"Eldhjarta Íslands": leitin að jarðfræðilegri uppsprettu landsins.

Publisher's version (útgefin grein) Heitur reitur er landsvæði sem einkennist af mikilli eldvirkni og jarðhita og stendur hátt yfir umhverfið. Ísland er einn af stærstu heitu reitum jarðar og gnæfir 2-4 km yfir venjulega hæð Norður-Atlantshafshryggjarins sem gengur í gegnum landið. Markmið fjöl...

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Bibliographic Details
Main Author: Bjarnason, Ingi Þorleifur
Other Authors: Raunvísindastofnun (HÍ), Science Institute (UI), Verkfræði- og náttúruvísindasvið (HÍ), School of Engineering and Natural Sciences (UI), Háskóli Íslands, University of Iceland
Format: Article in Journal/Newspaper
Language:Icelandic
Published: Hið íslenska náttúrufræðifélag 1997
Subjects:
Online Access:https://hdl.handle.net/20.500.11815/1033
Description
Summary:Publisher's version (útgefin grein) Heitur reitur er landsvæði sem einkennist af mikilli eldvirkni og jarðhita og stendur hátt yfir umhverfið. Ísland er einn af stærstu heitu reitum jarðar og gnæfir 2-4 km yfir venjulega hæð Norður-Atlantshafshryggjarins sem gengur í gegnum landið. Markmið fjölþjóðlega jarðskjálftaverkefnisins ÍSBRÁÐ (bráðin sem myndar Ísland) er að rannsaka þessa jarðfræðilegu uppsprettu landsins. (Ingi Þ. Bjarnason o.fl. 1996). Raunvísindastofnun leiðir þetta verkefni en samstarfsaðilar eru frá Bandaríkjunum, Bretlandi og ýmsum stofnunum hér á landi. An international geophysical project named ICEMELT (the melt that produces Iceland), is using means of seismology to illuminate the mantle under Iceland down to approximately 650 km depth to construct a model of the mantle plume under Iceland. The plume and its interaction with the Atlantic Ridge is the main source of the excessive volcanism in this region, and hence the source of the existence of lceland. The plume is imaged by analysing the effect it has on seismic waves, that are slowed down when they traverse the part of the mantle that is affected by the heat of the plume. For this task, data were collected continuously 1993-1996, with broadband seismometers, that are sensitive to earthquakes anywhere in the world. These measurements have confirmed a remarkably narrow plume with a diameter between 150-300 km at 100-400 km depth undir Iceland. The plume probably reaches down to at least 650 km depth, and its geographic center is under central Iceland and the western part of Vatnajökull, which is also the location of the most powerful volcanic systems in Iceland. Analysis of surface waves has revealed a large reduction (approx. 10%) in S-wave velocity at approximately 50 km depth in the mantle under central Iceland and along the volcanic zone north of Vatnajökull. This velocity reversal probably marks the upper extent of a partially molten asthenosphere, the melting region or oven where the materials that make Iceland are smelted. Seismic ...