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An upper ocean response to Typhoon Bolaven analyzed with Argo profiling floats 被引量:22
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作者 LIU Zenghong XU Jianping +1 位作者 SUN Chaohui WU Xiaofen 《Acta Oceanologica Sinica》 SCIE CAS CSCD 2014年第11期90-101,共12页
In situ observations from Argo profiling floats combined with satellite retrieved SST and rain rate are used to investigate an upper ocean response to Typhoon Bolaven from 20 through 29 August 2012. After the passage ... In situ observations from Argo profiling floats combined with satellite retrieved SST and rain rate are used to investigate an upper ocean response to Typhoon Bolaven from 20 through 29 August 2012. After the passage of Typhoon Bolaven, the deepening of mixed layer depth(MLD), and the cooling of mixed layer temperature(MLT) were observed. The changes in mixed layer salinity(MLS) showed an equivalent number of increasing and decreasing because the typhoon-induced salinity changes in the mixed layer were influenced by precipitation, evaporation, turbulent mixing and upwelling of thermocline water. The deepening of the MLD and the cooling of the MLT indicated a significant rightward bias, whereas the MLS was freshened to the left side of the typhoon track and increased on the other side. Intensive temperature and salinity profiles observed by Iridium floats make it possible to view response processes in the upper ocean after the passage of a typhoon. The cooling in the near-surface and the warming in the subsurface were observed by two Iridium floats located to the left side of the cyclonic track during the development stage of the storm, beyond the radius of maximum winds relative to the typhoon center. Water salinity increases at the base of the mixed layer and the top of the thermocline were the most obvious change observed by those two floats. On the right side of the track and near the typhoon center when the typhoon was intensified, the significant cooling from sea surface to a depth of 200×10^4 Pa, with the exception of the water at the top of the thermocline, was observed by the other Iridium float. Owing to the enhanced upwelling near the typhoon center, the water salinity in the near-surface increased noticeably. The heat pumping from the mixed layer into the thermocline induced by downwelling and the upwelling induced by the positive wind stress curl are the main causes for the different temperature and salinity variations on the different sides of the track. It seems that more time is required for the anomalies in the subsurface to be restored to pretyphoon conditions than for the anomalies in the mixed layer. 展开更多
关键词 Typhoon Bolaven Argo profiling floats upper ocean response ocean heat content
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A REGIONAL COUPLED AIR-SEA-WAVE MODEL: SIMULATION OF UPPER-OCEAN RESPONSES TO AN IDEALIZED TROPICAL CYCLONE 被引量:4
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作者 郑运霞 黄伟 于润玲 《Journal of Tropical Meteorology》 SCIE 2015年第3期232-245,共14页
In this study a coupled air-sea-wave model system, containing the model components of GRAPES-TCM, ECOM-si and WAVEWATCH III, is established based on an air-sea coupled model. The changes of wave state and the effects ... In this study a coupled air-sea-wave model system, containing the model components of GRAPES-TCM, ECOM-si and WAVEWATCH III, is established based on an air-sea coupled model. The changes of wave state and the effects of sea spray are both considered. Using the complex air-sea-wave model, a set of idealized simulations was applied to investigate the effects of air-sea-wave interaction in the upper ocean. Results show that air-wave coupling can strengthen tropical cyclones while air-sea coupling can weaken them; and air-sea-wave coupling is comparable to that of air-sea coupling, as the intensity is almost unchanged with the wave model coupled to the air-sea coupled model.The mixing by vertical advection is strengthened if the wave effect is considered, and causes much more obvious sea surface temperature(SST) decreases in the upper ocean in the air-sea coupled model. Air-wave coupling strengthens the air-sea heat exchange, while the thermodynamic coupling between the atmosphere and ocean weakens the air-sea heat exchange: the air-sea-wave coupling is the result of their balance. The wave field distribution characteristic is determined by the wind field. Experiments are also conducted to simulate ocean responses to different mixed layer depths.With increasing depth of the initial mixed layer, the decrease of SST weakens, but the temperature decrease of deeper layers is enhanced and the loss of heat in the upper ocean is increased. The significant wave height is larger when the initial mixed layer depth increases. 展开更多
关键词 air-sea-wave coupled model tropical cyclone upper ocean response mixed layer depth
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Upper ocean response to tropical cyclone wind forcing: A case study of typhoon Rammasun(2008) 被引量:6
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作者 PEI YuHua ZHANG RongHua CHEN DaKe 《Science China Earth Sciences》 SCIE EI CAS CSCD 2015年第9期1623-1632,共10页
The characteristics of the upper ocean response to tropical cyclone wind (TCW) forcing in the northwestern Pacific were in- vestigated using satellite and Argo data, as well as an ocean general circulation model. In... The characteristics of the upper ocean response to tropical cyclone wind (TCW) forcing in the northwestern Pacific were in- vestigated using satellite and Argo data, as well as an ocean general circulation model. In particular, a case study was carried out on typhoon Rammasun, which passed through our study area during May 6-13, 2008. It is found that the local response fight under the TCW forcing is characterized by a quick deepening of the surface mixed layer, a strong latent heat loss to the atmosphere, and an intense upwelling near the center of typhoon, leading to a cooling of the oceanic surface layer that persists as a cold wake along the typhoon track. More interestingly, the upper ocean response exhibits a four-layer thermal structure, including a cooling layer near the surface and a warming layer right below, accompanied by another pair of cooling/warming layers in the thermocline. The formation of the surface cooling/warming layers can be readily explained by the strong vertical mixing induced by TCW forcing, while the thermal response in the thermocline is probably a result of the cyclone-driven upwelling and the associated advective processes. 展开更多
关键词 tropical cyclone wind forcing upper ocean response satellite and Argo data ocean modeling
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The Positive Indian Ocean Dipole–like Response in the Tropical Indian Ocean to Global Warming 被引量:2
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作者 Yiyong LUO Jian LU +1 位作者 Fukai LIU Xiuquan WAN 《Advances in Atmospheric Sciences》 SCIE CAS CSCD 2016年第4期476-488,共13页
Climate models project a positive Indian Ocean Dipole (plOD)-like SST response in the tropical Indian Ocean to global warming, By employing the Community Earth System Model and applying an overriding technique to it... Climate models project a positive Indian Ocean Dipole (plOD)-like SST response in the tropical Indian Ocean to global warming, By employing the Community Earth System Model and applying an overriding technique to its ocean component (version 2 of the Parallel Ocean Program), this study investigates the similarities and differences of the formation mechanisms for the changes in the tropical Indian Ocean during the plOD versus global warming. Results show that their formation processes and related seasonality are quite similar; in particular, wind-thermocline-SST feedback is the leading mechanism in producing the anomalous cooling over the eastern tropics in both cases. Some differences are also fbund, including the fact that the cooling effect of the vertical advection over the eastern tropical Indian Ocean is dominated by the anomalous vertical velocity during the plOD but by the anomalous upper-ocean stratification under global warming. These findings are lhrther examined through an analysis of the mixed layer heat budget. 展开更多
关键词 Indian ocean Dipole positive Indian ocean Dipole-like response global warming Bjerknes feedback
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The dynamical and thermodynamical analysis of the oceanic response to storm
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作者 Zhang Huaishui(Received January 15, 1990, accepted September 15, 1990) 《Acta Oceanologica Sinica》 SCIE CAS CSCD 1991年第2期229-236,共8页
In this paper, the discussion is made on the problem of the oceanic response caused by air-sea interaction under storm. First, the perturbation differential equations for the problem are given, and the interaction fun... In this paper, the discussion is made on the problem of the oceanic response caused by air-sea interaction under storm. First, the perturbation differential equations for the problem are given, and the interaction functions are supposed to be the solving conditions. Next, the nonlinear diffusion equations of the problem are solved by using the method of the given variable transforms and the specific variable power series. Finally, the response disturbances to the circular intense storm is calculated so as to discribe quantitatively the evolution processes of the oceanic response. 展开更多
关键词 The dynamical and thermodynamical analysis of the oceanic response to storm
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Interannual and interdecadal variability of East Asian monsoon and its relation to oceanic processes: a review
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作者 孙澈 詹海刚 《Chinese Journal of Oceanology and Limnology》 SCIE CAS CSCD 2012年第6期905-907,共3页
A key component of the East Asian climate system is seasonally varying monsoon wind. Its interannual and interdecadal variability, as we1l as underlying oceanic processes, is the subject of a recent project completed ... A key component of the East Asian climate system is seasonally varying monsoon wind. Its interannual and interdecadal variability, as we1l as underlying oceanic processes, is the subject of a recent project completed by the Chinese Academy of Sciences. A series of research progress in the areas of monsoon winds, ocean responses, upwelling and productivity has been made and reviewed by this paper. 展开更多
关键词 East Asian monsoon interannual variability interdecadal variability ocean responses
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SEA SURFACE TEMPERATURE RESPONSE TO TYPHOON MORAKOT(2009) AND ITS INFLUENCE
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作者 赖巧珍 吴立广 谢钟灵 《Journal of Tropical Meteorology》 SCIE 2015年第2期111-120,共10页
While previous studies indicate that typhoons can decrease sea surface temperature(SST) along their tracks, a few studies suggest that the cooling patterns in coastal areas are different from those in the open sea. Ho... While previous studies indicate that typhoons can decrease sea surface temperature(SST) along their tracks, a few studies suggest that the cooling patterns in coastal areas are different from those in the open sea. However, little is known about how the induced cooling coupled with the complex ocean circulation in the coastal areas can affect tropical cyclone track and intensity. The sea surface responses to the land falling process of Typhoon Morakot(2009) are examined observationally and its influences on the activity of the typhoon are numerically simulated with the WRF model. The present study shows that the maximum SST cooling associated with Morakot occurred on the left-hand side of the typhoon track during its landfall. Numerical simulations show that, together with the SST gradients associated with the coastal upwelling and mesoscale oceanic vortices, the resulting SST cooling can cause significant difference in the typhoon track, comparable to the current 24-hour track forecasting error. It is strongly suggested that it is essential to include the non-uniform SST distribution in the coastal areas for further improvement in typhoon track forecast. 展开更多
关键词 sea surface temperature TYPHOON ocean response typhoon track forecast
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Differences in East Asian summer monsoon responses to Asian aerosol forcing under different emission inventories
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作者 Chen-Se WANG Zhi-Li WANG +3 位作者 Ya-Dong LEI Hua ZHANG Hui-Zheng CHE Xiao-Ye ZHANG 《Advances in Climate Change Research》 SCIE CSCD 2022年第3期309-322,共14页
Opposite anthropogenic aerosol emission trends in Asia can lead to different responses of the climate.Here,we examined the responses of the East Asian summer monsoon(EASM)to changes in Asian anthropogenic aerosol emis... Opposite anthropogenic aerosol emission trends in Asia can lead to different responses of the climate.Here,we examined the responses of the East Asian summer monsoon(EASM)to changes in Asian anthropogenic aerosol emissions during 2006-2014 using a global aerosol/atmospheric chemistry-climate coupled model(BCC_AGCM2.0_CUACE/Aero)with two sets of emission inventories:the Community Emissions Data System(CEDS)inventory adopted by the Coupled Model Intercomparison Project Phase 6(CMIP6)and the inventory developed at Peking University(PKU).The changes in Asian anthropogenic aerosol emissions during 2006-2014 between the two inventories were remarkably different,particularly in eastern China where completely opposite trends were observed(i.e.,increase in the CEDS inventory,but significant reduction in the PKU inventory).The perturbation simulations with the Asian anthropogenic aerosol forcing from the two inventories showed opposite changes in aerosol optical depth,aerosol effective radiative forcing,cloud liquid water path,and total cloud cover in eastern China.The simulated‘dipole-type’changes(i.e.,increase in India but decrease in China)in Asian aerosols and the resulting changes in local radiation budget under the PKU inventory were consistent with the corresponding observations.The summer surface temperatures over eastern China decreased by 0-0.4 K because of the Asian anthropogenic aerosol forcing under the CEDS inventory,while they increased by 0.1-0.8 K under the PKU inventory.The weakening of the EASM index caused by the Asian aerosol forcing under the PKU inventory was twofold greater than that under the CEDS inventory(−0.4 vs.−0.2).The Asian‘dipole-type’aerosol forcing contributed to the observed summer‘southern drought and northern flood’phenomenon in eastern China during 2006-2014.The slow ocean-mediated response to the regional‘dipole-type’aerosol forcing dominated the weakening of the EASM circulation and the precipitation changes in eastern China in the total response.This study further confirms that the biases in anthropogenic aerosol emissions over Asia can affect the CMIP6-based regional climate attribution. 展开更多
关键词 Asian aerosol emissions Effective radiative forcing East Asian summer monsoon Precipitation ocean response
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