Your search keyword '"Li, Shangfeng"' showing total 2 results

1. Numerical experiments on the impact of spring north pacific SSTA on NPO and unusually cool summers in Northeast China.

Author

Lian, Yi, Zhao, Bin, Shen, Baizhu, Li, Shangfeng, and Liu, Gang

Subjects

OCEAN temperature, NUMERICAL analysis, WESTERLIES, CYCLONES, SEASONS

Abstract

A set of numerical experiments designed to analyze the oceanic forcing in spring show that the combined forcing of cold (warm) El Niño (La Niña) phases in the Niño4 region and sea surface temperature anomalies (SSTA) in the westerly drifts region would result in abnormally enhanced NorthEast Cold Vortex (NECV) activities in early summer. In spring, the central equatorial Pacific El Niño phase and westerly drift SSTA forcing would lead to the retreat of non-adiabatic waves, inducing elliptic low-frequency anomalies of tropical air flows. This would enhance the anomalous cyclone-anticyclone-cyclone-anticyclone low-frequency wave train that propagates from the tropics to the extratropics and further to the mid-high latitudes, constituting a major physical mechanism that contributes to the early summer circulation anomalies in the subtropics and in the North Pacific mid-high latitudes. The central equatorial Pacific La Niña forcing in the spring would, on the one hand, induce teleconnection anomalies of high pressure from the Sea of Okhotsk to the Sea of Japan in early summer, and on the other hand indirectly trigger a positive low-frequency East Asia-Pacific teleconnection (EAP) wave train in the lower troposphere. [ABSTRACT FROM AUTHOR]

Published

2014

2. Impacts of polar vortex, NPO, and SST configurations on unusually cool summers in Northeast China. Part I: Analysis and diagnosis.

Author

Lian, Yi, Shen, Baizhu, Li, Shangfeng, Zhao, Bin, Gao, Zongting, Liu, Gang, Liu, Ping, and Cao, Ling

Subjects

POLAR vortex, WEATHER signals, ATMOSPHERIC pressure, BLOCKING (Meteorology), OCEAN temperature

Abstract

This study unveils the evolution of two major early signals in the North Pacific atmosphere-ocean system that heralded abnormal high-pressure blockings and cold-vortex activities across Northeast China, based on an analysis of the configurations of major modes including the polar vortex, the North Pacific Oscillation (NPO), and SST in the preceding winter and spring and atmospheric low-frequency disturbances in Northeast China. We analyzed these aspects to understand the atmosphere-ocean physical coupling processes characterized by the two early signals, and here we explain the possible mechanisms through which dipole circulation anomalies affect the summer low-temperature processes in Northeast China. We further analyzed the interdecadal variation background and associated physical processes of the two early signals. [ABSTRACT FROM AUTHOR]

Published

2013