Add to ORKG[1] Interannual variability of the atmospheric heat budget is explored via a new data set of the computed vertically integrated energy transports to examine relationships with other fields. A case study reveals very large monthly divergences of these transports regionally with El Niño-Southern Oscillation (ENSO) and the associated changes with the Pacific-North American teleconnection pattern, and with the North Atlantic Oscillation. In the tropical Pacific during large El Niño events the anomalous divergence of the atmospheric energy transports exceeds 50 W m2 over broad regions for several months. Examination of the corresponding top-of-the-atmosphere net radiative fluxes shows that it is primarily the surface fluxes from the ocean to t...
Abstract The atmospheric energy transport variability associated with decadal sea sur...
International audienceThe study of energy flows in the Earth system is essential for understanding c...
International audienceIn the Niño3.4 region (tropical Pacific, 5°S-5°N, 170°-120°W), sea surface tem...
The variability of zonally resolved tropical energy budgets in association with El Ni~no–Southern Os...
Characteristics of the oceanic mixed layer over the North Pacific were examined utilizing a number o...
The South Pacific convergence zone (SPCZ) exhibits well-known spatial displacements in response to a...
The atmospheric energy transport variability associated with decadal sea surface temperature variabi...
We compute the atmospheric heat transport in a realistic atmospheric general circulation model under...
Progress report for 1 October 1976-30 June 1977.Includes bibliographical references.During the prese...
El Nino-Southern Oscillation (ENSO) is an important air-sea coupled phenomenon that plays a dominant...
New estimates of the poleward energy transport based on atmospheric reanalyses from the National Cen...
Six years of upper-ocean velocity, temperature, and surface wind data collected in the west-central ...
We compute the atmospheric heat transport in a realistic atmospheric general circulation model under...
The El Niño-Southern Oscillation (ENSO) is a dominant source of global climate variability. T...
This study examines interannual variability produced by a recent version of the University of Califo...
Abstract The atmospheric energy transport variability associated with decadal sea sur...
International audienceThe study of energy flows in the Earth system is essential for understanding c...
International audienceIn the Niño3.4 region (tropical Pacific, 5°S-5°N, 170°-120°W), sea surface tem...
The variability of zonally resolved tropical energy budgets in association with El Ni~no–Southern Os...
Characteristics of the oceanic mixed layer over the North Pacific were examined utilizing a number o...
The South Pacific convergence zone (SPCZ) exhibits well-known spatial displacements in response to a...
The atmospheric energy transport variability associated with decadal sea surface temperature variabi...
We compute the atmospheric heat transport in a realistic atmospheric general circulation model under...
Progress report for 1 October 1976-30 June 1977.Includes bibliographical references.During the prese...
El Nino-Southern Oscillation (ENSO) is an important air-sea coupled phenomenon that plays a dominant...
New estimates of the poleward energy transport based on atmospheric reanalyses from the National Cen...
Six years of upper-ocean velocity, temperature, and surface wind data collected in the west-central ...
We compute the atmospheric heat transport in a realistic atmospheric general circulation model under...
The El Niño-Southern Oscillation (ENSO) is a dominant source of global climate variability. T...
This study examines interannual variability produced by a recent version of the University of Califo...
Abstract The atmospheric energy transport variability associated with decadal sea sur...
International audienceThe study of energy flows in the Earth system is essential for understanding c...
International audienceIn the Niño3.4 region (tropical Pacific, 5°S-5°N, 170°-120°W), sea surface tem...