collected from the Karasugasen and Misen lava domes.…”

Section: Geological Background and Samplesmentioning

confidence: 99%

“…The Misen lava dome forms the summit of Daisen (1729 m), whereas the Karasugasen lava dome is located 3 km to the southwest. The first ash fall from the Karasugasen overlies the Aira-Tanzawa tephra, whose eruption age is about 26 ka (Tsukui, 1984). Misen eruption occurred at ca.…”

Section: Geological Background and Samplesmentioning

confidence: 99%

Two types of adakites revealed by 238U-230Th disequilibrium from Daisen Volcano, southwestern Japan

2010

View full text Add to dashboard Cite

show abstract

Geology of Daisen Volcano

Cited by 28 publications

References 0 publications

Influence of bedrock groundwater on streamflow characteristics in a volcanic catchment

Influence of bedrock groundwater on streamflow characteristics in a volcanic catchment

Geology and geochemistry of Karasugasen lava dome, Daisen–Hiruzen Volcano Group, southwest Japan

Two types of adakites revealed by 238U-230Th disequilibrium from Daisen Volcano, southwestern Japan

Contact Info

Product

Resources

About