new, deep caldera lake within the Askja caldera (Sigurdsson and Sparks, 1978; Sæmundsson, 1982). An early phase of the eruption was classified as phreatoplinian by Self and Sparks (1978). The sam- ple (1004) was taken at Sviðanes, and was supplied by Gudrún Larsen. The Skógar tephra sample was collected by the authors at the locality Skógar in Fnjóskadalur. The Skógar tephra has been described by Norðdahl (1983). Only light coloured white-gray particles were measured in the present study, but it is not cer- tain that all the grains are derived from the same eruption as the tephra is clearly reworked. The unpublished Si02 value was kindly supplied by Hreggviður Norðdahl. The Kúðafljót sample was collected from a soil section at the river Kúðafljót. The sample is from a tephra layer which is widespread in Southeast Ice- land and is known as "the needle layer". The data on the chemistry of this layer was obtained from Ólafs- son and others (1984). RESULTS general form of SAND SIZED ASH PARTICLES To get an overall picture of the form of the analyzed samples, the mean values were plotted on a Sneed-Folk diagram (Fig. 2). Most of the samples form a fairly dense cluster in the centre of the diagram although some trend from the compact bladed form towards the elongate form is observed. A similar pattern is produced by plotting the mean values on the Zingg diagram (Fig. 1). STATISTICAL DISTRIBUTION OF FORM PARAMETERS Many 0f the parametric statistical tests commonly applied to samples assume that the samples are derived from populations which can be modelled by ihe normal distribution. Clarke and Cooke (1983) list the following conditions, that point to the con- sideration of the normal random variable as a model for a variate: (1) strong central tendency, (2) equally likely positive and negative deviations from the cen- tral value, and (3) rapid falloff of deviation frequency as the deviations become larger. Blatt and others (1972) have summarized geological parameters that tend to be normally distributed. These include grain size (measured on the <I> scale), grain roundness, and grain sphericity. To investigate the normality of the form parameters used in the present study, histograms were plotted for each one using the combined data for sample 5838 (two ran- dom samples for all grain sizes, giving a total of 160 data points). Fig. 4 shows the plots for elongation, sphericity, and OP index. The probability plots (marked A on the diagram) offer a better comparison with the normal distribution, which would plot as a perfectly straight line. All the parameter plots resemble a straight line, and the histograms form unimodal, bell shaped pattems. We therefore con- clude that the normal distribution is a reasonable model for the form parameters elongation, spheri- city, and OP-index. GRAIN SIZE AND FORM PARAMETERS The statistical results in the present study are based on tephra grains within the size range 0.125 mm to 2.0 mm. To answer the question whether the form parameters are related to grain size, elongation, sphericity, and OP index for all measured grains are plotted against size in Fig. 5. There is obviously no systematic change in these parameters within the size range. The question may also be answered by using the sample correlation coefficient (r) to evaluate the linear relationship between two measured (or calculated) parameters. The results are shown in Table III. Obviously, the correlation is very poor in all cases. We therefore conclude that the size grades' may be combined and regarded as one sample. All subsequent plots for the data involve sample means without respect to grain size. The values t and P in Table III show the results of t-tests for the statistical signilicance of the corre- lation coefficient, r, for each pair of variables. The P value gives the probability of obtaining a calculated sample value of the correlation coefficient greater than r from a population with a correlation coefficient of zero. For elongation, the chances of obtaining the sample value r = 0.059 from a JÖKULL, No. 39, 1989 65

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