Hjem
Øyvind Paasches bilde
  • E-postOyvind.Paasche@uib.no
  • Telefon+47 55 58 89 59+47 930 48 919
  • Besøksadresse
    Allégt. 70
  • Postadresse
    Postboks 7803
    5020 Bergen

Profile: Øyvind Paasche is with the Bjerknes Centre for Climate Research and is an established scientist with nearly 20 years of national and international experience in geophysical and geological research within thematic areas such as climate, environmental magnetism, glacier reconstructions, paleohydrology, floods, permafrost, geomorphology and weathering. Paasche is also experienced in national and international research politics, building networks and instigating new projects, administration and collaborations across different scientific disciplines.

Paasche has published nearly 30 studies in international peer-reviewed journals, roughly 40 international scientific abstracts, co-edited a cross-disciplinary book about the New Arctic, co-authored a book on climate change and over 50 popularisation pieces for both national and international newspapers and other journals. Paasche has extensive field experience from areas such as Himalaya, the Swiss Alps, Greenland, Antarctica (South Georgia), Spitsbergen and numerous places in in Norway. A central part of this fieldwork includes coring of lakes and fjords, but also open ocean sites. Moreover, he has an intimate knowledge of a number of scientific instruments used for analysing rock magnetic properties, clay minerals, grain sizes and so forth. Paasche has both been the project manager and partner in several international research projects, including the ongoing Ocean Outlook(2016-2019, PI), Hordaflom (2017-2020, Pi), Advanced Climate Education and Research (2018-2020) and Seasonal Forcasting Engine(2016-2018). He has worked on four large EU-proposals and was a contributing author to the forth IPPC assessment (The Physical Science Basis) in 2007 as well as a secretary for chapter 6. Since 2018, he is the Chair for the Scientific Steering Committee for the international initiative known as Synoptic Arctic Survey.

Vitenskapelig artikkel
  • 2020. Late Glacial mountain glacier culmination in Arctic Norway prior to the Younger Dryas. Quaternary Science Reviews.
  • 2020. Lake sediments reveal large variations in flood frequency over the last 6,500 years in south-western Norway. Frontiers in Earth Science.
  • 2020. Elevation changes of the Fennoscandian Ice Sheet interior during the last deglaciation. Geophysical Research Letters. 10 sider.
  • 2019. Trials, errors and improvements in co-production of climate services. Bulletin of The American Meteorological Society - (BAMS). 1419-1428.
  • 2019. Towards improved participatory scenario methodologies in the Arctic. Polar Geography. 1-15.
  • 2018. Cirque glacier on South Georgia shows centennial variability over the last 7000 years. Frontiers in Earth Science.
  • 2017. Late Holocene glacier reconstruction reveals retreat behind present limits and two-stage Little Ice Age on subantarctic South Georgia. Journal of Quaternary Science. 888-901.
  • 2016. Magnetic and geochemical signatures of flood layers in a lake system. Geochemistry Geophysics Geosystems. 4236-4253.
  • 2016. Effects of hydrogen peroxide treatment on measurements of lake sediment grain-size distribution. Journal of Paleolimnology. 365-381.
  • 2015. Holocene cirque glacier activity in Rondane, southern Norway. Geomorphology. 433-444.
  • 2014. Scandinavian floods: From past observations to future trends. Global and Planetary Change. 34-43.
  • 2014. How does climate impact floods? Closing the knowledge gap. EOS. 253-260.
  • 2012. Linking past flood frequencies in Norway to regional atmospheric circulation anomalies. Journal of Quaternary Science. 71-80.
  • 2012. A new approach for reconstructing glacier variability based on lake sediments recording input from more than one glacier. Quaternary Research. 192-204.
  • 2011. Weathering patterns in high-latitude regolith. Journal of Geophysical Research (JGR): Earth Surface.
  • 2011. Synchronizes postglacial colonization of magnetotactic bacteria. Geology. 75-78.
  • 2011. Paleoclimate changes inferred from stable isotopes and magnetic properties of organic-rich lake sediments in Arctic Norway. Journal of Paleolimnology. 29-44.
  • 2010. Reconstructing climate change: Not all glaciers suitable. EOS. 189-190.
  • 2010. Identifying the sedimentary imprint of high-frequency Holocene river floods in lake sediments: development and application of a new method. Quaternary Science Reviews. 3021-3033.
  • 2010. Changes in lake stratification and oxygen distribution inferred from two contrasting records of magnetotactic bacteria and diatoms. Journal of Geophysical Research (JGR): Biogeosciences. 11 sider.
  • 2010. A complete record of Holocene glacier variability at Austre Okstindbreen, northern Norway: an integrated approach. Quaternary Science Reviews. 1246-1262.
  • 2007. Rockglacier activity during the Last Glacial-Interglacial transition and Holocene spring snowmelting. Quaternary Science Reviews. 793-807.
  • 2007. Cirque glacier activity in arctic Norway during the last deglaciation. Quaternary Research. 387-399.
  • 2006. How extreme was northern hemisphere seasonality during the Younger Dryas? Quaternary Science Reviews. 404-407.
  • 2005. Utilizing physical sediment variability in glacier-fed lakes for continuous glacier reconstructions during the Holocene, northern Folgefonna, western Norway. The Holocene. 161-176.
  • 2004. Bacterial magnetite in lake sediments: late glacial to Holocene climate and sedimentary changes in northern Norway. Earth and Planetary Science Letters. 319-333.
Faglig foredrag
  • 2019. Climate Education and Research in a New Political Environment.
  • 2018. Do the climate system cope with humans?
  • 2015. Skandinaviske flommer: Fra tidligere observasjoner til framtidige trender.
Populærvitenskapelig foredrag
  • 2017. Bli med til istidens endestasjon – turspor på Merdø for videregående skoler.
  • 2017. Bli med til istidens endestasjon – turspor på Merdø for barnehager.
  • 2009. Fortidens skjulte klimaskatter (reprise).
  • 2009. Fortidens skjulte klimaskatter.
  • 2008. Vestavind på sørleg halvkule – brear og klima på Sør Georgia.
  • 2008. The coming of a new climate - lessons from the past.
  • 2008. En verden i endring - Et økende behov for klimaforskere.
  • 2007. Må ta hensyn til at havet kan stige.
  • 2007. Klimaendringer i nordområdene - i fortid og fremtid.
  • 2007. Klima i Arktis - Polaråret 2007-2008: Isbreer, innsjøer og magnetisme.
Vitenskapelig foredrag
  • 2020. New flood frequency estimates for the largest river in Norway based on a novel combination of streamflow-, historical- and paleo-data.
  • 2019. Centennial shifts in flood frequency and magnitude over the last thousend years in Western Norway.
  • 2019. Adopting to new flood regimes: how the past can inform present day decision making.
  • 2019. A 6000-year record of mass-wasting and flooding reconstructed from sediments in the distal-glacier fed Lake Sandvinvatnet, southwest Norway.
  • 2018. Varsling av vær og klima i maskinlæringens tid. Hvor gode kan sesongvarslene bli?
  • 2018. Scientific Integrity in a Politically Challenged World (Session TM 6, Conveners).
  • 2017. The Synoptic Arctic Survey - a pan-Arctic research programme.
  • 2017. Prevailing pacing of subantarctic glaciers by Southern Hemisphere Westerlies.
  • 2017. Integrating lake sediment paleoflood reconstructions in Norwegian flood frequency scenarios.
  • 2017. A stepwise procedure for science communication in the field.
  • 2016. A continuous record of Late Holocene glacier fluctuations on South Georgia, placed in a Southern Ocean climate context.
  • 2014. Quantitative methods to analyse superparamagnetic and single domain mixtures of magnetite.
  • 2014. 52 glaciers and one lake: how to reconstruct past regional glacier variability.
  • 2014. "Connecting the seas of Norden".
  • 2013. Turspor - communicating the science of weather, climate and geology in the field.
  • 2013. South Georgia glaciers through periods of fast and slow retreat.
  • 2011. Synchronized postglacial colonization by magnetotactic bacteria.
  • 2010. The Arctic Mountain Glacier, Austre Okstindbreen in Northern Norway, survived the “Holocene Thermal Optimum”.
  • 2010. Sediment core and glacial environment reconstruction - a method review (solicited).
  • 2010. Paleoceanographic and climatic variability on decadal to millennial timescales across the Drake Passage (PALEODRAKE)—project update (INVITED.
  • 2010. Paleoceanographic and climatic variability on decadal to millennial timescales across the Drake Passage (PALEODRAKE)-project update.
  • 2010. Defining The Little Ice Age.
  • 2009. The Holocene turnover - A global climate shift at 4 ka.
  • 2009. Hva er klima?
  • 2009. Holocene glacial history at Okstindan, Northern Norway, using multi proxies and ground penetrating radar. Abstracts and Proceedings of the Geological Society of Norway 1, 2009.
  • 2008. What should glacier reconstructions look like?
  • 2008. IPPC - key findings (and the importance of glacier records).
  • 2008. Explaining Holocene glacier variability of Austre Okstindbreen with changes in Arctic air masses.
  • 2008. Coring Lakes at South Georgia - Between Antarctic Fur Seals and Penguins.
  • 2007. Un-mixing lake sediments: Identifying processes and sources.
  • 2007. The sedimentary response of a rockglacier to changing climate conditions.
  • 2007. Synchronized Post-Glacial Colonization of Magnetotactic Bacteria.
  • 2007. Sedimentary sources within a glacierized catchment identified by magnetic signatures and grain size distribution.
  • 2007. Reconstructing the response of an arctic glacier to changes in climate forcing.
  • 2007. Magnetic Identification of Early Holocene Sediments from Lake Fjellandsbøvatnet, Uskedalen, W-Norway.
  • 2005. Utilizing physical sediment variability in glacier-fed lakes for continuous glacier reconstructions during the Holocene, northern Folgefonna, western Norway.
  • 2005. Utilizing physical sediment variability in glacier-fed lakes for continuous glacier reconstructilons during the Holocene.
  • 2005. The sedimentary history of a pro-rockglacier lake: paleoclimatic implications and permafrost degradation.
  • 2005. The glacial and periglacial history of Lyngen during the Lateglacial.
  • 2005. Patterns of change in Holocene climate records from Lyngen, Northern Norway.
  • 2004. Sedimentary diatom assemblages in a small alpine west Norwegian lake: evidence for metal release and precipitation.
  • 2004. Cirque glacier activity in Lofoten/Vesteralen during the Lateweichsel.
  • 2003. Magnetic proxies from a lacustrine record in northern Norway: sediment discrimination and identification of phase-changes.
  • 2003. Climate Change during the last deglaciation and Holocene in the North Atlantic region: examples based on glacier fluctuations at Folgefonna, western Norway, and from Lyngen, northern Norway.
  • 2002. The spatial distribution of fossil rockglaciers in Lofoten-Vesterålen and their implication for climatology and deglaciation history.
  • 2000. The distribution of blockfields and the vertical extent of the Late Weichselian ice sheet in the Langøya area, Vesterålen, Northern Norway.
Leder
  • 2017. The wicked ocean. Ambio. 1-4.
Vitenskapelig antologi/Konferanseserie
  • 2015. The New Arctic. Springer Publishing Company.
Populærvitenskapelig artikkel
  • 2019. Vårt sanne klimaavtrykk. Morgenbladet. 21-21.
  • 2019. Let’s Start Teaching Scientists How to Withstand Attacks on Fact. EOS.
  • 2018. Nye metoder gir økt kunnskap om flom. Naturen. 267-274.
  • 2016. Synoptic Arctic Survey-a fundament for future Arctic research. The Arctic Magazine Shared Voices. 34-35.
  • 2016. Nøkkelbedrifter og neste revolusjon. Dagens næringsliv.
  • 2016. Landet breene arvet. Naturen. 4-10.
  • 2016. Er toppen nådd? Dagens næringsliv.
  • 2016. En sur lekse. Dagens næringsliv.
  • 2015. Tilfellet Østersjøen. Dagens næringsliv.
  • 2015. Het klode – gammelt nytt. Dagens næringsliv. 27-27.
  • 2014. Verdens (hittil) raskeste klimaendringer. Aftenposten Innsikt. 88-89.
  • 2014. Om ris og is. Dagens næringsliv.
  • 2014. Det svake punkt. Dagens næringsliv. 1 sider.
  • 2013. Sviktende snø. Dagens næringsliv.
  • 2012. En historie skrevet i breslam. Aftenposten Innsikt. 52-53.
  • 2009. Hva er egentlig klima? Aftenposten Innsikt.
  • 2009. Copenhagen: Climate countdown. openDemocracy.net.
  • 2009. After glaciers: a new climate world. openDemocracy.net.
  • 2008. Verdensrekord i CO2. NRK.no.
  • 2008. Biller i karbonsyklusen. NRK Schrödingers katts hjemmeside.
  • 2006. På sporet av en tapt istid. Cicerone. 27-29.
Kronikk
  • 2020. Ideas as Infrastructure. Elephant in the Lab.
  • 2019. Klimafarer rammer alltid lokalt. Bergens Tidende. 21-21.
  • 2018. I polardiplomatiets tjeneste. Nordlys. 3-3.
  • 2018. Den perfekte katastrofe. Dagens næringsliv. 1 sider.
  • 2017. Ideer verdt å forsvare. Dagens næringsliv. 1 sider.
  • 2017. Gratulerer med Norges yngste nasjonalpark. Agderposten. 22-22.
  • 2016. Er vi forberedt på flom? Bergens Tidende.
  • 2016. Bøyen som skaper racere i realfag. Bergens Tidende.
  • 2015. Vi klynger oss sammen. Bergens Tidende.
  • 2015. Uten havet finnes ingen løsning. Bergens Tidende. 45-46.
  • 2014. Universitetets egen fakkelbærer. Klassekampen.
  • 2014. Mer ekstremvær i vente. Dagsavisen - Nye Meninger.
  • 2014. Langtidsvarsel: Mer flom. Dagens næringsliv.
  • 2014. Hvor ødeleggende flommer har vi i vente? Forskning.no.
  • 2013. The IPCC and new climate paths. Open Democracy.
  • 2012. Filantropi og vitenskap: En eksplosiv kobling. Forskning.no.
  • 2012. Climate politics: hockey-stick to hamster-wheel. Open Democracy.
  • 2011. Forberedt på flom? Dagens næringsliv.
  • 2010. Når kommer syndefloden? Klassekampen.
  • 2010. After climategate: forward to reality. Open Democracy.
  • 2007. Vår tids klimaguide. Forskning.no.
  • 2007. Vår tids klimaguide. Bergens Tidende.
  • 2007. Fredsprisen – en utfordring til Solheim. På Høyden ( UiBs nettavis).
  • 2007. Fredsprisen – En utfordring til Solheim. Adresseavisen.
  • 2004. Geologisk langtidsvarsel. Nordlys.
Doktorgradsavhandling
  • 2004. Paleoclimate variability of arctic Norway constrained by physical parameters of lake sediments.
Intervju
  • 2017. Sanker støtte for amerikansk forskning.
  • 2017. Har startet støttekampanje for amerikansk forskning.
  • 2016. Underviser barn om klima for å #hjelpejorda.
  • 2011. Skal styrke marint samhold.
  • 2011. Rester etter urtiden.
  • 2011. Rester etter urtiden.
  • 2011. Lytter til punkrock og havet.
  • 2009. På tide med en klimakatastrofe?
  • 2009. Om Gore-Støres rapport om issmelting.
  • 2009. Dette er de fem mest dødelige klimaendringene.
  • 2009. - Klimakonferansen ET SIRKUS.
  • 2009. - Et spørsmål om risiko.
  • 2009. - Et spørsmål om risiko.
  • 2008. På eventyrtokt til Drakestredet.
  • 2007. Sprer kunnskap på klimablogg.
  • 2007. Må ta hensyn til at havet kan stige.
  • 2007. Klimaforskerne ut til folket.
  • 2006. Lyngen skal gi klima-svar.
  • 2006. Lyngen skal gi klima-svar.
  • 2006. Lyngen skal gi klima-svar.
Dokumentar
  • 2015. Det kollektive universitet.
  • 2014. Havet er ett eneste stort, sammenhengende system.
  • 2014. Et grenseløst hav.
  • 2011. Willi Dansgaard - en pionér i klimaforskningen har gått bort.
  • 2011. The new Arctic: trade, science, politics.
  • 2011. Holgerssons metode.
Programdeltagelse
  • 2008. Verdt å vite- På Utsira.
  • 2008. Klimamyter fortsetter.
  • 2008. Hva er klima?
Vitenskapelig Kapittel/Artikkel/Konferanseartikkel
  • 2015. The fleeting glaciers of the Arctic. 15 sider.
  • 2011. Sediment Core and Glacial Environment Reconstruction. 6 sider.
  • 2011. Hvordan kan klimaendringer forandre verdens største hvastrøm? 3 sider.
  • 2011. Cirque glaciers. 4 sider.
  • 2006. Utilizing physical sediment variability in glacier-fed lakes for continuous glacier reconstructions during the Holocene, northern Folgefonna, western Norway. 2 sider.
  • 2006. Sedimentary diatom assemblages in a small alpine west Norwegian lake: evidence for metal release and precipitation? 14 sider.
Poster
  • 2019. Interior anatomy of the Fennoscandian Ice Sheet during the last deglaciation.
  • 2019. Centennial shifts in flood frequency and magnitude over the last thousand years in Western Norway.
  • 2018. Flood-Climate Interactions and the Prospect of Generating Data of Societal Value.
  • 2016. Magnetic and geochemical signatures of flood layers in lake sediments.
  • 2014. Scandinavian floods: from past observations to future trends.
  • 2014. High-resolution characterization of individual flood deposits.
  • 2012. Reconstructing large-scale glacier variations from lake sediments.
  • 2012. Identifying flood deposits in lake sediments : Changing frequencies and potential links to long-term climate change.
  • 2011. Weathering patterns in high latitude regolith.
  • 2011. Linking past flood frequencies in Norway to regional atmospheric circulation anomalies.
  • 2010. Weathering indices and their relevance to studies of regolith in Norway.
  • 2009. The Holocene Turnover - A global climatic shift at 4 Ka.
  • 2008. Relating mineral-mangetic properties of glacier-fed lake sediments to catch-ment and post-depositional processes.
  • 2008. Reconstruction the response of an arctic glacier to changing climate conditions by means of rock magnetism.
  • 2007. Weathering characteristics of arctic islands in northern Norway.
  • 2007. The Little Ice Age Revisited.
  • 2004. The sedimentary history of a pro-rockglacier lake: Paleoclimatic implications and permafrost degradation.
  • 2004. Glacier fluctuations, equilibrium-line altitudes and palaeoclimate in Lyngen, northern Norway during the Lateglacial and Holocene.
  • 2003. Magnetite in the high-latitude lake Fiskvatnet, Northern Norway.
  • 2003. Magnetic detection of bacterial magnetite in the high-latitude lake Fiskvatnet, northern Norway.
  • 2003. Late glacial and holocene glacier flictuations in Lyngen, Troms, northern Norway.
  • 2003. Holocene environmental changes in norhtern Fennoscandia.
Populærvitenskapelig bok
  • 2012. Fortidens skjulte klimaskatter. NRK/Transit.
  • 2009. Hva er klima? Universitetsforlaget.
Vitenskapelig oversiktsartikkel/review
  • 2020. Attuning to a changing ocean. 20363-20371.
  • 2006. Weathering characteristics of arctic islands in northern Norway. 430-452.
  • 2005. Glacier fluctuations, equilibrium-line altitudes and palaeoclimate in Lyngen, northern Norway, during the Lateglacial and Holocene. 518-540.
Fagartikkel
  • 2019. Addressing Arctic Challenges Requires a Synoptic Ocean Survey. EOS.
Intervju tidsskrift
  • 2017. Starter opprop mot knebling av klimaforskere. Bergens Tidende. 1 sider.
  • 2017. Nordic support for American climate science. UArctic website.
  • 2017. Lysbakken: - Trump angriper sannheten og vitenskapen. Bergens Tidende. 4-4.

Se fullstendig oversikt over publikasjoner i CRIStin.

Books:

Erik Kolstad og Øyvind Paasche (2009). What is Climate? University Press, Oslo, 153 pp. (in Norwegian)

Evengård, B., Nymand Larsen, J. and Paasche, Ø. (2015): The New Arctic [Eds. B. Evengård, J. Nymand Larsen and Ø. Paasche], Springer, Zürich.

International peer-reviewed papers:

Lane, T. P., Paasche, Ø., Kvisvik, B., Adamson, K. R., Rodés, Á., Patton, H., Gomez, N., Gheorghiu, D., Bakke, J., and Hubbard, A. (2020). Elevation changes of the Fennoscandian Ice Sheet interior during the last deglaciation. Geophysical Research Letters, https://doi.org/10.1029/2020GL088796

Johansson, F.E., Bakke, J., Støren, E.N., Paasche, Ø., Engeland, K., Arnaud, F. (2020). Lake Sediments Reveal Large Variations in Flood Frequency Over the Last 6,500 Years in South-Western Norway. Frontiers in Earth Science, https://doi.org/10.3389/feart.2020.00239

Paasche, Ø., et al. (2019), Addressing Arctic challenges requires a synoptic ocean survey, Eos, 100,https://doi.org/10.1029/2019EO136200.

Paasche, Ø., Österblom, H. (2019). Unsustainable Science. One Earth https://doi.org/10.1016/j.oneear.2019.08.011

Kolstad, E.W., Sofienlund, O.N., Kvamsås, H., Stiller-Reeve, M.A., Neby, S., Paasche, Ø., Pontoppidan, M., Sobolowski, S.P., Haarstad, H., Oseland, S.E., Omdahl, L., and Waage, S. (2019). Trials, errors and improvements in co-production of climate services. Bulletin of American Meteorological Society.https://doi.org/10.1175/BAMS-D-18-0201.1

Paasche, Ø. & Åkesson, H. (2019). Let’s Start Teaching Scientists How to Withstand Attacks on Fact. Eos, 100, https://doi.org/10.1029/2019EO118499.

Nilsson, A.E., Carson, M., Cost,D.S., Forbes, B.C., Haavisto, R., Karlsdottir, A., Nymand Larsen, J., Paasche, Ø., Sarkki, S., Vammen Larsen, S., & Pelyasov, A. (2019)Towards improved participatory scenario methodologies in the Arctic, Polar Geography, DOI: 10.1080/1088937X.2019.1648583

Oppedal, L.T., Bakke, J., Paasche, Ø., Werner, J.P., van der Bilt, W.G.M. (2018).Cirque Glacier on South Georgia Shows Centennial Variability over the Last 7000 Years. Frontiers in earth science, doi.org/10.3389/feart.2018.00002.

Paasche, Ø. & Bonsdorff, E. (2017). The wicked ocean. Ambio, https://doi.org/10.1007/s13280-017-1000-0

Van der Bilt, W.G.M., Bakke, J., Werner, J., Paasche, Ø., Rosqvist, G., Vatle, S. (2017). Late Holocene glacier reconstruction reveals retreat behind present limits and two-stage Little Ice Age on subantarctic South Georgia. Journal of Quaternary Science, DOI: 10.1002/jqs.2937.

Støren, E.W.N., Paasche, Ø., Hirt, A.M. and Kumari, M. (2016). Magnetic and geochemical signatures of flood layers in a lake system. G3, doi: 10.1002/2016GC006540.

Vasskog, K., Kvisvik, B. and Paasche, Ø. (2016). Effects of hydrogen peroxide treatment on measurements of lake sediment grain-size distribution. Journal of Paleolimnology, doi: 10.1007/s10933-016-9924-0.

Paasche, Øyvind; Österblom, Henrik; Neuenfeldt, Stefan; Bonsdorff, Erik; Brander, Keith M.; Conley, Daniel; Durant, Joel Marcel; Eikeset, Anne Maria; Goksøyr, Anders; Jónsson, Steingrímur; Kjesbu, Olav Sigurd; Kuparinen, Anna; Stenseth, Nils Christian. (2015): Connecting the Seas of Norden. Nature Climate Change. 5: 89-92. doi: 10.1038/nclimate2471

Kvisvik, B., Paasche, Ø., and Dahl, S.O. (2015): Holocene cirque glacier activity in Rondane, Southern Norway. Geomorphology, 246, 433-444.

Paasche, Ø., Bakke, J. (2015): The fleeting glaciers of the Arctic. In: The New Arctic [Eds. B. Evengård, J. Nymand Larsen and Ø. Paasche], Springer, Zürich.

Evengård, B., Nymand Larsen, J. and Paasche, Ø. (2015): Paths to the new Arctic. In: The New Arctic [Eds. B. Evengård, J. Nymand Larsen and Ø. Paasche], Springer, Zürich.

Paasche, Ø. and Støren, E.N. (2014): How Does Climate Impact Floods? Closing the Knowledge Gap. EOS 95, 253-255.

Støren, E.N. and Paasche, Ø. (2014): Scandinavian floods: From past observations to future trends. Global and Planetary Change 113, 34-43.

Vasskog, K., Paasche, Ø., Nesje, A., Boyle, J.F., Birks, H.J.B. (2012): A new approach for reconstructing glacier variability based on lake sediments recording input from more than one glacier. Quaternary Research 77, 192-204.

Støren, E.N., Kolstad, E., Paasche, Ø. (2012): Linking past flood frequencies in Norway to regional atmospheric circulation anomalies. Journal of Quaternary Science, 27, 71-80.  

Strømsøe, J.R., Paasche, Ø. (2011): Weathering Patterns in High-Latitude Regolith. Journal of Geophysical Research – Earth Science, 116, doi: 10.1029/2010JF001954

Dahlø Janbu, A., Paasche, Ø., Talbot, M. (2011): Paleoclimatic changes inferred from stable isotopes and magnetic properties of organic rich lacustrine sediments in Arctic Norway. Journal of Paleolimnology 46, 29-44.

Paasche, Ø., (2011).Cirque glaciers, In: Encyclopedia of Snow, Ice and Glaciers. V.P. Singh, P. Singh, U.K. Haritashya (eds.). Springer.

Bakke, J., Paasche, Ø., (2011). Sediment core and glacial environment reconstruction, In: Encyclopedia of Snow, Ice and Glaciers. V.P. Singh, P. Singh, U.K. Haritashya (eds.). Springer.

Paasche, Ø., Løvlie, R. (2011): Synchronized Post-Glacial Colonization of Magnetotactic Bacteria. Geology 39, 75-78.

Støren, E.N., Dahl, S.O., Nesje, A., Paasche, Ø. (2010): Identifying the sedimentary imprint of high-frequency Holocene river floods in lake sediments: Development and application of a new method. Quaternary Science Reviews, 29, 3021-3033.

Yde, J.C., Paasche, Ø. (2010): Reconstructing climate changes: Not all glaciers suitable. EOS 91, 189-190.

Paasche, Ø., Larsen, J. (2010): Changes in lake stratification and oxygen distribution inferred from two contrasting records of Magnetotactic Bacteria and Diatoms. JGR – Geobiosciences 115, doi:10.1029/2009JG001081.

Bakke, J., Dahl, S.O., Paasche, Ø., Riis-Simonsen, J., Kvisvik, B., Bakke, K., Nesje, A. (2010): Improving Holocene glacier reconstructions by combining analyzes of lake sediments with independently dated moraines. Quaternary Science Reviews 29, 1246-1262.

Paasche, Ø., Dahl, S.O., Bakke, J., Løvlie, R. (2007): Cirque glacier activity in arctic Norway during the last deglaciation. Quaternary Research 68, 387-399.

Jansen, E. et al. [including Paasche, Ø.], (2007): Paleoclimate: In: Climate Change 2007: The Physical Science Basis. Contribution of Working Group 1 to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA.

Paasche, Ø., Dahl, S.O., Løvlie, R., Bakke, J., Nesje, A. (2007): Rockglacier activity during the last glacial-interglacial transition and Holocene spring snowmelting. Quaternary Science Reviews 26, 793-807.

Paasche, Ø., Strømsøe, J.R., Dahl, S.O., Linge, H. (2006): Weathering Characteristics of Arctic Islands in Northern Norway. Geomorphology 82, 430-452.

Lie, Ø. and Paasche, Ø., (2006): How extreme was the Northern Hemisphere seasonality during the Younger Dryas? Quaternary Science Reviews 25, 404-407.

Larsen J., Paasche, Ø., Andersen D.O., Bjune A.E., and de la Riva Caballero A., (2006): Sedimentary diatom assemblages in a small alpine west Norwegian lake: Evidence for metal release and precipitation? Eighteenth International Diatom Symposium (A. Witkowski, ed.), pp.221-234.

Bakke, J., Dahl, S.O., Paasche, Ø., Løvlie, R., Nesje, A., (2005): Glacier fluctuations, equilibrium-line altitudes and paleoclimate in Lyngen, northern Norway, during the Lateglacial and Holocene. The Holocene 15, 518-540.

Bakke, J., Lie, Ø., Nesje, A., Dahl, S. O. and Paasche, Ø., (2005): Utilizing physical sediment variability in glacier-fed lakes for continuous glacier reconstructions during the Holocene, Folgefonna, Western Norway. The Holocene, 15, 161-176.

Paasche, Ø., Løvlie, R., Dahl, S.O., Bakke, J., Nesje, A., (2004): Bacterial magnetite in lake sediments: late glacial to Holocene climate and sedimentary changes in northern Norway. Earth and Planetary Science Letters 223, 319-333. 

Present and past projects:

Climate Futures, ACER, SFE, HordaFlom, AquaMare, Ocean Outlook, NORPEC, X-LAKE, MAGNET, PALEODRAKE, ESM