Home
Jostein Bakke's picture

Jostein Bakke

Professor, Director Centre for Integrated Earth Science Education and principal investigator EARTHLAB
  • E-mailJostein.Bakke@uib.no
  • Phone+47 55 58 35 03
  • Visitor Address
    Allègaten 41
    Bergen
    Room 
    3G17c - 3134
  • Postal Address
    Postboks 7803
    5020 Bergen

Jostein Bakke (JB) holds a position as a Professor at the Department of Earth Science and is a member of the Quaternary Research group and director for the Centre for Integrated Earth Science Education (iEarth) and leader of EARTHLAB (national infrastructure).

JB is Dr Scient (PhD) in Physical Geography from the Department of Geography at the University of Bergen. JB has research experience in Quaternary geology, physical geography, glacial history, palaeoclimatology, geomorphology, and lake sediments worldwide. JB defended his doctor Scientiarum thesis ”Late Weichselian and Holocene glacier fluctuations along a coastal south-north transect in Norway – climatic and methodological implications” 16.04.2004 at the Department of Geography, University of Bergen.

JB has supervised 73 master's and 12 PhD students, extensive teaching experience from 11 courses, published 74 papers in international peer-reviewed scientific journals, reports, popular science articles and 103 conference papers at international conferences.

JB holds the Fulbright Arctic Chair Award for the academic year 2011/2012.

JB was funded through an NRC project called SOUTHSPHERE (2018-2024), SHIFTS (2009-2014) and X-LAKE (2007-2009), focusing on using lake sediments to reconstruct past climate variability in the Arctic, in Scandinavia and the Southern Ocean. Throughout the years, JB has been involved in projects in the Himalayas (GLACINDIA), Europe and Scandinavia. In the nationally co-ordinated NORPAST-2 research project, funded by the NRC, JB was a post-doc of one of the project modules studying Lateglacial and Holocene climate variability. JB was affiliated with a Strategic University Program (SUP) entitled «Norwegian paleoenvironment and climate as reconstructed from lake sediments (NORPEC)», funded by the NRC during his PhD scholarship.

Paleoklima, kvartærgeologi, innsjøsedimenter, georadar

J.Bakke on Google Scholar

J.Bakke on Research Gate

 

Paleoklima, kvartærgeologi, innsjøsedimenter, georadar

J.Bakke on Google Scholar

J.Bakke on Research Gate

 

GEOV 101

GEOV 102

GEOV 226

GEOV 332

Academic article
  • Show author(s) (2022). Stable Southern Hemisphere westerly winds throughout the Holocene until intensification in the last two millennia. Communications Earth & Environment. 13 pages.
  • Show author(s) (2022). Postglacial species arrival and diversity buildup of northern ecosystems took millennia. Science Advances. 1-14.
  • Show author(s) (2022). Mapping of the Subglacial Topography of Folgefonna Ice Cap in Western Norway—Consequences for Ice Retreat Patterns and Hydrological Changes. Frontiers in Earth Science. 19 pages.
  • Show author(s) (2022). Lake sediments from southern Norway capture Holocene variations in flood seasonality. Quaternary Science Reviews.
  • Show author(s) (2021). Sedimentary ancient DNA shows terrestrial plant richness continuously increased over the Holocene in northern Fennoscandia. Science Advances. 16 pages.
  • Show author(s) (2021). Sedimentary DNA and molecular evidence for early human occupation of the Faroe Islands. Communications Earth & Environment.
  • Show author(s) (2021). Long-term demise of sub-Antarctic glaciers modulated by the Southern Hemisphere Westerlies. Scientific Reports.
  • Show author(s) (2021). Late Holocene canyon-carving floods in northern Iceland were smaller than previously reported. Communications Earth & Environment.
  • Show author(s) (2021). Anthropogenic and environmental drivers of vegetation change in southeastern Norway during the Holocene. Quaternary Science Reviews.
  • Show author(s) (2020). Late Glacial mountain glacier culmination in Arctic Norway prior to the Younger Dryas. Quaternary Science Reviews.
  • Show author(s) (2020). Lake sediments reveal large variations in flood frequency over the last 6,500 years in south-western Norway. Frontiers in Earth Science.
  • Show author(s) (2020). Elevation changes of the Fennoscandian Ice Sheet interior during the last deglaciation. Geophysical Research Letters. 10 pages.
  • Show author(s) (2019). Spatial distribution of cold-ice within a temperate glacier - implications for glacier dynamics, sediment transport and foreland geomorphology. . The Cryosphere. 827-843.
  • Show author(s) (2018). The Island of Amsterdamøya: A key site for studying past climate in the Arctic Archipelago of Svalbard. Quaternary Science Reviews. 157-163.
  • Show author(s) (2018). Reconstructing Holocene Glacier and Climate Fluctuations From Lake Sediments in Vårfluesjøen, Northern Spitsbergen. Frontiers in Earth Science. 1-20.
  • Show author(s) (2018). Patagonian ash on sub-Antarctic South Georgia: expanding the tephrostratigraphy of southern South America into the Atlantic sector of the Southern Ocean. Journal of Quaternary Science. 482-486.
  • Show author(s) (2018). Hydroclimate variability of High Arctic Svalbard during the Holocene inferred from hydrogen isotopes of leaf waxes. Quaternary Science Reviews. 177-187.
  • Show author(s) (2018). Holocene multi-proxy environmental reconstruction from lake Hakluytvatnet, Amsterdamøya Island, Svalbard (79.5°N). Quaternary Science Reviews. 164-176.
  • Show author(s) (2018). Cirque glacier on South Georgia shows centennial variability over the last 7000 years. Frontiers in Earth Science.
  • Show author(s) (2017). Ultra-distal Kamchatkan ash on Arctic Svalbard: Towards hemispheric cryptotephra correlation. Quaternary Science Reviews. 230-235.
  • Show author(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. 888-901.
  • Show author(s) (2016). The Water Tower of India in a Long-term Perspective – A Way to Reconstruct Glaciers and Climate in Himachal Pradesh during the last 13,000 Years. The International Journal of Climate Change: Impacts and Responses. 103-112.
  • Show author(s) (2016). Mapping sediment–landform assemblages to constrain lacustrine sedimentation in a glacier-fed lake catchment in northwest Spitsbergen. Journal of Maps. 985-993.
  • Show author(s) (2016). Holocene glacier variability and Neoglacial hydroclimate at Ålfotbreen, western Norway. Quaternary Science Reviews. 28-47.
  • Show author(s) (2016). Holocene glacier and climate fluctuations of the maritime ice cap Høgtuvbreen, northern Norway. The Holocene. 736-755.
  • Show author(s) (2016). Glacier-fed lakes as palaeoenvironmental archives. Geology Today. 213-218.
  • Show author(s) (2016). GlaRe, a GIS tool to reconstruct the 3D surface of palaeoglaciers. Computers & Geosciences. 77-85.
  • Show author(s) (2015). Reconstruction of glacier variability from lake sediments reveals dynamic Holocene climate in Svalbard. Quaternary Science Reviews. 201-218.
  • Show author(s) (2015). Reconstructing Holocene glacier activity at Langfjordjøkelen, Arctic Norway, using multi-proxy fingerprinting of distal glacier-fed lake sediments. Quaternary Science Reviews. 78-99.
  • Show author(s) (2015). Arctic Holocene glacier fluctuations reconstructed from lake sediments at Mitrahalvøya, Spitsbergen. Quaternary Science Reviews. 111-125.
  • Show author(s) (2015). A GIS tool for automatic calculation of glacier equilibrium-line altitudes. Computers & Geosciences.
  • Show author(s) (2014). Late-glacial and early-Holocene climate variability reconstructed from multi-proxy records on Andøya, northern Norway. Quaternary Science Reviews. 108-122.
  • Show author(s) (2014). Late glacial and Holocene environmental changes inferred from sediments in Lake Myklevatnet, Nordfjord, western Norway. Vegetation History and Archaeobotany. 229-248.
  • Show author(s) (2014). Arctic Holocene proxy climate database – New approaches to assessing geochronological accuracy and encoding climate variables. Climate of the Past. 1605-1631.
  • Show author(s) (2013). Numerical analyses of a multi-proxy data set from a distal glacier-fed lake, Sørsendalsvatn, western Norway. Quaternary Science Reviews. 182-195.
  • Show author(s) (2013). Inferring organic content of sediments by scanning reflectance spectroscopy (380–730 nm): applying a novel methodology in a case study from proglacial lakes in Norway. Journal of Paleolimnology. 583-592.
  • Show author(s) (2012). Vegetation responses to rapid climate changes during the last deglaciation 13 500 - 8000 years ago on southwest Andøya, arctic Norway. Vegetation History and Archaeobotany. 17-35.
  • Show author(s) (2011). A multi-proxy approach to assessing isolation basin stratigraphy from the Lofoten Islands, Norway. Quaternary Research. 288-300.
  • Show author(s) (2010). A complete record of Holocene glacier variability at Austre Okstindbreen, northern Norway: an integrated approach. Quaternary Science Reviews. 1246-1262.
  • Show author(s) (2009). Rapid oceanic and atmospheric changes during the Younger Dryas cold period. Nature Geoscience. 202-205.
  • Show author(s) (2008). Strength and spatial patterns of the Holocene wintertime westerlies in the NE Atlantic region. Global and Planetary Change. 28-41.
  • Show author(s) (2008). Norwegian mountain glaciers in the past, present and future. Global and Planetary Change. 10-27.
  • Show author(s) (2007). Rockglacier activity during the Last Glacial-Interglacial transition and Holocene spring snowmelting. Quaternary Science Reviews. 793-807.
  • Show author(s) (2007). Cirque glacier activity in arctic Norway during the last deglaciation. Quaternary Research. 387-399.
  • Show author(s) (2007). A continuous, high-resolution 8500-yr snow-avalanche record from western Norway. The Holocene. 269-277.
  • Show author(s) (2006). Holocene palaeoclimate reconstructions at Vanndalsvatnet, western Norway, with particular reference to the 8200 ca. yr BP event. The Holocene. 717-729.
  • Show author(s) (2005). Utilizing physical sediment variability in glacier-fed lakes for continuous glacier reconstructions during the Holocene, northern Folgefonna, western Norway. The Holocene. 161-176.
  • Show author(s) (2005). Lateglacial and early Holocene palaeoclimatic reconstruction based on glacier fluctuations and equilibrium-line altitudes at northern Folgefonna, Hardanger, western Norway. Journal of Quaternary Science. 179-198.
  • Show author(s) (2005). Holocene mean July temperature and winter precipitation in western Norway inferred from palynological and glaciological lake-sediment proxies. The Holocene. 177-189.
  • Show author(s) (2005). Holocene glacier history of Bjornbreen and climatic reconstruction in central Jotunheimen, Norway, based on proximal glaciofluvial stream-bank mires. Quaternary Science Reviews. 67-90.
  • Show author(s) (2004). Bacterial magnetite in lake sediments: late glacial to Holocene climate and sedimentary changes in northern Norway. Earth and Planetary Science Letters. 319-333.
  • Show author(s) (2003). Reconstruction of former glacier equilibrium-line altitudes based on proglacial sites: an evaluation of approaches and selection of sites. Quaternary Science Reviews. 275-287.
Academic lecture
  • Show author(s) (2023). Reconstructing glacier advances on the sub-Antarctic Kerguelen (49°S, 69°E) Islands for the last millennium.
  • Show author(s) (2023). Long-distance transported pollen record from sub-Antarctic Kerguelen shows Southern Hemisphere Westerly Wind dynamics during the Holocene.
  • Show author(s) (2023). Holocene leaf wax isotopes from South Georgia reveal unprecedented shifts in Southern Westerlies during Common Era.
  • Show author(s) (2023). Forcing and Variability of Glaciers on South Georgia since the last Deglaciation .
  • Show author(s) (2023). Exotic pollen reveals Holocene wind dynamics in the sub-Antarctic.
  • Show author(s) (2023). Airborne ground penetrating radar surveying.
  • Show author(s) (2023). A 11-meter-long flood record from Vangsvatnet, Voss, western Norway – preliminary results.
  • Show author(s) (2022). Palynological evidence of Holocene climate variability and Southern Hemisphere Westerly Wind dynamics in the sub-Antarctic.
  • Show author(s) (2022). Palynological evidence of Holocene climate variability and Southern Hemisphere Westerly Wind dynamics in the sub-Antarctic.
  • Show author(s) (2022). New measurements of ice thickness on Jostedalsbreen ice cap reveal vulnerability to future fragmentation.
  • Show author(s) (2022). Lake Sagtjernet hydrogen isotopes and pollen .
  • Show author(s) (2022). Holocene vegetation variability on sub-Antarctic islands: Palynological inferred climate reconstructions.
  • Show author(s) (2022). Holocene vegetation and climate variability inferred from lake sediment records in the sub-Antarctic.
  • Show author(s) (2021). Using CT scans to count varves: Application to Lake Sagtjernet.
  • Show author(s) (2021). Using CT scans to count varves in Lake Sagtjernet.
  • Show author(s) (2021). Instability or adaptation of the pre-Viking society to the climate variability of the Late Antiquity?
  • Show author(s) (2021). Disentangling anthropogenic and environmental drivers of biological change in southeastern Norway during the Holocene.
  • Show author(s) (2021). Anthropogenic and environmental drivers of biological change in southeastern Norway during the Holocene.
  • Show author(s) (2020). Volcanic Eruptions and their Impacts on Climate, Environment, and Viking Society in 500-1250 CE .
  • Show author(s) (2020). Tracing socio-environmental dynamics and climate changes in the period 300-1300 CE in Scandinavia from lake sediments.
  • Show author(s) (2020). Record of climate and environmental changes in a dead-ice lake close to Gardermoen told by a 10 000 years old freshwater fish and a Viking King.
  • Show author(s) (2020). Late glacial and Holocene glacier fluctuations at the Sub-Antarctic Island Kerguelen in the Southern Indian Ocean .
  • Show author(s) (2020). Late glacial and Holocene glacier fluctuations at the Sub-Antarctic Island Kerguelen in the Southern Indian Ocean.
  • Show author(s) (2019). Towards an integrated earth system science education in Norway.
  • Show author(s) (2019). Svalbard`s Holocene - view from the lakes.
  • Show author(s) (2019). Reconstructing climate and socio-environmental changes using lake sediments .
  • Show author(s) (2019). Reconstructing Holocene Glacier and Climate Fluctuations from Lake Sediments in Vårfluesjøen, Northern Spitsbergen .
  • Show author(s) (2019). High-resolution lacustrine records of environmental changes in Scandinavia: a focus on the Migration period and Viking age.
  • Show author(s) (2019). Harnessing the potential of CT scanning to identify cryptotephra in sediment cores: a controlled experiment.
  • Show author(s) (2019). Centennial shifts in flood frequency and magnitude over the last thousend years in Western Norway.
  • Show author(s) (2019). Assessing the risk of geohazards at the plateau glacier Folgefonna in a warmer climate - evidences from distal glacier-fed lakes.
  • Show author(s) (2019). Adopting to new flood regimes: how the past can inform present day decision making.
  • Show author(s) (2019). A 6000-year record of mass-wasting and flooding reconstructed from sediments in the distal-glacier fed Lake Sandvinvatnet, southwest Norway.
  • Show author(s) (2018). Reconstructing Holocene Glacier and Climate Fluctuations from Lake Sediments in Vårfluesjøen, Northern Spitsbergen.
  • Show author(s) (2018). Early Holocene temperature oscillations exceed amplitude of measured and modeled change in three Svalbard lakes.
  • Show author(s) (2018). Assessing the risk of hazards at Norwegian plateau glaciers in a warmer climate.
  • Show author(s) (2017). Prevailing pacing of subantarctic glaciers by Southern Hemisphere Westerlies.
  • Show author(s) (2017). Integrating lake sediment paleoflood reconstructions in Norwegian flood frequency scenarios.
  • Show author(s) (2017). Holocene glacier fluctuations reconstructed from lake sediment at Kløsa and Vårfluesjøen, Spitsbergen.
  • Show author(s) (2016). Extensive lake sediment coring survey on Sub-Antarctic Indian Ocean Kerguelen Archipelago (French Austral and Antarctic Lands).
  • Show author(s) (2016). Amsterdamøya: a key site for the post-glacial of Svalbard.
  • Show author(s) (2016). A continuous record of Late Holocene glacier fluctuations on South Georgia, placed in a Southern Ocean climate context.
  • Show author(s) (2015). Reconstructing Climate Change Since The Late Glacial At Amsterdamøya, NW Svalbard (~80°N), Based On Lake Sediments From Lake Hakluytvatnet.
  • Show author(s) (2015). North Atlantic Westerlies during the last millennium.
  • Show author(s) (2015). High-resolution hydroclimate records from glacier-fed lakes.
  • Show author(s) (2015). Arctic Holocene glacier fluctuations reconstructed from lake sediments at Mitrahalvøya, Spitsbergen.
  • Show author(s) (2015). Arctic Holocene glacier fluctuations reconstructed from lake sediments at Mitrahalvøya, Spitsbergen.
  • Show author(s) (2014). North Atlantic westerlies during the last millennium.
  • Show author(s) (2013). Syncrhounous inter-hemispheric alpine glacier advances duing the Antartic Cold Reversal.
  • Show author(s) (2013). Synchronous inter-hemispheric alpine glacier advances during the Antarctic Cold Reversal.
  • Show author(s) (2013). South Georgia glaciers through periods of fast and slow retreat.
  • Show author(s) (2013). Shifting Climate States of the Polar Regions.
  • Show author(s) (2013). Sediment core and glacial environment reconstruction – a method review.
  • Show author(s) (2013). Past variations of an outlet glacier from the Folgefonna ice cap - What is the role of atmospheric circulation (NAO) and SST (AMO).
  • Show author(s) (2013). Numerical analysis of a multi-proxy data set from distal glacier-fed lake, Sørsendalsvatnet, western Norway.
  • Show author(s) (2013). North-Atlantic Holocene climate variability reflected in the dynamical response of Norwegian maritime glaciers.
  • Show author(s) (2013). Mid-Holocene amplification of century scale climate variability potential interhemispheric linkages.
  • Show author(s) (2013). Late Glacial and Holocene glacier fluctuations in Arctic Norway reconstructed from moraines and lake sediments.
  • Show author(s) (2013). Holocene climate variability – integrating marine and terrestrial records.
  • Show author(s) (2013). Folgefonna i notid, fortid og framtid.
  • Show author(s) (2012). Tracking changes in palaeo winter precipitation and palaeo wind along the western coast of Norway and Svalbard.
  • Show author(s) (2012). Synchronous inter-hemispheric alpine glacier advances during the Antarctic Cold Reversal.
  • Show author(s) (2012). Holosen klima og skredaktivitet på Folgefonnshalvøya.
  • Show author(s) (2012). Complex lateglacial alpine glacier variability at Andøya, arctic Norway.
  • Show author(s) (2011). Vegetation responses to rapid climatic changes during the last deglaciation on southwest Andøya, northern Norway.
  • Show author(s) (2011). Synchronous inter-hemispheric alpine glacier advances during the Antarctic cold reversal.
  • Show author(s) (2011). Shifting climate states of the polar regions.
  • Show author(s) (2011). Shifting climate states of the polar regions.
  • Show author(s) (2011). Reconstruction of soil organic carbon build-up and dynamics using compound-specific radiocarbon analysis of lake sediments.
  • Show author(s) (2011). Rapid Holocene glacier fluctuations in arctic Norway in concert with the strength and spatial pattern of the weterlies.
  • Show author(s) (2011). New insights into soil organic carbon build-up from compound-specific radiocarbon snalysis.
  • Show author(s) (2011). New insights into soil oragnic carbon build-up from compound-specific radiocarbon analysis.
  • Show author(s) (2011). Glaciers at the rim of poles as palaeo archives.
  • Show author(s) (2011). Glacier at the rim of the poles as palaeo archives.
  • Show author(s) (2011). Complex alpine glacier variability during the Late Glacial on Andøya, arctic Norway.
  • Show author(s) (2011). Applications of ITRAX data to reconstructing glacier fluctuations.
  • Show author(s) (2010). The Arctic Mountain Glacier, Austre Okstindbreen in Northern Norway, survived the “Holocene Thermal Optimum”.
  • Show author(s) (2010). Sediment core and glacial environment reconstruction - a method review (solicited).
  • Show author(s) (2010). Reconstructing glaciers and deriving past climate changes from glaciers.
  • Show author(s) (2010). Paleoceanographic and climatic variability on decadal to millennial timescales across the Drake Passage (PALEODRAKE)—project update (INVITED.
  • Show author(s) (2010). Paleoceanographic and climatic variability on decadal to millennial timescales across the Drake Passage (PALEODRAKE)-project update.
  • Show author(s) (2010). Middle to late Weichselian glacier fluctuations and Rock-glacier activity relate to the sea-level history of Northern Andøya, Arctic Norway.
  • Show author(s) (2010). Defining The Little Ice Age.
  • Show author(s) (2009). Yngre Dryas.
  • Show author(s) (2009). The Holocene turnover - A global climate shift at 4 ka.
  • Show author(s) (2009). Status of the terrestrial activity (geo/bio).
  • Show author(s) (2009). Rapid oceanic and atmospheric changes at the end of the younger Dryas cold period.
  • Show author(s) (2009). Rapid climate change – what can we learn from the past?
  • Show author(s) (2009). Preliminary results from a lake coring campaign in the Ural Mountains, Russian Arctic.
  • Show author(s) (2009). Holocene wintertime westerlies in Scandinavia.
  • Show author(s) (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.
  • Show author(s) (2009). Holocene alpine glacier fluctuations in Norway.
  • Show author(s) (2009). Glacial history of the Polar Urals inferred from terrestrial and lacustrine data.
  • Show author(s) (2009). Dating of landforms at Andøya: palaeoclimate history base don cosmogenic 10Be.
  • Show author(s) (2009). Atmospheric circulation inferred from lake sediments at Andøya, northern Norway.
  • Show author(s) (2008). Sediment climate linkages in distal-fed glacial lakes.
  • Show author(s) (2008). Ocean-atmosphere flickering ended the Younger Dryas cold period.
  • Show author(s) (2008). Mountain glacier fluctuations in Norway: evidence for a climatically unstable early Holocene, contracted mid-Holocene glaciers and multiple Neoglacial events.
  • Show author(s) (2008). Holocene glacier variations in Scandinavia.
  • Show author(s) (2008). Holocene glacier fluctuations in Norway: Evidence for a climatically unstable early Holocene, contracted mid-Holocene glaciers and multiple Neoglacial events.
  • Show author(s) (2008). Explaining Holocene glacier variability of Austre Okstindbreen with changes in Arctic air masses.
  • Show author(s) (2007). Titanium concentration in lake sediments as a measure for glacier activity during the Younger Dryas in South Western Norway.
  • Show author(s) (2007). The sedimentary response of a rockglacier to changing climate conditions.
  • Show author(s) (2007). Reconstructing the response of an arctic glacier to changes in climate forcing.
  • Show author(s) (2007). Magnetic Identification of Early Holocene Sediments from Lake Fjellandsbøvatnet, Uskedalen, W-Norway.
  • Show author(s) (2007). In situ 10Be ages constraining the glacial, periglacial and sea-level history of Andøya, northern Norway.
  • Show author(s) (2007). Holocene glacial fluctuation in Norway.
  • Show author(s) (2007). Glaciers and lakes at the rim of the northern North Atlantic.
  • Show author(s) (2006). Spatial asymmetry of the winter atmospheric circulation and its relation to the ocean.
  • Show author(s) (2006). Reconstruction of glacial and climatic variations at Møsevassbreen, Folgefonna,Western Norway during the Holocene and the Neoglacial time period.
  • Show author(s) (2006). Ocean-atmosphere interaction.
  • Show author(s) (2006). Global Climate change – natural variability or human impact?
  • Show author(s) (2006). Evidence for subdecadal climate instability during the Younger Dryas in the Subarctic Eastern Atlantic.
  • Show author(s) (2005). Winter precipitation anomalies during the Holocene observed through reconstructed glacier fluctuations along the west coast of Norway.
  • Show author(s) (2005). Utilizing physical sediment variability in glacier-fed lakes for continuous glacier reconstructions during the Holocene, northern Folgefonna, western Norway.
  • Show author(s) (2005). Utilizing physical sediment variability in glacier-fed lakes for continuous glacier reconstructilons during the Holocene.
  • Show author(s) (2005). Tracing suspended sediments through a glaciarized catchment in Okstindan, Northern Norway.
  • Show author(s) (2005). The sedimentary history of a pro-rockglacier lake: paleoclimatic implications and permafrost degradation.
  • Show author(s) (2005). The glacial and periglacial history of Lyngen during the Lateglacial.
  • Show author(s) (2005). The climate signal in glaciers -evidence for shifting North Atlantic atmosphere circulation.
  • Show author(s) (2005). Patterns of change in Holocene climate records from Lyngen, Northern Norway.
  • Show author(s) (2005). Glaciers and climate: Modern instrumental data, glacier mass balance and glacier length variations in Norway.
  • Show author(s) (2005). Glacier variations at Høgtuvbreen in Nordland, Northern Norway -preliminary results.
  • Show author(s) (2005). Glacier and climate: Reconstruction of Holocene glacier variations from lake sediments along a south-north transect in Norway.
  • Show author(s) (2005). Galciers and climate: Teleconnecton patterns reconstructed from records of Holocene glacier variations.
  • Show author(s) (2005). Deglaciation and cirque glaciation in Nordfjord.
  • Show author(s) (2004). Holocene mean July temperature and winter precipitation in western Norway inferred from lake sediment proxies.
  • Show author(s) (2004). High-resolution Holocene glacier and climate reconstructions from Western Norway.
  • Show author(s) (2004). Cirque glacier activity in Lofoten/Vesteralen during the Lateweichsel.
  • Show author(s) (2003). Reconstructed glacier chronologies from South Norway and evidence for shifting North Atlantic atmospheric circulation.
  • Show author(s) (2003). Magnetic proxies from a lacustrine record in northern Norway: sediment discrimination and identification of phase-changes.
  • Show author(s) (2003). Holocene winter climate variability in NW Europe.
  • Show author(s) (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.
  • Show author(s) (2002). The spatial distribution of fossil rockglaciers in Lofoten-Vesterålen and their implication for climatology and deglaciation history.
  • Show author(s) (2002). Late Glacieal and Holocene glacier fluctuations in Lyngen, Troms, northern Norway.
  • Show author(s) (2001). Younger Dryas and Holocene glacier fluctuations at Nordre Folgefonna, Southwestern Norway.
  • Show author(s) (2001). Late Glacial and Holocene glacierfluctuations and paleoclimate in Lyngen, Troms, Northern Norway.
  • Show author(s) (2001). Lacustrine and Geomorpological evidence for an early deglaciation and several holocene glacial advances at nordre folgefonna, Southwestern Norway.
  • Show author(s) (2001). Is the North Atlantic Oscillation reflected in Scandinavian glacier mass-balance records?
  • Show author(s) (2000). Reconstruction of Younger Dryas and Holocene glacier fluctuations and palaeoclimate at Folgefonna, southwestern Norway.
  • Show author(s) (2000). Deglaciation and Holocene glacier activity at Nordre Folgefonna, South Western Norway: evidence from lacustrine sediments and geomorphoogical mapping.
Abstract
  • Show author(s) (2018). East Greenland lake sediments capture surface process response to Holocene climate transitions. Geophysical Research Abstracts.
  • Show author(s) (2010). LateWeichselian cirque-glacier fluctuations on Andøya, northern Norway. Geophysical Research Abstracts.
Academic literature review
  • Show author(s) (2023). Palaeoclimatic and regional implications of Older Dryas and Younger Dryas local glacier activity in the low-Arctic valley Finnkongdalen, Andøya, northern Norway. Boreas. 168-193.
  • Show author(s) (2021). Role of Indian Summer Monsoon and Westerlies on glacier variability in the Himalaya and East Africa during Late Quaternary: Review and new data. Earth-Science Reviews. 1-25.
  • Show author(s) (2007). Reconstruction of Holocene glacier history from distal sources: glaciofluvial stream-bank mires and a glaciolacustrine sediment core near Sota Sæter, Breheimen, southern Norway. The Holocene. 729-745.
  • Show author(s) (2005). Glacier fluctuations, equilibrium-line altitudes and palaeoclimate in Lyngen, northern Norway, during the Lateglacial and Holocene. The Holocene. 518-540.
  • Show author(s) (2004). Were abrupt Lateglacial and early-Holocene climatic changes in northwest Europe linked to freshwater outbursts to the North Atlantic and Arctic Oceans? The Holocene. 299-310.

More information in national current research information system (CRIStin)

Published

1.    Eirik G. Ballo, Manon Bajard, Eivind Støren, Jostein Bakke (2023). Using microcomputed tomography (µCT) to count varves in lake sediment sequences: application to Lake Sagtjernet, Eastern Norway. Quaternary Geochronology,  https://doi.org/10.1016/j.quageo.2023.101432

2.    Henrik Løseth Jansen, Svein Olaf Dahl, Henriette Ling, Jostein Bakke, Pål Ringkjøb Nielsen and Bjørn Christian Kvisvik (2023): Palaeoclimatic and regional implications of Older Dryas and Younger Dryas local glacier activity in the low-arctic valley Finnkongdalen, Andøya, northern Norway. Boreas, https://doi.org/10.1111/bor.12609

3.    Lucas D. Elliott, Dilli P. Rijal, Antony G. Brown, Jostein Bakke, Lasse Topstad, Peter D. Heintzman, and Inger G. Alsos (2023): Sedimentary Ancient DNA Reveals Local Vegetation Changes Driven by Glacial Activity and Climate. Quaternary 2023, 6(1), 7; https://doi.org/10.3390/quat6010007

4.    Inger Greve Alsos, Dilli Prasad Rijal, Dorothee Ehrich, Dirk Nikolaus Karger, Nigel Gilles Yoccoz, Peter D Heintzman, Antony G Brown, Youri Lammers, Loïc Pellissier, Torbjørn Alm, Kari Anne Bråthen, Eric Coissac, Marie Kristine Føreid Merkel, Adriana Alberti, France Denoeud, Jostein Bakke, PhyloNorway Consortium (2022); Postglacial species arrival and diversity buildup of northern ecosystems took millennia. Science advances, 8, 39. DOI: 10.1126/sciadv.abo7434

5.    Willem GM van der Bilt, William J D’Andrea, Lea T Oppedal, Jostein Bakke, Anne E Bjune, Maaike Zwier (2022); Stable Southern Hemisphere westerly winds throughout the Holocene until intensification in the last two millennia. Communications Earth & Environment, 186. https://doi.org/10.1038/s43247-022-00512-8

6.    Johannes Hardeng, Jostein Bakke, Pierre Sabatier, Eivind Wilhelm Nagel Støren, Willem Van der Bilt (2022); Lake sediments from southern Norway capture Holocene variations in flood seasonality. Quaternary Science Reviews, 290. https://doi.org/10.1016/j.quascirev.2022.107643

7.    Fanny Ekblom Johansson, Jostein Bakke, Eivind Nagel Støren, Mette Kusk Gillespie, Tron Laumann (2022); Mapping of the Subglacial Topography of Folgefonna Ice Cap in Western Norway—Consequences for Ice Retreat Patterns and Hydrological Changes. Journal Frontiers in Earth Science, https://doi.org/10.3389/feart.2022.886361

8.    Manon Bajard, Eirik Ballo, Helge I. Høeg, Jostein Bakke, Eivind Støren, Kjetil Loftsgarden, Frode Iversen, William Hagopian, Anne H. Jahren, Henrik H. Svensen,  Kirstin Krüger (2022); Climate adaptation of pre-Viking societies. Quaternary Science Reviews, 278, https://doi.org/10.1016/j.quascirev.2022.107374

9.    Lorelei Curtin, William J. D’Andrea, Nicholas L. Balascio, Sabrina Shirazi Beth Shapiro, Gregory A. de Wet, Raymond S. Bradley & Jostein Bakke (2021): Sedimentary DNA and molecular evidence for early human occupation of the Fraroe Islands. Communications earth & environment, 2:253, https://doi.org/10.1038/s43247-021-00318-0

10.    Bilt, Willem Godert Maria van der; Barr, Iestyn D.; Berben, Sarah Miche Patricia; Hennekam, Rick; Lane, Timothy P.; Adamson, Kathryn; Bakke, Jostein. Late Holocene canyon-carving floods in northern Iceland were smaller than previously reported. Communications Earth & Environment 2021 

11.    Kumar, Om; Ramanathan, A.L.; Bakke, Jostein; Kotlia, B.S.; Shrivastava, J.P.; Kumar, Pankaj; Sharma, Rajveer; Kumar, Pramod. (2021); Role of Indian Summer Monsoon and Westerlies on glacier variability in the Himalaya and East Africa during Late Quaternary: Review and new data. Earth-Science Reviews, 212. s. 1-25

12.    Rijal, Dilli Prasad; Heintzman, Peter D.; Lammers, Youri; Yoccoz, Nigel; Lorberau, Kelsey; Pitelkova, Iva; Goslar, Tomasz; Murguzur, Francisco Javier Ancin; Salonen, J. Sakari; Helmens, Karin F.; Bakke, Jostein; Edwards, Mary E.; Alm, Torbjørn; Bråthen, Kari Anne; Brown, Antony; Alsos, Inger Greve. (2021): Sedimentary ancient DNA shows terrestrial plant richness continuously increased over the Holocene in northern Fennoscandia. Science Advances, 7 (31).

13.    ter Schure, Anneke; Bajard, Manon Juliette Andree; Loftsgarden, Kjetil; Helge, Høeg; Ballo, Eirik Gottschalk; Bakke, Jostein; Støren, Eivind Wilhelm Nagel; Kool, Anneleen; Brysting, A. K.; Krüger, Kirstin; Boessenkool, Sanne (2021): Anthropogenic and environmental drivers of vegetation change in southeastern Norway during the Holocene. Quaternary Science Reviews, 270 (15).

14.    Bakke, Jostein; Paasche, Øyvind; Schaefer, Joerg M.; Timmermann, Axel. (2021):Long-term demise of sub-Antarctic glaciers modulated by the Southern Hemisphere Westerlies. Scientific Reports, 11, https://doi.org/10.1038/s41598-021-87317-5

15.    Rea, B.R., Pellitero, R., Spagnolo, M., Hughes, P., Ivy-Ochs, S., Renssen, H., Ribolini, A., Bakke, J., Lukas, S., Braithwaite, R.J. (2020): Atmospheric circulation over Europe during the Younger Dryas. Science Advances, 20, 5, DOI: 10.1126/sciadv.aba4844

16.    Xia, Z.,Toska Oppedal, L., Van der Putten, N., Bakke, J., Yu, Z. (2020): Ecological response of a glacier-fed peatland to late Holocene climate and glacier changes on subantarctic South Georgia, Quaternary Science Reviews, 250, 106679, https://doi.org/10.1016/j.quascirev.2020.106679

17.    Kumar, O., Ramanathan, A.L., Bakke, J, Kotlia, B.S,, Shrivastava, J., Pankaj Kumar, P. Sharma, R., Kumar, P. (2020): Role of Indian Summer Monsoon and Westerlies on glacier variability in the Himalaya and East Africa during Late Quaternary: Review and new data, Earth-Science Reviews, 103431, ISSN 0012-8252, https://doi.org/10.1016/j.earscirev.2020.103431.

18.    Wittmeier, H. E., Schaefer, J. M., Bakke, J., Rupper, S., Paasche, Ø., Schwartz, R., Finkel, R. C. (2020): Late Glacial mountain glacier culmination in Arctic Norway prior to the Younger Dryas. Quaternary Science Reviews, 245, 1064621 https://doi.org/10.1016/j.quascirev.2020.106461

19.    Ekblom Johansson, F., Wangner, D. J., Andresen, C. S., Bakke, J., Støren, E. N., Schmidt, S. & Vieli, A. (2020): Glacier and ocean variability in Ata Sund, west Greenland, since 1400 CE. The Holocene, https://DOI.10.1177/0959683620950431

20.    Ekblom Johansson, F., Bakke, J., Støren, E. N., Paasche, Ø., Egeland, 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 8 (239). https://doi.org/10.3389/feart.2020.00239

21.    Kumar, O., A. L. Ramanathan, A. l., Bakke, J, Kotlia, B. S. Shrivastava, J. P. (2020): Disentangling source of moisture driving glacier dynamics and identification of 8.2 ka event: evidence from pore water isotopes, Western Himalaya. Scientific Reports, 10:15324, https://doi.org/10.1038/s41598-020-71686-4

22.    Alsos, I., Sjögren, P., Brown, A. G., Gielly, L., Føreid, M. F., Merkel, Paus, A., Lammers, Y., Edwards, M. E., Alm, T., Leng, M., Goslar, T., Catherine T. Langdon,  C .T., Bakke, J. & van der Bilt, W. G. W. (2020): Last Glacial Maximum environmental conditions at Andøya, northern Norway; evidence for a northern ice-edge ecological “hotspot”, Quaternary Science Reviews. Volume 239, 2020, 106364, ISSN 0277-3791, https://doi.org/10.1016/j.quascirev.2020.106364

23.    Lane, T. P., Paasche, Ø., Kvisvik, B., Adamson, K. R., Rodés, Á., Patton, H., Gomez. D., Gheorghiu, D., Bakke, J., Hubbard, A. (2020).  Elevation changes of the Fennoscandian Ice Sheet interior during the last deglaciation. Geophysical Research Letters,  47, e2020GL088796. https://doi.org/10.1029/2020GL088796

24.    Balascio NL, Anderson RS, D’Andrea WJ, Wickler S, D’Andrea RM, Bakke J. (2020): Vegetation changes and plant wax biomarkers from an ombrotrophic bog define hydroclimate trends and human-environment interactions during the Holocene in Northern Norway. The Holocene, 1-20, https://doi.org/10.1177/0959683620950456

25.    Røthe, T., Bakke, J. and Støren, E. (2019): Wintertime extreme events recorded by lake sediments in Arctic Norway. The Holocene, 29 (8), 1305-1321. https://doi.org/10.1177/0959683619846983

26.    van der Bilt, W. G. M., D'Andrea, W. J., Werner, J. P., & Bakke, J. (2019). Early Holocene temperature oscillations exceed amplitude of observed and projected warming in Svalbard lakes. Geophysical Research Letters, 46 https://doi.org/10.1029/2019GL084384

27.    Ólafsdóttir, S., Reilly, B.T., Bakke, J., Stoner, J.S.,Gjerde, M. van der Bilt, W.G.M (2019):  Holocene paleomagnetic secular variation (PSV) near 80° N, Northwest Spitsbergen, Svalbard: Implications for evaluating High Arctic sediment chronologies. https://doi.org/10.1016/j.quascirev.2019.03.003

28.    Hanssen-Bauer, Førland, J., Hisdal, H., Mayer, S., Sandø, A.B., Sorteberg, A. (eds); Adakudlu, M, Andresen, J., Bakke, J., Beldring, S., Benestad, R., van der Bilt, W., Bogen, J., Borstad, 6 , K.Breili9 , Ø.Breivik1,4, K.Y.Børsheim5,13, H.H.Christiansen6 , A.Dobler1 , R.Engeset2 , R.Frauenfelder7 , S.Gerland10, H.M.Gjelten1 , J.Gundersen2 , K.Isaksen1,12, C.Jaedicke7 , H.Kierulf9 , J.Kohler10, H.Li2,12, J.Lutz1,12, K.Melvold2,12, A.Mezghani1,12, F.Nilsen4,6, I.B.Nilsen2,12, J.E.Ø.Nilsen5,8,13, O. Pavlova10, O.Ravndal9 , B.Risebrobakken3,13, T.Saloranta2 , S.Sandven6,8,13, T.V.Schuler6,11, M.J.R.Simpson9 , M.Skogen5,13, L.H.Smedsrud4,6,13, M.Sund2 , D. Vikhamar-Schuler1,2,12, S.Westermann11, W.K.Wong2 (2019): Climate in Svalbard 2100, 1/2019, Norwegian Environment Agency. 

29.    Røthe, T., Bakke, J. and Støren, E. (2019): Holocene glacier outburst floods reconstructed from lake sediments and their implications for glacier positioning and timing of glacier events at Folgefonna glacier, western Norway. Boreas. https://doi.org/10.1111/bor.12388

30.    Reinardy, B. T. I., Booth, A., Hughes, A., Boston, C. M., Åkesson, H., Bakke, J., Nesje, A., Giesen, R. H., and Pearce, D. (2019): Spatial distribution of cold-ice within a temperate glacier – implications for glacier dynamics, sediment transport and foreland geomorphology. The Cryosphere Discussion, https://doi.org/10.5194/tc-2018-199, in review, 2018.

31.    Bradley, R. and Bakke, J. (2019); Is there evidence for a 4.2 ka B.P. event in the northern North Atlantic region? The Climate of the Past. Clim. Past, 15, 1665–1676, 2019 https://doi.org/10.5194/cp-15-1665-2019

32.    Ficetola, Fransesco Gentil; Poulenard, Jerome; Sabatier, Pierre; Messager, Erwan; Gielly, Ludovic; Leloup, Anouk; Etienne, David; Bakke, Jostein; Malet, Emmanuel; Fanget, Bernard; Støren, Eivind Wilhelm Nagel; Reyss, Jean-Louis; Taberlet, Pierre; Arnaud, Fabien. (2018): DNA from lake sediments reveals long-term ecosystem changes after a biological invasion. Science Advances; Volum 4(5).

33.    Røthe, T., Bakke, J., Støren, E.W.N., Bradley, Raymond S., 2018. Reconstructing Holocene Glacier and Climate Fluctuations From Lake Sediments in Vårfluesjøen, Northern Spitsbergen. Frontiers in Earth Science 6, Article 91.

34.    Oppedal, L.T., van der Bilt, W.G.M., Balascio, N.L., Bakke, J., 2018. “Patagonian ash on sub-Antarctic South Georgia: expanding the tephrostratigraphy of southern South America into the Atlantic sector of the Southern Ocean”, Journal of Quaternary Science, doi: 10.1002/jqs.3035

35.    van der Bilt, W.G., Rea, B., Spagnolo, M., Roerdink, D., Jørgensen, S., Bakke, J. (2018): Novel sedimentological fingerprints link shifting depositional processes to Holocene climate transitions in East Greenland. Global and Planetary Change, Volume 164, 52-64, https://doi.org/10.1016/j.gloplacha.2018.03.0073

36.    Oppedal, L., Bakke, J., Paasche, Ø., Werner, J., van der Bilt, G.W. (2018): Cirque Glacier on South Georgia Shows Centennial Variability over the Last 7000 Years. Front. Earth Sci., doi.org/10.3389/feart.2018.00002

37.    Bakke, J., Balascio, N., van der Bilt, G.W., Bradley, R., D' Andrea, W., Gjerde, M., Olafsdottir, S., Røthe, T., DeWet, G. (2018): The Island of Amsterdamøya: A key site for studying past climate in the Arctic Archipelago of Svalbard. Quaternary Science Reviews, 183, 157-163. doi.org/10.1016/j.quascirev.2017.11.005

38.    Balascio, N., D'Andrea. W., Gjerde, M. & Bakke, J. (2018): Hydroclimate variability of High Arctic Svalbard during the Holocene inferred from hydrogen isotopes of leaf waxes. Quaternary Science Reviews, 183, 177-187. dx.doi.org/10.1016/j.quascirev.2016.11.036

39.    De Wet, G., Balascio, N., D'Andrea, W., Bakke, J., Bradley, R., Perren, B. (2018): Holocene glacier activity reconstructed from proglacial lake Gjøavatnet on Amsterdamøya, NW Svalbard. Quaternary Science Reviews, 183, 188-203, dx.doi.org/10.1016/j.quascirev.2017.03.018

40.    Gjerde, M., Bakke, J., D'Andrea, W., Balascio, N., Bradley, R., Vasskog, K., Òlafsdottir, S., Røthe, T., Perren, B. & Hormes, A. (2018): Holocene multi-proxy environmental reconstruction from lake Hakluytvatnet, Amsterdamøya Island, Svalbard (79.5oN). Quaternary Science Reviews, 183, 164-176. dx.doi.org/10.1016/j.quascirev.2017.02.017

41.    van der Bilt, W., D'Andrea, W., Bakke, J., Balascio, N., Werner, J., Gjerde, M., Bradley, R. (2018): Alkenone-based reconstructions reveal four-phase Holocene temperature evolution for High Arctic Svalbard.  Quaternary Science Reviews, 183, 204-213. doi.org/10.1016/j.quascirev.2016.10.006

42.    Van der Bilt, W., 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, 32, 6, 888–901

43.    Van der Bilt, W., Lane, C., Bakke, J. (2017): Ultra-distal Kamchatkan ash on Arctic Svalbard: Towards hemispheric cryptotephra correlation. Quaternary Science Reviews 2017 ;Volum 164. s. 230-235

44.    Pellitero, R., Rea, B.R., Spagnolo, M., Bakke, J., Ivy-Ochs, S., Frew, C.R., Hughes, P., Ribolini, A., Lukas, S., Renssen, H. (2016):GlaRe, a GIS tool to reconstruct the 3D surface of palaeoglaciers. Computers & Geosciences, Volume 94, September 2016, Pages 77-85

45.    Bakke, J., Vasskog, K., Ramanathan, A.L., Mandal, A., Kumar, O. and Nesje, A. (2016): The water tower of India in a long-term perspective - a way to reconstruct glaciers and climate in Himachal Pradesh during the last 13, 000 years. Journal of Climate Change, (2), 103-112. DOI 10.3233/JCC-160011

46.    Gjerde, M., Bakke, J., Vasskog, K., Nesje, A., Hormes, A. (2016): Holocene glacier variability and Neoglacial hydroclimate at Ålfotbreen, western Norway. Quaternary Science Reviews 2016 ;Volum 133. s. 28-47

47.    Van Bilt, W., Bakke, J., Vasskog, K., Røthe, T., Støren, E. (2016): Glacier-fed lakes as palaeoenvironmental archives. Geology Today 2016 ;Volum 32.(6) s. 213-218

48.    Van Bilt, W., Balascio, N., Bakke, J., (2016): Mapping sediment–landform assemblages to constrain lacustrine sedimentation in a glacier-fed lake catchment in northwest Spitsbergen. Journal of Maps 2016 ;Volum 12.(5) s. 985-993

49.    Jansen, H., Simonsen, J., Dahl, S. O., Bakke, J., Nielsen, P. (2016): Holocene glacier and climate fluctuations of the maritime ice cap Høgtuvbreen, northern Norway. The Holocene 2016 ;Volum 26.(5) s. 736-755

50.    Paasche, Øyvind; Bakke, Jostein (2015): The fleeting glaciers of the Arctic. I: The New Arctic. Springer Publishing Company 2015 ISBN 978-3-319-17602-4. s. 79-93 

51.    Van der Bilt, W.G.M., Bakke, J.,  Vasskog, K., D`Andrea, W., Bradley, R.S. and Ólafsdóttir, S. (2015): A continuous record of glacier variability from lake sediments reveals three-stage Holocene climate history for Svalbard. Quaternary Science Review

52.    Ramón Pellitero, Brice R. Rea, Matteo Spagnolo, Jostein Bakke, Susan Ivy-Ochs, Philip Hughes, Sven Lukas, Adriano Ribolini (2015): A GIS tool for automatic calculation of glacier equilibrium-line altitudes. Computers and geoscience, doi:10.1016/j.cageo.2015.05.005

53.    Nicholas L. Balascio, Pierre Francus, Raymond S. Bradley, Benjamin B. Schupack, Gifford H. Miller, Bjørn C. Kvisvik, Jostein Bakke and Thorvaldur Thordarson (2015): Investigating the Use of Scanning X-Ray Fluorescence to Locate Cryptotephra in Minerogenic Lacustrine Sediment: Experimental Results. Springer, I. Croudace, G. Rothwell (eds.), “Micro-XRF Studies of Sediment Cores, Developments in Paleoenvironmental Research”, DOI 10.1007/978-94-017-9849-5_11

54.    Røthe, T., Bakke, J., Vasskog, K., Gjerde, M., D`Andrea, W.J. and Bradley, R. 2015: Arctic Holocene glacier fluctuations reconstructed from lake sediments at Mitrahalvøya, Spitsbergen. Quaternary Science Reviews, 109, 11-125.

55.    Wittmer, H., Bakke, J. and Vasskog, K. (in press): Holocene glaicer activity in Arctic Norway reconstructed useing multi-proxy fingerpringint in distal glacier-fed lake sediments. Quaternary Science Reviews. 

56.    H.S. Sundqvist, D.S. Kaufman, N.P. McKay, N.L. Balascio, J.P. Briner, L.C. Cwynar, H.P. Sejrup, H. Seppä, D.A. Subetto, J.T. Andrews, Y. Axford, J.Bakke, H.J.B. Birks, S.J. Brooks, A. de Vernal, A.E. Jennings, F.C., Ljungqvist, K.M. Rühland, C. Saenger, J.P. Smol and A.E. Viau 2014: Arctic Holocene proxy climate database – New approaches to assessing geochronological accuracy and encoding climate variables. Climate of the past, doi:10.5194/cpd-10-1-2014

57.    Hilary H. Birks, Ingelinn Aarnes, Anne E Bjune, Stephen J Brooks, Jostein Bakke, Norbert Kühl, H. John B. Birks 2014: Late-glacial and early-Holocene climate variability reconstructed from multi proxy records on Andøya, northern Norway. Quaternary Science Reviews, 10.1016/j.quascirev.2014.01.018

58.    Nesje, A., Bakke, J., Brooks, S.J., Kaufman, D.S., Kihlberg, E., Trachsel, M., D’Andrea, W.J. and Matthews, J.A. 2014: Late Glacial and Holocene environmental changes inferred from sediments in Lake Myklevatnet, Nordfjord, western Norway. Vegetation History and Archeobotany 23, 229-248

59.    Trachel, M., Kvisvik, B., Nilsen, P., Bakke, J. and Nesje, A. 2013: Inferring organic content of sediments by scanning reflectance spectroscopy (380-739nm): applying a novel methodology in case study from proglacial lakes in Norway. Journal of Paleolimnology, DOI 10.1007/s10933-013-9739-1

60.    Bakke, J., Trachel, M., Kvisvik, B.C., Nesje, A. and Lyså, A. (2013): Numerical analyses of a multi-proxy data set from a distal glacier-fed lake, Sørsendalensvatn, western Norway. Quaternary Science Reviews, 73, 182–195, http://dx.doi.org/10.1016/j.quascirev.2013.05.003

61.    Hilary H. Birks, Thomas Giesecke, Godfrey M. Hewitt, Polychronis C. Tzedakis, Jostein Bakke, H. John B. Birks (2012): Comment on ‘Glacial survival of boreal trees in northern Scandinavia’ by Parducci et al., Science (2012) 335, 1083-1086.

62.    Aarnes, I., Bjune, A., Birks, H.H., Balascio, N., Bakke, J. and Blaauw, M. 2011: Vegetation responses to rapid climatic changes during the last deglaciation 13,500 – 8000 years ago on southwest Andøya, arctic Norway. Veget Hist Archaeobot, DOI 10.1007/s00334-011-0320-4

63.    Balascio, N, Zhang, Z., Bradley, R. Perren, B., Dahl, S.O., Bakke, J. 2011: A multi-proxy approach to assessing isolation basin stratigraphy from the Lofoten Islands, Norway. Quaternary Research, 75, 288-300. doi:10.1016/j.yqres.2010.08.012 

64.    Bakke, J. and Paasche, Ø. 2011: Sediment core and glacial environment reconstruction. In: Encyclopaedia of Snow, Ice and Glaciers. Ed.: V.P. Singh, P. Singh & U.K. Haritashya, Springer, 268-277, ISBN 978-90-481-2641-5.

65.    Bakke, J. and Nesje, A (2011): Equilibrium line altitude (ELA). In: Encyclopaedia of Snow, Ice and Glaciers. Ed.: V.P. Singh, P. Singh & U.K. Haritashya, Springer, 979-984, ISBN 978-90-481-2641-5.

66.    Bakke, J., Dahl, S.O., Paasche, Ø., Kvisvik, B., Simonsen, J., Bakke, K. and Nesje, A. 2010: A complete record of Holocene glacier variability at Austre Okstindbreen, northern Norway: an integrated approach. Quaternary Science Reviews, 29, 1246-1262.

67.    Bakke, J. Lie, Ø., Heegaard, E., Dokken, T., Haug, G.H., Birks, H.H., Dulski, P and Nilsen, T. 2009: Rapid oceanic and atmospheric changes during the Younger Dryas cold period. Nature Geoscience. DOI: 10.1038/NGEO439

68.    Nesje, A., Bakke, J., Dahl, S.O., Lie, Ø. and Matthews, J.A. 2008: Norwegian mountain glaciers in the past, present and future. Global and Planetary Change. 60 (1-2) s. 10-27 Doi:10.1016/j.gloplacha.2006.08.004

69.    Bakke, J., Lie, Ø., Dahl S.O., Nesje A., and Bjune A.E. 2008: Strength and spatial patterns of the Holocene wintertime westerlies in the NE Atlantic region. Global and Planetary Change. 60 (1-2) s. 28-41.  doi:10.1016/j.gloplacha.2006.07.030

70.    Shakesby, R.A., Smith, J.G., Matthews,J.A., Winkler, S., P., Dresser, Q., Bakke, J.,  Dahl, S.O., Lie, Ø., and Nesje, A. 2007: Reconstruction of Holocene glacier history from distal sources: glaciofluvial stream-bank mires and a glaciolacustrine sediment core near Sota Sæter, Breheimen, southern Norway. The Holocene, 17,6, 729-45.

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

72.    Paasche, Ø., Dahl, S.O., Bakke, J., Løvlie, R. and Nesje, A. 2007: Rockglacier activity during the Last Glacial–Interglacial transition and Holocene spring snow melting . Quaternary Science Reviews, 26, 793-807.

73.    Nesje, A., Bakke, J., Dahl, S.O., Lie, Ø. and Bøe, A-G.2007: A continuous, high-resolution 8500-yr snow-avalanche record from western Norway. The Holocene, 17, 2, 269-277.

74.    Nesje, A., Bjune, A.E., Bakke, J. Dahl, S.O., Lie, Ø. And Birks, H.J.B. 2006: Holocene palaeoclimate reconstructions at Vanndalsvatnet, western Norway, with particular reference to the 8200 cal. yr BP. The Holocene,16, 717-729.

75.    Bakke, J., Dahl, S.O. and Nesje, A. 2005: Lateglacial and early-Holocene palaeoclimatic reconstruction based on glacier fluctuations and equilibrium-line altitudes at northern Folgefonna, Hardanger, western Norway. Journal of Quaternary Science, 20, 179-198.

76.    Bakke, J., Dahl, S.O., Paasche, Ø. And Nesje, A. 2005: Glacier fluctuations, equilibrium-line altitudes and palaeoclimate in Lyngen, northern Norway during the Lateglacial and Holocene. The Holocene, 15, 4, 518-540.

77.    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, 2, 161-176.

78.    Nesje, A., Jansen, E., Birks, H.J.B., Bjune, E., Bakke, J., Dahl, C. A., Dahl, S.O., Kiltgaard-Kristensen, D., Lauritzen, S.E., Lie, Ø., Risebrobakken, B. and Svendsen, J.I. 2005: Holocene climate variability in the northern North Atlantic region: A review of terrestrial and marine evidence. AGU monograph series. In: The Nordic Seas: An integrated Perspective, Geophysical Monograph Series 158, 289-322. 

79.    Bjune, A., Bakke, J., Nesje, A. and Birks, H.J.B 2005: Holocene mean July temperature and winter precipitation in western Norway inferred from palynological and glaciological lake-sediment proxies. The Holocene, 15, 2, 177-189.

80.    John A. Matthews, Mark S. Berrisford, P. Quentin Dresser, Atle Nesje, Svein Olaf Dahl, Anne Elisabeth Bjune, Jostein Bakke, H. John, B. Birks, Øyvind Lie, Lisa Dumayne-Peaty and Catherine Barnett 2005: Holocene glacier history of Bjørnbreen and climatic reconstruction in central Jotunheimen, Norway, based on proximal glaciofluvial stream-bank mires. Quaternary Science Reviews, 24, 67-90

81.    Nesje, A., Dahl, S.O. & Bakke, J. 2004: Were abrupt Lateglacial and early-Holocene   climatic changes in northwest Europe related to freshwater outbursts to the North Atlantic and Arctic oceans? The Holocene, 14, 299-310. 

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

83.    Dahl, S. O., Bakke, J., Lie, Ø. and Nesje, A. 2003: Reconstruction of former glacier equilibrium-line altitudes based on proglacial sites: an evaluation of approaches and selection of sites. Quaternary Science Reviews, 22(2-4):275-287

84.    Nesje, A., S. O. Dahl, Ø. Lie and J. Bakke (2005). Holocene glacier fluctuations and winter precipitation variations in southern Norway. In: Reasoner, M. (ed.): Global Change and Mountain Regions. Kluwer Academic Press.

iEARTH, 

EARTHLAB, EISCLIM, GLACINDIA, SHIFTS, ARCTREC, ICEHUSII, PALEODRAKE, X-LAKE, MAGNET

Jostein Bakke (JB) holds a position as Professor at Department of Earth Science and is a meber of the Quaternary Research group. JB is Dr. scient (PhD) in Physical Geography from Department of Geography at University of Bergen. JB has research experience in Quaternary geology, physical geography, glacial history, palaeoclimatology, geomorphology, and lake sediments world wide. JB defended his doctor Scientiarum thesis ”Late Weichselian and Holocene glacier fluctuations along a coastal south-north transect in Norway – climatic and methodological implications” 16.04.2004 at Department of Geography, University of Bergen. JB has eight years with experience as lecturer through 25% teaching during his PhD and first 20% and later 100% position as Associate Professor/Professor at Department of Geography and Department of Earth Science, UiB. JB has supervised 35 master and 6 PhD students, extensive teaching experience from 11 courses, published 24 papers in international peer-reviewed scientific journals, 2 reports, 22 popular science articles and 56 conference papers at international conferences. JB is currently member of a research group at the Bjerknes Centre for Climate Research [awarded Centre of Excellence by the Norwegian Research Council] studying the dynamics of Holocene climate in the North Atlantic region and leader on the NRC funded five-year project SHIFTS working in the polar regions of the world. JB is holder of the Fulbright Arctic Chair Award for the academic year 2011/2012. JB has earlier been funded through NRC project called X-LAKE studying geochemical composition in lakes along the coast of Norway and the NRC funded project ARCTREC. In the nationally co-ordinated NORPAST-2 research project, funded by the NRC, JB was post doc of one of the project modules studying Lateglacial and Holocene climate variability. JB was affiliated on a Strategic University Program (SUP) entitled «Norwegian paleoenvironment and climate as reconstructed from lake sediments (NORPEC)», funded by the NRC during his PhD scholarship.

Twitter