Kristjánsson andMcDougall (1982). A recent paper by Shaw et al. (1982) continues the Liverpool work on this topic, but it may not take the effects of e.g. secondary alteration sufficiently into account. Schweitzer and Sojjel (1980) have published paleointensity determinations from some post- glacial lava flows. Einarsson (1976), Peirce and Clark (1978), and Kristjánsson and Guðmundsson (1980) studied occurrences cfvery young transitional and reverse lavas in the volcanic zone. RCXIK MAGNETISM Several of the papers already mentioned contain results of rock magnetic investigations. These in- clude thermomagnetic curves, susceptibility re- sults, storage tests for V.R.M. etc., mostly perform- ed in connection with remanence measurements to ascertain the carrier of the remanence and its stability. Icelandic basalts are also represented in some early general compilations of rock magnetic properties in igneous rocks, e.g. that of Tarling (1966) who points out that intensity and suscepti- bility values in rock samples from various areas follow approximately a lognormal frequency distribution. The Imperial College/Liverpool group was in the early sixties studying the relationship between the opaque mineralogy and magnetic properties of igneous rocks. Using samples from various areas including Iceland (collected by J. Hospers and T. Sigurgeirsson) they made major advances towards the understanding of magnetic stability, including the development of a classification index for the oxidation state of opaque iron-titanium minerals as seen in polished section (Ade-Hall 1964, Wilson 1966, Wilson and Haggerty 1967, and others). These papers contain probably the first published electron micro- probe analyses on Icelandic rocks. Later, the Liver- pool group have published important papers on the relation of oxidation state to magnetic stability and other factors, both in their collection of lavas from E-Iceland as a whole (Smith 1967b, Ade-Hall 1969, Ade-Hall and Lawley 1970) and in single units (Watkins and Haggerty 1965, 1968; Smith 1967c, Wilsonetal. 1968). The eílect ol low-temperature hydrothermal al- teration upon the magnetic properties oflavas from Iceland has also been studied in a major paper by Ade-Hall et al. (1971) which demonstrates e. g. that Gurie points in basalts rise during burial in the lava pile. The efiect of alteration on remanence intensity is discussed by Wood and Gibson (1976) and Watkins and Walker (1977). Oxidation state ofopaques in an E-Iceland dyke swarm was investigated by Birdand Piper( 1980). SEDIMENTS AND MISCELLANEOUS After Hospers, thc only detailed study on magne- tic properties in Iceland sediments is that oíGrijjiths et al. (1960) who measured varved clay from Haga- vatn. Measurements on remanence in baked sedi- ments are reported briefiy by Doell (1972, Appen- dix) and Smith (1967a,b). Sediments in the Tertiary sequence have been sampled for magnetic measure- ments by Soviet authors, but only their work on Tjörnes sediments has yet been reported in papers (see above). An Edinburgh University expedition collected mud cores from a few lakes in Iceland for magnetic measurements in 1979. Measurements on the anisotropy ofsusceptibility in Icelandic igneous rock units have been reported by Ellwood andFisk (1977) and Ellwood (1978, 1979). Some polarity measurements from Skagi, N-Ice- land, arementioned by Evertsetal. (1972). Magnetic measurements from Surtsey island are reported by Sigurgeirsson (1974), Carmichael (1974), and Grommé (in press 1982). Some studies of the eflects of dyke intrusion upon the magnetic properties of nearby country rock are included in papers by Kristjánsson (1970), Doell (1972) and Becker (1980). MAGNETIZATION IN ANOMALY INTERPRETATION Magnetization intensity values have not becn rcported in all paleomagnetic papers from Iceland, but this aspect may be important in the interpreta- tion of magnetic anomalies on a local or regional scale. Several papers have been written to emphas- ise intensity measurements. 'fhe first major effort in this field was made by a groupfrom Munich University, who worked mostly in the neovolcanic zone in NE-Iceland. It is review- ed by Angenheisler et al.( 1977) and Becker (1980). Other work includes that of Sigurgeirsson (1970), Kristjansson (1970, 1972, 1976), Kristjansson and Watkins (1977) and Pálmason at al. (1979). These authors have made e. g. magnetic measurements on JÖKULL 32. ÁR 101

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