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11.
G. Bohrmann C. Chin S. Petersen H. Sahling U. Schwarz-Schampera J. Greinert S. Lammers G. Rehder A. Daehlmann K. Wallmann S. Dijkstra H. -W. Schenke 《Geo-Marine Letters》1999,18(4):277-284
Hydrothermal activity in the Central Bransfield Basin revealed an active low-temperature vent field on top of a submarine
volcanic structure. A temperature anomaly was detected and the sea floor showed various patches of white silica (opal-A) precipitate
exposures and some yellow–brown Fe-oxyhydroxide crusts. Enriched dissolved methane concentrations were encountered. Sediment
was near 24°C just after the grab came on deck. No dense population of chemosynthetically based macrofauna known from other
hydrothermal venting areas was present, except for pogonophora. The observations suggest that the sedimented hydrothermal
field at Hook Ridge is a low-temperature end-member branch from a deeper hydrothermal source.
Received: 7 October 1998 / Revision received: 15 January 1999 相似文献
12.
Echo-peak data of outer and normal incidence beams from five different Southern Ocean bottom topographic regions have been analysed. The Rice and Extremal probability density function (PDF) statistical approaches reveal that the seabed roughness is, in general, Gaussian in nature except in the case of the Kainan Maru seamount summit (area D). The outer beams of the Enderby abyssal plain (area C) echo-peak PDF statistics reveal the highest possible large-scale feature dominance. Interestingly, Extremal PDF fit parameters (!) from the Agulhas Basin (area A) show a less dominant large-scale roughness than in the case of area C. Large-scale feature dominance up to 15° beam angle is observed in the case of mixed roughness seabeds such as area B (southwest Indian ridge) and area E (Meteor Rise). No increase in the 30°-beam Extremal PDF parameters is observed in these areas. Maximum microtopographic roughness is documented in area D on the summit of Kainan Maru seamount. The estimated fit parameters using Extremal statistics of outer-beam peak data provide a better understanding of the scattering process. Previously determined power law and volume roughness parameters using composite roughness theory are given for the five different areas. These support the results obtained using Rice and Extremal PDFs. The existence of higher volume roughness parameters and power law parameters for medium-scale roughness, along with dominant microtopographic features, are evident from the results of this study. 相似文献