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Long-term monitoring of the sedimentary processes in the central part of Sagami Bay, Japan: rationale, logistics and overview of results |
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| Authors: | Hiroshi Kitazato Takeshi NakatsukaMotohiro Shimanaga Jota KandaWonn Soh Yoshihisa KatoYoshihiro Okada Akio YamaokaToshiyuki Masuzawa Koji SuzukiYoshihisa Shirayama |
| Institution: | a Department of Life and Earth Sciences, Shizuoka University, Ohya 836, Shizuoka 422-8529, Japan b Low Temperature Research Institute, Hokkaido University, Sapporo 060-0819, Japan c Marine Ecology Section, Ocean Research Institute, Tokyo University, Minamidai 1-15-1, Nakano Ward, Tokyo 164-8639, Japan d Marine Chemistry Section, Tokyo University of Fisheries, Kohnan 1, Minato Ward, Tokyo 108-8477, Japan e Deep-Sea Research Department, JAMSTEC, Natsushima-cho 2-15, Yokosuka 237-0061, Japan f School of Oceanography, Tokai University, Orido 3-20-1, Shimizu 424-8610, Japan g Institute for Hydrospheric-Atmospheric Sciences, Nagoya University, Nagoya 464-8601, Japan h Seto Marine Biological Laboratory, Kyoto University, Shirahama-cho 459, Wakayama 649-2211, Japan i Institute for Frontier Research on Earth Evolution, Japan Marine Science and Technology Center, Natsushimacho 2-15, Yokosuka 237-0061, Japan |
| Abstract: | Deep-sea benthic ecosystems are mainly sustained by sinking organic materials that are produced in the euphotic zone. “Benthic-pelagic coupling” is the key to understanding both material cycles and benthic ecology in deep-sea environments, in particular in topographically flat open oceanic settings. However, it remains unclear whether “benthic-pelagic coupling” exists in eutrophic deep-sea environments at the ocean margins where areas of undulating and steep bottom topography are partly closely surrounded by land. Land-locked deep-sea settings may be characterized by different particle behaviors both in the water column and in relation to submarine topography. Mechanisms of particle accumulation may be different from those found in open ocean sedimentary systems. An interdisciplinary programme, “Project Sagami”, was carried out to understand seasonal carbon cycling in a eutrophic deep-sea environment (Sagami Bay) with steep bottom topography along the western margin of the Pacific, off central Japan. We collected data from ocean color photographs obtained using a sea observation satellite, surface water samples, hydrographic casts with turbidity sensor, sediment trap moorings and multiple core samplings at a permanent station in the central part of Sagami Bay between 1997 and 1998. Bottom nepheloid layers were also observed in video images recorded at a real-time, sea-floor observatory off Hatsushima in Sagami Bay. Distinct spring blooms were observed during mid-February through May in 1997. Mass flux deposited in sediment traps did not show a distinct spring bloom signal because of the influence of resuspended materials. However, dense clouds of suspended particles were observed only in the spring in the benthic nepheloid layer. This phenomenon corresponds well to the increased deposition of phytodetritus after the spring bloom. A phytodetrital layer started to form on the sediment surface about two weeks after the start of the spring bloom. Chlorophyll-a was detected in the top 2 cm of the sediment only when a phytodetritus layer was present. Protozoan and metazoan meiobenthos increased in density after phytodetritus deposition. Thus, “benthic-pelagic coupling” was certainly observed even in a marginal ocean environment with undulated bottom topography. Seasonal changes in features of the sediment-water interface were also documented. |
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