11 resultater
... Blom Haugen, Thomas 0800-3416 Formidling av geologi til skoleverket 2015.069 Norges geologiske undersøkelse (NGU) ... de aktuelle prosessene. Geofaget er et fag som kombinerer geologi og geografi, samt oseanografi og meteorologi. I dette prosjektet har ...
... Blom Haugen, Thomas 0800-3416 Formidling av geologi til skoleverket 2015.066 Norges geologiske undersøkelse (NGU) ... prosesser som skjer. Geofaget er et fag som kombinerer geologi og naturgeografi, samt oseanografi, meteorologi og hydrologi. I dette ...
... Blom Haugen, Thomas 0800-3416 Formidling av geologi til skoleverket 2015.067 Norges geologiske undersøkelse (NGU) ... forstå prosessene rundt. Geofaget er et fag som kombinerer geologi og geografi, samt oseanografi og meteorologi. I dette prosjektet har ...
... Blom Haugen, Thomas 0800-3416 Formidling av geologi til skoleverket 2015.068 Norges geologiske undersøkelse (NGU) ... de aktuelle prosessene. Geofaget er et fag som kombinerer geologi og geografi, samt oseanografi og meteorologi. I dette prosjektet har ...
... Snook, Ben Svennungsen, Robin Orre 0800-3416 Geologi og mineralressurser i Hattfjelldal, Nordland 2016.050 Det har ...
As part of a method development initiative in the MAREANO seabed mapping programme (www.mareano.no) a pilot survey using Underwater Hyperspectral lmagery (UHI) was undertaken in Trondheimsfjorden during December 2014.
The Geological Survey of Norway has compiled an inventory of hard rock aggregate deposits in coastal Norway. This report contains a catalogue of Norwegian coastal quarries presently in production and exporting, as well as of potential production areas along the coast of South-Central Norway and Finnmark. In 2015, 22.7 million tonnes of aggregates were exported to Europe, and about 4 million tonnes were used by the offshore oil and gas industry on the continental shelf.
This report presents geophysical interpretation of gravity data as part of a project whose main objective is to supplement the mapping of Quaternary geology at Stryn. This is achieved through the extraction of depth to bedrock information with the use of gravity data which in turn yields soil thickness and bedrock morphology maps.
Analogue seismic lines (sparker) acquired mainly by IKU during 17 surveys in the period 1970-1984 have been transformed to SEG-Y format. The old data, which make up a regular seismic grid from 60°N (Northern North Sea) to ca. 71°30'N (Tromsøflaket; SW Barents Sea), are of medium to good quality. A total of 31 261 km of sparker lines were processed and transformed. Compared to conventional seismic lines the resolution of sparker is better.
Rev. ed. 2016 This technical report describes the method used to draw the susceptibility maps for rock falls in Norway. In order to cover the entire territory of Norway, a fully-automatic GIS-based solution was developed and applied. Input data are the gridded digital elevation model of Norway at 25 meter cell size, a bedrock geological map and a quaternary map.
A geochemical surface water survey, focused on 2nd and 3rd order streams, was carried out in the Oppdal/Berkåk area. Stream water was collected at about 160 sample sites, covering a 1500 km2 survey area. The main aim was to test wether today's ICP-MS analyses are sensitive enough to use surface water for gold exploration. A number of methodological tests (acidification with two different acids, filtration and acidification in the evening in the hotel) was carried out in addition.