A seismic gap in the eastern margin of the Sea of Japan as inferred from the time-space distribution of past seismicity   总被引：3，自引：0，他引：3  

Masakazu  Ohtake 《Island Arc》1995,4(3):156-165

Abstract Based on the spatial distribution of the focal areas from previous large earthquakes, a significant seismic gap was found off the coast of the Akita Prefecture at the eastern margin of the Sea of Japan. We forecast that the 75 km segment of plate boundary may be ruptured by a large thrust earthquake with a magnitude of 7.5 in the near future. The time of occurrence is uncertain, but the recurrence interval of large earthquakes in this region suggests that it will be no later than the end of next century. The time sequence of large earthquakes in the eastern margin of the Sea of Japan shows a systematic shortening of the earthquake interval for the past 250 years. This feature is simulated successfully by a simple mechanical model that represents a plate boundary by segmented blocks, each of which is composed of a spring friction slider system. We further propose to revise the conventionally accepted plate boundary between the Eurasian and Okhotsk plates in the eastern margin of the Sea of Japan; the observed data of seismic activity and recent crustal deformation indicate that the southern part of the plate boundary traverses the land region from Niigata to Otari along the Shinanogawa seismic belt. The fault geometries of previous large earthquakes show that the mode of plate convergence in the eastern margin of the Sea of Japan is a collision type rather than a simple eastward subduction as was postulated in early studies.  相似文献   

Recent Japanese studies on conductivity anomalies     

Tsuneji Rikitake  Yoshimori Honkura 《Physics of the Earth and Planetary Interiors》1973,7(2):213-216

A research team called the “C.A. (conductivity anomaly) Group” has been active since the early 1960's in Japan. A number of organized observations of geomagnetic variation anomaly have been carried out by the group. As a result, the overall distribution of Parkinson vectors for short-period variation over Japan has become clear. It seems likely that the anomalously large vertical component as observed in central Japan can be accounted for by assuming a depression of the highly conducting mantle layer beneath Japan, although effects of the sea surrounding Japan on geomagnetic variations are also seen. Such a model seems to harmonize with observations of heat flow, seismic wave velocities and attenuation. Use of the transfer function technique has recently become popular and consequently frequency characteristics of geomagnetic variation anomaly will be thoroughly examined in coming years.Intensive observations of island and peninsula effects on geomagnetic variation have been conducted, sometimes in cooperation with the University of Hawaii. Beautiful reversal of the sign of the vertical component at the northern and southern observation points on an island has often been reported.Numerical work on electromagnetic induction in two-dimensional conductors, thin sheets and so on has also been intensively advanced. It is particularly important to estimate the frequency response of an underground model which is believed to account for the geomagnetic variation anomaly in central Japan.  相似文献   

Frequency-Dependent Attenuation of P and S Waves In the Kanto Area, Japan, Based On the Coda-Normalization Method   总被引：4，自引：0，他引：4  

Kazuo Yoshimoto  Haruo Sato  Masakazu Ohtake 《Geophysical Journal International》1993,114(1):165-174

  相似文献   

Carbon and water cycling in a Bornean tropical rainforest under current and future climate scenarios     

Tomo&#x;omi Kumagai  Gabriel G. Katul  Amilcare Porporato  Taku M. Saitoh  Mizue Ohashi  Tomoaki Ichie  Masakazu Suzuki 《Advances in water resources》2004,27(12):1844

We examined how the projected increase in atmospheric CO₂ and concomitant shifts in air temperature and precipitation affect water and carbon fluxes in an Asian tropical rainforest, using a combination of field measurements, simplified hydrological and carbon models, and Global Climate Model (GCM) projections. The model links the canopy photosynthetic flux with transpiration via a bulk canopy conductance and semi-empirical models of intercellular CO₂ concentration, with the transpiration rate determined from a hydrologic balance model. The primary forcing to the hydrologic model are current and projected rainfall statistics. A main novelty in this analysis is that the effect of increased air temperature on vapor pressure deficit (D) and the effects of shifts in precipitation statistics on net radiation are explicitly considered. The model is validated against field measurements conducted in a tropical rainforest in Sarawak, Malaysia under current climate conditions. On the basis of this model and projected shifts in climatic statistics by GCM, we compute the probability distribution of soil moisture and other hydrologic fluxes. Regardless of projected and computed shifts in soil moisture, radiation and mean air temperature, transpiration was not appreciably altered. Despite increases in atmospheric CO₂ concentration (C_a) and unchanged transpiration, canopy photosynthesis does not significantly increase if C_i/C_a is assumed constant independent of D (where C_i is the bulk canopy intercellular CO₂ concentration). However, photosynthesis increased by a factor of 1.5 if C_i/C_a decreased linearly with D as derived from Leuning stomatal conductance formulation [R. Leuning. Plant Cell Environ 1995;18:339–55]. How elevated atmospheric CO₂ alters the relationship between C_i/C_a and D needs to be further investigated under elevated atmospheric CO₂ given its consequence on photosynthesis (and concomitant carbon sink) projections.  相似文献   

Tidal triggering of earthquakes in the subducting Philippine Sea plate beneath the locked zone of the plate interface in the Tokai region, Japan   总被引：5，自引：1，他引：5  

Sachiko Tanaka  Haruo Sato  Shozo Matsumura  Masakazu Ohtake 《Tectonophysics》2006,417(1-2):69

We found a characteristic space–time pattern of the tidal triggering effect on earthquake occurrence in the subducting Philippine Sea plate beneath the locked zone of the plate interface in the Tokai region, central Japan, where a large interplate earthquake may be impending. We measured the correlation between the Earth tide and earthquake occurrence using microearthquakes that took place in the Philippine Sea plate for about two decades. For each event, we assigned the tidal phase angle at the origin time by theoretically calculating the tidal shear stress on the fault plane. Based on the distribution of the tidal phase angles, we statistically tested whether they concentrate near some particular angle or not by using Schuster's test. In this test, the result is evaluated by p-value, which represents the significance level to reject the null hypothesis that earthquakes occur randomly irrespective of the tidal phase angle. As a result of analysis, no correlation was found for the data set including all the earthquakes. However, we found a systematic pattern in the temporal variation of the tidal effect; the p-value significantly decreased preceding the occurrence of M ≥ 4.5 earthquakes, and it recovered a high level afterwards. We note that those M ≥ 4.5 earthquakes were considerably larger than the normal background seismicity in the study area. The frequency distribution of tidal phase angles in the pre-event period exhibited a peak at the phase angle where the tidal shear stress is at its maximum to accelerate the fault slip. This indicates that the observed small p-value is a physical consequence of the tidal effect. We also found a distinctive feature in the spatial distribution of p-values. The small p-values appeared just beneath the strongly coupled portion of the plate interface, as inferred from the seismicity rate change in the past few years.  相似文献   

On the causes of glacial inception at 116 kaBP     

M. Yoshimori  M. Reader  A. Weaver  N. McFarlane 《Climate Dynamics》2002,18(5):383-402

To explore processes involved in glacial inception at 116 kaBP, the response of an atmospheric general circulation model (AGCM) to changes in lower boundary conditions is investigated. Two 116 kaBP experiments are conducted to examine the importance of sea surface conditions (sea surface temperature and sea ice distribution): one with the present-day sea surface conditions, and the other with 116 kaBP sea surface conditions. These two different sea surface conditions are obtained from simulations using an earth system climate model of intermediate complexity. Perennial snow cover occurred over the Canadian Archipelago under 116 kaBP orbital and CO₂ forcing with present-day "warm" sea surface conditions, and further expanded over northeastern Canada when 116 kaBP "cool" sea surface conditions were applied. The net positive accumulation in northeastern Canada, with little in Alaska, is in good agreement with geological records. Two additional 116 kaBP experiments are conducted to examine the combined importance of sea surface conditions and land surface conditions (vegetation): one with the present-day sea surface and modified land surface conditions, and the other with 116 kaBP sea surface and modified land surface conditions. Modifying vegetation, based on cooling during summer induced by 116 kaBP sea surface conditions, leads to much larger areas of perennial snow cover. Only when 116 kaBP sea surface conditions are applied, is a realistic global net snow accumulation rate obtained. Contrary to the earlier ice age hypothesis, our results suggest that the capturing of glacial inception at 116 kaBP requires the use of "cooler" sea surface conditions than those of the present climate. Also, the large impact of vegetation change on climate suggests that the inclusion of the vegetation feedback is important for model validation, at least, in this particular period of Earth history.  相似文献   

Statistical test of the tidal triggering of earthquakes: contribution of the ocean tide loading effect   总被引：19，自引：0，他引：19  

Hiroshi Tsuruoka  Masakazu Ohtake  Haruo Sato 《Geophysical Journal International》1995,122(1):183-194

  相似文献   

Seismic subsidence near the source region of the 1662 Kanbun Hyuganada Sea earthquake: Geochemical,stratigraphical, chronological,and paleontological evidences in Miyazaki Plain,southwest Japan     

Masakazu Niwa  Takanobu Kamataki  Hideki Kurosawa  Yoko Saito‐Kokubu  Masafumi Ikuta 《Island Arc》2020,29(1)

  相似文献   

Provenance identification based on EPMA analyses of heavy minerals: Case study of the Toki Sand and Gravel Formation,central Japan     

Mayuko Shimizu  Naomi Sano  Tadamasa Ueki  Tetsuya Komatsu  Ken‐ichi Yasue  Masakazu Niwa 《Island Arc》2019,28(2)

  相似文献   

Classification of Vertical Wind Speed Profiles Observed Above a Sloping Forest at Nighttime Using the Bulk Richardson Number   总被引：5，自引：0，他引：5  

Hikaru?KomatsuEmail author  Norifumi?Hotta  Koichiro?Kuraji  Masakazu?Suzuki  Taikan?Oki 《Boundary-Layer Meteorology》2005,115(2):205-221

Wind speed profiles above a forest canopy relate to scalar exchange between the forest canopy and the atmosphere. Many studies have reported that vertical wind speed profiles above a relatively flat forest can be classified by a stability index developed assuming wind flow above a flat plane. However, can such a stability index be used to classify vertical wind speed profiles observed above a sloping forest at nighttime, where drainage flow often occurs? This paper examines the use of the bulk Richardson number to classify wind speed profiles observed above a sloping forest at nighttime. Wind speed profiles above a sloping forest were classified by the bulk Richardson number Ri _B . Use of Ri _B distinguished between drainage flow, shear flow, and transitional flow from drainage flow to shear flow. These results suggest that Ri _B is useful to interpret nighttime CO₂ and energy fluxes above a sloping forest. Through clear observational evidence, we also show that the reference height should be high enough to avoid drainage-flow effects when calculating Ri _B .  相似文献