Items where Author is "Moore, John C"

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Number of items: 8.

Article
Zhang, Y. , Moore, J. C. , Zhao, L. , Werder, M. A. , Gladstone, R. and Wolovick, M. (2024)
The role of hydraulic conductivity in the Pine Island Glacier's subglacial water distribution ,
The Science of The Total Environment, 927 , p. 172144 .
doi:10.1016/j.scitotenv.2024.172144 , hdl:10013/epic.56d2e6f1-0688-452e-b4a0-28abd38e261e
[thumbnail of Zhang_2024_PIGHydrology.pdf]
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Article
Huang, Y. , Zhao, L. , Wolovick, M. , Ma, Y. and Moore, J. C. (2024)
Using specularity content to evaluate eight geothermal heat flow maps of Totten Glacier ,
The Cryosphere, 18 (1), pp. 103-119 .
doi:10.5194/tc-18-103-2024 , hdl:10013/epic.155f0905-ea05-457a-aa93-42f37577e0c5
[thumbnail of Huang_2024_TottenGHF.pdf]
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Article
Keefer, B. , Wolovick, M. and Moore, J. C. (2023)
Feasibility of ice sheet conservation using seabed anchored curtains / Zur, K. (editor) ,
PNAS Nexus, 2 (3), pgad053-pgad053 .
doi:10.1093/pnasnexus/pgad053 , hdl:10013/epic.e0d335c9-7d71-41de-a7c7-110c2838ae03
[thumbnail of [2024-08-07] File added by Dr. Peter Köhler in a redeposit operation from Symplectic Elements.]
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Article
Kang, H. , Zhao, L. , Wolovick, M. and Moore, J. C. (2022)
Evaluation of six geothermal heat flux maps for the Antarctic Lambert–Amery glacial system ,
The Cryosphere, 16 (9), pp. 3619-3633 .
doi:10.5194/tc-16-3619-2022 , hdl:10013/epic.cd3799a6-5789-4295-b159-9e51bdd72b47
[thumbnail of Kang_2022_GeothermalFluxLambertEvaluation.pdf]
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Article
Xie, M. , Moore, J. C. , Zhao, L. , Wolovick, M. and Muri, H. (2022)
Impacts of three types of solar geoengineering on the Atlantic Meridional Overturning Circulation ,
Atmospheric Chemistry and Physics, 22 (7), pp. 4581-4597 .
doi:10.5194/acp-22-4581-2022 , hdl:10013/epic.96dcdaad-2200-46eb-a7cb-1b46e2a100f8
[thumbnail of Xie_2022_GeoengineeringAndAMOC.pdf]
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Article
Zhao, W. , Zhao, L. , Tian, L. , Wolovick, M. and Moore, J. C. (2022)
Simulating the Evolution of Da Anglong Glacier, Western Tibetan Plateau over the 21st Century ,
Water, 14 (2), p. 271 .
doi:10.3390/w14020271 , hdl:10013/epic.1e503813-4fda-419a-8c5f-f321a8d99bdd
[thumbnail of Zhao_2022_DaAnlongGlacier.pdf]
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Article
Yue, C. , Zhao, L. , Wolovick, M. and Moore, J. C. (2021)
Greenland Ice Sheet Surface Runoff Projections to 2200 Using Degree-Day Methods ,
Atmosphere, 12 (12), p. 1569 .
doi:10.3390/atmos12121569 , hdl:10013/epic.662cae96-391d-4cc2-ba8b-47af7b9f512a
[thumbnail of Yue_2021_GreenlandSMB.pdf]
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Article
Li, Z. , Xia, J. , Ahlström, A. , Rinke, A. , Koven, C. , Hayes, D. J. , Ji, D. , Zhang, G. , Krinner, G. , Chen, G. , Cheng, W. , Dong, J. , Liang, J. , Moore, J. C. , Jiang, L. , Yan, L. , Ciais, P. , Peng, S. , Wang, Y. P. , Xiao, X. , Shi, Z. , McGuire, A. D. and Luo, Y. (2018)
Non-uniform seasonal warming regulates vegetation greening and atmospheric CO 2 amplification over northern lands ,
Environmental Research Letters, 13 (12), p. 124008 .
doi:10.1088/1748-9326/aae9ad , hdl:10013/epic.c84845c4-77a6-4d88-9668-ea7c004f5a1d

This list was generated on Sun Dec 15 18:30:40 2024 UTC.