The HISTMAG database: combining historical, archaeomagnetic and volcanic data

0476306 - GFÚ 2018 RIV GB eng J - Journal Article
Arneitz, P. - Leonhardt, R. - Schnepp, E. - Heilig, B. - Mayrhofer, F. - Kovacs, P. - Hejda, Pavel - Valach, F. - Vadasz, G. - Hammerl, Ch. - Egli, R. - Fabian, K. - Kompein, N.
The HISTMAG database: combining historical, archaeomagnetic and volcanic data.
Geophysical Journal International. Roč. 210, č. 3 (2017), s. 1347-1359. ISSN 0956-540X. E-ISSN 1365-246X
Institutional support: RVO:67985530
Keywords : Europe * archaeomagnetism * magnetic field variations * through time * palaeomagnetism
OECD category: Physical geography
Impact factor: 2.528, year: 2017

Records of the past geomagnetic field can be divided into two main categories. These are instrumental historical observations on the one hand, and field estimates based on the magnetization acquired by rocks, sediments and archaeological artefacts on the other hand. In this paper, a new database combining historical, archaeomagnetic and volcanic records is presented. HISTMAG is a relational database, implemented in MySQL, and can be accessed via a web-based interface (http://www.conrad-observatory.at/zamg/index.php/data-en/histmag-database). It combines available global historical data compilations covering the last similar to 500 yr as well as archaeomagnetic and volcanic data collections from the last 50 000 yr. Furthermore, new historical and archaeomagnetic records, mainly from central Europe, have been acquired. In total, 190 427 records are currently available in the HISTMAG database, whereby the majority is related to historical declination measurements (155 525). The original database structure was complemented by new fields, which allow for a detailed description of the different data types. A user-comment function provides the possibility for a scientific discussion about individual records. Therefore, HISTMAG database supports thorough reliability and uncertainty assessments of the widely different data sets, which are an essential basis for geomagnetic field reconstructions. A database analysis revealed systematic offset for declination records derived from compass roses on historical geographical maps through comparison with other historical records, while maps created for mining activities represent a reliable source.
Permanent Link: http://hdl.handle.net/11104/0272834