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1.
Abstract Ground‐based measurements of total ozone were made during the polar night from Arctic stations in the winters of 1987–88 and 1988–89. The measurements were made with automated Brewer ozone spectrophotometers using the moon as a light source. Data were obtained from Alert and Resolute in Canada for both winters and from Heiss Island, USSR, for the second winter. The method of measurement is briefly reviewed and data from the three stations are presented. The ground‐based total ozone measurements are compared with the integrated values derived from ozonesonde profiles. 相似文献
2.
M. Van Roozendael P. Peeters H. K. Roscoe H. De Backer A. E. Jones L. Bartlett G. Vaughan F. Goutail J.-P. Pommereau E. Kyro C. Wahlstrom G. Braathen P. C. Simon 《Journal of Atmospheric Chemistry》1998,29(1):55-83
Comparisons of total column ozone measurements from Dobson, Brewer and SAOZ instruments are presented for the period 1990 to 1995 at seven stations covering the mid- and the high northern latitudes, as well as the Antarctic region. The main purpose of these comparisons is to assess, by reference to the well established Dobson network, the accuracy of the zenith-sky visible spectroscopy for the measurement of total ozone. The strengths and present limitations of this latter technique are investigated. As a general result, the different instruments are found to agree within a few percent at all stations, the best agreement being obtained at mid-latitudes. On average, for the mid-latitudes, SAOZ O3 measurements are approximately 2% higher than Dobson ones, with a scatter of about 5%. At higher latitudes, both scatter and systematic deviation tend to increase. In all cases, the relative differences between SAOZ and Dobson or Brewer column ozone are characterised by a significant seasonal signal, the amplitude of which increases from about 2.5% at mid-latitude to a maximum of 7.5% at Faraday, Antarctica. Although it introduces a significant contribution to the seasonality at high latitude, the temperature sensitivity of the O3 absorption coefficients of the Dobson and Brewer instruments is shown to be too small to account for the observed SAOZ/Dobson differences. Except for Faraday, these differences can however be largely reduced if SAOZ AMFs are calculated with realistic climatological profiles of ozone, pressure and temperature. Other sources of uncertainties that might affect the comparison are investigated. Evidence is found that the differences in the air masses sampled by the SAOZ and the other instruments contribute significantly to the scatter, and the impact of the tropospheric clouds on SAOZ measurements is displayed. 相似文献
3.
F. Goutail J.-P. Pommereau C. Phillips C. Deniel A. Sarkissian F. Lefèvre E. Kyro M. Rummukainen P. Ericksen S.B. Andersen B.-A. Kaastad-Hoiskar G. Braathen V. Dorokhov V.U. Khattatov 《Journal of Atmospheric Chemistry》1999,32(1):1-34
The total ozone reduction in the Arctic during the winters of 1993/94 and 1994/95 has been evaluated using the ground-based total ozone measurements of five SAOZ spectrometers distributed in the Arctic and from number density profiles of a balloon-borne version of the instrument. The ozone change resulting from transport has been removed using a 3D Chemistry Transport Model (CTM) run without chemistry. A cumulative total ozone depletion at the end of winter in March of 18% ± 4% in 1994 and of 32% ± 4% in 1995 was observed within the polar vortex, and of 15% ± 4% in both years outside the vortex. This evaluation is not sensitive to the vertical transport in the model. The periods, locations and altitudes at which ozone loss occurred were tightly connected to temperatures lower than NAT condensation temperature. The maximum loss was observed at 50 hPa in 1994 and lower, 60-80 hPa, in 1995. Half of the depletion in 1994 and three quarters in 1995 occurred during the early winter, showing that a late final warming is not a prerequisite for large ozone destruction in the northern hemisphere. The timing, the geographical location and the altitude of the ozone losses are well captured by the 3D CTM photochemical model using current chemistry, but its amplitude at low sun during the early winter, is underestimated. The model simulations also capture the early season reductions observed outside the vortex. This suggests that the losses occurred in situ in the early winter, when low temperatures are frequent, and not later in March, when ozone is most reduced inside the vortex, which would be the case if leakage from the vortex was the cause of the depletion. 相似文献
4.
Tomi Karppinen Alberto Redondas Rosa D. García Kaisa Lakkala C. T. McElroy Esko Kyrö 《大气与海洋》2015,53(1):66-73
AbstractSpectrometers are designed to isolate particular wavebands and suppress light from wavelengths outside the band of interest. However, a small amount of undesired light will always enter the detector, not through the designed optical path, but through random scattering from the instrument optical components, housing, and dust particles. Every spectrophotometer has stray light coming from outside the nominal measurement waveband. For Dobson spectrophotometers and single monochromator Brewer spectrophotometers, which are basic instruments in the World Meteorological Organization (WMO) ozone and ultraviolet (UV) monitoring network, the error introduced by stray light is substantial when the ozone slant path becomes very large because of high solar zenith angles and a thick ozone layer. These are common conditions during Arctic spring. To study the issue, a long ozone slant path Intercomparison/Calibration campaign for Nordic Brewers and Dobsons was held at Sodankylä 8–24 March 2011 and a follow-up campaign to extend calibrations to shorter ozone slant paths took place at Izaña observatory, Tenerife, between 28 October and 18 November 2011. These campaigns were part of the Committee on Earth Observation Satellites (CEOS) Intercalibration of Ground-based Spectrometers and Lidars project funded by the European Space Agency (ESA), intended to permit the homogenization of ozone data from the European ozone ground-truthing network. During the active intercomparison periods, measurements were taken only when good conditions for sun or moon observations existed. Laboratory measurements using calibration lamps and helium-cadmium (HeCd) lasers were an essential part of both campaigns. The campaigns produced a high-quality database of total ozone and UV measurements and an accurate, up-to-date calibration and characterization of participating Brewers and Dobsons against the European standard instruments from the Regional Dobson Calibration Centre-Europe (RDCC-E) and the Regional Brewer Calibration Centre-Europe (RBCC-E). In the present work we focus on single monochromator Brewers and present a physics-based method to compensate for the stray-light effects in ozone retrieval using laboratory characterizations and radiative transfer modelling. The method was tested with independent data from the campaign. 相似文献
5.
一个反映中国大陆冬季气温变化的东亚冬季风指数的统计预测方法 总被引:6,自引:1,他引:5
利用中国160个站逐月温度、NCEP再分析和NOAA-CIRES20世纪再分析等资料, 采用统计分析方法, 就反映中国 东部大陆冬季一致性气温变化模态的能力方面, 对多种东亚冬季风指数进行了评估, 探讨了影响东亚冬季风强弱的主要前期因子及其相应的影响过程, 并据此建立了一个预测冬季风指数的预测模型。研究结果表明:1981 年前、后两个阶段, 朱艳峰 2008年定义的东亚冬季风指数都可以很好地反映中国东部大部分地区的冬季气温异常;北美大陆西侧北太平洋中纬度地区 (35°-50°N,145°-130°W)的前期秋季(9-10月)海温、北极喀拉海地区(75°-82°N,65°-85°E)的前秋海冰密集度和东亚中 纬度地区(30°-50°N,80°-140°E)的前秋高空(300-200hPa)温度异常都具有较强的持续性, 异常信号可从前秋一直持续到 冬季, 进而影响东亚冬季风的强度;根据上述3个前期因子建立了东亚冬季风统计预测模型, 评估发现该模型具有较强的预测 能力, 可用于冬季风强度以及相应的中国东部大陆冬季气温的定性预测。 相似文献
6.
Liu Qijun Zheng Xiangdong Luo Chao Tang Jie Ding Guoan Li Xingsheng Zhou Xiuji 《Acta Meteorologica Sinica》1998,12(1):103-111
From October 1995 to August 1996.a total of 50 ECC(electrochemical concentration cell) ozonesoundings were made in Xining(36.43°N,101.45°E,2296 m ASL)to study the distribution and seasonal characteristics of ozone profile,and intercompare the Brewer Umkehr ozone profiles obtained at Waliguan Baseline Station over the Qinghai Plateau.It was demonstrated that(1) Umkehr produced estimates of the ozone comparing with ECC profiles were accurate to better than 25% in the 20-38 km altitude range,and where 23-33 km region was the most accurate,within about 15% of the ECC ozonesonde:(2)higher differences between Brewer Umkehr and ECC ozonesonde occurred in the troposphere and lower stratosphere;and ozone amounts were overestimated in Umkehr layers 1,2 and 3,and were underestimated in Umkehr layers 6 and 7 by Brewer Umkehr method. 相似文献
7.
Dieter H. W. Peters Andrea Schneidereit Marianne Bügelmayer Christoph Zülicke Ingo Kirchner 《大气与海洋》2015,53(1):74-88
AbstractIn a sensitivity study, the influence of an observed stratospheric zonal ozone anomaly on the atmospheric circulation was investigated using the Fifth Generation European Centre Hamburg Model (ECHAM5) which is a general circulation model. The model was run from 1960 to 1999 (40 years) with a mean seasonal cycle of zonally symmetric ozone. In order to isolate the induced dynamical influence of the observed zonally asymmetric part of the three-dimensional stratospheric ozone, a second run was performed for the boreal extratropics using prescribed monthly means from the 40-year reanalysis dataset from the European Centre for Medium-range Weather Forecasts (ERA-40). The main findings are the interdecadal westward shift of the polar vortex at about 65°N and a significant increase in the number of stratospheric sudden warmings during the 1980–99 period. Under the action of zonally asymmetric ozone a decrease in the Arctic Oscillation was identified between the mid-1980s and the mid-1990s. The lag correlation between the mean Arctic Oscillation at the surface and the daily stratospheric northern annular mode increased in mid-winter. Furthermore, we examined the influence of the stratospheric zonal ozone anomaly on Rossby wave breaking in the upper troposphere and found a significant westward shift of poleward Rossby wave breaking events over western Europe in the winter. By this we show that the stratospheric zonal ozone anomaly has a strong influence on the tropospheric circulation as a result of enhanced dynamical coupling processes. 相似文献
8.
Based on the AIRS satellite spectrometer data (the Aqua platform), the peculiarities are studied of the field of total ozone (TO) under prolonged blocking conditions over the European part of Russia in summer 2010. It is revealed that the spatial distribution of TO values during the period of blocking was characterized by negative TO anomalies (up to -37 DU on the first ten days of August) over the western and northern peripheries of the blocking anticyclone and by positive TO anomalies (up to 60 DU) over the troughs adj oinmg the anticyclone. Possible mechanisms of the formation of TO anomalies are discussed. The results are presented of the validation of TO measurements with the AIRS spectrometer in May-September 2010 obtained from the data of TO measurements with Brewer spectrophotometers at Kislovodsk and Obninsk stations of the global ozone network. 相似文献
9.
本文选取多个臭氧总量观测站点,采用"三重制约法"分别对下列3组仪器观测臭氧总量数据进行统计分析,解算出不同观测资料的误差标准差,进而对比研究各种仪器的精度特征:1)1996~2003年期间地基WOUDC(World Ozone and Ultraviolet Radiation Data Centre)观测网络仪器(包括Brewer、Dobson和Filter臭氧测量仪)与星载TOMS(Total Ozone Mapping Spectrometer)和GOME(The Global Ozone Monitoring Experiment)仪器;2)2004~2013年期间WOUDC与星载OMI(ozone monitoring instrument)和SCIAMACHY(scanning imaging absorption spectrometer for atmospheric chartography)仪器;3)2004~2013年期间地基SAOZ(Système D’Analyse par Observations Zénithales)与星载OMI和SCIAMACHY仪器。结果表明,1996~2003年期间TOMS V8和GOME观测精度相当,分别为7.6±2.8 DU/46(其中,7.6±2.8 DU为所分析站点观测资料的平均精度及其标准差,46为站点数目)和7.6±1.5 DU/46。TOMS V8观测精度优于TOMS V7(8.5±3.0 DU/46),验证了前者对后者有所改进。2004~2013年期间OMI和SCIAMACHY在WOUDC地基站点观测精度接近,分别为6.6±1.4 DU/21和6.0±1.6 DU/21。SAOZ地基仪器精度为8.4±3.6 DU/8。对于3类WOUDC地基仪器,Brewer站点观测资料的平均精度最优(7.9±3.3 DU/12),Dobson次之(8.7±2.3 DU/19),Filter最差(14.7±4.0 DU/15)。相比于卫星,3种地面仪器观测平均精度较差(10.5±4.3 DU/46),这主要是由于Filter精度较差引起。中国境内的瓦里关(Brewer)、香河(Dobson)和昆明(Dobson)3个地基站点仪器观测精度均较优,分别为7.8 DU、6.7 DU和6.6 DU。尽管不同站点之间存在一定差异,但整体来说,地基与卫星仪器在中国境内3个站点观测臭氧总量吻合较好。 相似文献
10.
Om P. Tripathi S. G. Jennings C. D. O’Dowd K. P. Lambkin E. Moran 《Journal of Atmospheric Chemistry》2013,70(4):297-316
Sixteen years (1994 – 2009) of ozone profiling by ozonesondes at Valentia Meteorological and Geophysical Observatory, Ireland (51.94° N, 10.23° W) along with a co-located MkIV Brewer spectrophotometer for the period 1993–2009 are analyzed. Simple and multiple linear regression methods are used to infer the recent trend, if any, in stratospheric column ozone over the station. The decadal trend from 1994 to 2010 is also calculated from the monthly mean data of Brewer and column ozone data derived from satellite observations. Both of these show a 1.5 % increase per decade during this period with an uncertainty of about ±0.25 %. Monthly mean data for March show a much stronger trend of?~?4.8 % increase per decade for both ozonesonde and Brewer data. The ozone profile is divided between three vertical slots of 0–15 km, 15–26 km, and 26 km to the top of the atmosphere and a 11-year running average is calculated. Ozone values for the month of March only are observed to increase at each level with a maximum change of +9.2?±?3.2 % per decade (between years 1994 and 2009) being observed in the vertical region from 15 to 26 km. In the tropospheric region from 0 to 15 km, the trend is positive but with a poor statistical significance. However, for the top level of above 26 km the trend is significantly positive at about 4 % per decade. The March integrated ozonesonde column ozone during this period is found to increase at a rate of ~6.6 % per decade compared with the Brewer and satellite positive trends of ~5 % per decade. 相似文献
11.
文中使用欧洲中期天气预报中心臭氧柱总量资料分析了西北太平洋地区大气臭氧柱总量的时空分布特征,结果表明:低纬度地区是臭氧柱总量最低的地区,纬向分布明显,臭氧柱总量随着纬度向北极的增加而增大;夏季臭氧柱总量最大值出现在北半球高纬度约80°N的地区,最低值出现在热带地区;秋季臭氧柱总量最大值出现在55°N左右的地区;最小值出现在赤道地区。冬春季,臭氧柱总量的最低值均出现在热带地区,最高值出现在北半球约50°~60°N的高纬度地区。 相似文献
12.
Abstract On the basis of two well‐known ozone‐weather relationships, an algorithm is proposed that estimates total ozone amounts using readily available meteorological information. The technique has been labelled METOZ from Meteorological Total Ozone. A rationale and derivation of the technique is presented. METOZ total ozone amounts were generated for Toronto and Edmonton locations and compared with ground‐based Brewer spectrophotometer measures for these two stations in the Canadian ozone monitoring network for data from January to April 1989. Per cent differences between METOZ and Brewer total ozone measurements were calculated and are presented. This mid‐latitude wînter metoz algorithm was also used to produce a hemispherical total ozone field for 16 March 1986, which was compared with the corresponding TOMS data to demonstrate other potential applications of the technique. 相似文献
13.
北极臭氧垂直分布和天气尺度变化的观测研究 总被引:2,自引:0,他引:2
北极地区臭氧对北极气候和环境系统起着重要作用。研究其分布和变化有助于了解北极的气候和环境及其对全球气候系统的影响,有助于气候和环境变化的数值预报。中国北极科学探测1999在北冰洋楚可奇海域成功的进行了大气臭氧观测。通过在中国“雪龙”号破冰船甲板上(于1999年8月18-24日在75°N,160°W附近处)释放大气臭氧探空仪获得了高分辨率的大气垂直结构和臭氧分布资料,可以进行大气尺度的大气臭氧变化研究。分析大气监测资料、TOMS臭氧总量资料和NCEP大气环流资料表明,大气臭氧总量随着对流层顶的低一高一低变化呈高一低一高的变化过程。研究还表明,大气柱的臭氧总量与13公里以下的大气臭氧含量关系密切,而在约20公里处的大气臭氧浓度最大值的变化与整个气柱臭氧的关系不大。500 hPa天气形势图上一个弱一强一弱的西南天气型造成的弱臭氧平流可能是这次臭氧变化的主要原因。 相似文献
14.
《大气与海洋》2013,51(4):283-299
Abstract The Middle Atmosphere Nitrogen TRend Assessment (MANTRA) series of high‐altitude balloon flights is being undertaken to investigate changes in the concentrations of northern hemisphere mid‐latitude stratospheric ozone, and of nitrogen and chlorine compounds that play a role in ozone chemistry. Four campaigns have been carried out to date, all from Vanscoy, Saskatchewan, Canada (52°01'N, 107°02'W, 511.0 m). The first MANTRA mission took place in August 1998, with the balloon flight on 24 August 1998 being the first Canadian launch of a large high‐altitude balloon in about fifteen years. The balloon carried a payload of instruments to measure atmospheric composition, and made measurements from a float altitude of 32–38 km for one day. Three of these instruments had been flown on the Stratoprobe flights of the Atmospheric Environment Service (now the Meteorological Service of Canada) in the 1970s and early 1980s, providing a link to historical data predating the onset of mid‐latitude ozone loss. The primary measurements obtained from the balloon‐borne instruments were vertical profiles of ozone, NO2, HNO3, HCl, CFC‐11, CFC‐12, N2O, CH4, temperature, and aerosol backscatter. Total column measurements of ozone, NO2, SO2, and aerosol optical depth were made by three ground‐based spectrometers deployed during the campaign. Regular ozonesonde and radiosonde launches were also conducted during the two weeks prior to the main launch in order to characterize the local atmospheric conditions (winds, pressure, temperature, humidity) in the vicinity of the primary balloon flight. The data have been compared with the Model for Evaluating oZONe Trends (MEZON) chemical transport model, the University of California at Irvine photochemical box model, and the Canadian Middle Atmosphere Model (CMAM) to test our current understanding of model photochemistry and mid‐latitude species correlations. This paper provides an overview of the MANTRA 1998 mission, and serves as an introduction to the accompanying papers in this issue of Atmosphere‐Ocean that describe specific aspects and results of this campaign. 相似文献
15.
冬季欧亚大陆盛行天气型与北极增暖异常的可能联系 总被引:1,自引:0,他引:1
利用ERA-interim的再分析资料和英国大气数据中心的海冰密集度资料,通过复矢量经验正交分析方法(CVEOF),本文研究了自1979-2016年37个冬季(12月1日至次年2月28日)共3330 d对流层中层500 hPa欧亚盛行天气型主要时空变化特征及其与近年来北极对流层中、低层增暖异常和北极海冰减少的可能联系。结果表明,CVEOF1解释了总异常动能的15. 82%,其两个子模态空间型分别表现为三极子型(0°和180°位相)和偶极子型(90°和270°位相)。其中,180°和270°位相的天气型发生时,冬季北极对流层中、低层偏暖,盛行暖北极-冷欧亚的大气环流形势。前期秋季从巴伦支海海域以东到波弗特海海域的海冰密集度(SIC)异常偏少可能是其影响因素之一。近年来这两个位相(180°和270°位相)的发生频次逐渐增多,与冬季频发的极端低温事件有紧密联系。在2005/2006年和2011/2012年冬季的冷事件中,180°和270°位相的发生频次明显偏多。因此,秋季从巴伦支海海域以东到波弗特海海域的SIC偏少,冬季北极对流层中、低层异常偏暖,有利于180°和270°位相天气型盛行,可能是导致冬季极端天气事件频发的主要原因之一。 相似文献
16.
Scientists have long debated the relative importance of tropospheric photochemical production versus stratospheric influx as causes of the springtime tropospheric ozone maximum over northern mid-latitudes. This paper investigates whether or not stratospheric intrusion and photochemistry play a significant role in the springtime ozone maximum over Northeast Asia,where ozone measurements are sparse.We examine how tropospheric ozone seasonalities over Naha(26°N,128°E),Kagoshima(31°N,131°E),and Pohang(36°N,129°E),which are located on the same meridional line,are related to the timing and location of the jet stream.The ozone seasonality shows a gradual increase from January to the maximum ozone month,which corresponds to April at Naha,May at Kagoshima,and June at Pohang.In order to examine the occurrence of stratospheric intrusion,we analyze a correlation between jet stream activity and tropospheric ozone seasonality.From these analyses,we did not find any favorable evidence supporting the hypothesis that the springtime enhancement may result from stratospheric intrusion.According to trajectory analysis for vertical and horizontal origins of the airmass,a gradual increasing tendency in ozone amounts from January until the onset of monsoon was similar to the increasing ozone formation tendency from winter to spring over mainland China,which has been observed during the build-up of tropospheric ozone over Central Europe in the winter-spring transition period due to photochemistry.Overall,the analyses suggest that photochemistry is the most important contributor to observed ozone seasonality over Northeast Asia. 相似文献
17.
利用1980—2016年美国国家海洋与大气管理局气候预测中心的ENSO指数和NCEP/NCAR再分析资料,研究了2015/2016年冬季北极增暖和超级厄尔尼诺对东亚气候的影响。2015/2016年冬季热带中东太平洋爆发了超级厄尔尼诺事件,尽管大气环流出现了对ENSO的响应特征(如西北太平洋反气旋异常,东亚南部南风异常),但东亚(尤其是我国东北、华北地区)1月的气温却明显偏低。分析表明,此次东亚气温偏低现象可能与2016年1月北极显著增暖有关。1980—2016年1月再分析资料的统计诊断分析结果显示,巴伦支海—喀拉海气温的升高会引起局地大气的上升运动异常,之后在下游(70~90°E附近)向南运动,并在西伯利亚地区(60~100°E,50~70°N)下沉,使得西伯利亚高压增强,其东侧的北风异常导致东亚气温偏低。基于Nio3.4指数、北极温度指数,采用多元线性拟合所得到的2016年1月东亚气温的回报结果与观测气温之间的空间系数为0.71,表明2016年1月北极增暖以及热带中东太平洋的厄尔尼诺事件能够从一定程度上解释东亚气温偏低的现象。 相似文献
18.
An experience of participation of Russian specialists in international programs on atmospheric balloon investigations 总被引:1,自引:0,他引:1
D. M. Shifrin V. A. Yushkov A. D. Lykov S. M. Khaikin 《Russian Meteorology and Hydrology》2010,35(8):571-576
The participation of Russian specialists in the international programs on balloon investigations of the ozone layer in the
Arctic and in midlatitudes has been carried out since 1991. The specialists of Roshydromet took part in the organization and
implementation of investigations in the Arctic and in midlatitudes within 11 projects as well as in tropical balloon campaigns.
During this period, 42 balloon flights of different types were organized on the territory of Russia for the purpose of the
measurement of atmospheric characteristics, of the validation of satellite device data, of the test of prototypes of future
satellite meters. Besides, the investigations of ozone, water vapor, and aerosol content were carried out in various geographical
zones (Hayes and Dickson islands, Salekhard, Yakutsk) using the small-volume balloons. The optical fluorescent hygrometer
of the Central Aerological Observatory (CAO) is considered as one of the best instruments to measure the atmospheric humidity.
Taking account of the reliability and accuracy of the measurements carried out, the values of the water vapor mixing ratio
in the winter polar cyclone obtained with this hygrometer can be considered as the reference data. 相似文献
19.
基于NCEP/NCAR再分析资料, 利用气温异常的倾向方程分析2016/2017年中国华北地区(100~115 °E, 35~45 °N)、西南地区(85~102 °E, 22~33 °N)和南方地区(108~118 °E, 22~33 °N)的暖冬事件。结果表明西南和华北地区的平流作用占主导地位, 而2016/2017年冬季中国南方暖冬主要是非绝热加热引起的。进一步通过水汽收支平衡的分析表明, 局地水汽异常对2016/2017年中国南方暖冬有重要贡献, 而其中土壤的水汽贡献约占50%。可能的机制如下:大气中正的水汽异常引起辐射加热增多, 导致气温升高, 土壤的感热增大, 土壤温度升高, 潜热通量变大, 从而向大气的水汽输送增多, 更多的水汽将导致更高的温度。 相似文献
20.
利用1960-2010年江西省81个台站月平均气温观测资料和NOAA全球月平均海表温度资料(ERSST-V3),分析了江西省冬季气温异常与海温异常的相互联系,并运用超前-滞后相关分析和奇异值分解(SVD)方法初步探讨了关键区海温异常之间的相互作用.结果表明:①影响江西省冬季气温异常的海温关键区和关键时段分别为同期印度洋(10°S~20°N,54°~90°E)、同期西北太平洋(20°~40°N,120°~180°E)和前期8-9月北大西洋中部(24°~44°N,20°~60°W)海域;②西北太平洋关键区暖水年预示暖冬年好于印度洋区,而印度洋区冷水年预示冷冬年稍好于西北太平洋区,冬季西北太平洋与印度洋海温异常可以修正前期8-9月北大西洋中部海温异常对江西省冬季气温的影响. 相似文献