1. Allis, R. G., 1981. Changes in heat flow associated with exploitation of the Wairakei geothermal field, New Zealand. NZ Journal of Geology & Geophysics, 24, 1–19.

2. Aradóttir, E., Gunnarsson, I., Sigfússon, B., Gíslason, S. R., Oelkers, E. H., Stute, M., Matter, J. M., Snaebjörnsdottir, S. Ó., Mesfin, K. G., Alfredsson, H. A., Hall, J., Arnarsson, M. Th., Dideriksen, K., Júliusson, B. M., Broecker, W. S. & Gunnlaugsson, E., 2015. Towards Cleaner Geothermal Energy: Subsurface Sequestration of Sour Gas Emissions from Geothermal Power Plants. Proceedings World Geothermal Congress 2015, Melbourne, Australia, 19–25 April 2015.

3. Ármannsson, H., 2016. The fluid geochemistry of Islandic high temperature geothermal areas. Applied Geochemistry, 66, 14-64.

4. Árnason, K., Karlsdóttir, R., Eysteinsson, H., Flóvenz, Ó. G. & Gudlaugsson, S. Th., 2000. The resistivity structure of high-temperature geothermal systems in Iceland. Proceedings of the World Geothermal Congress, Kyushu-Tohoku, Japan, 923–928.

5. Barkaoui, A.-E., 2011. Joint 1D inversion of TEM and MT resistivity data with an example from the area around the Eyjafjallajökull glacier, S-Iceland. Geothermal training program, report no. 9, Reykjavik, Iceland, 30 p.