- E-postMathilde.Sorensen@uib.no
- Telefon+47 55 58 34 26
- BesøksadresseAllégaten 41Realfagbygget5007 BergenRom2A16f - 2118
- PostadressePostboks 78035020 Bergen
Med en bakgrunn fra seismologi og studier av jordskjelvrisiko er min forskning nå bredt fokusert på geofarer, inkludert studier av jordskjelv, tsunamirisiko og skred utløst av jordskjelv.
Jeg er for tiden involvert i studer innen:
- Arktisk seismologi og geofare
- Risikoananlyse for tsunamier
- Effekten av CO2-lagring på jordskjelvrisiko
- Skred utløst av jordskjelv i Norge
- Historiske jordskjelv
24-timers vakttelefon for Norsk Nasjonalt Seismisk Nettverk: 55582617
Mediehenvendelser i forbindelse med større jordskjelv eller andre geofare hendelser: mathilde.sorensen@uib.no eller 46621089.
Vitenskapsformidling og debattinnlegg:
- Rotevatn, A., Mangerud, G., Sørensen, M. og Ottemöller, L. (2022). Har Norge virkelig ingen nasjonal jordskjelvberedskap?, debattinnlegg på geoforskning.no, https://geoforskning.no/har-norge-virkelig-ingen-nasjonal-jordskjelvberedskap/
- Ottemöller, L. og Sørensen, M.B. (2020). Ikke bare dugnad, debattinnlegg på geoforskning.no, https://www.geoforskning.no/nyheter/geofarer/2363-ikke-bare-dugnad
- Sørensen, M.B. og Gibbons, S. (2020). Da Norge ble stille, Aftenposten Viten, https://www.aftenposten.no/viten/i/2GxQ14/da-norge-ble-stille
- Sørensen, M.B. (2018). Kan “Skjelvet” virkelig ramme oss?, debattinnlegg i Dagens Næringsliv, https://www.dn.no/forskningviser-at-/jordskjelv/seismikk/beredskap/kan-skjelvet-virkelig-ramme-oss/2-1-407165
- Sørensen, M.B. (2015). Det har skjedd før. Det vil skje igjen. Bergens Tidende Innsikt, https://www.bt.no/nyheter/lokalt/i/OEQ9k/det-har-skjedd-foer-det-vil-skje-igjen
Andre formidlingsaktiviteter:
- Regelmessig mediekontakt i forbindelse med store jordskjelv, inkludert TV og radio interviews og ekspertkommentarer og interviewes i en rekke nasjonale, regionale og lokale aviser.
- Populærvitenskapelige presentasjoner for forskjellige publikumgrupper (skoleklasser, foreninger og andre)
- “Undrelaboratoriet”: Fire korte videoer om geofysikk for elever i 5.-6. klasse, tilgjengelig på nysgjerrigper.no (2021)
- Presentasjoner og paneldiskusjon i forbindelse med visninger av filmen “Skjelvet” (2018)
- Vitenskapelig ansvarlig for utviklingen av en ny utstilling om jordskjelv og jordskjelvovervåking ved Bergen Museum (2005)
Undervisning:
Jeg er en engasjert underviser med et mål om å motivere og skape engasjement hos studentene mine. Jeg er overbevist om at studenter lærer best når de er motivert, engasjert og undervises i et studentaktivt læringsmiljø.
Jeg leder utviklingen av et nasjonalt kurs i geofare som undervises ved universitetene i Bergen, Oslo og Tromsø siden 2020. Ved UiB tilbys kurset under emnekoden GEOV217 - Geofarar. Det nasjonale kurset bygger på et kurs jeg etablerte ved UiB i 2016 og er utviklet med bidrag fra mer enn 20 geofare eksperter fra hele Norge.
Undervisnings-relaterte utmerkelser og priser:
- I 2021 ble jeg tildelt den pedagogiske kompetansegraden Fremragende underviser ved Universitetet i Bergen.
- I 2017 vant jeg Læringsmiljøprisen ved Universitetet i Bergen for mitt arbeid med emnet GEOV217 - Geofarar.
Undervisnings-relaterte publikasjoner og presentasjoner:
- Sørensen, M.B. (2022). Cooperation in teaching across institutions: Developing a national course on geohazards, presentation at iEarth digital learning forum, 28.04.2022. https://vimeo.com/704456777
- Sørensen, M.B., Vick, L.M., Cepeda, J., Halpaap, F. and the national geohazards course consortium (2021). A national university course on geohazards in Norway, poster presentation at IAGA-IASPEI Joint Scientific Assembly 21-27 August 2021 (virtual conference).
- Sørensen, M.B. and the national geohazards course consortium (2021). A national university course on geohazards in Norway, extended abstract and poster presentation at INTERPRAEVENT2020 conference (postponed until 2021, virtual conference).
- A national course on geohazards, presentation at iEarth digital learning forum, 15.10.2020. https://iearth.no/2020/10/16/iearth-digtale-laeringsforum-15-10-2020/
- Nytt nasjonalt kurs i geofarer (New national course in geohazards), article on geoforskning.no, 25.08.2020. https://geoforskning.no/nyheter/geofarer/2345-nytt-nasjonalt-kurs-i-geof...
- Using flipped classrooms in a course on geohazards, presentation at iEarth digital learning forum, 21.04.2020.
- Sørensen, M.B. and the national geohazards course consortium (2019). Et nasjonalt universitetskurs i geofarer (A national university course on geohazards), poster presentation at Geofaredagen, Bergen, October 2019.
Peer reviewed journal papers:
2022
- Rafliana, I., Jalayer, F., Cerase, A., Cugliari, L., Baiguera, M., Salmanidou, D., Necmioglu, Ö, Aguirre-Ayerbe, I., Lorito, S., Fraser, S., Løvholt, F., Babeyko, A., Salgado-Gálvez, M.A., Selva, J., De Risi, R., Sørensen, M.B., Behrens, J., Aniel-Quiroga, I., Del Zoppo, M., Belliazzi, S., Pranantyo, I.R., Amato A., and Hancilar, U. (2022). Tsunami risk communication and management: Contemporary gaps and challenges, International Journal of Disaster Risk Reduction, doi:10.1016/j.ijdrr.2021.102771
2021
- Jeddi, Z., Ottemöller, L., Sørensen, M.B., Rezaei, S., Gibbons, S.J., Strømme, M.L., Voss, P.H. and Dahl-Jensen, T. (2021). Improved Seismic Monitoring with OBS Deployment in the Arctic: A Pilot Study from Offshore Western Svalbard, Seismological Research Letters, doi: 10.1785/0220200471.
- Behrens, J., Løvholt, F., Jalayer, F., Lorito, S., Salgado-Gálvez, M.A., Sørensen, M., Abadie, S., Aguirre-Ayerbe, I., Aniel-Quiroga, I, Babeyko, A., Baiguera, M., Basili, R., Belliazzi, S., Grezio, A., Johnson, K., Murphy, S., Paris, R., Rafliana, I., De Risi, R., Rossetto, T., Selva, J., Taroni, M., Del Zoppo, M., Armigliato, A., Bureš, V., Cech, P., Cecioni, C., Christodoulides, P., Davies, G., Dias, F., Bayraktar, H.B., González, M., Gritsevich, M., Guillas, S., Harbitz, C.B., Kanoglu, U., Macías, J., Papadopoulos, G.A., Polet, J., Romano, F., Salamon, A., Scala, A., Stepinac, M., Tappin, D., Thio, H.K., Tonini, R., Triantafyllou, I., Ulrich, T., Varini, E., Volpe, M., and Vyhmeister, E. (2021). Probabilistic Tsunami Hazard and Risk Analysis - A Review of Research Gaps. Front. Earth Sci., doi:10.3389/feart.2021.628772.
- Basili R., Brizuela B., Herrero A., Iqbal S., Lorito S., Maesano F.E., Murphy S., Perfetti P., Romano F., Scala A., Selva J., Taroni M., Thio H.K., Tiberti M.M., Tonini R., Volpe M., Glimsdal S., Harbitz C.B., Løvholt F., Baptista M.A., Carrilho F., Matias L.M., Omira R., Babeyko A., Hoechner A., Gurbuz M., Pekcan O., Yalçıner A., Canals M., Lastras G., Agalos A., Papadopoulos G., Triantafyllou I., Benchekroun S., Agrebi Jaouadi K., Ben Abdallah S., Bouallegue A., Hamdi H., Oueslati F., Amato A., Armigliato A., Behrens J., Davies G., Di Bucci D., Dolce M., Geist E., Gonzalez Vida J.M., González M., Macías Sánchez J., Meletti C., Ozer Sozdinler C., Pagani M., Parsons T., Polet J., Power W., Sørensen M.B, Zaytsev A. (2021), The making of the NEAM Tsunami Hazard Model 2018 (NEAMTHM18). Front. Earth Sci., doi: 10.3389/feart.2020.616594.
- Mäntyniemi, P., Sørensen, M.B. and Tatevossian, R.E. (2021). Testing the Environmental Seismic Intensity scale on data derived from the earthquakes of 1626, 1759, 1819 and 1904 in Fennoscandia, northern Europe, Geosciences, 11, 14, doi: 10.3390/geosciences11010014.
2020
- Lecocq, T., Hicks, S.P., van Noten, K., van Wijk, K., Koelemeijer, P., de Plaen, R., Massin, F., Hillers, G., Anthony, R.E., Apoloner, M.-T., Arroyo-Solórzano, M., Assink, J.D., Büyükakpınar, P., Cannata, A., Cannavo, F., Carrasco, S., Caudron, C., Chaves, E.J., Cornwell, D.G., Craig, D., den Ouden, O., Diaz, J., Donner, S., Evangelidis, C.P., Evers, L., Fauville, B., Fernandez, G.A., Giannopoulos, D., Gibbons, S.J., Girona, T., Grecu, B., Grunberg, M., Hetényi, G., Horleston, A., Inza, A., Irving, J., Jamalreyhani, M., Kafka, A., Koymans, M.R., Labedz, C.R., Larose, E., Lindsey, N.J., McKinnon, M., Megies, T., Miller, M.S., Minarik, W., Moresi, L., Márquez-Ramírez, V.H., Möllhoff, M., Nesbitt, I.M., Niyogi, S., Ojeda, J., Oth, A., Proud, S., Pulli, J., Retailleau, L., Rintamäki, A.E., Satriano, C., Savage, M.K., Shani-Kadmiel, S., Sleeman, R., Sokos, E., Stammler, K., Stott, A.E., Subedi, S., Sørensen, M.B., Taira, T., Tapia, M., Turhan, F., van der Pluijm, B., Vanstone, M., Vergne, J., Vuorinen, T., Warren, T., Wassermann, J., and Xiao, H. (2020). Global quieting of high-frequency seismic noise due to COVID-19 pandemic lockdown measures, Science, 369, 1338-1343, doi: 10.1126/science.abd2438.
- Jeddi, Z., Voss, P.H., Sørensen, M.B., Danielsen, F., Dahl-Jensen, T., Larsen, T.B., Nielsen, G., Hansen, A., Jakobsen, P. and Frederiksen, P.O. (2020). Citizen Seismology in the Arctic, Front. Earth Sci. 8:139, doi:10.3389/feart.2020.00139.
- Mäntyniemi, P.B., Sørensen, M.B., Tatevossian, T.N., Tatevossian, R.E. and Lund, B. (2020). A Reappraisal of the Lurøy, Norway, Earthquake of 31 August 1819, Seismol. Res. Lett., 91(5), 2462-2472, doi: 10.1785/0220190363.
- Li, B., Sørensen, M.B., Atakan, K., Li, Y. and Li, Z. (2020). Probabilistic Seismic Hazard Assessment for the Shanxi Rift System, North China, Bulletin of the Seismological Society of America, 110, 127-153, doi: 10.1785/0120190099.
2019
- Bellwald, B., Urlaub, M., Hjelstuen, B., Sejrup, H.P., Sørensen, M.B., Forsberg, C.F. and Vanneste, M. (2019). NE Atlantic continental slope stability from a numerical modeling perspective, Quaternary Science Reviews 203, 248-265.
2018
- Rodriguez, J., Havskov, J., Sørensen, M.B. and Santos, L.F. (2018). Seismotectonics of the south-west Dominican Republic using recent data, Journal of Seismology, 22, 883-896, doi:10.1007/s10950-018-9738-9.
2017
- Grezio, A., Babeyko, A., Baptista, M.A., Behrens, J., Costa, A., Davies, G., Geist, E.L., Glimsdal, S., González, F.I., Griffin, J., Harbitz, C.B., LeVeque, R.J., Lorito, S., Løvholt, F., Omira, R., Mueller, C., Paris, R., Parsons, T., Polet, J., Power, W., Selva, J., Sørensen, M.B. and Thio, H.K. (2017). Probabilistic Tsunami Hazard Analysis: Multiple Sources and Global Applications, Reviews of Geophysics, 55, 1158–1198, doi:10.1002/2017RG000579
2016
- Havskov, J., Sørensen, M.B., Vales, D., Özyazicioglu, M., Sánchez, G. And Li, B. (2016). Coda Q in Different Tectonic Areas, Influence of Processing Parameters, Bulletin of the Seismological Society of America, vol 106(3), doi: 10.1785/0120150359.
- Woessner, J., Danciu, L., Giardini, D., Crowley, H., Cotton, F., Grünthal, G., Valensise, G., Arvidsson, R., Basili, R., Demircioglu, M.B., Hiemer, S., Meletti, C., Musson, R., Rovida, A.N., Sesetyan, K., Stucchi, M. and the SHARE Consortium (incl. M.B. Sørensen) (2015). The 2013 European Seismic Hazard Model: key components and results, Bulletin of Earthquake Engineering, 13, 3553-3596, doi: 10.1007/s10518-015-9795-1.
2015
- Sørensen, M.B. and Lang, D.H. (2015). Incorporating Simulated Ground Motion in Seismic Risk Assessment: Application to the Lower Indian Himalayas, Earthquake Spectra, 31(1), 71-95, doi:10.1193/010412EQS001M.
- Li, B., Sørensen, M.B. and Atakan, K. (2015). Coulomb stress evolution in the Shanxi rift system, North China, since 1303 associated with coseismic, post-seismic and interseismic deformation, Geophysical Journal International, 203, 1642-1664, doi: 10.1093/gji/ggv384.
- Li, B., Atakan, K., Sørensen, M.B. and Havskov, J. (2015). Stress pattern of the Shanxi rift system, North China, inferred from the inversion of new focal mechanisms, Geophysical Journal International, 201, 505-507, doi:10.1093/gji/ggv025.
- Li, B., Havskov, J., Ottemöller, L. and Sørensen, M.B. (2015). New magnitude scales ML and spectrum-based Mw for the area around Shanxi Rift System, North China, Journal of Seismology, 19, 141-148, doi:10.1007/s10950-014-9455-y.
- Li, B., Li, Z., Sørensen, M.B., Løvlie, R., Liu, L. and Atakan, K. (2015). Regional stress field around the Taigu fault zone in Shanxi Province, China, Earthquake Science, 28(5-6), 333-345.
- Atakan, K., Bjerrum, L.W., Bungum, H., Dehls, J.F., Kaynia, A.M., Keers, H., Kierulf, H.P., Kværna, T., Langeland, T., Lindholm, C.D., Maupin, V., Ottemöller, L., Sørensen, M.B. and Yuen, M.Y. (2015). The European Plate Observing System and the Arctic, Arctic, 68 (S1), doi:10.14430/arctic4446.
2013
- Bondevik, S., Gjevik, B. and Sørensen, M.B. (2013). Norwegian seiches from the giant 2011 Tohoku earthquake, Geophysical Research Letters, 40, 3374-3378, doi:10.1002/grl.50639.
- Bjerrum, L.W., Sørensen, M.B., Ottemöller, L. and Atakan, K. (2013). Ground motion simulations for Izmir, Turkey: parameter uncertainty, Journal of Seismology, 17(4), 1223-1252, doi:10.1007/s10950-013-9389-9.
2012
- Sørensen, M.B., Spada, M., Babeyko, A., Wiemer, S. and Grünthal, G. (2012). Probabilistic Tsunami Hazard Assessment for the Mediterranean Sea, Journal of Geophysical Research, vol. 117, B01305, doi:10.1029/2010JB008169
2011
- Sørensen, M.B., Voss, P., Havskov, J., Gregersen, S. and Atakan, K. (2011). The seismotectonics of Western Skagerrak, Journal of Seismology, doi:10.1007/s10950-011-9235-x.
2010
- Sørensen, M.B., Stromeyer, D. and Grünthal, G. (2010). A macroseismic intensity prediction equation for intermediate depth earthquakes in the Vrancea region, Romania, Soil Dynamics and Earthquake Engineering, 30(11), 1268-1278.
- Sørensen, M.B., Stromeyer, D. and Grünthal, G., (2010). Intensity attenuation in the Campania region, Southern Italy, Journal of Seismology, 14, 209-223.
- Bjerrum, L.W., Sørensen, M.B. and Atakan K. (2010). Strong ground-motion simulation of the 12 May 2008 Mw 7.9 Wenchuan earthquake, using various slip models, Bulletin of the Seismological Society of America, 100(5B), doi: 10.1785/0120090239.
- Bjerrum, L.W., Atakan, K. and Sørensen, M.B. (2010). Reconnaissance report and preliminary ground motion simulation of the 12 May 2008 Wenchuan earthquake, Bulletin of Earthquake Engineering, 8(6), doi: 10.1007/s10518-010-9198-2.
- Chan, C.H., Sørensen, M.B., Stromeyer, D., Grünthal, G., Heidbach, O., Hakimhashemi, A. and Catalli, F. (2010). Forecasting Italian seismicity through a spatio-temporal physical model: importance of considering time-dependency and reliability of the forecast, Annals of Geophysics, 53(3), doi:10.4401/ag-4761.
2009
- Sørensen, M.B., Stromeyer, D. and Grünthal, G., 2009. Attenuation of macroseismic intensity – a new relation for the Marmara Sea region, NW Turkey, Bulletin of the Seismological Society of America, 99(2A), 538-553.
2008
- Sørensen, M.B. and Atakan, K., 2008. Continued Earthquake Hazard in Northern Sumatra, Eos, Transactions, American Geophysical Union, vol 89, no 14, 133-134.
- Chatelain, J.-L., Gullier, B., Cara, F., Duval, A.-M., Atakan, LK., Bard, P.-Y. and the WP02 SESAME team (incl. M.B. Sørensen) (2008). Evaluation of the influence of experimental conditions on H/V results from ambient noise recordings, Bulletin of Earthquake Engineering, 6, 33-74, doi: 10.1007/s10518-007-9040-7.
2007
- Gibbons, S.J., Sørensen, M.B., Harris, D.B. and Ringdal, F., 2007. The detection and location of low magnitude earthquakes in northern Norway using multi-channel waveform correlation, Physics of the Earth and Planetary Interiors, 160, 285-309.
- Sørensen, M.B., Atakan, K. and Pulido, N., 2007b. Simulation of ground motions for the December 26, 2004 M=9.3 Sumatra earthquake. Bulletin of the Seismological Society of America, 97(1A), S139-S151, doi:10.1785/0120050608.
- Sørensen, M.B., Ottemöller, L., Havskov, J., Atakan, K., Hellevang, B. and Pedersen, R.B., 2007. Tectonic processes in the Jan Mayen Fracture Zone based on earthquake occurrence and bathymetry, Bulletin of the Seismological Society of America, 97(3), 772-779, doi: 10.1785/0120060025.
- Sørensen, M.B., Atakan, K. and Pulido, N., 2007a. Sensitivity of ground motion simulations to earthquake source parameters: a case study for Istanbul, Turkey, Bulletin of the Seismological Society of America, 97(3), 881-900, doi: 10.1785/0120060044.
2006
- Akinci, A., Malagnini, L., Herrmann, R.B., Gok, R. and Sørensen, M.B., 2006. Ground motion scaling in the Marmara region, Turkey, Geophysical Journal International, 166, 635-651.
- Sørensen, M.B., Oprsal, I., Bonnefoy-Claudet, S., Atakan, K., Mai, P.M., Pulido, N. and Yalciner, C., 2006. Local site effects in Ataköy, Istanbul, Turkey, due to a future large earthquake in the Marmara Sea, Geophysical Journal International, 167,1413-1424, doi:10.1111/j.1365-246X.2006.03204.x.
Publication data from the CRIStin database:
- (2023). Earthquake-induced landslides in Norway. Natural Hazards and Earth System Sciences. 1577-1592.
- (2022). Tsunami risk communication and management: Contemporary gaps and challenges. International Journal of Disaster Risk Reduction.
- (2022). Towards the new Thematic Core Service Tsunami within the EPOS Research Infrastructure. Annals of Geophysics.
- (2021). The making of the NEAM Tsunami Hazard Model 2018 (NEAMTHM18). Frontiers in Earth Science.
- (2021). Testing the Environmental Seismic Intensity Scale on Data Derived from the Earthquakes of 1626, 1759, 1819, and 1904 in Fennoscandia, Northern Europe. Geosciences. 1-14.
- (2021). Improved seismic monitoring with obs deployment in the arctic: A pilot study from offshore western svalbard. Seismological Research Letters. 2705-2717.
- (2020). Probabilistic Seismic Hazard Assessment for the Shanxi Rift System, North China. Bulletin of The Seismological Society of America (BSSA).
- (2020). Global quieting of high-frequency seismic noise due to COVID-19 pandemic lockdown measures. Science. 1338-1343.
- (2020). Citizen Seismology in the Arctic. Frontiers in Earth Science.
- (2020). A Reappraisal of the Lurøy, Norway, Earthquake of 31 August 1819. Seismological Research Letters. 2462-2472.
- (2018). Seismotectonics of south-west Dominican Republic using recent data. Journal of Seismology. 883-896.
- (2018). NE Atlantic continental slope stability from a numerical modeling perspective. Quaternary Science Reviews. 248-265.
- (2016). Coda Q in different tectonic areas, influence of processing parameters. Bulletin of The Seismological Society of America (BSSA). 956-970.
- (2015). The European plate observing system and the Arctic. Arctic. 1-7.
- (2015). Stress pattern of the Shanxi rift system, North China, inferred from the inversion of new focal mechanisms. Geophysical Journal International. 505-527.
- (2015). Regional stress field around the Taigu fault zone in Shanxi Province, China. Earthquake Science. 333-345.
- (2015). Incorporating simulated ground motion in seismic risk assessment: Application to the lower Indian Himalayas. Earthquake spectra. 71-95.
- (2015). Coulomb stress evolution in the Shanxi rift system, North China, since 1303 associated with coseismic, post-seismic and interseismic deformation. Geophysical Journal International. 1642-1664.
- (2014). New magnitude scales M L and spectrum-based M w for the area around Shanxi Rift System, North China. Journal of Seismology. 141-158.
- (2013). Norwegian seiches from the giant 2011 Tohoku earthquake. Geophysical Research Letters. 3374-3378.
- (2013). Ground motion simulations for A degrees zmir, Turkey: parameter uncertainty. Journal of Seismology. 1223-1252.
- (2012). Probabilistic tsunami hazard in the Mediterranean Sea. Journal of Geophysical Research (JGR): Solid Earth.
- (2011). The seismotectonics of Western Skagerrak. Journal of Seismology. 599-611.
- (2010). Strong Ground-Motion Simulation of the 12 May 2008 M-w 7.9 Wenchuan Earthquake, Using Various Slip Models. Bulletin of The Seismological Society of America (BSSA). 2396-2424.
- (2010). Reconnaissance report and preliminary ground motion simulation of the 12 May 2008 Wenchuan earthquake. Bulletin of Earthquake Engineering. 1569-1601.
- (2010). Intensity attenuation in the Campania region, Southern Italy. Journal of Seismology. 209-223.
- (2010). Forecasting Italian seismicity through a spatio-temporal physical model: importance of considering time-dependency and reliability of the forecast. Annals of Geophysics. 129-140.
- (2010). A macroseismic intensity prediction equation for intermediate depth earthquakes in the Vrancea region, Romania. Soil Dynamics and Earthquake Engineering. 1268-1278.
- (2009). Attenuation of macroseismic intensity – a new relation for the Marmara Sea region, NW Turkey. Bulletin of The Seismological Society of America (BSSA). 538-553.
- (2008). Continued earthquake hazard in Northern Sumatra. Eos. 139-140.
- (2007). The detection and location of low magnitude earthquakes in northern Norway using multi-channel waveform correlation at regional distances. Physics of the Earth and Planetary Interiors. 285-309.
- (2007). Tectonic processes in the Jan Mayen fracture zone based on earthquake occurrence and bathymetry. Bulletin of The Seismological Society of America (BSSA). 772-779.
- (2007). Simulated strong ground motions for the Great M 9.3 Sumatra-Andaman Earthquake of 26 December 2004. Bulletin of The Seismological Society of America (BSSA). 139-151.
- (2007). Sensitivity of ground-motion simulations to earthquake source parameters: A case study for Istanbul, Turkey. Bulletin of The Seismological Society of America (BSSA). 881-900.
- (2006). Local site effects in Ataköy, Istanbul, Turkey, due to a future large earthquake in the Marmara Sea. Geophysical Journal International. 1413-1424.
- (2006). Ground motion scaling in the Marmara region, Turkey. Geophysical Journal International. 635-651.
- (2022). Deliverable 6.19 Synthesis report from WP6: Application studies of Arctic Observing Systems towards stakeholders. .
- (2022). Deliverable 3.16 Synthesis and technical recommendations. .
- (2022). Deliverable 1.10 Roadmap for a sustainable Arctic Observing System. 416. 416. .
- (2021). Deliverable 3.11 Final implementation and data: North of Svalbard. .
- (2021). Deliverable 1.9 INTAROS Revised Requirement Report. .
- (2021). Deliverable 1.7 Report on stakeholder interaction in year 4 and 5. .
- (2020). UAK 2020: Research School in the Barents Sea with KV Svalbard . 405. 405. .
- (2020). Deliverable 6.6 Results of local community studies. .
- (2020). Deliverable 4.3 Lessons learned on community-based observing parameters. .
- (2019). Deliverable 3.7 First implementation and data: North of Svalbard. .
- (2019). Deliverable 2.10. Synthesis of gap analysis and exploitation of the existing Arctic observing systems. .
- (2018). INTAROS Deliverable 2.2 Report on exploitation of existing data: ocean and sea ice data. 418. 418. .
- (2018). Deliverable 2.2 Report on exploitation of existing data: ocean and sea ice data . 418. 418. .
- (2006). Seismotectonics of the Sumatra-Andaman subduction zone: An analysis of the tsunamigenic earthquake potential for the coastal areas of Thailand. Project Report for the Project “Tsunami Risk Reduction Measures With focus on Land Use and Rehabilitation: Case studies carried out for Thailand, conceptual results applicable to all tsunami affected areas around the Indian Ocean and the Andaman Sea”. .
- (2006). Potential of Vulnerability and Seismic Risk. Large earthquake faulting and implications for the seismic hazard assessment in Europe. RELIEF Project Deliverable No.27. .
- (2006). Maps of Seismic Hazard Scenarios. Large earthquake faulting and implications for the seismic hazard assessment in Europe. RELIEF Project Deliverable No.25. .
- (2006). Large earthquake faulting and implications for the seismic hazard assessment in Europe. RELIEF Project Deliverable No.28 (Third Year). .
- (2006). Large earthquake faulting and implications for the seismic hazard assessment in Europe. RELIEF Project Annual Report (Third Year). .
- (2006). Hazard Analysis and Uncertainties of Data. Large earthquake faulting and implications for the seismic hazard assessment in Europe. RELIEF Project Deliverable No.26. .
- (2006). Final Report (Partner 6 – UiB). Large earthquake faulting and implications for the seismic hazard assessment in Europe. RELIEF Project. .
- (2004). Strong motion analysis for site effects, map of sites. RELIEF Project Deliverable No. 17. .
- (2004). Re-evaluation of seismic catalogue. RELIEF Project Deliverable No. 16. .
- (2004). Large earthquake faulting and implications for the seismic hazard assessment in Europe. RELIEF Project Annual Report. .
- (2004). Guidelines for the implementation of the H/V spectral ratio technique on ambient vibrations: measurements, processing and interpretation. .
- (2004). Attenuation models and seismic hazard maps. RELIEF Project Deiverable No. 18. .
- (2012). Jordskjelv og tsunamier i Norge - og resten av verden.
- (2011). Tsunami hazard.
- (2014). Active faults and potential ground shaking in Cuba.
- (2012). The seismic network of Ataturk University, Erzurum, and examples of use of data.
- (2012). Norwegian fjords sang along – observations of seiches following the 2011 Tohoku, Japan, earthquake.
- (2012). Norwegian fjords sang along – observations of seiches following the 2011 Tohoku, Japan, earthquake.
- (2012). Method meets application: on the use of earthquake scenarios in disaster preparedness and response.
- (2012). Implications of considering finite fault rupture properties in seismic hazard and risk assessment.
- (2011). The Norwegian National Seismic Network and seismicity studies in Norway.
- (2011). Simulation of earthquake ground motion – experience and possibilities.
- (2011). Probabilistic tsunami hazard assessment in the Mediterranean Sea.
- (2011). Paneldiskusjon: "Frauenquote - Quotenfrauen?".
- (2011). Implications of considering finite fault rupture properties in seismic hazard and risk assessment.
- (2011). Implications of considering finite fault rupture properties in seismic hazard and risk assessment.
- (2010). Strong Ground Motion Simulation of the 12 May 2008 M 7.9 Wenchuan Earthquake, Using Various Slip Models.
- (2010). Seismic Hazard and Risk in Norway – Past, Present and Future. Part 1: Seismic Hazard.
- (2010). Probabilistic tsunami hazard assessment in the Mediterranean Sea.
- (2010). Parameter sensitivity of ground motion simulations based on hybrid broadband calculations. A case study for İzmir, Turkey.
- (2010). Deterministic seismic hazard assessment in Izmir, Turkey.
- (2009). Wenchuan earthquake disaster of 12 May 2008 (M=8.0), China.
- (2009). Continued earthquake hazard in Northern Sumatra: Ground shaking potential of future earthquakes.
- (2008). Implications of strong ground motion complexity for seismic hazard assessment.
- (2008). Ground motion simulations and parameter sensitivity – a case study for assessing seismic hazard in Izmir, Turkey.
- (2008). Continued earthquake hazard in Northern Sumatra.
- (2006). Simulated strong ground motions for the great Sumatra-Andaman earthquake of December 26, 2004.
- (2006). Sensitivity of ground motion simulations to earthquake source parameters: a case study for Istanbul, Turkey.
- (2006). Implications of fault behavior in the Marmara Sea on ground motion simulations and seismic hazard assessment.
- (2006). Effects of earthquake source complexity in estimating seismic hazard: A case study for Istanbul.
- (2006). Earthquake source complexity in the Marmara Sea and its influence on ground motion simulations.
- (2006). Earthquake source complexity in the Marmara Sea and its influence in ground motion simulations.
- (2005). Tectonic processes in the Jan Mayen Fracture Zone based on earthquake occurence and bathymetry.
- (2005). Modelling of ground motions and stress transfer caused by the December 26, 2004 Sumatra earthquake.
- (2005). Modeling of ground motions and stress transfer caused by the December 26, 2004 Sumatra earthquake.
- (2005). Modeling of ground motions and stress transfer caused by the December 26, 2004 Sumatra earthquake.
- (2005). Local site effects in Ataköy, Istanbul Turkey: empirical data vs. syntetics from hybrid modelling.
- (2005). Local site effects in Atakoy, Istanbul Tyrkey: Empirical data vs. synthetics from hybrid modelling. Poster.
- (2005). Ground motion simulations for a M=7,5 scenario earthqyake in the Marmara Sea and implications for the city of Istanbul, Turkey.
- (2005). Ground motion simulations for a M=7,5 scenario earthquake in the Marmara Sea and implications for the city of Istanbul, Turkey.
- (2005). Ground motion simulations for a M=7,5 scenario earthquake in Marmara Sea and implications for the city of Istanbul.
- (2005). Ground motion simulations for Istanbul: a parameter sensitivity study.
- (2005). Earthquake hazard in Istanbul: synthesis and implications for the end-users.
- (2005). Earthquake hazard in Istanbul: general overview.
- (2004). The H/V spectral ratio technique: experimental conditions, data processing and empirical reliability assessment.
- (2004). The April 14, 2004 Jan Mayen earthquake.
- (2004). Practical user guidelines and software for the implementation of the H/V ratio technique: measuring conditions, processing method and results interpretation.
- (2004). On the Reliability of the H/V Spectral Ratio Technique.
- (2004). Local site effects and noise characteristics in Ataköy area, Istanbul, Turkey.
- (2004). Influence of experimental condition for �H/V� on ambient noise vibration method.
- (2004). Influence of Experimental Conditions on H/V Determination Using Ambient Vibrations (Noise).
- (2004). Ground motion simulations at rapid response sites in Istanbul, Turkey.
- (2004). Ground motion simulations and site effect estimation for Istanbul, Turkey.
- (2004). Empirical evaluation of the horizontal-to-vertical spectral ratio technique: results from the �SESAME� project.
- (2015). Seismotectonics and seismic hazard of the Shanxi Rift System, North China.
- (2006). Challenges in seismic hazard assessment – Analyses of ground motion modelling and seismotectonic sources.
- (2020). HE34A-1990 Enhancement of ocean and sea ice insitu observations in the Arctic under the Horizon 2020 project INTAROS.
- (2011). Method meets application: on the use of earthquake scenarios in community-based disaster preparedness and response.
- (2011). Implications of considering finite fault rupture properties in seismic hazard and risk assessment.
- (2011). Earthquake swarms in northern Norway.
- (2010). The use of probabilistic tsunami hazard assessment in early warning system design.
- (2010). Parameter sensitivity of ground motion simulations based on hybrid broadband calculations. A case study for İzmir, Turkey.
- (2008). Seismotectonics of Skagerrak.
- (2008). Continued earthquake hazard in Northern Sumatra: Ground shaking potential of a future earthquake.
- (2006). ”benchmarking” exercise on the per-formance of kinematic ground motion simulation codes.
- (2006). Simulated strong ground motions for the great M9.3 Sumatra-Adnaman earthquake of december 26,2004.
- (2006). Seismotectonics of Skagerrak.
- (2006). Seismic hazard in Istanbul, Turkey, based on ground motion simu-lations, and uncertainties in the predicted ground motion levels.
- (2006). Earthquake source complexity in the Marmara sea and its influence on ground motion simulations.
- (2004). The April 14, 2004 Jan Mayen Earthquake.
- (2004). J-SESAME: A standardized software solution for the H/V spectral ratio technique.
- (2004). 3D Hybrid modelling of local site effects in Ataköy area, Istanbul, Turkey, due to finite-extent earthquake source.
- (2004). 3D Hybrid modelling of local site effects in Ataköy area, Istanbul, Turkey, due to finite-extent earthquake source.
- (2021). Probabilistic Tsunami Hazard and Risk Analysis: A Review of Research Gaps. Frontiers in Earth Science.
- (2017). Probabilistic Tsunami Hazard Analysis (PTHA): multiple sources and global applications. Reviews of Geophysics. 1158-1198.
Pågående prosjekter:
Quantifying the relation between Carbon Capture and Storage (CCS) and earthquake risk (UiB strategic PhD funds; 2021-2025), Project leader
HNet Phase 3 (Seismic Monitoring Network for the Horda Platform Region; CLIMIT Demo project; 2021-2024)
SEISMIC RISK – Mitigation of induced seismic risk in urban environments (Academy of Finland; 2020-2023)
Nordic EPOS - A FAIR Nordic EPOS Data Hub (NordForsk Nordic Research Infrastructure Hub; 2020-2022), PI for University of Bergen in 2022
AGITHAR (Accelerating Global Science in Tsunami Hazard and Risk analysis; COST Action; 2019-2023), Management Committee member and Working Group leader
Tidligere prosjekter
UAK (Useful Arctic Knowledge; RCN, 2018-2020); PI for University of Bergen, WP leader
INTAROS (Integrated Arctic Observation System; EU-H2020; 2016-2021); PI for University of Bergen, Theme leader for Natural Hazards
EPOS-Norway (European Plate Observing System – Norway; RCN, 2016-2020)
Earthquake Hazard and Risk in Cuba (Royal Norwegian Ministry of Foreign Affairs; 2012-2015); PI for University of Bergen, WP leader
SHARE (Seismic Hazard Harmonization in Europe; EU-FP7; 2009-2012)
TRANSFER (Tsunami Risk and Strategies for the European Region ; EU-FP6; 2006-2009)
SAFER (Seismic Early Warning for Europe; EU-FP6; 2006-2009)
RELIEF (Reliable Information on Earthquake Faulting; EU-FP5; 2002-2005)
SESAME (Site effects assessment using ambient excitations; EU-FP5; 2001-2004)
Jeg tilbyr masterprosjekter innen jordskjelvseismologi og geofarer. Ta kontakt via epost hvis du er interessert i å utvikle et prosjekt med meg som veileder.
Prosjekter jeg har veiledet:
PhD:
- Maren Kjos Karlsen (pågående): Quantifying the relation between Carbon Capture and Storage (CCS) and earthquake risk; main supervisor.
- Quetzalcoatl Rodríguez-Pérez (2013): Study of the seismic source parameters and its relation with other seismic engineering parameters, co-supervisor.
- Louise Bjerrum (2011): Deterministic seismic hazard assessments through hybrid ground motion simulation: Case studies for Wenchuan, China and Izmir, Turkey, co-supervisor.
- Bin Li (2015): Seismotectonics and seismic hazard of the Shanxi rift system, North China; main supervisor.
MSc:
- Tor Parmentier (pågående): The development and propagation of liquid water content (LWC) in the snowpack of various snow types, main supervisor.
- Håvard Monstad (pågående): Jordskjelv og massebevegelser i Nærøydalen, main supervisor.
- Anne Lise Grønstad (2022): Undersøkelser av potensiell sammenheng mellom skred og jordskjelv i fjorder på Sunnmøre: Ferjefri-E39 fjordkryssinger, co-supervisor.
- Martin Andersen Høie (2022): Deglasiasjonen av Sulafjorden, Sunnmøre: skred, stratigrafi og sedimentasjonsmiljø, co-supervisor.
- Torbjørn Haga (2019): Jordskjelv som utløser massebevegelser i Norge og stabilitetsanalyse av Preikestolen med seismisk last, main supervisor.
- Helga Indrøy (2019): A Comparison of a Classical PSHA and a Rupture Forecast for California, main supervisor.
- Kristina Smirnova (2019): Potential Seismogenic Faults in Norway, co-supervisor.
- Annette Ellingsen (2018): Seismicity and Crustal Structure in North Greenland, main supervisor.
- Marthe Vestly (2017): Earthquake triggered submarine slides in Norway, main supervisor.
- Mahmood Khan (2016): Processing of earthquake data and probabilistic seismic hazard assessment in Bangladesh, co-supervisor.
- Krister Moberg (2015): Seismic hazard of the Izmir region, Turkey, based on a probabilistic seismic hazard assessment and stochastic ground motion simulations, main supervisor.
- Randi Tveit (2013): Implications of a M=6.0 earthquake along the Øygarden Fault Zone for the city of Bergen: Ground motion simulations and estimation of local site effects, main supervisor.
- Torunn Lutro (2011): Local site effects in Izmir, Turkey: Combining empirical and analytical approaches, co-supervisor.
- Aase Oliv Bjørge (2011): Scenario based seismic risk assessment in Izmir, Western Turkey, based on simulated earthquake ground motions and vulnerability of building categories, co-supervisor.