More publications from Network members.
Baranskaya, A., Novikova, A., Shabanova, N., Belova, N., Maznev, S., Ogorodov, S. and Jones, B.M., 2021. The Role of Thermal Denudation in Erosion of Ice-Rich Permafrost Coasts in an Enclosed Bay (Gulf of Kruzenstern, Western Yamal, Russia). Frontiers in Earth Science, 8.
Bartsch, A., Ley, S., Nitze, I., Pointner, G. and Vieira, G., 2020. Feasibility study for the application of Synthetic Aperture Radar for coastal erosion rate quantification across the Arctic. Frontiers in Environmental Science, 8(143).
Berry, M.H.B., Whalen, M.D. and Lim, M., 2021. Long-term ice-rich permafrost coast sensitivity to air temperatures and storm influence: lessons from Pullen Island, NWT. Arctic.
Bogardus, R., Maio, C., Mason, O., Buzard, R., Mahoney, A. and de Wit, C., 2020. Mid-Winter Breakout of Landfast Sea Ice and Major Storm Leads to Significant Ice Push Event Along Chukchi Sea Coastline. Frontiers in Earth Science, 8, p.344.
Brady, M.B. and Leichenko, R., 2020. The impacts of coastal erosion on Alaska’s North Slope communities: A coproduction assessment of land use damages and risks. Polar Geography, 43(4), pp.259-279.
Bruhn, A.D., Stedmon, C.A., Comte, J., Matsuoka, A., Speetjens, N.J., Tanski, G., Vonk, J.E. and Sjöstedt, J., 2021. Terrestrial Dissolved Organic Matter Mobilized From Eroding Permafrost Controls Microbial Community Composition and Growth in Arctic Coastal Zones. Frontiers in Earth Science, 9, p.165.
Clark, A., Moorman, B., Whalen, D. and Fraser, P., 2021. Arctic coastal erosion: UAV-SfM data collection strategies for planimetric and volumetric measurements. Arctic Science, pp.1-29.
Danielsen, F., Johnson, N., Lee, O., Fidel, M., Iversen, L., Poulsen, M.K., Eicken, H., Albin, A., Hansen, S.G., Pulsifer, P.L. and Thorne, P., 2021. Community-based monitoring in the Arctic. University of Alaska Press.
, , and 2021. The rapidly changing Arctic and its societal implications. Wiley Interdisciplinary Reviews: Climate Change, 12( 6), e735.
Forbes, D.L., Craymer, M.R., James, T.S. and Whalen, D., 2022. Subsidence drives habitat loss in a large permafrost delta, Mackenzie River outlet to the Beaufort Sea, western Arctic Canada. Canadian Journal of Earth Sciences, 99(999), pp.1-21.
Frederick, J., Mota, A., Tezaur, I. and Bull, D., 2021. A thermo-mechanical terrestrial model of Arctic coastal erosion. Journal of Computational and Applied Mathematics, 397, p.113533.
Fritz, M., Vonk, J. E. and Lantuit, H. (2017). Collapsing Arctic coastlines, Nature Climate Change, 7 (1), pp. 6-7. 10.1038/nclimate3188
Hampton-Miller, C.J., Neitlich, P.N. and Swanson, D.K., 2022. A high-resolution map of coastal vegetation for two Arctic Alaskan parklands: An object-oriented approach with point training data. PloS one, 17(8), p.e0273893.
Huntington, H.P., Zagorsky, A., Kaltenborn, B.P., Shin, H.C., Dawson, J., Lukin, M., Dahl, P.E., Guo, P. and Thomas, D.N., 2021. Societal implications of a changing Arctic Ocean. Ambio, pp.1-9.
Islam, M.A., Lubbad, R. and Afzal, M.S., 2020. A Probabilistic Model of Coastal Bluff-Top Erosion in High Latitudes Due to Thermoabrasion: A Case Study from Baydaratskaya Bay in the Kara Sea. Journal of Marine Science and Engineering, 8(3), p.169.
Jarosz, K., Zagórski, P., Moskalik, M., Lim, M., Rodzik, J. and Mędrek, K., 2021. A New Paraglacial Typology of High Arctic Coastal Systems: Application to Recherchefjorden, Svalbard. Annals of the American Association of Geographers, pp.1-22.
Jones, B., Farquharson, L., Baughman, C., et al. (2018). A decade of remotely sensed observations highlight complex processes linked to coastal permafrost bluff erosion in the Arctic. Environmental Research Letters, 13, 115001. 10.1088/1748-9326/aae471
Jones, B. M., A. M. Irrgang, L. M. Farquharson, H. Lantuit, D. Whalen, S. Ogorodov, M. Grigoriev, C. Tweedie, A. E. Gibbs, M. C. Strzelecki, A. Baranskaya, N. Belova, A. Sinitsyn, A. Kroon, A. Maslakov, G. Vieira, G. Grosse, P. Overduin, I. Nitze, C. Maio, J. Overbeck, M. Bendixen, P. Zagórski, and V. E. Romanovsky. 2020. Coastal Permafrost Erosion. Arctic Report Card 2020, R. L Thoman, J. Richter-Menge, and M.L. Druckenmiller, Eds.
Jong, D., Bröder, L., Tanski, G., Fritz, M., Lantuit, H., Tesi, T., Haghipour, N., Eglinton, T.I. and Vonk, J.E., 2020. Nearshore zone dynamics determine pathway of organic carbon from eroding permafrost coasts. Geophysical research letters, 47(15), p.e2020GL088561.
Klein, K.P., Lantuit, H. and Rolph, R.J., 2022. Drivers of Turbidity and Its Seasonal Variability at Herschel Island Qikiqtaruk (Western Canadian Arctic). Water, 14(11), p.1751.
Liew, M., Xiao, M., Jones, B.M., Farquharson, L.M. and Romanovsky, V.E., 2020. Prevention and control measures for coastal erosion in northern high-latitude communities: a systematic review based on Alaskan case studies. Environmental Research Letters, 15(9), p.093002.
Lim, M., Whalen, D., Martin, J., Mann, P.J., Hayes, S., Fraser, P., Berry, H.B. and Ouellette, D., 2020. Massive Ice Control on Permafrost Coast Erosion and Sensitivity. Geophysical Research Letters, p.e2020GL087917.
Lantuit, H. Overduin, PP. Wetterich, S. (2013). Recent Progress Regarding Permafrost Coasts. Permafrost and Periglacial Processes, 24 (2). 10.1002/ppp.1777
Lantz, T.C., Moffat, N.D., Jones, B.M., Chen, Q. and Tweedie, C.E., 2020. Mapping exposure to flooding in three coastal communities on the North slope of Alaska using Airborne LiDAR. Coastal Management, 48(2), pp.96-117. 10.1080/08920753.2020.1732798
Lapham, L.L., Dallimore, S.R., Magen, C., Henderson, L.C., Powers, L.C., Gonsior, M., Clark, B., Côté, M., Fraser, P. and Orcutt, B.N., 2020. Microbial Greenhouse Gas Dynamics Associated With Warming Coastal Permafrost, Western Canadian Arctic. Frontiers in Earth Science, 8, p.576.
Larsen, J.N., Schweitzer, P., Abass, K., Doloisio, N., Gartler, S., Ingeman-Nielsen, T., Ingimundarson, J.H., Jungsberg, L., Meyer, A., Rautio, A. and Scheer, J., 2021. Thawing permafrost in arctic coastal communities: A framework for studying risks from climate change. Sustainability, 13(5), p.2651.
Malito, J., Eidam, E. and Nienhuis, J., 2022. Increasing wave energy moves Arctic continental shelves toward a new future. Journal of Geophysical Research: Oceans, 127(9), p.e2021JC018374.
Nielsen, D.M., Dobrynin, M., Baehr, J., Razumov, S. and Grigoriev, M., 2020. Coastal erosion variability at the southern Laptev Sea linked to winter sea ice and the Arctic Oscillation. Geophysical Research Letters, 47(5), p.e2019GL086876.
Nielsen, D.M., Pieper, P., Barkhordarian, A., Overduin, P., Ilyina, T., Brovkin, V., Baehr, J. and Dobrynin, M., 2022. Increase in Arctic coastal erosion and its sensitivity to warming in the twenty-first century. Nature Climate Change, 12(3), pp.263-270.
Ogorodov, S., Aleksyutina, D., Baranskaya, A., Shabanova, N. and Shilova, O., 2020. Coastal Erosion of the Russian Arctic: An Overview. Journal of Coastal Research, 95(sp1), pp.599-604.
Overbeck, J.R., Buzard, R.M., Turner, M.M., Miller, K.Y., and Glenn, R.J., 2020, Shoreline change at Alaska coastal communities: Alaska Division of Geological & Geophysical Surveys Report of Investigation 2020-10, 29 p., 45 sheets.
Overeem, I., Nienhuis, J.H. and Piliouras, A., 2022. Ice-dominated Arctic deltas. Nature Reviews Earth & Environment, 3(4), pp.225-240.
Paull, C.K., Dallimore, S.R., Jin, Y.K., Caress, D.W., Lundsten, E., Gwiazda, R., Anderson, K., Hughes Clarke, J., Youngblut, S. and Melling, H., 2022. Rapid seafloor changes associated with the degradation of Arctic submarine permafrost. Proceedings of the National Academy of Sciences, 119(12), p.e2119105119.
Philipp, M., Dietz, A., Ullmann, T. and Kuenzer, C., 2022. Automated Extraction of Annual Erosion Rates for Arctic Permafrost Coasts Using Sentinel-1, Deep Learning, and Change Vector Analysis. Remote Sensing, 14(15), p.3656.
Ramage, J., Jungsberg, L., Wang, S., Westermann, S., Lantuit, H. and Heleniak, T., 2021. Population living on permafrost in the Arctic. Population and Environment, pp.1-17.
Rolph, R., Overduin, P.P., Ravens, T., Lantuit, H. and Langer, M., 2021. ArcticBeach v1. 0: A physics-based parameterization of pan-Arctic coastline erosion. Geoscientific Model Development Discussions, pp.1-26.
Sander, L., Kirdyanov, A., Crivellaro, A. and Büntgen, U., 2021. Driftwood provides reliable chronological markers in Arctic coastal deposits. Geochronology, 3(1), pp.171-180.
Sinitsyn, A., Depina, I., Bekele, Y.W., Christensen, S.O. and van Oosterhout, D., 2020. Development of coastal infrastructure in cold climate. Summary Guideline. SFI SAMCoT report.
Stark, N., Green, B., Brilli, N., Eidam, E., Franke, K.W. and Markert, K., 2022. Geotechnical Measurements for the Investigation and Assessment of Arctic Coastal Erosion—A Review and Outlook. Journal of Marine Science and Engineering, 10(7), p.914.
Stephani, E., Drage, J., Miller, D., Jones, B.M. and Kanevskiy, M., 2020. Taliks, cryopegs, and permafrost dynamics related to channel migration, Colville River Delta, Alaska. Permafrost and Periglacial Processes, 31(2), pp.239-254.
Tanski, G., Bröder, L., Wagner, D., Knoblauch, C., Lantuit, H., Beer, C., Sachs, T., Fritz, M., Tesi, T., Koch, B.P. and Haghipour, N., 2021. Permafrost carbon and CO2 pathways differ at contrasting coastal erosion sites in the Canadian Arctic. Frontiers in Earth Science, 9, p.207.
Thomas, M.A., A. Mota, B.M. Jones, R.C. Choens, J.M. Frederick, and D.L. Bull. 2020. Examining the influence of geometric and material variability on simulated stress states relevant to coastal permafrost bluff failure. Frontiers in Earth Science – Cryospheric Sciences, 8, p.143. 10.3389/feart.2020.00143
Tran, J., Divine, L.M. and Heffner, L.R., 2021. “What are you going to do, Protest the Wind?”: Community Perceptions of Emergent and Worsening Coastal Erosion from the Remote Bering Sea Community of St. Paul, Alaska. Environmental Management, 67(1), pp.43-66.
Zimmermann, M., Erikson, L.H., Gibbs, A.E., Prescott, M.M., Escarzaga, S.M., Tweedie, C.E., Kasper, J.L. and Duvoy, P.X., 2022. Nearshore bathymetric changes along the Alaska Beaufort Sea coast and possible physical drivers. Continental Shelf Research, 242, p.104745.
Zou, Z., DeVries, B., Huang, C., Lang, M.W., Thielke, S., McCarty, G.W., Robertson, A.G., Knopf, J., Wells, A.F., Macander, M.J. and Du, L., 2021. Characterizing Wetland Inundation and Vegetation Dynamics in the Arctic Coastal Plain Using Recent Satellite Data and Field Photos. Remote Sensing, 13(8), p.1492.