Publication(s) with 2009-02 dataset
<2013-03>
Cashman, K.V., S.A. Soule, B.H. MacKey, N.I. Deligne, N.D. Deardorff, and H.R. Dietterich (2013), How lava flows: New insights from applications of lidar technologies to lava flow studies Geosphere, December 2013, 9, 1664-1680.
<2014-05>
Broz P., O. Cadek, E. Hauber, and A. P. Rossi (2014), Shape of Scoria Cones on Mars: Insights from Numerical Modeling of Ballistic Pathways, Earth and Planetary Science Letters, 406, 14-23
<2014-10>
Dietterich, H.R. and K.V. Cashman (2014), Channel networks within lava flows: Formation, evolution, and implications for flow behavior, Journal of Geophysical Research: Earth Surface, 119(8), 1704-1724, doi: 10.1002/2014JF003103
<2015-20>
Dietterich, H.R., S.A. Soule, K.V. Cashman, and B.H. Mackey (2015), Lava Flows in 3D: Using Airborne Lidar Preeruptive Topography to Evaluate Lava Flow Surface Morphology and Thickness in Hawai¡¯i, Hawaiian Volcanoes: From Source to Surface, 483-505
<2016-52>
Kolzenburg, S., M. Favalli, A. Fornaciai, I. Isola, A.J.L. Harris, L. Nannipierir, and D. Giordano (2016), Rapid Updating and Improvemet of Airborne Lidar DEMs through Ground-based SfM 3-D Modeling of Vocanic Features, IEEE Transactions on Geoscience and Remote Sensing, 54(11), 6687-6699, doi: 10.1109/TGRS.2016.2587798
<2017-47>
Bubeck, A., R. Walker, J. Imber, R. Holdsworth, C. MacLeod, and D. Holwell (2017), Rift Zone-parallel Extension during Segmented Fault Growth: Application to the Evolution of the NE Atlantic, Solid Earth Discussions, doi: 10.5194/se-2017-94
<2017-72>
Liu, C., L. Wang, Z. Xin, and Y. Li (2017), Comparative Study of Wet Channel Network Extracted from LiDAR Data under Different Climate Conditions, Hydrology Research, doi: 10.2166/nh.2017.255
<2017-93>
Whelley, P., W. Garry, C. Hamilton, and J. Bleacher (2017), LiDAR-derived Surface Roughness Signatures of Basaltic Lava Types at the Muliwai a Pele Lava Channel, Mauna Ulu, Hawaii, Bulletin of Volcanology, 79(11), 75, doi: 10.1007/s00445-017-1161-5
<2017-98>
Bubeck, A., R. Walker, J. Imber, R. Holdsworth, C. MacLeod, and D. Holwell (2017), Extension Parallel to the Rift Zone during Segmented Fault Growth: Application to the Evolution of the NE Atlantic, Solid Earth, 8, 1161-1180, doi: 10.5194/se-8-1161-2017
<2018-42>
Bubeck, A., R. Walker, J. Imber, and C. MacLeod (2018), Normal Fault Growth in Layered Basaltic Rocks: The Role of Strain Rate in Fault Evolution, Journal of Structural Geology, 115, 103-120, doi: 10.1016/j.jsg.2018.07.017
<2019-38>
Neal, C., S. Brantley, L. Antolik, J. Babb, M. Burgess, K. Calles, M. Cappos, J. Chang, S. Conway, L. Desmither, ¡¦., and D. Damby (2019), The 2018 Rift Eruption and Summit Collapse of Kilauea Volcano, Science, 363(6425), 367-374, doi: 10.1126/science.aav7046
<2019-43>
Richardson, P. and L. Karlstrom (2019), The Multi-Scale Influence of Topography on Lava Flow Morphology, Bulletin of Volcanology, 81(4), 21, doi: 10.1007/s00445-019-1278-9
<2019-115>
Anderson, K., I. Johanson, M. Patrick, M. Gu, P. Segall, M. Poland, E. Montgomery-Brown, and A. Miklius (2019), Magma Reservoir Failure and the Onset of Caldera Collapse at Kilauea Volcano in 2018, Science, 366(6470), doi: 10.1126/science.aaz1822
<2020-119>
Kling, C. (2020), Pit Craters throughout the Solar System, PhD Dissertation, North Carolina State University, https://www.lib.ncsu.edu/resolver/1840.20/38444
<2021-67>
Flinders, A., J. Kauahikaua, P. Hsieh, and S. Lngebritsen (2021), Post Audit of Simulated Groundwater Flow to a Short-Lived (2019 to 2020) Crater Lake at Kilauea Volcano, Groundwater, 60(1), 64-70, doi: 10.1111/gwat.13133