Astronomy and Astrophysics – Astronomy
Scientific paper
Mar 1969
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1969natur.221.1231k&link_type=abstract
Nature, Volume 221, Issue 5187, pp. 1231-1232 (1969).
Astronomy and Astrophysics
Astronomy
Scientific paper
FOR more than one hundred years many different authors have claimed a causal relationship between the astronomical motions of the Earth and the alternating glacial and interglacial ages of the Pleistocene epoch. Köppen and Wegener1, using the insolation curves calculated by Milankovitch, concluded that glaciation was controlled by summer insolation variations at the high northern latitudes. This theory was brought up to date and amplified by Emiliani and Geiss2. Wilson3 suggested that summer insolation variations at the high southern latitudes controlled glaciation, making Antarctic ice surges and retreats the principal controlling agents for world climate. There is an average lag of 10,000 yr between the northern and the southern curves, with the latter leading. The purpose of this work is to determine the lag between the summer insolation curve at lat. 65° N and the temperature maxima and minima of core P-6304-9, as measured by the oxygen isotopic method. The method of visual correlation is difficult because noise coming from various mechanisms is superimposed on the core data. In an article by Kemp et al.4 core P-6304-9 was compared with the summer insolation at 65° N lat. by the method of power spectral analysis. The estimators from the auto-correlation functions in this case were those of Evans et al.5. Now these estimators are valid only for auto-correlation functions and not for cross-correlation, so the classical method is used in this communication. The auto and cross-correlation functions are expanded in the orthonormal set of Laguerre functions. The advantage is that all have rigorous Fourier transforms and thus the resulting spectra will be continuous functions of the frequency. This is not the case when the above integrals are evaluated numerically (the usual procedure) because the wavelengths chosen must be commensurate with the total record length. This method was checked by simulation such that the frequencies and relative phases involved were known in advance. One hundred and fifty correlation coefficients were calculated and the data were interpolated 2 for 1 which resulted in 289 data points. Only that part of the spectra is used which leaves the coherency matrix hermitian. The expansion in Laguerre functions and their transforms was carried to the thirtieth order.
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