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华北夏季大气水汽输送特征及其与夏季旱涝的关系 总被引:9,自引:2,他引:7
本文利用ECMWF再分析资料ERA40和中国160站的降水资料,分析了我国华北地区1958年-2002年夏季的大气水汽含量和水汽输送的基本气候特征,研究了华北夏季旱涝年的大气水汽含量和水汽输送异常情况,最后利用线性回归的方法探讨了该地区大气水汽含量和水汽输送的变化趋势.结果表明:华北地区夏季降水的大气水汽来源主要有3支:来自孟加拉湾的水汽、来自我国南海和西太平洋的水汽以及中高纬西风带的水汽输送.华北地区对流层低层以经向水汽输送通量为主,到了中高层则以纬向输送通量为主;与华北地区夏季旱涝密切相关的异常水汽输送主要是南海和西太平洋以及西风带水汽输送异常,华北地区南边界水汽输入异常和东边界水汽输出异常是造成华北夏季旱涝年水汽收支异常的主要原因;近半个世纪以来,伴随着华北干旱化的加剧,华北地区南边界输入的大气水汽呈现显著的减少趋势. 相似文献
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江淮流域大气水分特征与旱涝关系的诊断分析 总被引:2,自引:0,他引:2
本文利用全国125个探空台站1980年(涝年)和1985年(旱年)的一日二次的探空资料计算了江淮流域大气中的水汽通量。通过对其年变化规律的分析,揭示了旱、涝年份水汽输送的特点。结果表明:大气中的水汽输送对于旱涝形成有着重大影响,旱、涝年份的水汽输送场存在明显的差别。夏涝年,水汽输送最大中心及雨带均停留在江淮一带。而夏早年,水汽输送最大中心及雨带则明显偏北。并且发现,在水汽输送场上的可降水量最大中心、水汽辐合带及水汽辐合量最大中心也与雨带有很好的一致性。 相似文献
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江淮流域夏季典型旱涝年大气中的水汽输送和收支 总被引:9,自引:3,他引:9
该文利用NCEP/NCAR再分析资料对中国东部区域1991年和1994年这两个夏季旱涝典型年的降水状况、水汽输送及收支状况等进行了综合定量对比分析,结果表明:江淮流域夏季旱涝形势的形成更多地取决于流经其上的东西向水汽输送的变化。南亚夏季风强弱的变化对江淮流域的旱涝形成可能具有更为重要的影响。中国东部夏季的偏西水汽输送主要来自西南地区西边界,江淮流域夏季干旱年该地区西边界的水汽输入明显比洪涝年减少,因而在未来的中国东部旱涝预测中要特别重视西南地区西边界的水汽输送状况。 相似文献
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长江流域地区水汽输送及其对旱涝影响研究综述 总被引:2,自引:1,他引:1
大气水汽输送在气候系统中起着重要的作用.本文回顾了近年来关于长江流域地区水汽输送的相关研究进展,主要包括长江流域水汽输送的基本特征,旱涝年水汽输送的异常特征,青藏高原对长江流域水汽输送的影响,青藏高原水汽输送与长江流域旱涝的关系. 相似文献
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将区域海气耦合模式RegCM3-POM和区域气候模式RegCM3 40年(1963-2002年)的模拟结果与NCEP/NCAR再分析资料进行对比,检验区域海气耦合模式对中国华北地区夏季大气水汽含量和水汽输送特征的模拟能力,比较耦合模式与单独区域气候模式的差异.结果表明,区域海气耦合模式RegCM3-POM的模拟性能相对于单独区域气候模式RegCM3,大气水汽输送特征的模拟能力有了较大的改进.分析显示两种模式都能够较好地再现东哑地区气候平均夏季大气水汽储量浅红和水汽输送的空间分布特征,而耦合模式对大气水汽输送的模拟更为合理.在对流层中低层更接近观测;耦合模式对中国华北地区夏季平均大气水汽输送通量在垂直方向卜的分布型及水平4个边界水汽输送收支的模拟,相对于单独大气模式有了一定的改进;耦合模式对伴随华北地区夏季早涝的大气水汽异常输送也具有较好的模拟能力,其模拟的水汽输送异常的来源与观测基本一致,尤其是在20°N以北地区,耦合模式结果相对于单独区域气候模式有了很大的改进.但同时耦合模式在低纬度海洋上对气候平均夏季大气水汽含量模拟的偏差比区域气候模式显著;与观测相比,耦合模式对来自孟加拉湾地区的大气水汽输送模拟偏弱,而对西太平洋副热带高压西侧水汽输送模拟偏强,与华北夏季旱涝相联系的水汽输送异常的模拟在低纬度海洋上也存在明显偏差. 相似文献
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采用1958-2007年NCEP/NCAR月平均再分析资料,分别从水汽通量、水汽通量散度以及区域内降水量与蒸发量差计算东亚季风湿润区的水分收支,分析其差异特征,结果表明:用不同方法计算的水分收支距平年际变化的相关系数分别为0.91,0.71和0.81,误差ε百分率分别为17.4%,44.1%和44%,其中利用水汽通量和散度计算得到的季风湿润区水分收支结果很接近。总体上看,整个区域全年表现为水分收入,春季和夏季的水分收入贡献最大,秋季和冬季贡献较小。在水汽经向输送中,南边界为主要的水汽输入区。从水汽输送计算的水分收支垂直分布来看,多年平均气候态下整个区域除850 hPa存在水分支出外,其余各层均为水分收入,3种方法计算的水分收支在4个季节的年际变化明显。 相似文献
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大气水汽的输送和收支及其对副热带干旱的影响 总被引:15,自引:0,他引:15
本文利用1979年9月至1984年8月欧洲中期天气预报中心(ECMWF)每日四次的十三层分析资料,研究不同尺度的大气运动对水汽输送和收支的贡献。指出Hadley环流对水汽从副热带向赤道输送和从冬半球向夏半球的输送中起着决定性作用。热带行星波则把水汽从热带输向副热带。在中高纬的水汽向极输送中,天气尺度的波动比行星尺度的波动更重要。在南半球,天气尺度的波动支配着水汽的输送过程。分析和数值试验表明,副热带干旱受到nadley环流和热带行星波异常的强烈影响。 相似文献
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青藏高原南缘关键区夏季水汽输送特征及其与高原降水的关系 总被引:4,自引:0,他引:4
青藏高原南缘水汽输送和聚散过程决定着高原及其邻域的降水分布特征,在提出"青藏高原南缘水汽输送关键区"(简称南缘关键区)概念的基础上,利用NCEP/NCAR再分析资料分析了1979-2010年南缘关键区夏季水汽输送过程与收支变化,并根据台站降水量观测资料探讨了南缘关键区各边界水汽收支与高原夏季降水分布的关系。结果表明,孟加拉湾偏南风水汽流进入南缘关键区后,在印度热低压与青藏高原大地形制约下,形成了3条进入高原的水汽输送通道。这使得南缘关键区整体为多年平均水汽辐散区,除南边界外,其余均为水汽输出边界。南缘关键区各边界水汽收支年内与年际变化明显,且东、西边界水汽输出强度变化特征相反。而各边界水汽收支与印度热低压和南海夏季风活动关系密切,输出边界的水汽支出异常则直接影响着青藏高原乃至周边季风区的降水异常分布以及极端旱涝事件的发生、发展。此外,NCEP/NCAR与JRA-25再分析资料之间的对比验证表明,这两种再分析资料在青藏高原南缘水汽输送过程的定性研究中是可靠的。 相似文献
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利用2006-2017年黑龙江省闪电定位资料和日平均地面相对湿度资料,采用数理统计、Pearson相关分析、GIS空间分析技术,研究了闪电密度和强度对地面相对湿度(RH)的响应关系。结果表明:地面RH过小或过大都不利于闪电活动产生;当RH < 25%时,几乎无闪电发生,当RH < 77%时,RH增加有利于闪电活动发生,当RH>79%时,随着RH增加,闪电活动减少;当RH < 77%时,闪电密度与之呈正相关,闪电强度与之呈负相关;当RH>79%时,闪电密度与之呈负相关,闪电强度与之呈正相关;地面RH的临界值域约为77%-79%;70%≤ RH ≤ 90%区间为闪电易发湿度区间,在闪电密度与湿度相关度高的区域,闪电更趋于集中发生在闪电易发湿度区间。 相似文献
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WOLFRAM SCHÜßLER ROLF NEUBERT INGEBORG LEVIN NATALIE FISCHER CHRISTIAN SONNTAG 《Tellus. Series B, Chemical and physical meteorology》2000,52(3):909-918
The amounts of microbial and root‐respired CO2 in a maize/winter wheat agricultural system in south western Germany were investigated by measurements of the CO2 mixing ratio and the 13 C/12 C ratio in soil air. CO2 fluxes at the soil surface for the period of investigation (1993–1995) were also determined. Root respired CO2 shows a strong correlation with the plant mass above ground surface of the respective vegetation (R2 ≥0.88); the maximum CO2 release from roots was in August for the maize (2.0±0.5 mmol m−2 h−1 ) and in June for winter wheat (1.5±0.5 mmol m−2 h−1 ). Maximum CO2 production by roots correlate well with the maximum amount of plant root matter. Integrating the CO2 production over the whole growing season and normalizing to the dry root matter yields, the CO2 production per gram dry organic root matter (DORM) of maize was found to be 0.14±0.03 gC (g DORM)−1 . At the sites investigated, root‐produced CO2 contributed (16±4)% for maize, and (24±4)% for winter wheat, respectively, to the total annual CO2 production in the soil (450±50 gC m−2 for maize, 210±30 gC m−2 for winter wheat). 相似文献
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By SAMUEL HAMMER FELIX VOGEL MARKUS KAUL INGEBORG LEVIN 《Tellus. Series B, Chemical and physical meteorology》2009,61(3):547-555
The hydrogen-to-carbon monoxide (H2 /CO) emission ratio of anthropogenic combustion sources was determined from more than two years of quasi-continuous atmospheric observations in Heidelberg (49°24' N, 8°42' E), located in the polluted Rhein-Neckar region. Evaluating concurrent mixing ratio changes of H2 and CO during morning rush hours yielded mean molar H2 /CO ratios of 0.40 ± 0.06, while respective results inferred from synoptic pollution events gave a mean value of 0.31 ± 0.05 mole H2 /mole CO. After correction for the influence of the H2 soil sink on the measured ratios, mean values of 0.46 ± 0.07 resp. 0.48 ± 0.07 mole H2 /mole CO were obtained, which are in excellent agreement with direct source studies of traffic emissions in the Heidelberg/Mannheim region (0.448 ± 0.003 mole H2 /mole CO). Including results from other European studies, our best estimate of the mean H2 /CO emission ratio from anthropogenic combustion sources (mainly traffic) ranges from 0.45 to 0.48 mole H2 /mole CO, which is about 20% smaller than the value of 0.59 mole H2 /mole CO which is frequently used as the basis to calculate global H2 emissions from anthropogenic combustion sources. 相似文献
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Seasonal variation of the molecular hydrogen uptake by soils inferred from continuous atmospheric observations in Heidelberg, southwest Germany 总被引:1,自引:0,他引:1
By SAMUEL HAMMER INGEBORG LEVIN 《Tellus. Series B, Chemical and physical meteorology》2009,61(3):556-565
The dominant sink of atmospheric molecular hydrogen (H2 ) is its enzymatic destruction in soils. Quantitative estimates of the global sink strength, as derived from bottom-up process studies, are, however, still associated to large uncertainties. Here we present an alternative way to estimate atmosphere-to-soil flux densities, respectively deposition velocities of H2 , based on atmospheric H2 and 222 Rn observations in the boundary layer. Two and a half years of continuous measurements from a polluted site in the Rhine-Neckar area have been evaluated and night-time flux densities were calculated for situations of strong nocturnal boundary layer inversions using the Radon-Tracer Method. The influences from local anthropogenic combustion sources could be detected and successfully separated by parallel measurements of carbon monoxide. Inferred daily uptake fluxes in the Heidelberg catchment area range from 0.5 to 3 × 10−8 g H2 m−2 s−1 with a mean value of (1.28 ± 0.31) × 10−8 g H2 m−2 s−1 . Uptake rates are about 25% larger during summer than during winter, when soil moisture is high, and diffusive transport of H2 into the soil is inhibited. The mean deposition velocity is 3.0 ± 0.7 × 10−2 cm s−1 , which is very well in line with direct measurements on similar soil types in Europe and elsewhere. 相似文献
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SHINJIRO OHKUBO YOSHIKO KOSUGI SATORU TAKANASHI NAOKO MATSUO MAKOTO TANI ABDUL RAHIM NIK 《Tellus. Series B, Chemical and physical meteorology》2008,60(4):569-582
Ambient CO2 concentration, air temperature and relative humidity were measured intermittently for a 3-year period from the floor to the canopy top of a tropical rainforest in Pasoh, Peninsular Malaysia. Mean diurnal CO2 storage flux ( S c ; μmol m−2 s−1 ) and sensible and latent heat storage fluxes ( Q a and Q w ; W m−2 ) ranged from −12.7 to 3.2 μmol m−2 s−1 , −15 to 27 W m−2 and −10 to 20 W m−2 , respectively. Small differences in diurnal changes were observed in S c and Q a between the driest and wettest periods. Compared with the ranges of mean diurnal CO2 eddy flux (−14.7 to 4.9 μmol m−2 s−1 ), sensible eddy flux (−12 to 169 W m−2 ) and latent eddy flux (0 to 250 W m−2 ), the contribution of CO2 storage flux was especially large. Comparison with summertime data from a temperate Japanese cypress forest suggested a higher contribution of S c in the tropical rainforest, probably mainly due to the difference in nighttime friction velocity at the sites. On the other hand, differences in Q a and Q w were smaller than the difference in S c , probably because of the smaller nighttime sinks/sources of heat and water vapour. 相似文献