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Official, Figure on website
Eldgos í Holuhrauni 2014 Hættusvæði v. SO2 Mengunar m.v. 50% líkur á styrk umfram þröskuldsgildi
(Volcanic Eruption at Holuhraun 2014 Hazardous Area SO2 pollution 50% likelihood of concentration exceeding a threshold value)
Iceland Meteorological Office (IMO). (2014). Eldgos í Holuhrauni 2014 Hættusvæði v. SO2 Mengunar [Volcanic Eruption at Holuhraun 2014 Hazardous Area SO2 pollution]. (Reprinted in: Barsotti, S. (2015). Hazard Zoning: Probabilistic hazard maps of SO2 ground concentration for Holuhraun eruption. https://en.vedur.is/pollution-and-radiation/volcanic-gas/hazard-zoning/)
Official, Figure on website
Eldgos í Holuhrauni 2014 Hættusvæði v. SO2 Mengunar m.v. 90% líkur á styrk umfram þröskuldsgildi
(Volcanic Eruption at Holuhraun 2014 Hazardous Area SO2 pollution 90% likelihood of concentration exceeding a threshold value)
Iceland Meteorological Office (IMO). (2014). Eldgos í Holuhrauni 2014 Hættusvæði v. SO2 Mengunar [Volcanic Eruption at Holuhraun 2014 Hazardous Area SO2 pollution]. (Reprinted in: Barsotti, S. (2015). Hazard Zoning: Probabilistic hazard maps of SO2 ground concentration for Holuhraun eruption. https://en.vedur.is/pollution-and-radiation/volcanic-gas/hazard-zoning/)
Official, Figure on website
Eldgos í Holuhrauni 2014-2015 Líkur á SO2 Mengun
(Volcanic Eruption at Holuhraun 2014-2015 Probability of SO2 Contamination)
Iceland Meteorological Office (IMO). (2015). Eldgos í Holuhrauni 2014-2015 Líkur á SO2 Mengun [Volcanic Eruption at Holuhraun 2014-2015 Probability of SO2 Contamination]. (Reprinted in: Barsotti, S. (2015). Hazard Zoning: Probabilistic hazard maps of SO2 ground concentration for Holuhraun eruption. https://en.vedur.is/pollution-and-radiation/volcanic-gas/hazard-zoning/)
Official, Figure on website
Eldgos í Holuhrauni 2014-2015 Líkur á SO2 Mengun
(Volcanic Eruption at Holuhraun 2014-2015 Probability of SO2 Contamination)
Iceland Meteorological Office (IMO). (2015). Eldgos í Holuhrauni 2014-2015 Líkur á SO2 Mengun [Volcanic Eruption at Holuhraun 2014-2015 Probability of SO2 Contamination]. (Reprinted in: Barsotti, S. (2015). Hazard Zoning: Probabilistic hazard maps of SO2 ground concentration for Holuhraun eruption. https://en.vedur.is/pollution-and-radiation/volcanic-gas/hazard-zoning/)
Figure in a journal article
Map showing potential impact of tephra fallout to roads in case of a 1362-like eruption at Öræfajökull
Figure 9 in: Barsotti, S., Di Rienzo, D. I., Thordarson, T., Björnsson, B. B., & Karlsdóttir, S. (2018). Assessing impact to infrastructures due to tephra fallout from Öræfajökull volcano (Iceland) by using a scenario-based approach and a numerical model. Frontiers in Earth Science, 6, 196. https://doi.org/10.3389/feart.2018.00196
Figure in a journal article
Map showing potential tephra fallout impact to airport in case of a 1362-like eruption at Öræfajökull
Figure 10 in: Barsotti, S., Di Rienzo, D. I., Thordarson, T., Björnsson, B. B., & Karlsdóttir, S. (2018). Assessing impact to infrastructures due to tephra fallout from Öræfajökull volcano (Iceland) by using a scenario-based approach and a numerical model. Frontiers in Earth Science, 6, 196. https://doi.org/10.3389/feart.2018.00196
Figure in a journal article
Map showing potential tephra fallout impact to power-lines in case of a 1362-like eruption at Öræfajökull
Figure 11 in: Barsotti, S., Di Rienzo, D. I., Thordarson, T., Björnsson, B. B., & Karlsdóttir, S. (2018). Assessing impact to infrastructures due to tephra fallout from Öræfajökull volcano (Iceland) by using a scenario-based approach and a numerical model. Frontiers in Earth Science, 6, 196. https://doi.org/10.3389/feart.2018.00196
Official, Insert/poster-size map with accompanying report
Preliminary Volcano-Hazard Assessment for Shishaldin Volcano, Alaska
Sheet 1 in: Beget, J.E., Nye, C.J., Schaefer, J.R. & Stelling, P.L. (2003). Preliminary volcano-hazard assessment for Shishaldin Volcano, Alaska. Alaska Division of Geological & Geophysical Surveys, Report of Investigations 2002-4, 28 p., 1 sheet, scale 1:500,000. http://doi.org/10.14509/2872
Figure in a journal article
Probabilistic hazard map for tephra loading higher than 1.0 kg/m2 given an eruption at Öræfajökull as 1362 AD
Figure 6 in: Barsotti, S., Di Rienzo, D. I., Thordarson, T., Björnsson, B. B., & Karlsdóttir, S. (2018). Assessing impact to infrastructures due to tephra fallout from Öræfajökull volcano (Iceland) by using a scenario-based approach and a numerical model. Frontiers in Earth Science, 6, 196. https://doi.org/10.3389/feart.2018.00196
Öræfajökull, Iceland
Figure in a journal article
Probabilistic hazard map for tephra loading higher than 100 kg/m² given an eruption at Öræfajökull as 1362 AD
Figure 7 in: Barsotti, S., Di Rienzo, D. I., Thordarson, T., Björnsson, B. B., & Karlsdóttir, S. (2018). Assessing impact to infrastructures due to tephra fallout from Öræfajökull volcano (Iceland) by using a scenario-based approach and a numerical model. Frontiers in Earth Science, 6, 196. https://doi.org/10.3389/feart.2018.00196
Figure in a journal article
Probabilistic hazard map for tephra loading higher than 100 kg/m² given an eruption at Öræfajökull as 1362 AD
Figure 7 in: Barsotti, S., Di Rienzo, D. I., Thordarson, T., Björnsson, B. B., & Karlsdóttir, S. (2018). Assessing impact to infrastructures due to tephra fallout from Öræfajökull volcano (Iceland) by using a scenario-based approach and a numerical model. Frontiers in Earth Science, 6, 196. https://doi.org/10.3389/feart.2018.00196
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