Wills, R.C., November 2014: The world is certainly warming. Barnes, 2020: Separating forced and unforced components of climate change: The utility of pattern recognition methods in large ensembles and observations. Thesis, California Institute of Technology. Wills, R.C., 2016: Stationary eddies and zonal variations of the global hydrological cycle in aĬhanging climate. Schneider, 2015: Stationary eddies and the zonal asymmetry of net precipitation and ocean freshwater forcing. Schneider, 2016: How stationary eddies shape changes in the hydrological cycle: Zonally asymmetric experiments in an idealized GCM. Geophysical Research Letters, 43, 4640–4649. Schneider, 2016: Thermodynamic and dynamic controls on changes in the zonally anomalous hydrological cycle. Journal of the Atmospheric Sciences, 76, 3965. Journal of the Atmospheric Sciences, 74, 1907–1922. Schneider, 2017: Local energetic constraints on Walker circulation strength. Szekely, Eds., NCAR Technical Note NCAR/TN-536+PROC, 25–28. Proceedings of the 7th International Workshop on Climate Informatics: CI 2017, V. Schneider, 2017: Extracting modes of variability and change from climate model ensembles. Geophysical Research Letters, 45, 2487–2496. Hartmann, 2018: Disentangling global warming, multidecadal variability, and El Niño in Pacific temperatures. Annual Reviews of Earth and Planetary Sciences, 46, 327–352.
Wills, 2018: Atlantic-Pacific asymmetry in deep water formation. Taylor, 2018: Deglacial upwelling, productivity and CO2 outgassing in the North Pacific Ocean. Schneider, 2018: Mechanisms setting the strength of orographic Rossby waves across a wide range of climates in a moist idealized GCM. Hartmann, 2019: Ocean-atmosphere dynamical coupling fundamental to the Atlantic Multidecadal Oscillation. Geophysical Research Letters, 46, 1690–1701. Armour, 2019: Ocean circulation signatures of North Pacific decadal variability. Levine, 2019: Northern Hemisphere stationary waves in a changing climate, Current Climate Change Reports. Valdes, 2020: Wind-driven evolution of the North Pacific subpolar gyre over the last deglaciation. Proistosescu, 2020: Magnitudes and spatial patterns of interdecadal temperature variability in CMIP6. Deser, 2020: Pattern recognition methods to separate forced responses from internal variability in climate model ensembles and observations. Burke, 2020: Overturning circulation, nutrient limitation, and warming in the glacial North Pacific. Wills, 2021: Is the surface salinity difference between the Atlantic and Indo-Pacific a signature of the Atlantic Meridional Overturning Circulation? Journal of Physical Oceanography, 51, 769–787. Langehaug, 2021: Mechanisms of decadal North Atlantic climate variability and implications for the recent cold anomaly. Jackson, 2021: Mechanisms of low-frequency variability in Atlantic northward ocean heat transport and AMOC. Wills, 2021: Constraining the date of a seasonally ice-free Arctic using a simple model. Parsons, 2021: Slow modes of global temperature variability and their impact on climate sensitivity estimates. Journal of Geophysical Research: Oceans, 127. Thompson, 2022: Resolution dependence of atmosphere-ocean interactions and water-mass transformation in the North Atlantic. Sydeman, 2022: Global decline in ocean memory over the 21st century. Michel: Poleward shift in the Southern Hemisphere westerly winds synchronous with the deglacial rise in CO 2. Wu: The future of the El Niño-Southern Oscillation: Using large ensembles to illuminate time-varying responses and inter-model differences. Submitted to Geophysical Research Letters. Battisti: Systematic climate model biases in the large-scale pattern of recent sea-surface temperature and sea-level pressure change.
#Robert wills instagrid code#
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