|Geomorphic and geologic controls of geohazards induced by Nepal’s 2015 Gorkha earthquake|
JS Kargel, GJ Leonard, DH Shugar, UK Haritashya, A Bevington, ...
Science 351 (6269), aac8353, 2016
|A systematic, regional assessment of high mountain Asia glacier mass balance|
DE Shean, S Bhushan, P Montesano, DR Rounce, A Arendt, ...
Frontiers in Earth Science 7, 363, 2020
|Projected land ice contributions to twenty-first-century sea level rise|
TL Edwards, S Nowicki, B Marzeion, R Hock, H Goelzer, H Seroussi, ...
Nature 593 (7857), 74-82, 2021
|Glacier mass change in High Mountain Asia through 2100 using the open-source python glacier evolution model (PyGEM)|
DR Rounce, R Hock, DE Shean
Frontiers in Earth Science 7, 331, 2020
|Partitioning the uncertainty of ensemble projections of global glacier mass change|
B Marzeion, R Hock, B Anderson, A Bliss, N Champollion, K Fujita, ...
Earth's Future 8 (7), e2019EF001470, 2020
|Identification of hazard and risk for glacial lakes in the Nepal Himalaya using satellite imagery from 2000–2015|
DR Rounce, CS Watson, DC McKinney
Remote Sensing 9 (7), 654, 2017
|A new remote hazard and risk assessment framework for glacial lakes in the Nepal Himalaya|
DR Rounce, DC McKinney, JM Lala, AC Byers, CS Watson
Hydrology and Earth System Sciences 20 (9), 3455-3475, 2016
|Debris thickness of glaciers in the Everest area (Nepal Himalaya) derived from satellite imagery using a nonlinear energy balance model|
DR Rounce, DC McKinney
The Cryosphere 8 (4), 1317-1329, 2014
|A rockfall-induced glacial lake outburst flood, Upper Barun Valley, Nepal|
AC Byers, DR Rounce, DH Shugar, JM Lala, EA Byers, D Regmi
Landslides 16, 533-549, 2019
|Global glacier change in the 21st century: Every increase in temperature matters|
DR Rounce, R Hock, F Maussion, R Hugonnet, W Kochtitzky, M Huss, ...
Science 379 (6627), 78-83, 2023
|Quantifying debris thickness of debris‐covered glaciers in the Everest Region of Nepal through inversion of a subdebris melt model|
DR Rounce, O King, M McCarthy, DE Shean, F Salerno
Journal of Geophysical Research: Earth Surface 123 (5), 1094-1115, 2018
|Distributed global debris thickness estimates reveal debris significantly impacts glacier mass balance|
DR Rounce, R Hock, RW McNabb, R Millan, C Sommer, MH Braun, ...
Geophysical Research Letters 48 (8), e2020GL091311, 2021
|Understanding of contemporary regional sea‐level change and the implications for the future|
BD Hamlington, AS Gardner, E Ivins, JTM Lenaerts, JT Reager, ...
Reviews of Geophysics 58 (3), e2019RG000672, 2020
|Debris-covered glacier energy balance model for Imja–Lhotse Shar Glacier in the Everest region of Nepal|
DR Rounce, DJ Quincey, DC McKinney
The Cryosphere 9 (6), 2295-2310, 2015
|Assessing downstream flood impacts due to a potential GLOF from Imja Tsho in Nepal|
MA Somos-Valenzuela, DC McKinney, AC Byers, DR Rounce, ...
Hydrology and Earth System Sciences 19 (3), 1401-1412, 2015
|The state of remote sensing capabilities of cascading hazards over High Mountain Asia|
D Kirschbaum, CS Watson, DR Rounce, DH Shugar, JS Kargel, ...
Frontiers in Earth science 7, 197, 2019
|Modeling the glacial lake outburst flood process chain in the Nepal Himalaya: reassessing Imja Tsho's hazard|
JM Lala, DR Rounce, DC McKinney
Copernicus GmbH, 2017
|Changes in Imja Tsho in the Mount Everest region of Nepal|
MA Somos-Valenzuela, DC McKinney, DR Rounce, AC Byers
The Cryosphere 8 (5), 1661-1671, 2014
|Quantifying parameter uncertainty in a large-scale glacier evolution model using Bayesian inference: application to High Mountain Asia|
DR Rounce, T Khurana, MB Short, R Hock, DE Shean, DJ Brinkerhoff
Journal of Glaciology 66 (256), 175-187, 2020
|Brief communication: Observations of a glacier outburst flood from Lhotse Glacier, Everest area, Nepal|
DR Rounce, AC Byers, EA Byers, DC McKinney
The Cryosphere 11 (1), 443-449, 2017