2020

 

209. Matthews, J.A. and Owen, G. (2021) The snow-avalanche impact landforms of Vestlandet, southern Norway. In:                  Beylich, A. A. (ed.) Landscapes and Landforms of Norway, pp. 131-145. Berlin: Springer.  

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210. Winkler, S., Donner, A. and Suntrup gen. Tintrup, A. (2021) Periglacial landforms in Jotunheimen, central southern               Norway, and their altitudinal distribution. In: Beylich, A.A. (ed.) Landscapes and Landforms of Norway, pp. 169-202.            Berlin: Springer.  

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211. Winkler, S., Matthews, J.A., Haselberger, S., Hill, J.L., Mourne, R.W., Owen, G. and Wilson, P. (2020) Schmidt-                       hammer exposure-age dating (SHD) of sorted stripes on Juvflye, Jotunheimen (central South Norway):                               morphodynamic and palaeoclimatic implications. Geomorphology 353: Article No. 107014 (19 pp.). 

             

212. Linge, H., Nesje, A., Matthews, J.A., Fabel, D. and Xu, S. (2020) Evidence for rapid paraglacial formation of rock                  glaciers in southern Norway from 10Be surface exposure dating.  Quaternary Research published on-line,                            doi:10.1017/qua.2020.10; Quaternary Research 97: 55-70. 

 

213. McEwen, L.J., Matthews, J.A. and Owen, G. (2020) Development of a Holocene glacier-fed composite alluvial fan                based on surface exposure-age dating techniques: the Illåe fan, Jotunheimen, Norway. Geomorphology 363: Article             No. 107200 (15pp.). 

 

214. Matthews, J.A., Haselberger, S., Hill, J.L., Owen, G., Winkler, S., Hiemstra, J. and Hallang, H. (2020) Snow-                          avalanche boulder fans in Jotunheimen, southern Norway: Schmidt-hammer exposure-age dating,                                     geomorphometrics, dynamics and evolution. Geografiska Annaler Series A (Physical Geography) 102: 118-140. † 

 

215. Hallang, H., Hiemstra, J.F., Los, S.O., Matthews, J.A. and Froyd, C.A.(2020) Carbon dioxide emissions from periglacial           patterned ground under changing permafrost conditions and shrub encroachment in an alpine landscape,                           Jotunheimen, Norway. Permafrost and Periglacial Processes 31: 524-53. 

 

216. Matthews, J.A., McEwen, L.J., Owen, G. and Los, S.O. (2020) Holocene alluvial fan evolution, Schmidt-hammer                   exposure-age dating (SHD) and paraglacial debris floods in the SE Jostedalsbreen region, southern Norway. Boreas 49:        886-904. 

 

217.  Shakesby, R.A., Matthews, J.A., Winkler, S. and Fabel, D. (2020) Early-Holocene moraine chronology, Sognefjell                  area, southern Norway: evidence for multiple glacial and cliimatic fluctuations within the Erdalen Event (~10.2-9.7              kyr) Norsk Geologisk Tidsskrift/Norwegian Journal of Geology 100: Article No. 202014 (28pp.). 

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218. Wilson, P., Matthews, J.A., Mourne, R.W., Linge, H. and Olsen, J. (2020) Interpretation, age and significance of a                 relict paraglacial and periglacial boulder-dominated landform assemblage in Alnesdalen, Romsdalsalpane, southern               Norway. Geomorphology 369: Article No. 107362 (16pp.). 

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2021

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219. Nesje, A., Matthews, J.A., Linge H., Bredal, M., Wilson, P. and Winkler, S. (2021) New evidence for active talus-foot               rock glaciers at Øyberget, southern Norway, and their development during the Holocene. The Holocene 31:

       1786-1796. 

 

220. Hiemstra, J.F., Young, G.H.F., Loader, N. J. and Gordon, P.R. (2021) Interrogating glacier mass balance response to               climatic change since the Little Ice Age: reconstructions for the Jotunheimen region, southern Norway. Boreas 51,               350-363. 

 

221. Pardoe, H.S. (2021) Identifying floristic diversity from the pollen record in open environments: considerations and     

       limitations. Palaeogeography, Palaeoclimatology, Palaeoecology 578: Article No. 110560. (14pp.). 

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2022

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222. Hallang H., Froyd, C.A., Hiemstra, J.F. and Los. S.O. (2022) Tree-line shifts, changing vegetation assemblages and               permafrost dynamics on Galdhøpiggen (Jotunheimen, Norway) over the past ~4400 years. The Holocene 32: 308-320. 

 

223. Hallang H., Los, S.O. and Hiemstra, J.F. (2022) Permafrost, thermal conditions and vegetation patterns since the mid-           20th century: a remote sensing approach applied to Jotunheimen, Norway. Progress in Physical Geography 46: 716-             736. 

 

224. Matthews, J.A. and Winkler, S. (2022) Schmidt-hammer exposure-age dating: a review of principles and practice.                 Earth-Science Reviews 230: Article No. 104038 (30pp.).  

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225. Matthews, J.A. and Nesje, A. (2022) Scandinavia. In Oliva, M., Nývlt, D. and Fernández- Fernández, J.M. (eds)                     Periglacial Landscapes of Europe, pp. 365-426. Berlin: Springer-Nature.

 

226. Hallang, H. (2022) Late Holocene alpine vegetation dynamics, temperature trends and surface CO2 efflux in                       Jotunheimen, Norway. Quaternary Newsletter 157 (October 2022): 47-59.

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2023

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227. Nesje, A. and Matthews, J.A. (2023) Holocene glacial landscapes of the Scandinavian Peninsula. In: Palacios, D.,                 Hughes, P.D., Jomelli, V. and Tanarro, L.M.(eds) European Glacial Landscapes:The Holocene, Amsterdam: Elsevier.

 

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228. Matthews, J.A., Linge, H., Nesje, A., Wilson, P., Mourne, R.W.,Winkler, S., Owen, G., Hill, J.L., Haselberger, S. and

       Olsen, J. (submitted) Deglaciation of the highest mountains in Scandinavia at the Younger Dryas- Holocene transition:         evidence from surface exposure-age dating of ice- marginal moraines. Boreas.

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