Leó Kristjánsson area, during a short field course supervised by B.S. Harðarson. Through the kind cooperation of the stu- dents, descriptions of some of these profiles were made available to the author (Á.R. Hjartardóttir, pers. comm. 2004). Grímsson and Símonarson (2008) review results from detailed research on plant fossils and paleo- environments in sediments at localities on the south side of Arnarfjörður. OBJECTIVES AND PROCEDURES OF THE PRESENT STUDY The previous research projects on paleomagnetism re- ferred to above, and most others of that type in Ice- land, have been carried out in cooperation between geologists and geophysicists. For the duration of the sampling in the present project (2004–2008), no geol- ogist was however available to provide mapped pro- files for sampling or to advise on stratigraphic corre- lations. In spite of this, a project was embarked upon, largely based on the geological information provided by J. Preston but several new profiles were also sam- pled. It must be emphasized here that the present sur- vey is only a reconnaissance study, intended to pro- vide a tentative framework for future comprehensive multi-disciplinary work in the area. One prime objective of this survey was to add new information to current knowledge of the long-term secular variation of the geomagnetic field. Studies on basalts in Iceland have already provided a valuable set of remanence direction data from the last 15 m.y. In their continuous coverage as well as in their quantity and reliability, these surpass comparable results from any other region in that interval of time. Some results and conclusions from the present survey concerning this aspect will be reported elsewhere. Another objective of the survey was to locate boundaries of some polarity zones (such as that at the top of the profile AB of Kristjánsson et al. (1975)), in order to facilitate any subsequent work on strati- graphic correlations in the three promontories of the Arnarfjörður- Breiðafjörður area, and possibly farther afield. In connection with both the above objectives, it was expected to find records of major excursions of the geomagnetic pole. These and the accompanying changes in intensity of the field are currently of con- siderable interest to researchers in paleomagnetism. The accessibility of sampling sites in the Arnarfjörður-Breiðafjörður area is quite variable. Many of the mountains in the area are below 400 m in height, rounded and scree-covered by erosion so that it is not common to find continuous profiles of more than 20–30 lavas in these. On the other hand, many higher mountainsides are too steep for negotiat- ing with core-drilling gear. For this reason and others such as availability of cooling water for the drills, the profiles sampled in the present survey tend to be short compared to those in previous surveys. MAPPING, SAMPLING AND MEASUREMENT METHODS The coordinates of the lowest lava in each sampling profile are given in Table 1. Note that in profile MH the sampling began at flow 26, some 600 m southeast of flow 1. Altitudes of lava boundaries were always recorded by pocket GPS receivers, usually to an ac- curacy of 5–10 m. On steep hillsides where less ac- curacy was available, the altitudes were also obtained with the aid of a digital aneroid altimeter or by visual estimates of lava thicknesses. For each lava, its general lithologic character was recorded in the field using the conventional field- work criteria and checked by later inspection of the cores collected. These criteria include the presence of feldspar or olivine phenocrysts, grain size, flow struc- tures, and weathering features. The method was first applied in East Iceland by Walker (1959, p. 370) who classified the basalts of the lava pile into three cate- gories, i.e. tholeiites, olivine tholeiites and feldspar- porphyritic basalt. However, it should be noted that such estimates are known to vary from person to per- son, and the character of a lava is also sometimes seen to change laterally. From the author’s experi- ence, the classification of lavas in Northwest Iceland into these three main types is not as clear-cut as is the case in East Iceland. In particular, the amount of 40 JÖKULL No. 59

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