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Contrasting Phase Changes of Precipitation Annual Cycle Between Land and Ocean Under Global Warming

Fengfei Song, Jian Lu, L. Ruby Leung, Fukai Liu

2020Geophysical Research Letters40 citationsDOI

Abstract

Abstract We report a land‐ocean contrast in the phase change of precipitation annual cycle in multimodel ensemble simulations as climate warms, with a robust delay over land (0–40°N/S) versus an advance (0–40°N/S) or no clear (0–25°N/S) phase changes over ocean. The robust delay over land is caused by the increased effective atmospheric heat capacity C A . Over ocean, the increased C A favors a phase delay, while the land‐ocean precipitation contrast during the peak rainy season favors a phase advance. The latter overwhelms the former and causes a seasonal advance over 0–40°N/S, while the two factors cancel out and result in no phase changes over 0–25°N/S. Under the atmospheric energetic constraint, the land‐ocean precipitation contrast in the peak rainy season is related to their opposite amplitude changes of surface temperature annual cycle: Seasonally different wind changes enhance the amplitude over ocean, while increased C A and surface cooling feedback reduce the amplitude over land.

Topics & Concepts

PrecipitationEnvironmental scienceClimatologyAmplitudeAtmospheric sciencesAnnual cycleWater cycleClimate modelClimate changeWet seasonSea surface temperatureMeteorologyGeologyOceanographyGeographyQuantum mechanicsCartographyPhysicsEcologyBiologyClimate variability and modelsMeteorological Phenomena and SimulationsCryospheric studies and observations
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