2008
|
1 |
Analysis of scaling methods in deriving future volume evolutions of valley glaciers V. Radic, R. Hock, J. Oerlemans
|
Journal of Glaciology Volume: 54, Number: 187 |
2008 |
|
48.92 |
2015
|
2 |
A review of volume-area scaling of glaciers D.B. Bahr, W.T. Pfeffer, G. Kaser
|
Reviews of Geophysics Volume: 53 |
2015 |
|
26.58 |
1997
|
3 |
The physical basis of glacier volume-area scaling D.B. Bahr, M.F. Meier, S.D. Peckham
|
Journal of Geophysical Research Solid Earth Volume: 102, Number: B9 |
1997 |
|
16.68 |
2023
|
4 |
Changes in glacier extents and estimated changes in glacial volume at Mount Rainier National Park, Washington, USA from 1896 to 2021 S.R. Beason, T.R. Kenyon, R.P. Jost, L.J. Walker
|
Natural Resource Report NPS/MORA/NRR—2023/2524 - National Park Service
|
2023 |
|
7.14 |
2017
|
5 |
Dramatic changes to glacial volume and extent since the late 19th century at Mount Rainier National Park, Washington, USA J.L. George, S.R. Beason
|
Poster #158-6 - Geological Society of America Abstracts with Programs Volume: 49, Number: 6 |
2017 |
|
5.13 |
1998
|
6 |
Objective delineation of lahar-inundation hazard zones R.M. Iverson, S.P. Schilling, J.W. Vallance
|
GSA Bulletin Volume: 110, Number: 8 |
1998 |
|
3.60 |
2017
|
7 |
A semi-automated approach to derive elevation time-series and calculate glacier mass balance from historical aerial imagery E.N. Whorton, A.O. Headman, D.E. Shean, E. McCann
|
Abstract #C53D-07 - American Geophysical Union, Fall Meeting 2017
|
2017 |
|
3.26 |
1986
|
8 |
Glacier volume estimation on Cascade Volcanoes: An analysis and comparison with other methods C.L. Driedger, P.M. Kennard
|
Annals of Glaciology Volume: 8 |
1986 |
|
3.03 |
2017
|
9 |
Glacier change on Mount Rainier in the context of other volcanoes in the Cascade Range of the Pacific Northwest A.G. Fountain, B. Glenn, H.J. Basagic
|
Presentation #23-4 - Geological Society of America Abstracts with Programs Volume: 49, Number: 6 |
2017 |
|
3.02 |
10 |
A semi-automated methodology for using historical aerial photography to create high-resolution elevation and orthoimagery products of South Cascade Glacier, Washington, USA A.O. Headman, E.N. Whorton, D.E. Shean, E. McCann
|
Presentation #23-6 - Geological Society of America Abstracts with Programs Volume: 49, Number: 6 |
2017 |
|
2.87 |
2024
|
11 |
Volume loss and surface deflation at Emmons Glacier, Mount Rainier, WA J. Jimenez, C. Todd, M. Koutnik
|
Poster 265-5 - Geological Society of America Abstracts with Programs Volume: 56, Number: 5 |
2024 |
|
2.75 |
12 |
Mapping the extent of Emmons Glacier, Mount Rainier, WA between 1951-2023 using high-resolution imagery J. Jimenez, C. Todd, M. Koutnik
|
Poster 265-6 - Geological Society of America Abstracts with Programs Volume: 56, Number: 5 |
2024 |
|
2.73 |
2017
|
13 |
Revised tephra volumes for Cascade Range volcanoes M. Nathenson
|
Journal of Volcanology and Geothermal Research Volume: 341 |
2017 |
|
2.48 |
2009
|
14 |
Process domains as a unifying concept to characterize geohydrological linkages in glaciated mountain headwaters A.A. Weekes
|
PhD dissertation - University of Washington College of Forest Resources
|
2009 |
|
2.40 |
2017
|
15 |
Change in glacial extent at Mount Rainier National Park from 1896-2015 S.R. Beason
|
Natural Resource Report NPS/MORA/NRR-2017/1472 - National Park Service
|
2017 |
|
2.27 |
2011
|
16 |
Whole-edifice ice volume change A.D. 1970 to 2007/2008 at Mount Rainier, Washington, based on LiDAR surveying T.W. Sisson, J.E. Robinson, D.D. Swinney
|
Geology Volume: 39 |
2011 |
|
2.18 |
17 |
Mount Rainier National Park glacier mass balance monitoring annual report, water year 2009: North Coast and Cascades Network J.L. Riedel, M. Larrabee
|
Natural Resource Technical Report NPS/NCCN/NRTR-2011/484 - National Park Service
|
2011 |
|
2.13 |
2004
|
18 |
Spatial and temporal variations of glaciers (1913-1994) on Mt. Rainier and the relation with climate T.H. Nylen
|
M.S. Thesis - Portland State University
|
2004 |
|
2.12 |
2012
|
19 |
Changes in sediment volume in Alder Lake, Nisqually River Basin, Washington, 1945-2011 J.A. Czuba, T.D. Olsen, C.R. Czuba, C.S. Magirl, C.C. Gish
|
Open-File Report 2012-1068 - United States Geological Survey
|
2012 |
|
1.99 |
1972
|
20 |
The movement and basal sliding of the Nisqually Glacier, Mount Rainier S.M. Hodge
|
Ph.D Thesis - University of Washington
|
1972 |
|
1.80 |
2014
|
21 |
Aggradation of glacially-sourced braided rivers at Mount Rainier National Park, Washington: Summary report for 1997-2012 S.R. Beason, L.C. Walkup, P.M. Kennard
|
Natural Resource Technical Report NPS/MORA/NRTR-2014/910 - National Park Service
|
2014 |
|
1.64 |
2003
|
22 |
Environment, prehistory and archaeology of Mount Rainier National Park, Washington G.C. Burtchard
|
National Park Service
|
2003 |
|
1.59 |
1998
|
23 |
Water flow through temperate glaciers A.G. Fountain, J.S. Walder
|
Reviews of Geophysics Volume: 36, Number: 3 |
1998 |
|
1.52 |
2009
|
24 |
Recent periglacial debris flows from Mount Rainier, Washington E.A. Copeland
|
M.S. Water Resource Engineering Thesis - Oregon State University
|
2009 |
|
1.51 |
2007
|
25 |
2007 archaeological inventory, lower Stevens Canyon Road, Mount Rainier National Park B.M. Diaz
|
Mount Rainier National Park
|
2007 |
|
1.51 |
2021
|
26 |
Evolution of debris cover on Emmons Glacier, Mount Rainier, Washington R. Ireson, C. Todd, M. Koutnik
|
Poster 117-3 - Geological Society of America Abstracts with Programs Volume: 53, Number: 6 |
2021 |
|
1.46 |
2015
|
27 |
Mount Rainier National Park glacier mass balance monitoring annual report, water year 2011: North Coast and Cascades Network J.L. Riedel, M. Larrabee
|
Natural Resource Data Series NPS/NCCN/NRDS-2015/752 - National Park Service
|
2015 |
|
1.44 |
2022
|
28 |
Geologic field-trip guide to volcanism and its interaction with snow and ice at Mount Rainier, Washington J.W. Vallance, T.W. Sisson
|
Scientific Investigations Report 2017-5022-A - United States Geological Survey
|
2022 |
|
1.35 |
2012
|
29 |
Mount Rainier National Park glacier mass balance monitoring annual report, water year 2010: North Coast and Cascades Network J.L. Riedel, M. Larrabee
|
Natural Resource Data Series NPS/NCCN/NRDS-2012-355 - National Park Service
|
2012 |
|
1.32 |
2020
|
30 |
Applications of digital remote sensing to quantify glacier change in Glacier and Mount Rainier National Parks B.M. Clark
|
M.S. Environmental Sciences Thesis - Stephen F. Austin State University, Nacogdoches, TX
|
2020 |
|
1.28 |
1955
|
31 |
Forty-two years of recession of the Nisqually Glacier on Mount Rainier V.R. Bender, A.L. Haines
|
Erdkunde - Archive for Scientific Geography Volume: 9, Number: 4 |
1955 |
|
1.27 |
1995
|
32 |
Sedimentology, behavior, and hazards of debris flows at Mount Rainier, Washington K.M. Scott, J.W. Vallance, P.T. Pringle
|
Professional Paper 1547 - United States Geological Survey
|
1995 |
|
1.25 |
2021
|
33 |
Sources of supraglacial debris on Emmons Glacier, Mount Rainier, WA A. Sheflo, C. Todd, M. Koutnik, H. Williams, A. Yannello, B. Lungberg, S. Altenberger
|
Poster 117-4 - Geological Society of America Abstracts with Programs Volume: 53, Number: 6 |
2021 |
|
1.24 |
2022
|
34 |
A vanishing landscape: Current trends for the glaciers of Mount Rainier National Park, Washington, USA S.R. Beason, T.R. Kenyon, R.P. Jost, L.J. Walker
|
Poster 23-9 - Geological Society of America Abstracts with Programs Volume: 54, Number: 5 |
2022 |
|
1.23 |
1994
|
35 |
Seismicity of rockfalls and avalanches at three Cascade Range volcanoes: Implications for seismic detection of hazardous mass movements R.D. Norris
|
Bulletin of the Seismological Society of America Volume: 84, Number: 6 |
1994 |
|
1.20 |
2017
|
36 |
Simulated spatial and temporal evolution and downstream effect of sediment pulses in rivers draining Mount Rainier, Washington J.A. Czuba, C.R. Czuba, C.S. Magirl, Y. Cui
|
Presentation #50-6 - Geological Society of America Abstracts with Programs Volume: 49, Number: 6 |
2017 |
|
1.20 |
2024
|
37 |
Evolving supraglacial sediment sources and extent on a large debris-covered glacier K. Ramirez, J. Jimenez, C. Todd
|
Poster 265-1 - Geological Society of America Abstracts with Programs Volume: 56, Number: 5 |
2024 |
|
1.19 |
2008
|
38 |
A method for remotely monitoring glaciers with regional application to the Pacific Northwest B. Medley
|
M.S. Thesis - Oregon State University
|
2008 |
|
1.17 |
2023
|
39 |
Using high-resolution imaging satellite constellations to understand glacier mass balance and dynamics in High Mountain Asia S. Bhushan
|
Ph.D Thesis - University of Washington
|
2023 |
|
1.16 |
2022
|
40 |
Modeling the dynamics of lahars that originate as landslides on the west side of Mount Rainier, Washington D.L. George, R.M. Iverson, C.M. Cannon
|
Open File Report 2021-1118 - United States Geological Survey
|
2022 |
|
1.14 |
2005
|
41 |
2005 archaeological inventory, upper Stevens Canyon Road, Mount Rainier National Park B.M. Diaz, G.C. Burtchard
|
Mount Rainier National Park
|
2005 |
|
1.13 |
2014
|
42 |
Mount Wow rock fall, preliminary findings S.R. Beason
|
Unpublished Document - Mount Rainier National Park
|
2014 |
|
1.03 |
43 |
Landsat-based monitoring of landscape dynamics in Mount Rainier National Park: 1985-2009 N. Antonova, C. Copass, S. Clary
|
Natural Resource Data Series NPS/NCCN/NRDS-2014/637 - National Park Service
|
2014 |
|
1.00 |
2023
|
44 |
Deciphering the impacts of glacial melt, lahars, debris flows, flood regulation, levees, and downstream channel avulsion on sediment transport in the White River, Mt. Rainier, Washington State J.C. Curran
|
Poster - Gravel Bed Rivers 9, Villarrica, Chile
|
2023 |
|
0.98 |
2018
|
45 |
Glacier recession and the response of summer streamflow in the Pacific Northwest United States, 1960‐2099 C. Frans, E. Istanbulluoglu, D.P. Lettenmaier, A.G. Fountain, J.L. Riedel
|
Water Resources Research Volume: 54, Number: 9 |
2018 |
|
0.96 |
2011
|
46 |
Glacial changes between 1985-2009 and implications for volcanic hazards at Mt. Rainier, Washington J.E. Sanford
|
M.S. Thesis - Oklahoma State University
|
2011 |
|
0.95 |
2005
|
47 |
An investigation into the 2003 Van Trump Creek debris flow, Mt. Rainier, Washington, United States of America K.H. Donovan
|
BSc Geological Hazards Thesis - University of Portsmouth (UK)
|
2005 |
|
0.92 |
2024
|
48 |
Monitoring lahars W.A. Thelen, J.J. Lyons, A.M. Iezzi, S.C. Moran
|
Scientific Investigations Report 2024-5062-H - United States Geological Survey
|
2024 |
|
0.92 |
2022
|
49 |
Glaciers of the Olympic Mountains, Washington: The past and future 100 years A.G. Fountain, C. Gray, B. Glenn, B. Menounos, J. Pflug, J.L. Riedel
|
JGR Earth Surface Volume: 127, Number: 4 |
2022 |
|
0.90 |
2016
|
50 |
Estimating glacier equilibrium line altitude on Mount Rainier, Washington through satellite image analysis R. Aberle, C. Todd
|
Paper No. 321-10 - Geological Society of America Abstracts with Programs Volume: 48, Number: 7 |
2016 |
|
0.88 |
2024
|
51 |
What do variations in debris thickness on Emmons Glacier, Mount Rainier, WA tell us about its future? A.B. Gomez, J. Jimenez, C. Todd
|
Poster 265-2 - Geological Society of America Abstracts with Programs Volume: 56, Number: 5 |
2024 |
|
0.88 |
2017
|
52 |
Geochemical monitoring of stagnant ice for glacial outburst flood hazard assessment, Mount Rainier National Park K.A. Wokosin, P.M. Kennard, P. Edmiston
|
Presentation 23-11 - Geological Society of America Abstracts with Programs Volume: 49, Number: 6 |
2017 |
|
0.86 |
1994
|
53 |
Geomorphic change caused by outburst floods and debris flows at Mount Rainier, Washington, which emphasis on Tahoma Creek Valley J.S. Walder, C.L. Driedger
|
Water-Resources Investigations Report 93-4093 - United States Geological Survey
|
1994 |
|
0.86 |
2011
|
54 |
Floodplains statement of findings: Carbon River area access management plan S.R. Beason
|
Environmental Assessment - Mount Rainier National Park
|
2011 |
|
0.85 |
2014
|
55 |
Debris flow initiation in proglacial gullies on Mount Rainier, Washington N.T. Legg, A.J. Meigs, G.E. Grant, P.M. Kennard
|
Geomorphology Volume: 226 |
2014 |
|
0.82 |
2017
|
56 |
Mining Glacier Basin: History of the Glacier Basin Mining District, Mount Rainier National Park G.C. Burtchard, J.Y. Cheung, R.N. McIntyre
|
Unpublished Report - Mount Rainier National Park
|
2017 |
|
0.81 |
2000
|
57 |
A model for the magmatic-hydrothermal system at Mount Rainier, Washington, from seismic and geochemical observations S.C. Moran, D.R. Zimbelman, S.D. Malone
|
Bulletin of Volcanology Volume: 61, Number: 7 |
2000 |
|
0.80 |
2012
|
58 |
Characteristics and origin of subaqueous pumice-rich pyroclastic facies: Ohanapecosh formation (USA) and Dogashima formation (Japan) M. Jutzeler
|
Ph.D Thesis - University of Tasmania
|
2012 |
|
0.80 |
2021
|
59 |
Frequent mass movements from glacial and lahar terraces, controlled by both hillslope characteristics and fluvial erosion, are an important sediment source to Puget Sound rivers D.N. Scott, B.D. Collins
|
Water Resources Research Volume: 57 |
2021 |
|
0.80 |
2003
|
60 |
Origin and emplacement of the andesite of Burroughs Mountain, a zoned, large-volume lava flow at Mount Rainier, Washington, USA K.R. Stockstill, T.A. Vogel, T.W. Sisson
|
Journal of Volcanology and Geothermal Research Volume: 119, Number: 1-4 |
2003 |
|
0.80 |
2011
|
61 |
The impacts of climate change at Mount Rainier National Park K. Ford
|
Unpublished Report - University of Washington
|
2011 |
|
0.77 |
2017
|
62 |
The geography of glaciers and perennial snowfields in the American West A.G. Fountain, B. Glenn, H.J. Basagic
|
Arctic, Antarctic, and Alpine Research Volume: 49, Number: 3 |
2017 |
|
0.77 |
2012
|
63 |
Controls on debris flow bulking in proglacial gullies on Mount Rainier, Washington N.T. Legg, A.J. Meigs, G.E. Grant, P.M. Kennard
|
Abstract #EP13A-0812 - American Geophysical Union
|
2012 |
|
0.75 |
1972
|
64 |
Recent activity of glaciers of Mount Rainier, Washington R.S. Sigafoos, E.L. Hendricks
|
Professional Paper 387-B - United States Geological Survey
|
1972 |
|
0.75 |
2011
|
65 |
Subsurface hydrology of an overdeepened cirque glacier C.F. Dow, J.L. Kavanaugh, J.W. Sanders, K.M. Cuffey, K.R. MacGregor
|
Journal of Glaciology Volume: 57, Number: 206 |
2011 |
|
0.75 |
1987
|
66 |
Glacier surge mechanism based on linked cavity configuration of the basal water conduit system B. Kamb
|
Journal of Geophysical Research Volume: 92, Number: B9 |
1987 |
|
0.71 |
2022
|
67 |
Glacier Peak and the chocolate factory: Recurring debris flows from the eastern flank of Glacier Peak stratovolocano, North Cascades, Washington State, USA E.M. Fordham
|
M.S. Geology Thesis - Western Washington University
|
2022 |
|
0.70 |
2017
|
68 |
The role of glaciers and glacier research in development of U.S. national parks D.M. Capps
|
Earth Sciences History Volume: 36, Number: 2 |
2017 |
|
0.70 |
2018
|
69 |
Committed retreat: Controls on glacier disequilibrium in a warming climate J.E. Christian, M. Koutnik, G. Roe
|
Journal of Glaciology Volume: 64, Number: 246 |
2018 |
|
0.69 |
2021
|
70 |
Evolution of a glacier terminus with implications for locating stagnating ice C. Todd, R. Ireson, A. Sheflo, M. Koutnik
|
Presentation 39-4 - Geological Society of America Abstracts with Programs Volume: 63, Number: 6 |
2021 |
|
0.69 |
2017
|
71 |
Mapping supraglacial debris on Emmons Glacier, Mount Rainier, WA A. Basehart, S. Altenberger, M. Koutnik, C. Todd
|
Poster #158-3 - Geological Society of America Abstracts with Programs Volume: 49, Number: 6 |
2017 |
|
0.69 |
1995
|
72 |
Frequent outburst floods from South Tahoma Glacier, Mount Rainier, U.S.A.: Relation to debris flows, meterological origin and implications for subglacial hydrology J.S. Walder, C.L. Driedger
|
Journal of Glaciology Volume: 41, Number: 137 |
1995 |
|
0.69 |
2008
|
73 |
Archaeology and history in the Nisqually Corridor, Sunshine Point, Kautz, and Longmire Historic District: Results of the 2006-2007 flood damage survey G.C. Burtchard, J.Y. Cheung, E.B. Gleason
|
Mount Rainier National Park
|
2008 |
|
0.69 |
2010
|
74 |
The changing glaciers of Mt. Hood, Oregon and Mt. Rainier, Washington: Implications for periglacial debris flows J.R. Ellinger
|
M.S. Thesis - Oregon State University
|
2010 |
|
0.67 |
2016
|
75 |
Assessment, restoration, and management of the North Puyallup Trail, Mount Rainier National Park T.R. Kenyon
|
M.S. Earth and Space Sciences Applied Geosciences (MESSAGe) Thesis - University of Washington
|
2016 |
|
0.65 |
2009
|
76 |
Community exposure to lahar hazards from Mount Rainier, Washington N.J. Wood, C.E. Soulard
|
Scientific Investigations Report 2009-5211 - United States Geological Survey
|
2009 |
|
0.65 |
2014
|
77 |
Melting the rocky terminus of Emmons Glacier P.L. Moore, L.I. Nelson, T.M. Dits
|
Science Brief - Mount Rainier National Park
|
2014 |
|
0.65 |
2021
|
78 |
Surface elevation change on debris-covered Emmons Glacier, Mount Rainier, WA B. Fontana, C. Todd, M. Koutnik, B. Flury, L. Black, L. Krehbiel
|
Poster 117-5 - Geological Society of America Abstracts with Programs Volume: 53, Number: 6 |
2021 |
|
0.65 |
2013
|
79 |
Surficial ice velocities of the lower Nisqually Glacier and their relationship to outburst flood hazards at Mount Rainier National Park, Washington, United States L.C. Walkup, S.R. Beason, P.M. Kennard, J.G. Ohlschlager, A.C. Stifter
|
Paper No. 3 - Geological Society of America Abstracts with Programs Volume: 45, Number: 7 |
2013 |
|
0.65 |
2003
|
80 |
Debris-flow hazards caused by hydrologic events at Mount Rainier, Washington J.W. Vallance, M.L. Cunico, S.P. Schilling
|
Open-File Report 2003-368 - United States Geological Survey
|
2003 |
|
0.64 |
2017
|
81 |
Assessing mass balance change at South Cascade Glacier: Is it representative of regional glaciers? E.N. Whorton, D.E. Shean, D. Fagre, C. McNeil, A. Clark, L. Sass, A.O. Headman, E. Peitzsch, D. McGrath, E.H. Baker
|
Presentation #23-5 - Geological Society of America Abstracts with Programs Volume: 49, Number: 6 |
2017 |
|
0.64 |
2024
|
82 |
Evaluating the effect of air temperatures on suspended sediment in the White River, WA C. Garcia, C. Todd
|
Poster 265-9 - Geological Society of America Abstracts with Programs Volume: 56, Number: 5 |
2024 |
|
0.63 |
2020
|
83 |
Mantle sources interpreted from mafic volcanoes adjacent to the andesitic Goat Rocks Volcanic Complex, Southern Washington Cascades K.T. Wall, A.L. Grunder, D. Weis
|
Virtual Oral Presentation - Geological Society of America Abstracts with Programs Volume: 52, Number: 6 |
2020 |
|
0.63 |
2006
|
84 |
River bed elevation changes and increasing flood hazards in the Nisqually River at Mount Rainier National Park, Washington S.O. Halmon, P.M. Kennard, S.R. Beason, E. Beaulieu, L.W. Mitchell
|
Abstract #H11B-1256 - American Geophysical Union, Fall Meeting 2006
|
2006 |
|
0.62 |
2013
|
85 |
Glacier variability in the conterminous United States during the twentieth century G.J. McCabe, A.G. Fountain
|
Climate Change Volume: 116, Number: 3-4 |
2013 |
|
0.61 |
2021
|
86 |
Increase in occurrence of large glacier-related landslides in the high mountains of Asia J. Liu, Y. Wu, X. Gao
|
Nature Scientific Reports Volume: 11, Number: 1635 |
2021 |
|
0.61 |
2018
|
87 |
Time-lapse photography of glaciers at Mount Rainier National Park S.R. Beason, T.R. Kenyon
|
Unpublished Resource Article - North Coast and Cascades Research Learning Center, National Park Service
|
2018 |
|
0.60 |
2019
|
88 |
Surficial velocities of the Nisqually Glacier, Mount Rainier National Park, 2011 and 2012 L.C. Walkup, P.M. Kennard, J.G. Ohlschlager, S.R. Beason
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Unpublished Report - Geology Program, Mount Rainier National Park
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2019 |
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0.59 |
2017
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89 |
Exploration and study of the glacier fumarole caves in the summit crater of Mount Rainier, Washington State, U.S.A E. Cartaya, D. Riggs, T. Cavendish, L.J. Florea, A. Pflitsch, P.J. Boston
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Presentation #50-2 - Geological Society of America Abstracts with Programs Volume: 49, Number: 6 |
2017 |
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0.57 |
1989
|
90 |
Glacier outburst floods at Mount Rainier, Washington state, U.S.A. C.L. Driedger, A.G. Fountain
|
Annals of Glaciology Volume: 13 |
1989 |
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0.57 |
1968
|
91 |
Glacier outburst floods in the Pacific Northwest D. Richardson
|
Professional Paper 600-D - United States Geological Survey
|
1968 |
|
0.57 |
1952
|
92 |
Short history of Mount Rainier National Park R.N. McIntyre
|
File No. 101 - United States Department of The Interior, National Park Service
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1952 |
|
0.56 |
2010
|
93 |
Channel-conveyance capacity, channel change, and sediment transport in the lower Puyallup, White and Carbon Rivers, Western Washington J.A. Czuba, C.R. Czuba, C.S. Magirl, F.D. Voss
|
Scientific Investigations Report 2010-5240 - United States Geological Survey
|
2010 |
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0.52 |
2014
|
94 |
Hydrologic response to valley-scale structure in alpine headwaters A.A. Weekes, C.E. Torgersen, D.R. Montgomery, A. Woodward, S.M. Bolton
|
Hydrological Processes Volume: 29, Number: 3 |
2014 |
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0.52 |
2005
|
95 |
Mount Rainier National Park geologic resource evaluation report J. Graham
|
Natural Reource Report NPS/NRPC/GRD/NRR-2005/007 - National Park Service
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2005 |
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0.52 |
2019
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96 |
Debris properties and mass-balance impacts on adjacent debris-covered glaciers, Mount Rainier, USA P.L. Moore, L.I. Nelson, T.M. Groth
|
Arctic, Antarctic, and Alpine Research Volume: 51, Number: 1 |
2019 |
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0.52 |
2016
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97 |
Glacier retreat, outburst floods, and kinematic waves: Nisqually Glacier changes related to climate C.M. Stevens, H. Conway, P.M. Kennard, L.A. Rasmussen, M. Koutnik
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Unpublished Report to Mount Rainier National Park - Department of Earth and Space Sciences, University of Washington, Seattle, WA
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2016 |
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0.52 |
2024
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98 |
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