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T. Gamo H. Sakai J. Ishibashi E. Nakayama K. Isshiki H. Matsuura K. Shitashima K. Takeuchi S. Ohta 《Deep Sea Research Part I: Oceanographic Research Papers》1993,40(11-12)
We present evidence for strong hydrothermal activity in the eastern Manus Basin (depth: 1700–2100 m), the existence of large scale triple-layered buoyant plumes at depths of 1100 m (“shallow plume”), 1700 m (“deep plume”), and 1400 m (“middle plume” with less extent than the other two plumes) that were revealed from water column anomalies of CH4, Mn, Al and pH observed in November to December 1990. Judging from the horizontal distribution of these parameters, the deep plume seems to originate from two distinct hydrothermal sites (eastern and western sites) in the research area, the eastern site being visually ascertained with deep-tow observations at the same time. The CH4/Mn ratio (mol mol−1) of the deep plume (0.02–0.05) is the lowest yet observed in hydrothermal plumes. The order of magnitude difference of CH4/Mn ratios between the shallow plume and the deep plume suggests that different kinds of fluid-rock interaction occurred to make the hydrothermal end members for the deep and shallow plumes. The shallow plume, which had an areal extent of more than 50 km, may be an episodic “megaplume”, because it was not recognized in the previous CH4 profiles in 1986, and because it has a similar CH4/Mn ratio as the megaplume observed in the North Fiji Basin. We found that the eastern deep plume is characterized by enormously high aluminium concentrations (0.6– 1.5 μmol kg−1), pH anomalies (0.1) and high Al/Mn ratios (10–17). The endmember fluid for the eastern deep plume may have an unusually low pH value to dissolve this much aluminum during fluid-rock interaction, or this plume may originate from an eruption-influenced fluid. 相似文献
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Movement of the Shuping landslide in the first four years after the initial impoundment of the Three Gorges Dam Reservoir, China 总被引:7,自引:4,他引:3
Fawu Wang Yeming Zhang Zhitao Huo Xuanming Peng Kiminori Araiba Gonghui Wang 《Landslides》2008,5(3):321-329
The Shuping landslide was reactivated by the initial impoundment of the Three Gorges Dam Reservoir, China in June 2003. For
purposes of landslide disaster mitigation in the reservoir area and identification of landslide movement and deformation caused
by reservoir level changes, a monitoring system mainly consisting of drum-style extensometers was installed in the eastern
part of the Shuping landslide. Systematic monitoring was started in August 2004 with installation of 13 extensometers above
the waterline after the initial impoundment. In August 2006, 11 more drum-style extensometers were installed above the high
waterline (175 m) and five flexible extensometers were installed along a longitudinal section in the elongation to low waterline.
In this paper, the monitoring results from August 2004 to July 2007 are presented and the deforming of the Shuping landslide
caused by both reservoir level changes and rainfall is examined. 相似文献
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Yuichiro Kumamoto Takafumi Aramaki Shuichi Watanabe Minoru Yoneda Yasuyuki Shibata Orihiko Togawa Masatoshi Morita Kiminori Shitashima 《Journal of Oceanography》2008,64(3):429-441
In 1995 and 2000, the radiocarbon ratio (Δ14C) of total dissolved inorganic carbon was measured in the Japan Sea where deep and bottom waters are formed within the sea
itself. We found that (1) since 1979, the Δ14C in bottom water below about 2000-m depth in the western Japan Basin (WJB) had increased by about 30‰ by 1995, and (2) the
bottom Δ14C in the WJB did not change between 1995 and 2000. The former finding was due to penetration of surface bomb-produced radiocarbon
into the bottom water owing to bottom ventilation, whereas the latter was caused by stagnation of the bottom ventilation there.
In the eastern Japan Basin (EJB), the bottom Δ14C also increased by about 30‰ between 1979 and 2002. Recent stagnation of the bottom ventilation in the EJB is also suggested
from analyses of constant bomb-produced tritium between 1984 and 1999. The temporal variations of Δ14C, tritium, and dissolved oxygen in the bottom waters indicate that: (1) new bottom water is formed south of Vladivostok in
the WJB only in severe winters; and (2) the new bottom water then follows the path of a cyclonic abyssal circulation of the
Japan Sea, which results in the increases in dissolved oxygen and the transient tracers in the bottom waters in the EJB and
Yamato Basin with an approximate 3-to 6-year time lag. This process is consistent with the spatial variations of Δ14C, bomb-produced 137Cs, and chlorofluorocarbon-11 in the bottom waters of the Japan Sea. 相似文献
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Iron, manganese and aluminum in upper waters of the western South Pacific Ocean and its adjacent seas 总被引:1,自引:0,他引:1
Hajime Obata Kiminori Shitashima Kenji Isshiki Eiichiro Nakayama 《Journal of Oceanography》2008,64(2):233-245
Total dissolvable iron, manganese and aluminum distributions in upper waters were determined in the western South Pacific,
Solomon Sea, Coral Sea, and Tasman Sea. In these oceanic regions, the surface aluminum distributions well reflect the atmospheric
deposition pattern of mineral dust in the western South Pacific reported previously. Surface manganese distributions derive
mainly from lateral transportation from the coastal sediments of western tropical islands. Compared to Mn and Al, the Fe distributions
reflect the nutrient cycle in upper waters. Iron limitation over the vast South Pacific, as revealed by physiological features
of phytoplankton, seems to be caused by low atmospheric dust deposition and low Fe:N ratios in deep waters. In the western
South Pacific, with its unique geographic and oceanographic settings, the local sources of trace metals might considerably
affect their biogeochemical cycles. 相似文献
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