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Main Authors: Martinez-Ruiz, Francisca C, Comas, Maria C, Alonso, Belen
Format: Dataset Open Access
Language:en
Published: PANGAEA 1999
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Online Access:https://doi.org/10.1594/PANGAEA.805348
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author Martinez-Ruiz, Francisca C
Comas, Maria C
Alonso, Belen
author_facet Martinez-Ruiz, Francisca C
Comas, Maria C
Alonso, Belen
collection Datos científicos de ciencias marinas y ambientales
contents Upper Miocene to Pleistocene hemipelagites and resedimented facies recovered at Holes 976B and 977A (Leg 161) in the Alboran Basin consist mainly of biogenic and detrital components, with a minor contribution of neoformed mineral phases. Diagenetic processes have not obliterated the primary deposition signal, and therefore detrital components (quartz, feldspar, detrital dolomite, rock fragments, and clays) provide information about source rocks and provenances. No major bulk or clay mineralogy differences were recognized between resedimented and hemipelagic facies; in fact, similar mineral assemblages in both types of facies suggest common source rocks. However, mineral abundance fluctuations can be related to climate variations and tectonic factors, as the main controls of sediment fill of this basin. A marked increase in smectites in Messinian sediments suggests an extensive development of soils during that time, probably favored by the alternation of wet and dry climate episodes and the relative aridification of the Mediterranean borderlands. A notable increase in detrital components suggests a sea-level fall and/or tectonic uplift during the late Pliocene. The significant increase in detrital dolomite in the uppermost Pliocene deposits suggests the uplift of dolomite-rich rocks as source areas. Mineral components in Pleistocene sediments indicate increasing tectonic stability, and clay-mineral fluctuations during the Pleistocene can be related not only to tectonic events, but also to alternating cooling and warming periods.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_805348
institution PANGAEA
language en
publishDate 1999
publisher PANGAEA
record_format pangaea
spellingShingle Mineralogy, geochemistry and selected chemical formulas of sediments from ODP Holes 161-986B and 161-977A
Martinez-Ruiz, Francisca C
Comas, Maria C
Alonso, Belen
Ocean Drilling Program; ODP
Upper Miocene to Pleistocene hemipelagites and resedimented facies recovered at Holes 976B and 977A (Leg 161) in the Alboran Basin consist mainly of biogenic and detrital components, with a minor contribution of neoformed mineral phases. Diagenetic processes have not obliterated the primary deposition signal, and therefore detrital components (quartz, feldspar, detrital dolomite, rock fragments, and clays) provide information about source rocks and provenances. No major bulk or clay mineralogy differences were recognized between resedimented and hemipelagic facies; in fact, similar mineral assemblages in both types of facies suggest common source rocks. However, mineral abundance fluctuations can be related to climate variations and tectonic factors, as the main controls of sediment fill of this basin. A marked increase in smectites in Messinian sediments suggests an extensive development of soils during that time, probably favored by the alternation of wet and dry climate episodes and the relative aridification of the Mediterranean borderlands. A notable increase in detrital components suggests a sea-level fall and/or tectonic uplift during the late Pliocene. The significant increase in detrital dolomite in the uppermost Pliocene deposits suggests the uplift of dolomite-rich rocks as source areas. Mineral components in Pleistocene sediments indicate increasing tectonic stability, and clay-mineral fluctuations during the Pleistocene can be related not only to tectonic events, but also to alternating cooling and warming periods.
title Mineralogy, geochemistry and selected chemical formulas of sediments from ODP Holes 161-986B and 161-977A
topic Ocean Drilling Program; ODP
url https://doi.org/10.1594/PANGAEA.805348