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1.
Using the global environmental multiscale (GEM) model, we investigate the impact of increasing model resolution from 2° to 0.3° on Atlantic tropical cyclone activity. There is a clear improvement in the realism of Atlantic storms with increased resolution, in part, linked to a better representation of African easterly waves. The geographical distribution of a Genesis Potential Index, composed of large-scales fields known to impact cyclone formation, coincides closely in the model with areas of high cyclogenesis. The geographical distribution of this index also improves with resolution. We then compare two techniques for achieving local high resolution over the tropical Atlantic: a limited-area model driven at the boundaries by the global 2° GEM simulation and a global variable resolution model (GVAR). The limited-area domain and high-resolution part of the GVAR model coincide geographically, allowing a direct comparison between these two downscaling options. These integrations are further compared with a set of limited-area simulations employing the same domain and resolution, but driven at the boundaries by reanalysis. The limited-area model driven by reanalysis produces the most realistic Atlantic tropical cyclone variability. The GVAR simulation is clearly more accurate than the limited-area version driven by GEM-Global. Degradation in the simulated interannual variability is partly linked to the models failure to accurately reproduce the impact of atmospheric teleconnections from the equatorial Pacific and Sahel on Atlantic cyclogenesis. Through the use of a smaller limited-area grid, driven by GEM-Global 2°, we show that an accurate representation of African Easterly Waves is crucial for simulating Atlantic tropical cyclone variability. 相似文献
2.
This study starts by investigating the impact of the configuration of the variable-resolution atmospheric grid on tropical cyclone (TC) activity. The French atmospheric general circulation model ARPEGE, the grid of which is rotated and stretched over the North Atlantic basin, was used with prescribed sea surface temperatures. The study clearly shows that changing the position of the stretching pole strongly modifies the representation of TC activity over the North Atlantic basin. A pole in the centre of the North Atlantic basin provides the best representation of the TC activity for this region. In a second part, the variable-resolution climate model ARPEGE is coupled with the European oceanic global climate model NEMO in order to study the impact of ocean–atmosphere coupling on TC activity over the North Atlantic basin. Two pre-industrial runs, a coupled simulation and a simulation forced by the sea surface temperatures from the coupled one, are compared. The results show that the coupled simulation is more active in the Caribbean Sea and the Gulf of Mexico while the forced simulation is more active over eastern Florida and the eastern Atlantic. The difference in the distribution of TC activity is certainly linked with the location of TC genesis. In the forced simulation, tropical cyclogenesis is closer to the west African coast than in the coupled simulation. Moreover, the difference in TC activity over the eastern Atlantic seems to be related to two different mechanisms: the difference in African easterly wave activity over the west of Africa and the cooling produced, in the coupled simulation, by African easterly waves over the eastern Atlantic. Finally, the last part studies the impact of changing the frequency of ocean–atmosphere coupling on Atlantic TC activity. Increasing the frequency of coupling decreases the density of TC activity over the North Atlantic basin. However, it does not modify the spatial distribution of the TC activity. TC rainfalls are decreased by 8?% in the high frequency coupled run. 相似文献
3.
G. T. Diro F. Giorgi R. Fuentes-Franco K. J. E. Walsh G. Giuliani E. Coppola 《Climatic change》2014,125(1):79-94
The characteristics of tropical cyclones (TCs) over the Central America Coordinated Regional Downscaling Experiment (CORDEX) domain are examined for present and future climate conditions using the regional climate model RegCM4. RegCM4 is first tested in a 22 year (1982–2003) simulation with boundary forcing from the ERA-Interim reanalysis, showing a generally good performance in reproducing the observed TC climatology and over the Atlantic in reproducing the interannual variations of TC counts. Four scenario simulations (1970-2100) are generated using two model configurations and two driving global models (MPI and HadGEM). The simulations employing the Grell convection scheme produce too few TCs, while those using the Emanuel convection scheme reproduce the observed climatology, especially when driven by the MPI global model. The simulation of TCs is thus sensitive to both the model convection scheme and the forcing GCM. Comparison of future and present day TC statistics indicates that the frequency of future TCs decreases over the tropical Atlantic and the East Pacific coastal areas while it increases over the western areas of the East Pacific and the northern areas of the Atlantic. We also find an increase in the frequency of intense TCs and long lasting TCs, along with a northward shift of TC tracks over the Atlantic. Conclusions on the changes in TC activity are not found to be sensitive to the inclusion of SST thresholds in the detection procedure. These findings 相似文献
4.
Impact of the Western Pacific Tropical Easterly Jet on Tropical Cyclone Genesis Frequency over the Western North Pacific 总被引:1,自引:1,他引:0
Although it is well known that the tropical easterly jet(TEJ)has a significant impact on summer weather and climate over India and Africa,whether the TEJ exerts an important impact on tropical cyclone(TC)activity over the western North Pacific(WNP)remains unknown.In this study,we examined the impact of the TEJ on the interannual variability of TC genesis frequency over the WNP in the TC season(June-September)during 1980-2020.The results show a significant positive correlation between TC genesis frequency over the WNP and the jet intensity in the entrance region of the TEJ over the tropical western Pacific(in brief WP_TEJ),with a correlation coefficient as high as 0.66.The intensified WP_TEJ results in strong ageostrophic northerly winds in the entrance region and thus upper-level divergence to the north of the jet axis over the main TC genesis region in the WNP.This would lead to an increase in upward motion in the troposphere with enhanced low-level convergence,which are the most important factors to the increases in low-level vorticity,mid-level humidity and low-level eddy kinetic energy,and the decreases in sea level pressure and vertical wind shear in the region.All these changes are favorable for TC genesis over the WNP and vice versa.Further analyses indicate that the interannual variability of the WP_TEJ intensity is likely to be linked to the local diabatic heating over the Indian Ocean-western Pacific and the central Pacific El Ni?o-Southern Oscillation. 相似文献
5.
6.
The question of whether and to what extent global warming may be changing tropical cyclone (TC) activity is of great interest
to decision makers. The presence of a possible climate change signal in TC activity is difficult to detect because interannual
variability necessitates analysis over longer time periods than available data allow. Projections of future TC activity are
hindered by computational limitations and uncertainties about changes in regional climate, large scale patterns, and TC response.
This review discusses the state of the field in terms of theory, modeling studies and data. While Atlantic TCs have recently
become more intense, evidence for changes in other basins is not persuasive, and changes in the Atlantic cannot be clearly
attributed to either natural variability or climate change. However, whatever the actual role of climatic change, these concerns
have opened a “policy window” that, if used appropriately, could lead to improved protection against TCs. 相似文献
7.
Qiyang LIU Fengxue QIAO Yongqiang YU Yiting ZHU Shuwen ZHAO Yujia LIU Fulin JIANG Xinyu HU 《大气科学进展》2023,40(4):634-652
This study compares the atmosphere-only HighResMIP simulations from FGOALS-f3-H(FGOALS) and MRIAGCM3-2-S(MRI) with respect to tropical cyclone(TC) characteristics over the Western North Pacific(WNP) for the July–October months of 1985–2014. The focus is on investigating the role of the tropical easterly jet over the Western Pacific(WP_TEJ) in modulating the simulation biases in terms of their climatological distribution and interannual variability of WNP TC genesis frequency(TCGF) based on the a... 相似文献
8.
This study investigates the potential use of a regional climate model in forecasting seasonal tropical cyclone (TC) activity. A modified version of Regional Climate Model Version 3 (RegCM3) is used to examine the ability of the model to simulate TC genesis and landfalling TC tracks for the active TC season in the western North Pacific. In the model, a TC is identified as a vortex satisfying several conditions, including local maximum relative vorticity at 850?hPa with a value?≥450?×?10?6?s?1, and the temperature at 300?hPa being 1°C higher than the average temperature within 15° latitude radius from the TC center. Tracks are traced by following these found vortices. Six-month ensemble (8 members each) simulations are performed for each year from 1982 to 2001 so that the climatology of the model can be compared to the Joint Typhoon Warning Center (JTWC) observed best-track dataset. The 20-year ensemble experiments show that the RegCM3 can be used to simulate vortices with a wind structure and temperature profile similar to those of real TCs. The model also reproduces tracks very similar to those observed with features like genesis in the tropics, recurvature at higher latitudes and landfall/decay. The similarity of the 500-hPa geopotential height patterns between RegCM3 and the European Centre for Medium-Range Weather Forecasts 40 Year Re-analysis (ERA-40) shows that the model can simulate the subtropical high to a large extent. The simulated climatological monthly spatial distributions as well as the interannual variability of TC occurrence are also similar to the JTWC data. These results imply the possibility of producing seasonal forecasts of tropical cyclones using real-time global climate model predictions as boundary conditions for the RegCM3. 相似文献
9.
Soon-Il An Jae-Heung Park Baek-Min Kim Axel Timmermann Fei-Fei Jin 《Theoretical and Applied Climatology》2012,107(1-2):155-164
Using a simple tropical climate model, we investigated possible impacts of changes in oceanic seaways (Panama and Tethys) and ocean basin sizes (great Pacific and narrow Atlantic) on tropical climate variability during Tertiary. Our model showed that the opening of seaways had little influence on climate variability in the tropical Pacific because the climate variability in the Pacific Ocean’s large basins were internally generated, regardless of the variation in the tropical Atlantic Ocean. Conversely, the climate variability in the tropical Atlantic Ocean was highly dependent on the tropical Pacific Ocean; thus, an opening seaway, particularly the Panama seaway, was crucial in generating the interannual variability in the tropical Atlantic Ocean. We also found that in the Pacific Ocean, basin size strongly modified the period and amplitude of the interannual variability of both the Pacific and Atlantic Oceans due to ocean wave dynamics. 相似文献
10.
Tropical cyclone activity in the North Atlantic Basin experiences great variability on intra-annual, interannual, and interdecadal timescales. George Cry found that TC rainfall presents an intra-seasonal pattern over the eastern USA, contributing up to 40% of total monthly rainfall. This study replicates much of what was done by Cry using a denser rain gauge network and more sophisticated techniques for analysis. Rainfall data for this study come from 717 stations from the Historical Climate Network covering 31 states to capture the tropical cyclone (TC) contribution in monthly and seasonal precipitation in the eastern USA. Results showed that September has the highest TC rainfall contribution and the coastal regions of North Carolina, Virginia, and Alabama receive more than 30% of monthly rainfall totals from TCs. Comparisons between 1931?C1960 and 1960?C2007 study periods show that the storm track density shifted slightly eastward, which explains some of differences between the two analyses. 相似文献
11.
利用1979—2017年欧洲中期天气预报中心提供的ERA-Interim再分析数据与中国气象局-上海台风研究所(China Meteorological Administration-Shanghai Typhoon Research Institute,CM A-STI)、美国联合台风警报中心(Joint Typhoon Warning Center,JTWC)整编的西北太平洋热带气旋(Tropical Cyclone,TC)资料集,分析东亚高层(200hPa)纬向风季节内振荡(Intraseasonal Oscillation,ISO)与7—8月登陆中国大陆TC频数年际变化的联系。结果表明:7—8月中国大陆登陆TC频数与西风急流出口区南侧(北侧)纬向风为显著负(正)相关,南侧显著相关区与北侧的差定义的东亚西风急流指数(East Asian Westerly Jet Index,EAWJI)可定量描述急流经向移动,EAWJI负异常时急流北移、登陆TC偏多,反之急流南移、登陆TC偏少。急流北移,TC活动区域对流层高层呈偏东风异常,产生异常东风切变,有利于TC登陆过程的维持,使登陆中国大陆TC频数增多。东亚高层纬向风ISO与年际变化的标准差场、EOF模态的高度相似性说明两者由同一空间主导模态所控制,表明若其ISO偏北偏南振荡发生频率为非正态分布,剩余偏差将改变其季节平均。TC登陆多年,东亚西风急流指数ISO呈更高频率偏北移动,引起急流出口区南侧ISO尺度扰动涡度通量辐合,使季节平均西风减小,急流位置北移,说明高层纬向风ISO可通过间接调制影响TC登陆的大尺度环流进而与登陆TC频数的年际变化相联系。 相似文献
12.
L. M. Leslie D. J. Karoly M. Leplastrier B. W. Buckley 《Meteorology and Atmospheric Physics》2007,97(1-4):171-180
Summary Knowledge of the variability in tropical cyclone (TC) frequency and distribution is essential in determining the possible
impact of natural or human-induced climate change. This variability can be investigated using the available TC data bases
and by carrying out long-term climate model simulations for both past and future climates.
A coupled ocean-atmosphere climate model (referred to here as the OU-CGCM) is described and applied with a higher resolution
(50 km) nested domain in the southwest Pacific region. Six-member ensembles of simulations with the OU-CGCM have been run
for 80 years, from 1970 to 2050. During the period 1970–2000, the OU-CGCM runs were compared with the observed TC data base.
For the period 2000–2050, two ensembles of simulations were performed, one with constant greenhouse gas concentrations and
the second with increasing greenhouse gases.
The OU-CGCM simulated well the observed TC frequency and distribution in the southwest Pacific during the period 1970–2000.
It also produced clear interannual and interdecadal TC variability in both the fixed and enhanced greenhouse gas simulations
during the period 2000–2050. The variability in TC frequencies was associated with the typical atmospheric and SST anomaly
patterns that occur in periods of quiet and active TC frequencies.
The main findings from the enhanced greenhouse gas scenario for the period 2000–2050 are: no change in the mean decadal number
of TCs relative to the control run, but a marked increase of about 15% in the mean decadal number of TCs in the most severe
WMO categories 4 and 5; the likelihood of TCs during the next 50-year period that are more intense than ever previously experienced
in the Australian region; a poleward extension of TC tracks; and a poleward shift of over 2 degrees of latitude in the TC
genesis region. 相似文献
13.
西北太平洋热带气旋气候变化的若干研究进展 总被引:13,自引:11,他引:2
热带气旋气候变化研究不仅是当前国际热带气旋气候界的热点科学问题,而且也是具有现实意义的社会问题,各国气象学者和科学家们对此进行了广泛的研究。虽然热带气旋活动与气候变化之间的关系及其相应的内在物理机制至今还处在探究之中,但是近20多年来热带气旋气候学的研究还是取得了显著的进展。本文主要针对濒临中国的西北太平洋海域,回顾了热带气旋活动季节内、年际、年代际变化及其全球变暖背景下的变化趋势的气候学研究。此外,文中也对西北太平洋热带气旋气候学的研究进行了展望,并提出了该领域中一些亟待解决的科学问题。 相似文献
14.
Interannual modulation of subtropical Atlantic boreal summer dust variability by ENSO 总被引:1,自引:0,他引:1
Michael J. DeFlorio Ian D. Goodwin Daniel R. Cayan Arthur J. Miller Steven J. Ghan David W. Pierce Lynn M. Russell Balwinder Singh 《Climate Dynamics》2016,46(1-2):585-599
Dust variability in the climate system has been studied for several decades, yet there remains an incomplete understanding of the dynamical mechanisms controlling interannual and decadal variations in dust transport. The sparseness of multi-year observational datasets has limited our understanding of the relationship between climate variations and atmospheric dust. We use available in situ and satellite observations of dust and a century-length fully coupled Community Earth System Model (CESM) simulation to show that the El Niño-Southern Oscillation (ENSO) exerts a control on North African dust transport during boreal summer. In CESM, this relationship is stronger over the dusty tropical North Atlantic than near Barbados, one of the few sites having a multi-decadal observed record. During strong La Niña summers in CESM, a statistically significant increase in lower tropospheric easterly wind is associated with an increase in North African dust transport over the Atlantic. Barbados dust and Pacific SST variability are only weakly correlated in both observations and CESM, suggesting that other processes are controlling the cross-basin variability of dust. We also use our CESM simulation to show that the relationship between downstream North African dust transport and ENSO fluctuates on multidecadal timescales and is associated with a phase shift in the North Atlantic Oscillation. Our findings indicate that existing observations of dust over the tropical North Atlantic are not extensive enough to completely describe the variability of dust and dust transport, and demonstrate the importance of global models to supplement and interpret observational records. 相似文献
15.
Although previous studies reported upward trends in the basin-wide average lifetime, annual frequency, proportion of intense hurricanes and annual accumulated power dissipation index of Atlantic tropical cyclones (TCs) over the past 30?years, the basin-wide intensity did not increase significantly with the rising sea surface temperature (SST). Observational analysis and numerical simulation conducted in this study suggest that Sahel rainfall is the key to understanding of the long-term change of Atlantic TC intensity. The long-term changes of the basin-wide TC intensity are generally associated with variations in Sahara air layer (SAL) activity and vertical wind shear in the main development region (MDR), both of which are highly correlated with Sahel rainfall. The drying Sahel corresponds to an equatorward shift in the African easterly jet and African easterly wave activity, introducing the SAL to lower latitudes and increasing the MDR vertical wind shear. As a result, Atlantic TCs are more vulnerable to the suppressing effects of the SAL and vertical wind shear. Since the SST warming, especially in the tropical Indian Ocean, is a dominant factor for the Sahel drying that occurred over the past 30?years, it is suggested that the remote effect of SST warming is important for the long-term change of Atlantic TC intensity. Although influence of the AMO warm phase that started in the early 1990s alone can provide a favorable condition for TC intensification, its influence may have been offset by the influence of the ongoing SST warming, particularly in the Indian Ocean. As a result, there was no significant trend observed in the basin-wide average and peak intensity of Atlantic TCs. 相似文献
16.
Variations in Typhoon Landfalls over China 总被引:1,自引:1,他引:1
Emily A. FOGARTY James B. ELSNER Thomas H. JAGGER Kam-biu LIU Kin-sheun LOUIE 《大气科学进展》2006,23(5):665-677
The interannual variability in typhoon landfalls over China is investigated using historical and modern records. For the purpose of substantiating and elaborating upon the claim of north to south variation in tropical cyclone activity over China, a north-to-south anti-correlation in yearly activity is confirmed in the historical cyclone records. When cyclone activity over the province of Guangdong is high (low), it tends to be low (high) over the province of Fujian. A similar spatial variation is identified in the modern records using a factor analysis model, which delineates typhoon activity over the southern provinces of Guangdong and Hainan from the activity over the northern provinces of Fujian, Taiwan, Zhejiang, Shanghai, Jiangsu, and Shandong. A landfall index of typhoon activity representing the degree to which each year follows this pattern of activity is used to identify correlated climate variables. A useful statistical regression model that includes sea-level pressure differences between Mongolia and western China and sea-surface temperature (SST) over the northwestern Pacific Ocean during the summer explains 26% of the interannual variability of the landfall index. It is suggested that a stronger than normal north-south pressure gradient increases the surface easterly wind flow over northern China: this, coupled with lower SST over the Pacific, favors typhoons taking a more westerly track toward southern China. 相似文献
17.
Interannual and Decadal Variability of Landfalling Tropical Cyclones in the Southeast Coastal States of the United States 总被引:2,自引:0,他引:2
The interannual variability of the Atlantic tropical cyclone(TC)frequency is well known.Separately,recent studies have also suggested that a much longer,multidecadal(40-60 year)trend might be emerging from the recent increase in Atlantic TC activity.However,the overall structure of the intrinsic frequencies(or temporal modes)of Atlantic TC activity is not yet known.The focus of this study is to systematically analyze the intrinsic frequencies of Atlantic TC activity using hurricane and tropical storm landfall data collected along the southeast coast(SEC)of the United States.Based on an Empirical Mode Decomposition (EMD) analysis of the frequency of landfall TCs along the SEC from 188701999,we have found that Atlantic TC activity has four primary,temporal modes.The interannual and multidecadal modes reported in the published literature are two such modes.After identifying all primary modes,the relative importance of each mode and its physical cause can be analyzed.For example,the most energetic mode is the interannual mode(2-7 year period).This mode is known to be associated with the 2-7 year El Nino/La Nino cycle.The average number of annual landfalling TCs along the SEC decreased by 24% during El Nino years,but did not show significant increase during weak and moderate La Nina years.However,intense La Nina years were generally associated with more than average landfalling TCs along the SEC.The effects of El Nino and La Nina also became more significant when only hurricanes were considered.The significance of the effects of El Nino and La Nina on landfalling TCs and hurricanes in different US southeast coastal states showed significant differences. 相似文献
18.
Hervé Douville 《Climate Dynamics》2005,24(4):373-391
While time-slice simulations with atmospheric general circulation models (GCMs) have been used for many years to regionalize climate projections and/or assess their uncertainties, there is still no consensus about the method used to prescribe sea surface temperature (SST) in such experiments. In the present study, the response of the Indian summer monsoon to increasing amounts of greenhouse gases and sulfate aerosols is compared between a reference climate scenario and three sets of time-slice experiments, consisting of parallel integrations for present-day and future climates. Different monthly mean SST boundary conditions have been tested in the present-day integrations: raw climatological SST derived from the reference scenario, observed climatological SST, and observed SST with interannual variability. For future climate, the SST forcing has been obtained by superimposing climatological monthly mean SST anomalies derived from the reference scenario onto the present-day SST boundary conditions. None of these sets of time-slice experiments is able to capture accurately the response of the Indian summer monsoon simulated in the transient scenario. This finding suggests that the ocean–atmosphere coupling is a fundamental feature of the climate system. Neglecting the SST feedback and variability at the intraseasonal to interannual time scales has a significant impact on the projected monsoon response to global warming. Adding interannual variability in the prescribed SST boundary conditions does not mitigate the problem, but can on the contrary reinforce the discrepancies between the forced and coupled experiments. The monsoon response is also shown to depend on the simulated control climate, and can therefore be sensitive to the use of observed rather than model-derived SSTs to drive the present-day atmospheric simulation, as well as to any approximation in the prescribed radiative forcing. While such results do not challenge the use of time-slice experiments for assessing uncertainties and understanding mechanisms in transient scenarios, they emphasize the need for high-resolution coupled atmosphere-ocean GCMs for dynamical downscaling, or at least for high-resolution atmospheric GCMs coupled with a slab or a regional ocean model. 相似文献
19.
Quantifying the Contribution of Track Changes to Interannual Variations of North Atlantic Intense Hurricanes 总被引:1,自引:0,他引:1
Previous studies have linked interannual variability of tropical cyclone(TC)intensity in the North Atlantic basin(NA)to Sahelian rainfall,vertical shear of the environmental flow,and relative sea surface temperature(SST).In this study,the contribution of TC track changes to the interannual variations of intense hurricane activity in the North Atlantic basin is evaluated through numerical experiments.It is found that that observed interannual variations of the frequency of intense hurricanes during the period 1958–2017 are dynamically consistent with changes in the large-scale ocean/atmosphere environment.Track changes can account for~50%of the interannual variability of intense hurricanes,while no significant difference is found for individual environmental parameters between active and inactive years.The only significant difference between active and inactive years is in the duration of TC intensification in the region east of 60°W.The duration increase is not due to the slow-down of TC translation.In active years,a southeastward shift of the formation location in the region east of 60°W causes TCs to take a westward prevailing track,which allows TCs to have a longer opportunity for intensification.On the other hand,most TCs in inactive years take a recurving track,leading to a shorter duration of intensification.This study suggests that the influence of track changes should be considered to understand the basin-wide intensity changes in the North Atlantic basin on the interannual time scale. 相似文献
20.
This study evaluates the performance of a regional climate model in simulating two types of synoptic tropical weather disturbances: convectively-coupled Kelvin and easterly waves. Interest in these two wave modes stems from their potential predictability out to several weeks in advance, as well as a strong observed linkage between easterly waves and tropical cyclogenesis. The model is a recent version of the weather research and forecast (WRF) system with 36-km horizontal grid spacing and convection parameterized using a scheme that accounts for key convective triggering and inhibition processes. The domain spans the entire tropical belt between 45°S and 45°N with periodic boundary conditions in the east–west direction, and conditions at the meridional/lower boundaries specified based on observations. The simulation covers 6 years from 2000 to 2005, which is long enough to establish a statistical depiction of the waves through space-time spectral filtering of rainfall data, together with simple lagged-linear regression. Results show that both the horizontal phase speeds and three-dimensional structures of the waves are qualitatively well captured by the model in comparison to observations. However, significant biases in wave activity are seen, with generally overactive easterly waves and underactive Kelvin waves. Evidence is presented to suggest that these biases in wave activity (which are also correlated with biases in time–mean rainfall, as well as biases in the model’s tropical cyclone climatology) stem in part from convection in the model coupling too strongly to rotational circulation anomalies. Nevertheless, the model is seen to do a reasonable job at capturing the genesis of tropical cyclones from easterly waves, with evidence for both wave accumulation and critical layer processes being importantly involved. 相似文献