Abstract
Large directional changes of remanent magnetization within lava flows that cooled during geomagnetic reversals have been reported in several studies. A geomagnetic scenario implies extremely rapid geomagnetic changes of several degrees per day, thus difficult to reconcile with the rate of the earth's core liquid motions. So far, no complete rock magnetic model provides a clear explanation. We revisited lava flows sandwiched between an underlying reverse and an overlying normal polarity flow marking the last reversal in three distinct volcanic sequences of the La Palma Island (Canary archipelago, Spain) that are characterized by a gradual evolution of the direction of their remanent magnetization from bottom to top. Cleaning efficiency of thermal demagnetization was not improved by very rapid heating and cooling rates as well as by continuous demagnetization using a Triaxe magnetometer. We did not observe partial self-reversals and minor changes in magnetic grain sizes are not related to the within-flow directional changes. Microscopic observations indicate poor exsolution, which suggests post-cooling thermochemical remagnetization processes. This scenario is strongly reinforced by laboratory experiments that show large resistance to thermal demagnetization when thermoremanence was acquired over a long time period. We speculate that in the present situation exsolution was reactivated during in field reheating and yielded formation of new magnetite, yet magnetic domain state rearrangements could also play a role. Initial reheating when the overlying flow took place, albeit moderate (less than 200-300 • C), was enough to produce overlying components with significantly higher unblocking temperatures.
Highlights
Thermoremanent magnetization (TRM) acquisition by lava flows is well understood and described by theory (Neel 1955)
Continuous thermal demagnetization performed with a Triaxe magnetometer revealed that a residual viscous remanent magnetization (VRM) was mixed with the primary TRM that could not be properly isolated after stepwise thermal demagnetization
Lava flows preceding the last reversal in two sections from the La Palma Island (Spain) have been remagnetized through a large spectrum of unblocking temperatures yielding apparent erroneous transitional directions
Summary
Thermoremanent magnetization (TRM) acquisition by lava flows is well understood and described by theory (Neel 1955). The first observation by Hoffman (1984) reported variable remanence directions within a transitional flow from the Oligocene Liverpool volcanics in eastern Australia. In this case, post emplacement oxidation could be evidenced by thermal demagnetization. The direction of remanence changes within a flow that is sandwiched between the last flow that recorded the former polarity and the first flow with new polarity Assuming that these changes occurred during lava cooling, the reversal would have lasted a few months at most, implying field changes of the order of 1◦ d−1. We add detailed microscopic examinations along with remagnetization experiments that emphasize the role played by small reheating of the overlying flow in presence of partial exsolution
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