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1.
Kosuke Mori Takeshi Matsuno Tomoharu Senjyu Naoki Hirose In-Seong Han 《Journal of Oceanography》2009,65(3):301-310
Temporal variations in temperature and salinity observed in 2004 were investigated on a short time scale in the Tsushima Strait.
The data were obtained by long-term in situ measurements at Mitsushima and Futaoi Island using an instrument equipped with
a piston-type wiper to avoid biofouling. In addition, the temperature and salinity values of the surface layer obtained by
a commercial ferryboat between Hakata and Busan were used to investigate their spatiotemporal variations. Temperature and
salinity variations with a time scale of several days had a negative correlation in the summer. This evidence suggests that
a warm and less saline water mass, which is considered to be mainly the Changjiang Diluted Water (CDW), flowed intermittently
through the Tsushima Strait in summer. In late July 2004, a large low-salinity water mass was detected in the Tsushima Strait.
At that time, the freshwater transport through the Tsushima Strait transiently reached about 12 × 104 m3s−1, which is estimated from observed acoustic Doppler current profiler (ADCP) data along a ferryboat line and inferred salinity
profiles. This estimated value is more than double the maximum of the climatological monthly mean of the Changjiang discharge.
Furthermore, salinity and surface current data obtained by high frequency ocean radar (HF radar) indicate that water properties
at Mitsushima may occasionally represent part of the water flowing through the western channel via a countercurrent, although
Mitsushima is geographically located in the eastern channel. 相似文献
2.
Tomoharu Miyamoto Reiko Hamamoto Takeru Yanagi 《Geochimica et cosmochimica acta》2010,74(5):1471-1484
We analyzed Rb-Sr-Nd isotope ratios of mineral dust in total aerosol load collected with rainwater continuously from 1998 to 2006 at the summit of Mt. Sefuri, northern Kyushu, southwestern Japan. During this period, the total mass of the dust generally increased in late winter, peaked in early spring, and then decreased.87Sr/86Sr in atmospheric mineral dust varied from 0.7096 to 0.7180, and εNd(0)CHUR from −19.9 to −3.5. During heavy deposition periods, the dust had high 87Sr/86Sr isotope ratios and low to middle εNd(0)CHUR values, respectively. These compositions are comparable to those of sand and loess in arid areas of Northeast China, Takla Makan and Western Beijing. Such particles were transported by westerlies from those areas to northern Kyushu in winter and spring. In summer and autumn, the isotopic compositions of the dust varied greatly; however, during light deposition periods, the Sr isotope composition was low. In these seasons, the contributions to the dust from Japanese soils and volcanic ash, transported by southern winds, were relatively larger than in winter and spring because of decreased mineral dust particle transport from the continent. Nevertheless, fine sandy desert particles and loess in general accounted for most mineral dust deposition in northern Kyushu year-round, even in summer. Local soils derived from weathered granite and volcanic ash were minor components only.The net mass of water-insoluble inorganic matter in the collected mineral dust fluctuated from year-to-year; deposition on Mt. Sefuri was relatively large before 2001, decreased from 2002 to 2005, and increased greatly in spring 2006. These year-to-year differences probably reflected changes in the strength of the westerlies and in climate conditions in the arid source areas. 相似文献
3.
Keiichiro Fukazawa Tomoharu Aoyama Tatsuki Ogino Kiyohumi Yumoto 《Journal of Atmospheric and Solar》2010,72(13):1019-1023
It is well known that the cross polar cap potential is saturated under a strong interplanetary electric field and is often said to be related to the ionospheric currents. To investigate the other factors influencing this phenomenon, a global magnetohydrodynamics simulation not including the feedback from the ionosphere to the magnetosphere was conducted. The simulation results showed that an increase in the southward IMF causes a smaller increase in the cross polar cap potential than that caused by an increase in the solar wind velocity. This difference was caused by the transportation of reconnected magnetic field lines towards the tail. 相似文献
4.
Toshiharu Kojiri Tomoharu Hori Junpei Nakatsuka Teng-Sheng Chong 《Physics and Chemistry of the Earth》2008,33(5):304-311
This research assesses the severity of future water scarcity and its impact on the growth of human civilization through system dynamics modeling of the world at regional level. Six sectors of activities are modeled in each continent to represent the human society. Continental interactions such as migration and trade are also modeled to express the synergy of activities among the various continents. Results of the model simulations from 1960 to 2100 show that water scarcity, unlike other limitations such as nonrenewable resources and persistent pollution, gives severe, detrimental problems within short delays after its occurrence. 相似文献
5.
Tomoharu Senjyu 《Journal of Oceanography》1999,55(2):111-122
In the southern Japan Sea there is a salinity minimum layer between the Tsushima Current Water and the Japan Sea Proper Water.
Since the salinity minimum corresponds to the North Pacific Intermediate Water, it is named the Japan Sea Intermediate Water
(JIW). To examine the source and circulation of JIW, the basin-wide salinity minimum distribution was investigated on the
basis of hydrographic data obtained in 1969. The young JIW, showing the highest oxygen concentration and the lowest salinity,
is seen in the southwestern Japan Sea west of 133°E, while another JIW with lower oxygen and higher salinity occupies the
southeastern Japan Sea south of the subpolar front. Since the young JIW shows high oxygen concentrations, high temperatures
and low densities, the source of the water is probably in the surface layer. It is inferred that the most probable region
of subduction is the subarctic front west of 132°E with the highest oxygen and the lowest salinity at shallow salinity minimum.
In addition, property distributions suggest that JIW takes two flow paths: a eastward flow along the subarctic front and an
southward flow toward the Ulleung Basin. On the other hand, a different salinity minimum from JIW occupies the northern Japan
Sea north of the subarctic front, which shows an apparently higher salinity and high oxygen concentration than JIW. However,
this salinity minimum is considered not to be a water mass but to be a boundary between overlying and underlying water masses.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
6.
Tomoharu?SenjyuEmail author Yutaka?Isoda Takafumi?Aramaki Shigeyoshi?Otosaka Shinzo?Fujio Daigo?Yanagimoto Takashi?Suzuki Kenshi?Kuma Kosuke?Mori 《Journal of Oceanography》2005,61(6):1047-1058
Hydrographic observations have revealed detailed structure of the Bottom Water in the Japan Sea. The Yamato Basin Bottom Water
(YBBW) exhibits higher temperatures and lower dissolved oxygen concentrations than those found in the Japan Basin Bottom Water
(JBBW). Both Bottom Waters meet around the boundary region between the Yamato and the Japan Basins, forming a clear benthic
front. The structure of the benthic front suggests an estuary-like water exchange between both Basins, with the inflow from
the Japan Basin passing under the outflow from the Yamato Basin. It is inferred from the property distributions that the JBBW
flowing into the Yamato Basin is entrained by the cyclonic circulation in the basin, and modified to become the YBBW. Vertical
diffusion and thermal balance in the YBBW are examined using a box model. The results show that the effect of geothermal heating
has about 70% of the magnitude of the vertical thermal diffusion and both terms cancel the advection term of the cold JBBW
from the Japan Basin. The box model also estimates the turnover time and vertical diffusivity for the YBBW as 9.1 years and
3.4 × 10−3 m2s− 1, respectively. 相似文献
7.
Interannual salinity variations in the Tsushima Strait and its relation to the Changjiang discharge 总被引:2,自引:0,他引:2
Tomoharu Senjyu Hirofumi Enomoto Takeshi Matsuno Sigeaki Matsui 《Journal of Oceanography》2006,62(5):681-692
Interannual salinity variations in the Tsushima Strait are investigated on the basis of historical hydrographic data. The
EOF analysis revealed that the most dominant mode is the in-phase salinity variation between the eastern and western channels.
The time coefficients of the EOF first mode in summer show a negative correlation with the Changjiang discharge, which indicates
that salinity in the Tsushima Strait tends to decrease over summer, related to a large discharge of the Changjiang. The eigenvectors
of the first mode are larger in the eastern channel than those in the western channel, though the low salinity water mainly
flows through the western channel. This is because the low salinity water spreads into the eastern channel as well as the
western channel over summers with a large discharge of the Changjiang. The out-of-phase salinity variation between the channels
is extracted as the EOF second mode; this is the predominant variation in the western channel. The time coefficients of the
second mode in summer show no significant correlations to the volume transports through the western channel and the transport
differences between channels. A relationship between the EOF second mode and variations in the wind stress over the East China
Sea is suggested. 相似文献
8.
The time series of dissolved oxygen (DO) concentration in the Japan Sea Proper Water (JSPW) shows clear interdecadal oscillation with about 20-year periodicity since the 1970s. This interdecadal variation in the DO concentration is positively correlated with the Arctic Oscillation (AO) index; the DO concentration tends to be high during a positive AO phase when the East Asian winter monsoon (EAWM) is relatively weak, which is considered to be an unfavorable condition for the JSPW formation. To clarify the discrepancy, the cause of the interdecadal oscillation was investigated using the wind at Wajima and sea surface temperature (SST) in the JSPW formation area. The cold-air outbreaks determined from the wind at Wajima are synchronized with the interdecadal oscillation of the AO; during a positive AO phase the cold-air outbreaks over the Japan Sea are more active, as reported by Isobe and Beardsley (2007). Since the SST in the JSPW formation area is negatively correlated with cold-air outbreaks, the activity of cold-air outbreaks is more important to the JSPW formation than the EAWM, at least on an interdecadal timescale. Significant correlations of the indicator of low pressure migration with the AO and cold-air outbreaks confirm that atmospheric disturbances move frequently into the Japan Sea from the East China Sea in a positive AO phase. A detailed examination of cold-air outbreaks revealed that the passing of atmospheric low pressures temporarily enhances the east-west pressure gradient over the Japan Sea and effectively brings cold air into the JSPW formation area. 相似文献
9.
10.
Abigail Parcasio Cid Syouhei Urushihara Tomoharu Minami Kazuhiro Norisuye Yoshiki Sohrin 《Journal of Oceanography》2011,67(6):747-764
The distribution of Al, Mn, Fe, Co, Ni, Cu, Zn, Cd, and Pb in seawater was investigated on the Bering Sea shelf (56–64°N,
165–169°W) in September 2000. The unfiltered and filtered seawater samples were used for determination of total dissolvable
(TD) and dissolved (D) metals (M), respectively. The TD-M concentrations were generally higher than in the Pacific Ocean.
TD-Cd was highest in deep water of the outer shelf domain and dominated by dissolved species. The other TD-M were highest
at stations close to the Yukon River delta and had higher fractions of labile particulate (LP) species that were obtained
as the difference between TD-M and D-M. Dissolved Al, Ni, and Cu were characterized by input from the Yukon River. Dissolved
Mn and Co showed maximums on the bottom of the coastal domain, suggesting influence of sedimentary Mn reduction. The correlations
of D-Zn, D-Cd, and macronutrients indicated their distributions were largely controlled through uptake by microorganisms and
remineralization from settling particles. All these three processes (river input, sedimentary reduction, and biogeochemical
cycle) had an influence on the distribution of D-Fe. D-Pb was fairly uniformly distributed in the study area. The stoichiometry
of D-M in the Bering Sea shelf showed enrichment of Co and Pb and depletion of Ni, Cu, Zn, and Cd compared with that in the
North Pacific. The LP-M/LP-Al ratio revealed significant enrichment of the other eight metals relative to their crustal abundance,
suggesting importance of formation of Fe–Mn oxides and adsorption of trace metals on the oxides. 相似文献