论文部分内容阅读
The tropospheric teleconnection pattern be-tween the Indian Ocean Dipole (IOD) and the Pacific Ocean was studied using GISST and NECP/NCAR reanalysis data. Results show that a structure of Rossby wave train extends from the tropical Indian Ocean over southern subtropical regions of Australia and Pacific Ocean to the tropical Pacific Ocean, where a strong correlation between IOD and geo- potential height (GH) anomaly of Pacific Ocean exists. En-ergy propagating pathways of the planetary wave with wave numbers 1―3 are qualitatively in agreement with the Rossby wave train, which implies that the energy propagation of the stationary planetary wave could be responsible for the tro-pospheric teleconnection between IOD and tropical Pacific Ocean.
The tropospheric teleconnection pattern be-tween the Indian Ocean Dipole (IOD) and the Pacific Ocean was studied using GISST and NECP / NCAR reanalysis data. Results show that that structure of Rossby wave train extends from the tropical Indian Ocean over southern subtropical regions of Australia and Pacific Ocean to the tropical Pacific Ocean, where a strong correlation between IOD and geo- potential height (GH) anomaly of Pacific Ocean exists. En-ergy propagating pathways of the planetary wave with wave numbers 1-3 are qualitatively in agreement with the Rossby wave train, which implies that the energy propagation of the stationary planetary wave could be responsible for the tro-pospheric teleconnection between IOD and tropical Pacific Ocean.