Clouds play an important role in the climate system by reducing the amount of shortwave radiation reaching the surface and the amount of longwave radiation escaping to space. Accurate simulation of clouds in computer models remains elusive, however, pointing to a lack of understanding of the connection between large-scale dynamics and cloud properties. This study uses a k-means clustering algorithm to group 21 years of satellite cloud data over midlatitude oceans into seven clusters, and demonstrates that the cloud clusters are associated with distinct large-scale dynamical conditions. Three clusters correspond to low-level cloud regimes with different cloud fraction and cumuliform or stratiform characteristics, but all occur under large-sc...
International audienceCloud climate feedback constitutes the most important uncertainty in climate m...
The variations of tropical upper tropospheric (UT) clouds with sea surface temperature (SST) are ana...
It is well established that inter-model differences in cloud feedbacks are the leading cause of diff...
A clustering algorithm is used to define the radiative, hydrological, and microphysical properties o...
Global climate model predictions of future warming vary substantially due to uncertainties in how cl...
Cloud feedback—the change in top‐of‐atmosphere radiative flux resulting from the cloud response to w...
We review the effects of dynamical variability on clouds and radiation in observations and models an...
Thesis (Ph.D.)--University of Washington, 2018Cloud radiative feedbacks are the largest source of un...
Thesis (Ph.D.)--University of Washington, 2015In climate models, the simulation of clouds is known t...
Climate models are an important tool in understanding the mechanisms of the climate system and for p...
We show that the seasonal cycles of clouds over the mid-latitude oceans in the Northern Hemisphere a...
The inter-annual variability of the ocean- atmosphere system in the tropics is dominated by El Niño ...
The radiative effects of clouds make a large contribution to the Earth's energy balance, and changes...
Uncertainty on cloud feedback is the primary contributor to the large spread of equilibrium climate ...
Current climate models generally reflect too little solar radiation over the Southern Ocean, which m...
International audienceCloud climate feedback constitutes the most important uncertainty in climate m...
The variations of tropical upper tropospheric (UT) clouds with sea surface temperature (SST) are ana...
It is well established that inter-model differences in cloud feedbacks are the leading cause of diff...
A clustering algorithm is used to define the radiative, hydrological, and microphysical properties o...
Global climate model predictions of future warming vary substantially due to uncertainties in how cl...
Cloud feedback—the change in top‐of‐atmosphere radiative flux resulting from the cloud response to w...
We review the effects of dynamical variability on clouds and radiation in observations and models an...
Thesis (Ph.D.)--University of Washington, 2018Cloud radiative feedbacks are the largest source of un...
Thesis (Ph.D.)--University of Washington, 2015In climate models, the simulation of clouds is known t...
Climate models are an important tool in understanding the mechanisms of the climate system and for p...
We show that the seasonal cycles of clouds over the mid-latitude oceans in the Northern Hemisphere a...
The inter-annual variability of the ocean- atmosphere system in the tropics is dominated by El Niño ...
The radiative effects of clouds make a large contribution to the Earth's energy balance, and changes...
Uncertainty on cloud feedback is the primary contributor to the large spread of equilibrium climate ...
Current climate models generally reflect too little solar radiation over the Southern Ocean, which m...
International audienceCloud climate feedback constitutes the most important uncertainty in climate m...
The variations of tropical upper tropospheric (UT) clouds with sea surface temperature (SST) are ana...
It is well established that inter-model differences in cloud feedbacks are the leading cause of diff...