Provenance and accumulation rates of opaline silica,Al, Ti,Fe, Mn,Cu, Ni and Co in Pacific pelagic sediments

Accumulation rates and chemical compositions have been obtained for pelagic sediments for 73 locations in the Pacific and for 11 in the Indian Ocean. The data for the Pacific show that many elements accumulate rapidly close to the continents and slowly in the central part of the ocean. This pattern is interrupted by two major zones of relatively high accumulation rates, one along the Equator and one along the East Pacific Rise. Deposition of opaline silica is almost completely restricted to areas of known high biological productivities at the Equator and at very high latitudes. Cu and Ni show stronger tendencies than Fe and Mn to precipitate with opaline silica. The highest accumulation rates of Fe and Mn in the open Pacific occur along the East Pacific Rise, to some extent also Cu and Ni are enriched there due to volcanic processes. Al and Ti show high accumulation rates only close to the continents; these elements appear to be almost completely terrigenous.Provenance studies of minerogen fractions, using the relations between Fe, Ti, Al and Mn, show that significant quantities of basaltic matter (oceanic crust) are incorporated into the sediments only in areas of very low total sedimentation rates in the vicinity of oceanic island groups such as Polynesia and Hawaii, whereas hydrothermal processes act as a major sediment source only on the East Pacific Rise. Sediments in the north as well as in the southernmost part of the Pacific are nearly entirely terrigenous. A balance estimate of the minerogen fraction of the deep-sea sediments from the open Pacific suggests that between 75 and 95% of all sediments in the Pacific are terrigenous and that submarine weathering (and release of basaltic debris in general) and submarine exhalations each account for only a small fraction of the sediments.