theader.html - adamsgaard.dk - my academic webpage
HTML git clone git://src.adamsgaard.dk/adamsgaard.dk
DIR Log
DIR Files
DIR Refs
DIR README
DIR LICENSE
---
theader.html (7764B)
---
1 %{pagebegin}
2 <article>
3 <h1>Research</h1>
4
5 <p>I am interested in understanding mechanical and hydrological processes in the
6 climate system, specifically processes that relate to mechanics of granular
7 materials, sea ice, and ice-sheet flow under past, present, and future scenarios.
8 Investigations of fundamental granular mechanics are important in many
9 geodynamical and geomorphological processes and settings, such as earthquakes,
10 landslides, sediment transport in flowing water, and dam stability.</p>
11
12 <p>I have listed my publications and submitted manuscripts below.
13 If you would like to collaborate on a scientific problem please <a
14 href="contact.html">get in touch</a>.</p>
15
16
17 <h2>Publications</h2>
18
19 <ul>
20
21 <li>
22 L. L. Pedersen, K. Svennevig, C. Morino, A. S. Søndergaard, C. Pearce, L.F. Pérez, <strong>A. Damsgaard</strong>, J. Olsen, M.F. Knudsen, A. Noblet, and N. K. Larsen
23 2026
24 <a href="https://doi.org/10.1016/j.geomorph.2025.110057">
25 "A giant Early Holocene tsunamigenic rock-ice avalanche in South Greenland preconditioned by glacial debuttressing"</a>
26 Geomorphology, vol. 492
27 [<a href="papers/Pedersen%20et%20al%202026%20A%20giant%20early%20Holocene%20tsunamigenic%20rock-ice%20avalanche%20in%20South%20Greenland.pdf">PDF</a>]
28 <br>
29 <br>
30 </li>
31
32 <li>
33 M. W. Svendsen, S. M. Kristiansen, V. K. Pedersen, and <strong>A. Damsgaard</strong>
34 2024
35 <a href="https://2dgf.dk/publikationer/geologisk-tidsskrift/geologisk-tidsskrift-2024/#7">
36 "Mit livs dessert: 100-års jubilæet for Ellen Louise Mertz' studie af niveauforandringer i Danmark"</a>
37 (en: “The dessert of my life: the 100-year anniversary of Ellen Louise Mertz' studies of elevation changes in Denmark”)
38 Geologisk Tidsskrift
39 [<a href="papers/Svendsen%20et%20al%202024%20Mit%20livs%20dessert.pdf">PDF</a>]
40 <br>
41 <br>
42 </li>
43
44 <li>
45 J. D. Andersen, L. Bødker, J. Dolby, <strong>A. Damsgaard</strong>, and N. Okkels
46 2024
47 <a href="https://www.geo.dk/bibliotek/#t=article">
48 "Foundation on organic diatomite"</a>
49 Proceedings of the 19th Nordic Geotechnical Meeting
50 [<a href="papers/Andersen%20et%20al%202024%20Foundation%20on%20organic%20diatomite.pdf">PDF</a>]
51 <br>
52 <br>
53 </li>
54
55 <li>
56 I. Kasmalkar, <strong>A. Damsgaard</strong>, L. Goren, and J. Suckale
57 2021
58 <a href="https://doi.org/10.1029/2021JF006460">
59 "Shear variation at the ice-till interface changes the spatial distribution of till porosity and meltwater drainage"</a>
60 Journal of Geophysical Research: Earth Surface, vol. 126
61 [<a href="papers/Kasmalkar%20et%20al%202021%20Shear%20variation%20at%20the%20ice-till%20interface%20changes%20the%20spatial%20distribution%20of%20till%20porosity%20and%20meltwater%20drainage.pdf">PDF</a>]
62 <br>
63 <br>
64 </li>
65
66 <li>
67 <strong>A. Damsgaard</strong>, O. Sergienko, and A. Adcroft
68 2021
69 <a href="https://doi.org/10.1029/2020MS002336">
70 "The effects of ice floe-floe interactions on pressure ridging in sea ice"</a>
71 Journal of Advances in Modeling Earth Systems, vol. 13
72 [<a href="papers/Damsgaard%20et%20al%202021%20The%20effects%20of%20ice%20floe-floe%20interactions%20on%20pressure%20ridging%20in%20sea%20ice.pdf">PDF</a>]
73 <br>
74 <br>
75 </li>
76
77 <li>
78 <strong>A. Damsgaard</strong>, L. Goren, and J. Suckale
79 2020
80 <a href="https://doi.org/10.1038/s43247-020-00074-7">
81 "Water pressure fluctuations control variability in sediment flux and slip dynamics beneath glaciers and ice streams"</a>
82 Communications Earth & Environment, vol. 1(66)
83 [<a href="papers/Damsgaard%20et%20al%202020%20Water%20pressure%20fluctuations%20control%20variability%20in%20sediment%20flux%20and%20slip%20dynamics%20beneath%20glaciers%20and%20ice%20streams.pdf">PDF</a>,
84 <a href="papers/Damsgaard%20et%20al%202020%20Water%20pressure%20fluctuations%20control%20variability%20in%20sediment%20flux%20and%20slip%20dynamics%20beneath%20glaciers%20and%20ice%20streams%20SI.pdf">SI</a>]
85 <br>
86 <br>
87 </li>
88
89 <li>
90 <strong>A. Damsgaard</strong>, A. Adcroft, and O. Sergienko
91 2018
92 <a href="https://doi.org/10.1029/2018MS001299">
93 "Application of discrete-element methods to approximate sea-ice dynamics"</a>
94 Journal of Advances in Modeling Earth Systems, vol. 10, 2228-2244
95 [<a href="papers/Damsgaard%20et%20al%202018%20Application%20of%20discrete-element%20methods%20to%20approximate%20sea-ice%20dynamics.pdf">PDF</a>]
96 <br>
97 <br>
98 </li>
99
100 <li>
101 M.D. Bateman, D.A. Swift, J.A. Piotrowski, E.J. Rhodes, and
102 <strong>A. Damsgaard</strong>
103 2018
104 <a href="https://doi.org/10.1016/j.geomorph.2018.01.017">
105 "Can glacial shearing of sediment reset the signal used for luminescence
106 dating?"</a>
107 Geomorphology, vol. 306, 90-101
108 [<a href="papers/Bateman%20et%20al%202018%20Can%20glacial%20shearing%20of%20sediment%20reset%20the%20signal%20used%20for%20luminescence%20dating.pdf">PDF</a>]
109 <br>
110 <br>
111 </li>
112
113 <li>
114 <strong>A. Damsgaard</strong>, J. Suckale, J.A. Piotrowski, M. Houssais,
115 M.R. Siegfried, and H.A. Fricker
116 2017
117 <a href="https://doi.org/10.1017/jog.2017.71">
118 "Sediment behavior controls equilibrium width of subglacial channels"</a>
119 Journal of Glaciology, vol. 63, 1034-1048
120 [<a href="papers/Damsgaard%20et%20al%202017%20Sediment%20behavior%20controls%20equilibrium%20width%20of%20subglacial%20channels.pdf">PDF</a>]
121 <br>
122 <br>
123 </li>
124 <li>
125 <strong>A. Damsgaard</strong>, A. Cabrales-Vargas, J. Suckale, and L. Goren
126 2017
127 <a href="https://doi.org/10.1061/9780784480779.024">"The coupled dynamics
128 of meltwater percolation and granular deformation in the sediment layer
129 underlying parts of the big ice sheets"</a>
130 Poromechanics VI
131 [<a href="papers/Damsgaard%20et%20al%202017%20The%20coupled%20dynamics%20of%20meltwater%20percolation%20and%20granular%20deformation%20in%20the%20sediment%20layer%20underlying%20parts%20of%20the%20big%20ice%20sheets.pdf">PDF</a>]
132 <br>
133 <br>
134 </li>
135
136 <li>
137 <strong>A. Damsgaard</strong>, D.L. Egholm, L.H. Beem, S. Tulaczyk, N.K.
138 Larsen, J.A. Piotrowski, and M.R. Siegfried
139 2016
140 <a href="https://doi.org/10.1002/2016GL071579">"Ice flow dynamics forced
141 by water pressure variations in subglacial granular beds"</a>
142 Geophysical Research Letters, vol. 43, 12,165-12,173
143 [<a href="papers/Damsgaard%20et%20al%202016%20Ice%20flow%20dynamics%20forced%20by%20water%20pressure%20variations%20in%20subglacial%20granular%20beds.pdf">PDF</a>,
144 <a href="papers/Damsgaard%20et%20al%202016%20Ice%20flow%20dynamics%20forced%20by%20water%20pressure%20variations%20in%20subglacial%20granular%20beds%20SI.pdf">SI</a>]
145 <br>
146 <br>
147 </li>
148
149 <li>
150 <strong>A. Damsgaard</strong>, D.L. Egholm, J.A. Piotrowski, S. Tulaczyk,
151 N.K. Larsen, and C.F. Brædstrup
152 2015
153 <a href="https://doi.org/10.5194/tc-9-2183-2015">
154 "A new methodology to simulate subglacial deformation of water-saturated
155 granular material"</a>
156 The Cryosphere, vol. 9, 2183-2200
157 [<a href="papers/Damsgaard%20et%20al%202015%20A%20new%20methodology%20to%20simulate%20subglacial%20deformation%20of%20water-saturated%20granular%20material.pdf">PDF</a>]
158 <br>
159 <br>
160 </li>
161
162 <li>
163 <strong>A. Damsgaard</strong>
164 2015
165 <a href="https://adamsgaard.dk/pub/ad-phd-thesis.pdf">
166 "Numerical Modeling of Subglacial Sediment Deformation"</a>
167 Ph.D. thesis, Aarhus University, 165 pp.
168 [<a href="pub/ad-phd-thesis.pdf">PDF</a>]
169 <br>
170 <br>
171 </li>
172
173 <li>
174 C.F. Brædstrup, <strong>A. Damsgaard</strong>, and D.L. Egholm
175 2014
176 <a href="https://doi.org/10.1016/j.cageo.2014.07.019">
177 "Ice-sheet modelling accelerated by graphics cards"</a>
178 Computers and Geosciences, vol. 72, 210-220
179 <br>
180 <br>
181 </li>
182
183 <li>
184 <strong>A. Damsgaard</strong>, D.L. Egholm, J.A. Piotrowski, S. Tulaczyk, N.K.
185 Larsen, and K. Tylmann
186 2013
187 <a href="https://doi.org/10.1002/2013JF002830">
188 "Discrete element modeling of subglacial sediment deformation"</a>
189 Journal of Geophysical Research: Earth Surface, vol. 118, 2230-2242
190 [<a href="papers/Damsgaard%20et%20al%202013%20Discrete%20element%20modeling%20of%20subglacial%20sediment%20deformation.pdf">PDF</a>]
191 </li>
192 </ul>