An Archaeomagnetic Study of Hangi Stones in New Zealand

Abstract: <p>Burnt or fired archaeological artefacts often retain a record of the magnetic field in which they were last heated and cooled. Over the past four years we have collected oriented hangi stones from 10 archaeological sites spread across the North and South Islands of New Zealand. The stones vary in lithology from andesites, originating from the central North Island volcanoes, favoured by Maori for their durability and with remanent magnetization up to 30 A/m, to sandstones and schists from the main axia… Show more

“…These stones, having been heated to such high temperatures and cooled, have recorded the magnetic field of the time. Under ideal conditions and meticulous fieldwork, careful analysis of the TRM may yield palaeodirections and palaeointensities of the geomagnetic field at the time (Kinger, 2017). Experimentally, it was successfully demonstrated that the hāngī stones retain the TRM record of the time the hāngī was last used.…”

“…Hāngī stones that are heated above the Curie temperature of their constituent magnetic minerals and subsequently cooled, acquire a thermoremanent magnetization (TRM) which is parallel to the ambient field at the time. This event will erase any previous remanent magnetization (RM) and hence, can be termed as characteristic remanent magnetization (ChRM) or hāngī remanent magnetization (HRM) (Kinger, 2017) of the hāngī stone. The intensity of this magnetization is proportional to the strength of the ambient field.…”

“…If the stones were disturbed during the cooling process, the last acquired component i.e. the low T B pTRM records the palaeodirection (Kinger, 2017). The site average ChRMs, calculated from specimen ChRMs is equal to the palaeogeomagnetic field direction.…”

“…• Isolating the hāngī remanent magnetization (Kinger, 2017) or ChRM is a challenge when the original NRM comprises of multiple components.…”

“…The archaeointensity data curve of Fig. 5.7 was generated from archaeointensities relocated to 40 • S, 175 • E. The data points on the plot are archaeointensities from the hāngī stones sampled by Rimpy Kinger (2017). They show variation in the magnetic field over the past 700 years.…”

Using Palaeomagnetic Techniques to Uncover the History of an Archaeological Site in Napier, Hawkes Bay

“…These stones, having been heated to such high temperatures and cooled, have recorded the magnetic field of the time. Under ideal conditions and meticulous fieldwork, careful analysis of the TRM may yield palaeodirections and palaeointensities of the geomagnetic field at the time (Kinger, 2017). Experimentally, it was successfully demonstrated that the hāngī stones retain the TRM record of the time the hāngī was last used.…”

“…Hāngī stones that are heated above the Curie temperature of their constituent magnetic minerals and subsequently cooled, acquire a thermoremanent magnetization (TRM) which is parallel to the ambient field at the time. This event will erase any previous remanent magnetization (RM) and hence, can be termed as characteristic remanent magnetization (ChRM) or hāngī remanent magnetization (HRM) (Kinger, 2017) of the hāngī stone. The intensity of this magnetization is proportional to the strength of the ambient field.…”

“…If the stones were disturbed during the cooling process, the last acquired component i.e. the low T B pTRM records the palaeodirection (Kinger, 2017). The site average ChRMs, calculated from specimen ChRMs is equal to the palaeogeomagnetic field direction.…”

“…• Isolating the hāngī remanent magnetization (Kinger, 2017) or ChRM is a challenge when the original NRM comprises of multiple components.…”

“…The archaeointensity data curve of Fig. 5.7 was generated from archaeointensities relocated to 40 • S, 175 • E. The data points on the plot are archaeointensities from the hāngī stones sampled by Rimpy Kinger (2017). They show variation in the magnetic field over the past 700 years.…”

Using Palaeomagnetic Techniques to Uncover the History of an Archaeological Site in Napier, Hawkes Bay