Geochemical morphology of the North Mid-Atlantic Ridge, 10 deg - 24 deg N: Trace element-isotope complementarity

Details Geochemical morphology of the North Mid-Atlantic Ridge, 10 deg - 24 deg N: Trace element-isotope complementarity Geochemical morphology of the North Mid-Atlantic Ridge, 10 deg - 24 deg N: Trace element-isotope complementarity

Dec 1993

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1993e%26psl.120..443d&link_type=abstract

Earth and Planetary Science Letters (ISSN 0012-821X), vol. 120, no. 3-4, p. 443-462

Other

58

Geochemistry, Geomorphology, Isotopic Labeling, Mid-Ocean Ridges, Trace Elements, Atlantic Ocean, Basalt, Earth Mantle, Rare Earth Elements, Strontium Isotopes

Scientific paper

The new data presented here from a 10-24 deg N segment of the North Mid-Atlantic Ridge show that this segment is the most depleted of the 10-70 deg N ridge section. They also show the existence of: (1) a geochemical gradient from the 14 deg N anomaly to 17 deg 10 min N; (2) a very depleted mantle source (the lowest Sr isotopic ratios found so far in the North Atlantic); and (3) a geochemical limit located at about 17 deg 10 min N without any obvious relation with any structural feature. The 15 deg 20 min N fracture zone does not show any relationship with respect to this gradient. The basalts located north of 17 deg 10 min N have very homogeneous features, which allow their characteristics to be averaged and they are defined as normal mid-ocean ridge basalts. The basaltic glasses located south of 17 deg 10 min N present a wide spectrum of isotopic compositions and extended rare earth element patterns (from depleted to enriched). Despite this, they have a constant K/Nb of 233 +/- 9 (1s(sub M), n = 18) whereas this ratio is 344 +/- 29 north of 17 deg 10 min N. These observations illustrate the strong coherence of behavior between K and Nb (Ta) during the petrogenic processes involved in the generation of these mid-ocean ridge basalts and also their fractionation during previous mantle processes. Possible interpretations of mixing processes are discussed and sources at the ridge segment scale are favoured. However, when looking in detail, local heterogeneities are still common and can even be traced back off-axis to 115 my. Placed in the context of the North Atlantic Ridge from 10 deg to 70 deg N, the Sr isotopic ratios reveal the Azores superstructure (23-50 deg N), whereas the trace element ratios (La/Sm-Nb/Zr) trace the second-order structures (33-40 deg N, 42-48 deg N) superimposed on the superstructure. This study illustrates the complementarity of information given by certain well chosen trace element ratios on the one hand and by isotopic ratios on the other. Since there is evidence of decoupling between isotopic ratios and/or trace element ratios, it introduces the notion of complementary 'chemical memory' as recorded by a given type of trace element ratio or a given type of isotopic ratio.

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