Fig. 3. Rock-generator magne- tometer of A. Brynjólfison and T. Sigurgeirsson, constructed at Copenhagen University in 1954. Samples were fixed inside the inner ring and the outer ring was then rotated by means of an ex- temal motor. An induced voltage signal was then fed to a mirror galvanometer through a commu- tator. On the right, one-half of a mu-metal screen surrounding the pickup coil. Base of instrument is 33 cm across. Photo L. Kr. 1981. Mynd3. Bergsegulmœlir Ara Bynj- ólfssonar og Porbjöms Sigurgeirsson- ar. •n lavas was also carried out, chieíly by Brynjolfs- son. Thus, inconsistencies in NRM directions within lavas were shown to be due to V. R. M. acquired in the earth’s field over a long period of time. The effect of VRM in these rocks could be eliminated by demagnetizing in a peak a-c field of 100 Oe or so; a negative correlation between the VRM intensity and the stability of primary re- manence was also demonstrated. This was the first successful application of alternating field de- magnetization to actual geological strata. Brynjoljsson (1957) measured the remanence directions in samples of 25 dated Recent lavas from unspecified locations in Iceland, and plotted a secular variation path from these. UTRECHT GROUP M. G. Rutten (see above) continued his lield mapping in Iceland into the late fifties, and some of his later papers include paleomagnetic polarity re- sults or discussions of these (Rutten 1960, Rutten and IVensink 1959, 1960a,b). Rutten and Wensink (1960a) pointed out that cold climate deposits occur in the N2 zone of NE-Iceland and hence that glacial climates may have set in earlier here than in Europe. (A similar conclusion was being considered on different grounds by Einarsson (1957a,1959)). They suggested that the R1/N2 boundary should be used as a global definition of the base of the Quater- nary. Rutten's mapping in Iceland cannot be said to be of lasting value. His stratigraphic studies in Iceland were based on concepts like the “Graue Stufe“, which are now discounted (see e.g. Piper (1973b)); he also assumed that N2 covered most or all of the Pliocene, R2 and N3 the Miocene, and R3, N4most of the Oligocene. Along with a party ofstudents, H. Wensink (1964, 1965) carried out field mapping of polarity in basalts during stratigraphic studies in Jökuldalur, Fljótsdalur, Tjörnes and Vopnafjörður. 'I’he most extensive effort was in Jökuldalur, and included the sampling of 16 flows for laboratory magnetic mea- surements from asequence injökulsá and Hnjúksá. Not all these samples (6 per fiow) were demagnetiz- ed. YVensink noted the presence of short “extra” polarity zones within the R1 and N2 in Jökuldalur and elsewhere. Such short zones were just then being reported from localities in Africa and the U. S.,and were named “events“, as distinct from the major geomagnetic epochs. The four youngest epochs and some of these events were delineatcd and named in 1964-65 (see review by Watkins, 1972). In the very first paper to report radiometric (K- Ar) dates from Iceland, McDougall and Wensink (1966) confirmed that R1 and N2 in Jökuldalur- corresponded to the lower Matuyama and the Gauss epoch respectively. They also dated the possibly split normal event in R1 at 1.6 M. y., the R1/N2 boundary at 2. 5 M. y. and a lavaovcrlain by JÖKULL 32. ÁR 95

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