Chemical composition and isotopic ratios of basic lavas from Iceland and the surrounding ocean floor

Major and trace dement data are used to establish the nature and extent of spatial and temporal chemical variations in basalts erupted in the Iceland region of the North Atlantic Ocean. The ocean floor samples are those recovered by legs 38 and 49 of the Deep Sea Drilling Project. Within each of the...

Full description

Bibliographic Details
Main Authors: Wood, D A, Joron, Jean Louis, Treuil, M, Norry, Michael J, Tarney, J
Format: Dataset
Language:English
Published: PANGAEA 1979
Subjects:
38-336
38-337
38-338
38-342
38-343
38-344
38-345
38-348
38-350
49-407
49-408
49-409
Deep Sea Drilling Project
DRILL
Drilling/drill rig
DSDP
Glomar Challenger
Iceland
Leg38
Leg49
MULT
Multiple investigations
North Atlantic/Greenland Sea/RIDGE
North Atlantic/Norwegian Sea
North Atlantic/Norwegian Sea/BASIN
North Atlantic/Norwegian Sea/PLATEAU
North Atlantic/Norwegian Sea/RIDGE
North Atlantic/RIDGE
Greenland
Jan Mayen
Jan Mayen Ridge
Norwegian Sea
Reykjanes
Greenland Sea
North Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.667460
https://doi.org/10.1594/PANGAEA.667460
Description
Summary:Major and trace dement data are used to establish the nature and extent of spatial and temporal chemical variations in basalts erupted in the Iceland region of the North Atlantic Ocean. The ocean floor samples are those recovered by legs 38 and 49 of the Deep Sea Drilling Project. Within each of the active zones on Iceland there are small scale variations in the light rare earth elements and ratios such as K/Y: several central complexes and their associated fissure swarms erupt basalts with values of K/Y distinct from those erupted at adjacent centres; also basalts showing a wide range of immobile trace element ratios occur together within single vertical sections and ocean floor drill holes. Although such variations can be explained in terms of the magmatic processes operating on Iceland they make extrapolations from single basalt samples to mantle sources underlying the outcrop of the sample highly tenuous. 87Sr/86Sr ratios measured for 25 of the samples indicate a total range from 0.7028 in a tholeiite from the Reykjanes Ridge to 0.7034 in an alkali basalt from Iceland and are consistent with other published ratios from the region. A positive correlation between 87Sr/86Sr and Ce/Yb ratios indicates the existence of systematic isotopic and elemental variations in the mantle source region. An approximately fivefold variation in Ce/Yb ratio observed in basalts with the same 87Sr/86Sr ratio implies that different degrees and types of partial melting have been involved in magma genesis from a single mantle composition. 87Sr/86Sr ratios above 0.7028, Th/U ratios close to 4 and La/Ta ratios close to 10 distinguish most basalts erupted in this part of the North Atlantic Ocean from normal mid-ocean ridge basalt (N-type MORB) – although N-type MORB has been erupted at extinct spreading axes just to the north and northeast of Iceland as well as the presently active Iceland-Jan Mayen Ridge. Comparisons with the hygromagmatophile element and radiogenic isotope ratios of MORB and the estimated primordial mantle indicate ...

Similar Items