Прати
Zachary Labe
Zachary Labe
Друга именаZ Labe, ZM Labe, Zack Labe
NOAA Geophysical Fluid Dynamics Laboratory
Верификована је имејл адреса на noaa.gov - Почетна страница
Наслов
Навело
Навело
Година
The Arctic
JK Andersen, LM Andreassen, EH Baker, TJ Ballinger, LT Berner, ...
Bulletin of the American Meteorological Society 101 (8), S239-S286, 2020
127*2020
Variability of Arctic sea ice thickness using PIOMAS and the CESM Large Ensemble
Z Labe, G Magnusdottir, H Stern
Journal of Climate 31 (8), 3233-3247, 2018
1072018
Warm Arctic, cold Siberia pattern: Role of full Arctic amplification versus sea ice loss alone
Z Labe, Y Peings, G Magnusdottir
Geophysical Research Letters 47 (17), e2020GL088583, 2020
852020
The record low Bering Sea ice extent in 2018: context, impacts, and an assessment of the role of anthropogenic climate change
RL Thoman, US Bhatt, PA Bieniek, BR Brettschneider, M Brubaker, ...
Bulletin of the American Meteorological Society 101 (1), S53-S58, 2020
842020
Sea surface temperature
ML Timmermans, Z Labe
NOAA Arctic Report Card 2022, 1-6, 2022
81*2022
Are 100 ensemble members enough to capture the remote atmospheric response to+ 2° C Arctic sea ice loss?
Y Peings, ZM Labe, G Magnusdottir
Journal of Climate 34 (10), 3751-3769, 2021
672021
Detecting Climate Signals Using Explainable AI With Single‐Forcing Large Ensembles
ZM Labe, EA Barnes
Journal of Advances in Modeling Earth Systems 13 (6), e2021MS002464, 2021
592021
The effect of QBO phase on the atmospheric response to projected Arctic sea ice loss in early winter
Z Labe, Y Peings, G Magnusdottir
Geophysical Research Letters 46 (13), 7663-7671, 2019
482019
Contributions of ice thickness to the atmospheric response from projected Arctic sea ice loss
Z Labe, Y Peings, G Magnusdottir
Geophysical Research Letters 45 (11), 5635-5642, 2018
442018
Identifying anomalously early spring onsets in the CESM large ensemble project
Z Labe, T Ault, R Zurita-Milla
Climate Dynamics 48, 3949-3966, 2017
312017
The Arctic
RL Thoman, ML Druckenmiller, TA Moon, LM Andreassen, E Baker, ...
Bulletin of the American Meteorological Society 103 (8), S257-S306, 2022
27*2022
Predicting slowdowns in decadal climate warming trends with explainable neural networks
ZM Labe, EA Barnes
Geophysical Research Letters 49 (9), e2022GL098173, 2022
272022
The Arctic
ML Druckenmiller, TA Moon, RL Thoman, TJ Ballinger, LT Berner, ...
Bulletin of the American Meteorological Society 102 (8), S263-S316, 2021
26*2021
Internal variability and forcing influence model–satellite differences in the rate of tropical tropospheric warming
S Po-Chedley, JT Fasullo, N Siler, ZM Labe, EA Barnes, CJW Bonfils, ...
Proceedings of the National Academy of Sciences 119 (47), e2209431119, 2022
212022
Comparison of climate model large ensembles with observations in the Arctic using simple neural networks
ZM Labe, EA Barnes
Earth and Space Science 9 (7), e2022EA002348, 2022
152022
Why has the Summertime Central US Warming Hole Not Disappeared?
JK Eischeid, MP Hoerling, XW Quan, A Kumar, J Barsugli, ZM Labe, ...
Journal of Climate 36 (20), 7319-7336, 2023
142023
Arctic report card 2020: sea surface temperature
ML Timmermans, Z Labe
132020
Identifying the regional emergence of climate patterns in the ARISE-SAI-1.5 simulations
ZM Labe, EA Barnes, J Hurrell
Environmental Research Letters 18 (4), 1-12, 2023
112023
Introduction [in “State of the Climate in 2022 “]
T Boyer, E Bartow-Gillies, A Abida, M Ades, R Adler, S Adusumilli, ...
102023
Incorporating extreme event attribution into climate change adaptation for civil infrastructure: Methods, benefits, and research needs
Y Zhang, BM Ayyub, JF Fung, ZM Labe
Resilient Cities and Structures 3 (1), 103-113, 2024
82024
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