P. Tucholka scite author profile

High-resolution records of the relative paleointensity of the geomagnetic field have been obtained from five marine cores. Three duplicate records were used to estimate the regional coherency of the data within a single area (Tyrrhrenian Sea) while the two others document the field variations in the eastern Mediterranean and the southern Indian Ocean. Careful investigations of distinct rock magnetic parameters have established the downcore unifornfity of the sediments in terms of magnetic nfineralogy and grain sizes. The time-depth control was provided by oxygen isotopes, and small-scale variations in the deposition rates were constrained by means of tephrachronology. The synthetic curve calculated from the Mediterranean records provides a continuous record of the intensity variations during the last 80,000 years (80 kyr), which correlates well with the sparse volcanic data available for the period 0-40 kyr. The fact that identical behavior is seen in both data sets and that they also compare quite well with results from a core collected in the Pacific Ocean establishes the truly dipolar character of these variations. The dipole field moment is characterized by large-scale changes as shown by the existence of pronounced drops (at 39 and 60 kyr) alternating with periods of higher intensity. The record suggests a periodic nature for these intensity variations; however, the period studied is not sufficiently long to state this conclusively. These results demonstrate the potential of sediments for such studies and constitute a first step towards obtaining a global paleointensity record over a long period of time.The aim of the present study is to extend the global record of the geomagnetic field intensity over the last 80 kyr. The approach consists, first, of obtaining duplicate records from the same area in order to determine the reproducibility of the results. Records from different regions can then be compared and evaluated as a group. As a first step this paper summarizes the results obtained from four cores in the Mediterranean Sea. MEASUREMENTS AND ROCK MAGNETIC PROPERTIFfS Natural Reinanent Magnetization

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P. Tucholka

A Late Pleistocene-Holocene lacustrine record from Lake Manas, Zunggar (northern Xinjiang, western China)

Paleointensity of the geomagnetic field during the last 80,000 years

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