theader.gph - adamsgaard.dk - my academic webpage
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       theader.gph (6143B)
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            1 # Research
            2 
            3 I am interested in understanding mechanical and hydrological processes
            4 in the climate system, specifically processes that relate to mechanics
            5 of granular materials, sea ice, and ice-sheet flow under past,
            6 present, and future scenarios.  Investigations of fundamental
            7 granular mechanics are important in many geodynamical and
            8 geomorphological processes and settings, such as earthquakes,
            9 landslides, sediment transport in flowing water, and dam stability.
           10 
           11 I have listed my publications and submitted manuscripts below.  If
           12 you would like to collaborate on a scientific problem please get
           13 in touch.
           14 
           15 
           16 ## Publications
           17 
           18 M. W. Svendsen, S. M. Kristiansen, V. K. Pedersen, and A. Damsgaard 2024
           19 "Mit livs dessert: 100-års jubilæet for Ellen Louise Mertz' studie af niveauforandringer i Danmark”
           20 (en: “The dessert of my life: the 100-year anniversary of Ellen Louise Mertz' studies of elevation changes in Denmark”)
           21 Geologisk Tidsskrift
           22 [<a href="papers/Svendsen%20et%20al%202024%20Mit%20livs%20dessert.pdf">PDF</a>]
           23 
           24 J. D. Andersen, L. Bødker, J. Dolby, A. Damsgaard, and N. Okkels 2024
           25 "Foundation on organic diatomite"
           26 Proceedings of the 19th Nordic Geotechnical Meeting
           27 [9|PDF|/papers/Andersen et al 2024 Foundation on organic diatomite.pdf|server|port]
           28 
           29 I. Kasmalkar, A. Damsgaard, L. Goren, J. Suckale 2021
           30 "Shear variation at the ice-till interface changes the spatial distribution of till porosity and meltwater drainage"
           31 [h|Journal of Geophysical Research, vol. 126|URL: https://doi.org/10.1029/2021JF006460|server|port]
           32 [9|PDF|/papers/Kasmalkar et al 2021 Shear variation at the ice-till interface changes the spatial distribution of till porosity and meltwater drainage.pdf|server|port]
           33 
           34 A. Damsgaard, O. Sergienko, and A. Adcroft 2021
           35 "The effects of ice floe-floe interactions on pressure ridging in sea ice"
           36 [h|Journal of Advances in Modeling Earth Systems, vol. 13|URL:https://doi.org/10.1029/2020MS002336|server|port]
           37 [9|PDF|/papers/Damsgaard et al 2021 The effects of ice floe-floe interactions on pressure ridging in sea ice.pdf|server|port]
           38 
           39 A. Damsgaard, L. Goren, and J. Suckale 2020
           40 "Water pressure fluctuations control variability in sediment flux
           41 and slip dynamics beneath glaciers and ice streams"
           42 [h|Communications Earth & Environment, vol. 1(66)|URL:https://doi.org/10.1038/s43247-020-00074-7|server|port]
           43 [9|PDF (main text)|/papers/Damsgaard et al 2020 Water pressure fluctuations control variability in sediment flux and slip dynamics beneath glaciers and ice streams.pdf|server|port]
           44 [9|PDF (supplementary information)|/papers/Damsgaard et al 2020 Water pressure fluctuations control variability in sediment flux and slip dynamics beneath glaciers and ice streams SI.pdf|server|port]
           45 
           46 A. Damsgaard, A. Adcroft, and O. Sergienko 2018
           47 "Application of discrete-element methods to approximate sea-ice
           48 dynamics"
           49 [h|Journal of Advances in Modeling Earth Systems, vol. 10, 2228-2244|URL:https://doi.org/10.1029/2018MS001299|server|port]
           50 [9|PDF|/papers/Damsgaard et al 2018 Application of discrete-element methods to approximate sea-ice dynamics.pdf|server|port]
           51 
           52 M. D. Bateman, D. A. Swift, J. A. Piotrowski, E. J. Rhodes, and A.
           53 Damsgaard 2018
           54 "Can glacial shearing of sediment reset the signal used for
           55 luminescence dating?"
           56 [h|Geomorphology, vol. 306, 90-101|URL:https://doi.org/10.1016/j.geomorph.2018.01.017|doi.org|70]
           57 [9|PDF|/papers/Bateman et al 2018 Can glacial shearing of sediment reset the signal used for luminescence dating.pdf|server|port]
           58 
           59 A. Damsgaard, J. Suckale, J. A. Piotrowski, M. Houssais, M.R.
           60 Siegfried, and H.A. Fricker 2017
           61 "Sediment behavior controls equilibrium width of subglacial channels"
           62 [h|Journal of Glaciology, vol. 63, 1034-1048|URL:https://doi.org/10.1017/jog.2017.71|server|port]
           63 [9|PDF|/papers/Damsgaard et al 2017 Sediment behavior controls equilibrium width of subglacial channels.pdf|server|port]
           64 
           65 A. Damsgaard, A. Cabrales-Vargas, J. Suckale, and L. Goren 2017
           66 "The coupled dynamics of meltwater percolation and granular deformation
           67 in the sediment layer underlying parts of the big ice sheets"
           68 [h|Poromechanics VI|URL:https://doi.org/10.1061/9780784480779.024|server|port]
           69 [9|PDF|/papers/Damsgaard et al 2017 The coupled dynamics of meltwater percolation and granular deformation in the sediment layer underlying parts of the big ice sheets.pdf|server|port]
           70 
           71 A. Damsgaard, D.L. Egholm, L.H. Beem, S. Tulaczyk, N.K. Larsen,
           72 J.A. Piotrowski, and M.R. Siegfried 2016 "Ice flow dynamics forced
           73 by water pressure variations in subglacial granular beds"
           74 [h|Geophysical Research Letters, vol. 43, 12,165-12,173|URL:https://doi.org/10.1002/2016GL071579|server|port]
           75 [9|PDF (main text)|/papers/Damsgaard et al 2016 Ice flow dynamics forced by water pressure variations in subglacial granular beds.pdf|server|port]
           76 [9|PDF (supplementary information)|/papers/Damsgaard et al 2016 Ice flow dynamics forced by water pressure variations in subglacial granular beds SI.pdf|server|port]
           77 
           78 A. Damsgaard, D.L. Egholm, J.A. Piotrowski, S. Tulaczyk, N.K. Larsen,
           79 and C.F. Braedstrup 2015 "A new methodology to simulate subglacial
           80 deformation of water-saturated granular material"
           81 [h|The Cryosphere, vol. 9, 2183-2200|URL:https://doi.org/10.5194/tc-9-2183-2015|server|port]
           82 [9|PDF|/papers/Damsgaard et al 2015 A new methodology to simulate subglacial deformation of water-saturated granular material.pdf|server|port]
           83 
           84 A. Damsgaard 2015
           85 "Numerical Modeling of Subglacial Sediment Deformation"
           86 Ph.D. thesis, Aarhus University, 165 pp.
           87 [9|PDF|/pub/ad-phd-thesis.pdf|server|port]
           88 
           89 C.F. Braedstrup, A. Damsgaard, and D.L. Egholm 2014
           90 "Ice-sheet modelling accelerated by graphics cards"
           91 [h|Computers and Geosciences, vol. 72, 210-220|URL:https://doi.org/10.1016/j.cageo.2014.07.019|server|port]
           92 
           93 A. Damsgaard, D.L. Egholm, J.A. Piotrowski, S. Tulaczyk, N.K.
           94 Larsen, and K. Tylmann 2013
           95 "Discrete element modeling of subglacial sediment deformation"
           96 [h|Journal of Geophysical Research: Earth Surface, vol. 118, 2230-2242|URL:https://doi.org/10.1002/2013JF002830|server|port]
           97 [9|PDF|/papers/Damsgaard et al 2013 Discrete element modeling of subglacial sediment deformation.pdf|server|port]