The Stardalur magnetic anomaly, SW-Iceland Figure 1. Outline map of western Iceland, show- ing approximate locations of several large mag- netic anomalies found by Sigurgeirsson (1970a, 1979). Sk: Mt. Skálafell, St: Stardalur, F: Fer- stikla, Hv: Hvanneyri, Ha: Mt. Hafnarfjall, B: Breiðakinnarsandur. Prominent negative anoma- lies also occur between Reykjavík (R) and Kjal- arnes (K), see Jónsson and Kristjánsson (2002). The position of the main anomaly peak within the Stardalur caldera is shown with a cross in the in- set. The outlines of the Hafnarfjall central vol- cano and two calderas within it (from Jóhannes- son and Sæmundsson, 2009) are also shown. – Kort af Vesturlandi. Nokkrir staðir þar sem óvenju mikil segulsviðsfrávik komu fram í flugmælingum Þorbjörns Sigurgeirssonar eru merktir. Einnig er sýnd afstaða hámarks-segulfráviksins í Stardal til öskjubrúnar þar, og útlínur Hafnarfjalls-megin- eldstöðvarinnar með tveim öskjum. tiary lavas in Iceland where F (the magnitude of F) is currently close to 50 µT and the average suscep- tibility is about 0.025 SI units, the average induced magnetization has an intensity Mi of around 1 Am−1. The other vector quantity is remanent magnetization (remanence, Mr) which has generally originated in part during cooling of the material from its Curie point (transition temperature to ferromagnetic behavior) to a much lower temperature. This is called thermal re- manence, TRM. Another way of acquiring remanence is through the growth of new magnetic minerals in the material (chemical remanence, CRM). In a cool- ing lava, these two processes may well operate more or less simultaneously, giving rise to thermo-chemical remanence (TCRM). Additionally, remanent magneti- zation often builds up gradually in a material when it is in an external magnetic field of constant direction. The time constant for this buildup (which generates a viscous remanence, VRM) can be from seconds to millions of years. For a rock in situ, all these com- ponents constitute its natural remanence (NRM). In exposed relatively unaltered Tertiary lavas in Iceland, the arithmetic average NRM intensity Mr is about 4 Am−1 (Kristjánsson, 2002). It is most commonly dominated by TRM which can be either in a direc- tion close to that of the present geomagnetic field, or JÖKULL No. 63, 2013 3

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