Vertical distribution of smaller macrobenthos and larger meiobenthos in the sediment profile in the deep-sea system of Suruga Bay (central Japan)

The vertical distribution of benthic organisms in the sediment profile was studied using horizontally sliced sediments collected at five stations at depths from 115 to 472 m in Suruga Bay, central Japan. Using sieves of 1.0 and 0.5 mm mesh, benthic organisms were divided into two size classes, smaller macrobenthos (>1mm, <1g wet weight) and larger meiobenthos (1.0 mm0.5 mm). The maximum depth of vertical distribution of organisms in the sediment profile was expressed by the 95 % intercept of the cumulative % curve of the number of individuals drawn with respect to depth in the sediment. It has long been supposed that benthic animals are concentrated in the surface centimeters of sediment in the deep-sea system, and the present study clearly substantiated this. Most benthic organisms of both of these two size classes were concentrated in the upper 5 cm of sediment. The vertical distribution was almost always deeper in the case of smaller macrobenthos than for larger meiobenthos. However the difference could not be substantiated statistically since the number of samples was insufficient. The maximum depth indices of polychaetes were found to be significantly larger than those of crustaceans in the case of macrobenthos, while in the case of meiobenthos, the difference was not significant. The maximum depth index of all benthic organisms was positively and significantly correlated with water-depth and the possible cause for this relationship is discussed.     

Quantitative studies on the smaller macrobenthos inhabiting various topographical environments around the Sagami bank in the deep-sea system of Sagami Bay

A survey was made in an area of complicated topography within the deep-sea system of Sagami Bay. Samples were obtained quantitatively with the Smith-McIntyre bottom-sampler of 1/10 m² and were washed through a screen of 1.0 mm mesh. The biomass, the number of individuals and the number of species were studied at each station in relationship to submarine topography. All the items showed more or less parallel features in three topographical environments. High figures were found on the top of the bank and low ones in the canyon, while those values obtained in the sloping environment were intermediate and variable. The percent composition of the quantitatively important animal groups was rather constant throughout the top of the bank, and in this hahitat the faunal diversity was higher than in the others. From the distributional patterns of the species, and also from the species composition and dominancy at each station, the benthic communities of the bank-top and of the canyon were known to be distinct. In the sloping environment, however, the benthic assemblages at some stations were related to the bank-top community, either being its impoverished phase or with several elements peculiar to the slope, while at the remaining stations they were rather peculiar but related to the canyon community. All the aspects of the benthic ecology mentioned above were found to be closely related, both in their general and special features, to the nature of the sediments, in which three major types were recognized corresponding to the above three topographical environments. From the nature of the sediment, water movement, if any, can be expected on the top of the bank, and this is reflected in the preponderance of plankton- and/or ceston feeders making up this benthic community. Within the canyon, there were found the impoverishment of benthic community which is supposed to be due to the stagnant environment. The biomasses of the whole area were compared to those in other regions in the form of cumulative curves. In the deep-sea system of Sagami Bay which is well surrounded by land, the biomasses were only slightly lower than those of the shallow-sea system on the shelves in neighbouring regions, and those of a shallow enclosed bay were an order of magnitude higher than these figures. Those in the offshore parts of the continental shelf, remote from the coast, were nearly an order of magnitude lower. This work is carried out as a part of JIBP-PM Project     

How hydrological factors initiate instability in a model sandy slope

Knowledge of the mechanisms of rain‐induced shallow landslides can improve the prediction of their occurrence and mitigate subsequent sediment disasters. Here, we examine an artificial slope's subsurface hydrology and propose a new slope stability analysis that includes seepage force and the down‐slope transfer of excess shear forces. We measured pore water pressure and volumetric water content immediately prior to a shallow landslide on an artificial sandy slope of 32°: The direction of the subsurface flow shifted from downward to parallel to the slope in the deepest part of the landslide mass, and this shift coincided with the start of soil displacement. A slope stability analysis that was restricted to individual segments of the landslide mass could not explain the initiation of the landslide; however, inclusion of the transfer of excess shear forces from up‐slope to down‐slope segments improved drastically the predictability. The improved stability analysis revealed that an unstable zone expanded down‐slope with an increase in soil water content, showing that the down‐slope soil initially supported the unstable up‐slope soil; destabilization of this down‐slope soil was the eventual trigger of total slope collapse. Initially, the effect of apparent soil cohesion was the most important factor promoting slope stability, but seepage force became the most important factor promoting slope instability closer to the landslide occurrence. These findings indicate that seepage forces, controlled by changes in direction and magnitude of saturated and unsaturated subsurface flows, may be the main cause of shallow landslides in sandy slopes. Copyright © 2013 John Wiley & Sons, Ltd.     

Volcanic activity related to the formation of the Kuroko-type deposits in the Kosaka district,Japan

In the Miocene Kosaka formation of NE-Japan, submarine volcanic sedimentary deposits of the Kuroko-type occur. This formation consists mainly of volcanics which erupted in a submarine environment. The Kosaka Volcano was built up by nine or more volcanic events of a single eruptive cycle. The mode of eruption during a representative single eruptive cycle changed as follows: The Uwamuki tuff breccia is a contact product between dacitic magma and the sea water. Dacitic magma pushed the Motoyama dacite dome upward, as a result of the decrease in vesicularity and perhaps also in temperature. Next, a steam explosion occurred at a flank of this lava dome. The hydrothermal activity which began in this steam explosion center is responsible for the formation of the Kuroko-type Cu-Zn-Pb-mineral deposits. Similar examples of a single eruptive cycle as at Kosaka are also found in Quaternary terrestrial volcanoes of Japan.

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Zusammenfassung Submarin-vulkanisch-sedimentäre Lagerstätten des Kuroko-Typs kommen in der miozänen Kosaka-Formation vor, wo im letzten Jahrhundert der Name Kuroko zuerst angewandt wurde. Diese Formation besteht hauptsächlich aus submarinen Vulkaniten. Der Kosaka-Vulkan wurde in mindestens neun Ausbruchzyklen aufgebaut. Die Art der Eruption änderte sich während eines typischen Einzelausbruchs folgendermaßen: Die Uwamuki Tuff-Brekzie entstand durch Kontaktwirkung zwischen dazitischem Magma und Seewasser. Eine Abnahme des Gasgehaltes und vielleicht auch der Temperatur führten zur oberflächennahen Intrusion des Motoyama Dazitdoms. An einer Flanke dieses Lavadoms kam es zur Dampfexplosion. Die Hydrothermaltätigkeit, die in diesem Dampfexplosionszentrum begann, ist verantwortlich für die Bildung der Minerallagerstätten vom Kuroko-Typ. Ähnliche Beispiele eines Ausbruchszyklus vom Kosaka-Typ wurden ebenfalls in quartären terrestrischen Vulkanen in Japan gefunden, wobei hier keine Minerallagerstätten des Kuroko-Typs vorkommen.

     

Advancing Global Marine Biogeography Research with Open‐source GIS Software and Cloud Computing

Across many scientific domains, the ability to aggregate disparate datasets enables more meaningful global analyses. Within marine biology, the Census of Marine Life served as the catalyst for such a global data aggregation effort. Under the Census framework, the Ocean Biogeographic Information System was established to coordinate an unprecedented aggregation of global marine biogeography data. The OBIS data system now contains 31.3 million observations, freely accessible through a geospatial portal. The challenges of storing, querying, disseminating, and mapping a global data collection of this complexity and magnitude are significant. In the face of declining performance and expanding feature requests, a redevelopment of the OBIS data system was undertaken. Following an Open Source philosophy, the OBIS technology stack was rebuilt using PostgreSQL, PostGIS, GeoServer and OpenLayers. This approach has markedly improved the performance and online user experience while maintaining a standards‐compliant and interoperable framework. Due to the distributed nature of the project and increasing needs for storage, scalability and deployment flexibility, the entire hardware and software stack was built on a Cloud Computing environment. The flexibility of the platform, combined with the power of the application stack, enabled rapid re‐development of the OBIS infrastructure, and ensured complete standards‐compliance.     

Culture-dependent and independent analyses of subsurface microbial communities in oil-bearing strata of the Sagara oil reservoir

Abstract   Culture-dependent and independent methods were used to evaluate the microbial communities in cores collected at depths up to 200 m in oil-bearing and oil-free strata near the Sagara oil reservoir near Shizuoka, Japan. Direct microbial counts revealed much higher numbers (2.2 × 10⁴−7.9 × 10⁶/g) of microbes in the oil-bearing strata than in the oil-free zones, where counts were uniform at approximately 1.0 × 10⁴/g. Molecular taxonomic analyses via 16S rRNA gene sequence comparisons showed that the oil-free strata were dominated by members of the γ-Proteobacteria including Pseudomonas , Stenotrophomonas and Sphingomonas , whereas the oil-bearing strata were dominated by a single species closely related to Pseudomonas stutzeri . All archaeal clones were phylogenetically affiliated with the uncultured soil group in Crenarchaeota with the exception of a single phylotype that belonged to the genus Thermococcus . Culture-dependent analysis was carried out by most-probable-number culturing as well as direct plating to determine viable cell counts, using both complex organic substrates or native oil and autotrophic media. Both culture-dependent and independent methods revealed the abundant cultivable member was the aerobic oil-degrading bacterium Pseudomonas stutzeri and neither autotrophs nor anaerobic heterotrophs could be detected in the oil-bearing strata.     

Opening of the Sea of Japan and Kuroko deposit formation

The opening of the Sea of Japan began with the bulge at the margin of the Asian continent at 21 Ma. Crustal subsidence and basaltic eruption prior to Kuroko deposit formation appear to represent the opening event. Between 16.5 to 15.5 Ma was the most probable time of the counterclockwise rotation of NE Japan. Kuroko ore formation is believed to have taken place between 15.4 and 15.2 Ma based on geological evidence and fossil ages. It is proposed that Kuroko deposits formed in a weakly extensional environment at the waning stage of opening of the Sea of Japan. This may be the only model which can account for the occurrence and simultaneous formation of Kuroko deposits in Japan. The process can be ascribed to decreasing porosity of the crust due to the stress change, most commonly from extensional to compressional.     

Use of spectral data in Markov chain model for crop yield forecasting

Crop yield is mainly dependent on weather, soil and technological inputs. Yield forecasting models have been developed mainly using multiple regression techniques based on biometrical characters of the plants and/or weather parameters. Matiset al. (1985) proposed another approach of crop yield modelling using Markov Chain theory based on biometrical characters. The integration of remote sensing with other technologies has provided an immense scope to improve upon the existing crop yield models. In the present study, multi date spectral data during crop growth period was used in Markov Chain Model to forecast wheat yield. The results indicate that the use of spectral data near the maximum vegetative growth of wheat crop improves the efficiency and reliability of yield forecast about a month before its actual harvest.