Saved in:
Bibliographic Details
Main Author: Djafari, Djafar
Format: Dataset Open Access
Language:en
Published: PANGAEA 1977
Subjects:
Online Access:https://doi.org/10.1594/PANGAEA.783823
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1867169994637312000
author Djafari, Djafar
author_facet Djafari, Djafar
collection Datos científicos de ciencias marinas y ambientales
contents Manganese-iron accumulates in the Kiel Bay were investigated with regard to their occurence, chemical composition and formation. Three morphologically different types were identified: a) growth on mussels, b) spherical nodules (ca. 1-3 cm) and c) disshaped symetrical and asymetrical nodules (up to 10 cm). Average values from 110 accumulates representing the three types were: Mn 29.3%, Fe 10.0%, Co 77 ppm, Ni 97 ppm, Cu 21 ppm and Zn 340 ppm. Accumulates on mussels showed the highest trace metal concentrations. A growth rate of ca. 0.6 mm/yr for type (a) was estimated. Heavy metal concentrations were determined in ca. 60 sediment and 30 pore water samples, and in 110 Baltic sea water samples. During certain periods, large increases in Mn values (up to 400 (µg/l) were found in the deeper waters. These concentrations develop during periods of strong stagnant conditions in the sediments where dissolution of Mn oxides, and diffusion mobilizes the Mn into the overlying waters. The manganese is then reprecipitated close to the boundary of the O2-enriched surface waters. This critical O2-concentration was found to be 40% saturation. In the Kiel Bay, Mn-Fe-accumulates are found in a zone which marks the upper limit sometimes reached by the deep waters of lower O2-concentration. Additionally, the availability of larger particles (especially stones or mussels) on the sediment surface is necessary. These conditions are met in the Kiel Bay in a water depth of 20-28 m at several places.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_783823
institution PANGAEA
language en
publishDate 1977
publisher PANGAEA
record_format pangaea
spellingShingle (Table 1) Composition of manganese-iron accumulates in the Kiel Bay, western Baltic Sea
Djafari, Djafar
Cobalt; Copper; Description; Grab; GRAB; Iron; Kiel-Bay1974; Kieler Bucht; Manganese; Manganese/Iron ratio; Nickel; Sample amount; Sample type; Zinc
Manganese-iron accumulates in the Kiel Bay were investigated with regard to their occurence, chemical composition and formation. Three morphologically different types were identified: a) growth on mussels, b) spherical nodules (ca. 1-3 cm) and c) disshaped symetrical and asymetrical nodules (up to 10 cm). Average values from 110 accumulates representing the three types were: Mn 29.3%, Fe 10.0%, Co 77 ppm, Ni 97 ppm, Cu 21 ppm and Zn 340 ppm. Accumulates on mussels showed the highest trace metal concentrations. A growth rate of ca. 0.6 mm/yr for type (a) was estimated. Heavy metal concentrations were determined in ca. 60 sediment and 30 pore water samples, and in 110 Baltic sea water samples. During certain periods, large increases in Mn values (up to 400 (µg/l) were found in the deeper waters. These concentrations develop during periods of strong stagnant conditions in the sediments where dissolution of Mn oxides, and diffusion mobilizes the Mn into the overlying waters. The manganese is then reprecipitated close to the boundary of the O2-enriched surface waters. This critical O2-concentration was found to be 40% saturation. In the Kiel Bay, Mn-Fe-accumulates are found in a zone which marks the upper limit sometimes reached by the deep waters of lower O2-concentration. Additionally, the availability of larger particles (especially stones or mussels) on the sediment surface is necessary. These conditions are met in the Kiel Bay in a water depth of 20-28 m at several places.
title (Table 1) Composition of manganese-iron accumulates in the Kiel Bay, western Baltic Sea
topic Cobalt; Copper; Description; Grab; GRAB; Iron; Kiel-Bay1974; Kieler Bucht; Manganese; Manganese/Iron ratio; Nickel; Sample amount; Sample type; Zinc
url https://doi.org/10.1594/PANGAEA.783823