Biblio
Filters: Author is Yongqi Gao [Clear All Filters]
Assessing the influence of sea surface temperature and arctic sea ice cover on the uncertainty in the boreal winter future climate projections. Climate Dynamics (2022).doi:10.1007/s00382-022-06136-0
A Comparison of Factors That Led to the Extreme Sea Ice Minima in the Twenty-First Century in the Arctic Ocean. Journal of Climate 35, (2022).
Preceding winter Okhotsk Sea ice as a precursor to the following winter extreme precipitation in South China. Atmospheric Science Letters 23, (2022).
A Sensitivity Study of Arctic Ice-Ocean Heat Exchange to the Three-Equation Boundary Condition Parametrization in CICE6. Advances in Atmospheric Sciences (2022).doi:10.1007/s00376-022-1316-y
Simulated contribution of the interdecadal Pacific oscillation to the west Eurasia cooling in 1998-2013. Environmental Research Letters 17, (2022).
Contributors to linkage between Arctic warming and East Asian winter climate. Climate Dynamics 57, (2021). Abstract
Impact of global sea surface temperature on the recent early winter Arctic tropospheric warming in coordinated large ensemble simulations 协调大集合模拟下全球海表面温度对北极对流层早冬增暖的影响. Atmospheric and Oceanic Science Letters 14, (2021).
Impacts of North Atlantic sea surface temperature on the predominant modes of spring precipitation monthly evolution over Northeast China. Climate Dynamics (2021).doi:10.1007/s00382-021-05966-8
Influences of North Pacific anomalies on Indian summer monsoon onset. Quarterly Journal of the Royal Meteorological Society 147, (2021).
Multi-source and temporal attention network for probabilistic wind power prediction. IEEE Transactions on Sustainable Energy 12, (2021).
Pacific contribution to decadal surface temperature trends in the Arctic during the twentieth century. Climate Dynamics 57, (2021). Abstract
The Relationship between Melt Season Sea Ice over the Bering Sea and Summer Precipitation over Mid-Latitude East Asia. Advances in Atmospheric Sciences 38, (2021).
The unstable connection between Atlantic Multidecadal Oscillation and Indian Summer Monsoon in CESM-LE. Climate Dynamics (2021).doi:10.1007/s00382-021-05976-6
The ARCPATH Project: Assessing Risky Environments and Rapid Change: Research on Climate, Adaptation and Coastal Communities in the North Atlantic Arctic. Nordic Perspectives on the Responsible Development of the Arctic: Pathways to Action (2020).doi:10.1007/978-3-030-52324-4_7
Arctic sea-ice loss intensifies aerosol transport to the Tibetan Plateau. Nature Climate Change 10, (2020).
The Climate Model: An ARCPATH Tool to Understand and Predict Climate Change. Nordic Perspectives on the Responsible Development of the Arctic: Pathways to Action (2020).doi:10.1007/978-3-030-52324-4_8
Eurasia Cooling Linked to the Vertical Distribution of Arctic Warming. Geophysical Research Letters 47, (2020).
Mid-summer surface air temperature and its internal variability over China at 1.5 °C and 2 °C global warming. Advances in Climate Change Research 11, (2020).
North Atlantic Modulation of Interdecadal Variations in Hot Drought Events over Northeastern China. Journal of Climate 33, (2020).
Oceanic forcing of the global warming slowdown in multi-model simulations. International Journal of Climatology (2020).doi:10.1002/joc.6548
Projected near-term changes of temperature extremes in Europe and China under different aerosol emissions. Environmental Research Letters 15:03401, (2020).
Quantification of the Arctic Sea Ice‐Driven Atmospheric Circulation Variability in Coordinated Large Ensemble Simulations. Geophysical Research Letters 47, (2020).
Seasonal to decadal predictions of regional Arctic sea ice by assimilating sea surface temperature in the Norwegian Climate Prediction Model. Climate Dynamics (2020).doi:10.1007/s00382-020-05196-4
