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中国西天山季节性积雪热力特征分析 总被引:3,自引:0,他引:3
利用中国天山积雪雪崩站干、湿雪雪层内每隔5min一次的10层雪温数据,探讨了一次降雪过程后干、湿雪的雪层温度特征,对比分析了干、湿雪的雪面能量平衡方程中各分量的差异。结果表明:(1)整个冬半年积雪各层温度基本<0℃,雪温日变化振幅由雪面向下逐渐减小,积雪深层温度的波峰(谷)值稍滞后于积雪浅层温度极值1~2天。(2)湿雪冷中心的出现时间早于干雪,暖中心的出现时间晚于干雪,太阳辐射对湿雪的穿透深度大于干雪。(3)雪层温度振幅变化与能量吸收随雪深都呈指数衰减分布。积雪密度越大,吸收系数越小,穿透深度越大。(4)干雪雪面的感热通量和潜热通量几乎都为负值,积雪积累。湿雪雪面的潜热通量与感热通量方向相反,互相抵消,所以净辐射是导致湿雪消融的主要因素。 相似文献
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中国冬季多种积雪参数的时空特征及差异性 总被引:6,自引:2,他引:4
利用1979~2006年冬季中国站点最大雪深和站点雪日、卫星遥感雪深、积雪覆盖率和雪水当量5种积雪资料,从多角度深入细致地分析了我国冬季积雪的时空变化特征。结果表明:5种积雪资料的经验正交分解第一模态都表现为中国南、北方反位相的特征,即当新疆和东北三省-内蒙古地区积雪偏多(少)时,青藏高原和南方地区积雪偏少(多)。新疆和东北三省-内蒙古地区的雪深、积雪覆盖率和雪日随时间有逐渐增多的趋势,而其中边缘山区的雪水当量表现出减少的趋势,青藏高原地区的积雪表现出与其完全相反的特征。南方地区站点最大雪深和雪日表现出随时间减少的趋势,卫星遥感难以监测到该区积雪。相比较而言,卫星遥感资料比较适合高原和山区缺少气象站的地区及北半球更大区域积雪的研究,而站点资料更适用于中国中东部和平原地区积雪的区域研究。雪深、雪日、积雪覆盖率和雪水当量这些多样性积雪参数存在一定的差异性,因此5种积雪资料结合使用才能得到更准确的结论。 相似文献
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利用青海省甘德两次降雪过程的微气象观测数据,探讨了两场降雪过程雪深、雪密度、雪中含冰量、雪中含水量和雪面温度的变化情况,分析了地表反照率与雪密度、雪中含冰量及雪中含水量的关系,结合降雪过程近地面温、湿、风廓线特征分析了积雪对近地面温、湿、风梯度的影响。结果表明:积雪覆盖会导致地表反照率显著增加,降雪过后正午时地表反照率可高达0.8~0.9。随着积雪的消融,地表反照率逐渐减小;积雪反照率与雪密度和雪中含冰量呈正相关,与雪中含水量呈负相关;地表积雪覆盖会导致近地面温度梯度绝对值减小,相对湿度梯度绝对值在凌晨减小、午后增大,地表积雪覆盖对近地面风速梯度变化并无特定的影响。 相似文献
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基于新疆昌吉州5个国家气象站2008—2010年积雪深度大于等于0 cm的实测地面温度与雪面温度,对0 cm地面温度(含最高、最低)、雪面温度(含最高、最低)及云量、日照时数、雪深进行统计分析,找出不同积雪深度下地面温度与雪面温度的关系,并以阜康市天池气象站2011年所有积雪日数据对关系模型作检验。结果显示:地面温度与雪面温度的关系有3个雪深分层:5 cm以下、6~40 cm和40 cm以上,积雪深度为0~5 cm时,地面温度与雪面温度差值很小,受雪深及天气条件影响明显,雪深6~40 cm,主要受雪深影响,雪深超过40 cm,地面温度趋于定值。 相似文献
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CCM3模式中LSM积雪方案的改进研究(Ⅰ):修改方案介绍及其单点试验 总被引:4,自引:3,他引:1
为了改进美国NCARCCM3全球模式中LSM陆面模型中的积雪方案的模拟效果,在Sun等[1]SAST积雪模型的基础上,作了部分修改后,加进CCM3模式LSM模型中.该方案根据格点区域平均积雪深度的不同,把地面雪盖划分为1到3层不等,能在积雪表层和中间层更好地描述温度的日变化和季节变化;较详细地考虑了雪的热传导、太阳辐射的穿透吸收、雪的融化、液态水的储存、渗透和再冻结等积雪内部的主要物理过程;根据Nimbus-7卫星实测雪深资料修改了积雪覆盖度和雪面反照率的计算方案.利用前苏联6个台站1978-1983年的实测积雪资料和大气强迫数据,进行了单点模拟试验,结果表明,新的积雪参数化方案能够较好地再现积雪深度和雪水当量的逐日和季节变化特征,部分提高了积雪参数化方案对积雪的模拟能力. 相似文献
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积雪季节变化特征的数值模拟及其敏感性试验 总被引:4,自引:0,他引:4
文中利用综合陆面模式 (ComprehensiveLandSurfaceModel,CLSM )对法国ColdePorte 1 993/ 1 994 ,1 994 / 1 995年及BOREASSSA OJP 1 994 / 1 995年积雪个例进行了模拟试验 ,通过模拟结果与观测资料的对比 ,检验了CLSM对积雪变化特征的模拟能力 ,并通过敏感性试验探讨了降雪密度、积雪持水量等积雪参数化方案及植被对积雪模拟可能产生的影响。结果表明 :(1 )CLSM能够准确地模拟出积雪的变化过程 ,对积雪的演变特征作出了合理的描述 ;(2 )降雪密度、积雪持水量参数化方案对积雪模拟结果均具有一定的影响 :降雪密度参数化主要对积雪深度的模拟产生影响 ;而积雪持水量参数化方案对积雪的演变过程 ,尤其是积雪的消融 ,具有重要的作用 ;(3)有、无植被存在的情况下 ,积雪 土壤系统的变化过程存在显著的差别 ,植被通过改变积雪 /土壤表面的能量平衡 ,对积雪及土壤的变化过程产生重要影响 :植被的存在有利于积雪的维持 ,使得积雪融化进程推迟 ,冻结土壤的增温明显偏慢 相似文献
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亚洲季风模拟试验中青藏高原积雪强迫问题的讨论 总被引:10,自引:3,他引:10
青藏高原积雪对亚洲季风和东亚,南亚时旱涝灾害的影响,百余年来一直为中外气候学家所瞩目。近几年来用大气环流模式进行数值试验已成为该研究领域的主要手段,但是由于假设的积雪强迫不同,模拟结果很不一致。作者概据美国宇航局SMMR微波逐候积雪深度10年的观测结果,提出了一个真实的青藏高原积雪强迫试验方案。 相似文献
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A new, physically-based snow hydrology has been implemented into the NCAR CCM1. The snow albedo is based on snow depth, solar zenith angle, snow cover pollutants, cloudiness, and a new parameter, the snow grain size. Snow grain size in turn depends on temperature and snow age. An improved expression is used for fractional snow cover which relates it to surface roughness and to snow depth. Each component of the new snow hydrology was implemented separately and then combined to make a new control run integrated for ten seasonal cycles. With the new snow hydrology, springtime snow melt occurs more rapidly, leading to a more reasonable late spring and summer distribution of snow cover. Little impact is seen on winter snow cover, since the new hydrology affects snow melt directly, but snowfall only indirectly, if at all. The influence of the variable grain size appears more important when snow packs are relatively deep while variable fractional snow cover becomes increasingly important as the snow pack thins. Variable surface roughness affects the snow cover fraction directly, but shows little effect on the seasonal cycle of the snow line. As an applicaion of the new snow hydrology, we have rerun simulations involving Antarctic and Northern Hemisphere glaciation; these simulations were previously made with CCM1 and the old snow hydrology. Relatively little difference is seen for Antarctica, but a profound difference occurs for the Northern Hemisphere. In particular, ice sheets computed using net snow accumulations from the GCM are more numerous and larger in extent with the new snow hydrology. The new snow hydrology leads to a better simulation of the seasonal cycle of snow cover, however, our primary goal in implementing it into the GCM is to improve the predictive capabilities of the model. Since the snow hydrology is based on fundamental physical processes, and has well-defined parameters, it should enable model simulations of climatic change in which we have increased confidence.This paper was presented at the Second International Conference on Modelling of Global Climate Variability, held in Hamburg 7–11 September 1992 under the auspices of the Max Planck Institute for Meteorology. Guest Editor for these papers is L. Dümenil 相似文献
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By using Comprehensive Land Surface Model (CLSM), three snow cases, i.e., France Col de Porte 1993/1994, 1994/1995 and BOREAS SSA-OJP 1994/1995, were simulated. The simulated results were compared with the observations to examine the capability of the model to describe the evolutions of snow cover under two different land cover conditions. Several sensitivity experiments were performed to investigate the effects of the parameterization schemes of some snow cover internal processes and vegetation on the model results. Results suggest that the CLSM simulates the basic processes of snow cover accurately and describes the features of snow cover evolutions reasonably, indicating that the model has the potential to model the processes related to the snow cover evolution. It is also found that the different parameterization schemes of the snowfall density and snow water holding capacity have significant effects on the simulation of snow cover. The estimation of snowfall density mainly impacts the simulated snow depth, and the underestimation (overestimation) of the snowfall density increases (decreases) the snow depth simulated significantly but with little effect on the simulated snow water equivalent (SWE). The parameterization of the snow water holding capacity plays a crucial role in the evolution of snow cover, especially in the ablation of snow cover. Larger snow water holding capacity usually leads to larger snow density and heat capacity by storing more liquid water in the snow layer, and makes the temperature of snow cover and the snow ablation vary more slowly. To a smaller snow water holding capacity, contrary is the case. The results also show that the physical processes related to the snow cover variation are different, which are dependent on the vegetation existed. Vegetation plays an important role in the evolution of soil-snow system by changing the energy balance at the snow-soil surface. The existence of vegetation is favorable to the maintenance of snow cover and delays the increase of underlying soil temperature. 相似文献
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新疆是我国积雪资源最丰富的区域之一,也是雪灾多发区之一,预测最大积雪深度,可以为雪灾的预警与防范提供参考和依据。本研究基于建立的雪灾灾损指数,确定了新疆特重雪灾区域;进一步聚焦特重雪灾区的8个县(市),包括阿勒泰市、福海县、青河县、塔城市、托里县、沙湾市、尼勒克县和伊宁县,分别建立县域RBF网络模型,预测2021—2050年年最大积雪深度,结果表明:该模型可用于新疆特重雪灾区最大积雪深度预测,但预测精度仍有待提升;塔城市、尼勒克县将于2025—2029年连续出现最大积雪深度偏高事件,2039年青河县将出现最大积雪深度的极大值,因此应关注可能发生雪灾的年份与县(市),积极做好雪灾的防御工作。 相似文献
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新疆是我国积雪资源最丰富的区域之一,也是雪灾多发区之一,预测最大积雪深度,可以为雪灾的预警与防范提供参考和依据。本研究基于建立的雪灾灾损指数,确定了新疆特重雪灾区域;进一步聚焦特重雪灾区的8个县(市),包括阿勒泰市、福海县、青河县、塔城市、托里县、沙湾市、尼勒克县和伊宁县,分别建立县域RBF网络模型,预测2021—2050年年最大积雪深度,结果表明:该模型可用于新疆特重雪灾区最大积雪深度预测,但预测精度仍有待提升;塔城市、尼勒克县将于2025—2029年连续出现最大积雪深度偏高事件,2039年青河县将出现最大积雪深度的极大值,因此应关注可能发生雪灾的年份与县(市),积极做好雪灾的防御工作。 相似文献
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Eurasian Snow Conditions and Summer Monsoon Rainfall over South and Southeast Asia: Assessment and Comparison 总被引:2,自引:0,他引:2
This study reveals the complex nature of the connection between Eurasian snow and the following summer season's monsoon rainfall by using four different indicators of snow conditions and correlating each of them to summer monsoon rainfall. Using 46 years of historical records of mean winter snow depth, maximum snow depth, and snow starting dates, and 27 years of snow area coverage from remote sensing observations over Eurasia, the authors found diverse correlation patterns between snow conditions and the following warm season's rainfall over South and Southeast Asia. Some of the results contradict the well-known inverse relationships between snow and the summer monsoon. This study provides an easy comparison of results in that it shows the connections between Eurasian snow and monsoon rainfall by using different Eurasian snow indicators based on the best available historical records without discrimination of regional variations in snow conditions. 相似文献
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A physically-based multi-layer snow model Snow-Atmosphere-Soil-Transfer scheme(SAST)and a land surface model Biosphere-Atmosphere Transfer Scheme(BATS)were employed to investigate how boreal forests influence snow accumulation and ablation under the canopy.Mass balance and energetics of snow beneath a Scots pine canopy in Finland at different stages of the 2003-2004 and 2004 2005 snow seasons are analyzed.For the fairly dense Scots pine forest,drop-off of the canopy-intercepted snow contributes,in some cases,twice as much to the underlying snowpack as the direct throughfall of snow.During early winter snow melting,downward turbulent sensible and condensation heat fluxes play a dominant role together with downward net longwave radiation.In the final stage of snow ablation in middle spring,downward net all- wave radiation dominates the snow melting.Although the downward sensible heat flux is comparable to the net solar radiation during this period,evaporative cooling of the melting snow surface makes the turbulent heat flux weaker than net radiation.Sensitivities of snow processes to leaf area index(LAI)indicate that a denser canopy speeds up early winter snowmelt,but also suppresses melting later in the snow season. Higher LAI increases the interception of snowfall,therefore reduces snow accumulation under the canopy during the snow season;this effect and the enhancement of downward longwave radiation by denser foliage outweighs the increased attenuation of solar radiation,resulting in earlier snow ablation under a denser canopy.The difference in sensitivities to LAI in two snow seasons implies that the impact of canopy density on the underlying snowpack is modulated by interannual variations of climate regimes. 相似文献
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青海高原牧区雪灾综合预警评估模型研究 总被引:10,自引:2,他引:10
应用灾害学的理论和观点,以青海牧区为研究对象,对造成青藏高原雪灾的致灾因子、孕灾环境和承灾体等要素综合分析。建立从降水、积雪、成灾、灾情评价的综合判识模型,在地理信息背景数据库的支持下,从产生降水之后,进行快速监测,并对不同地区的雪灾发展趋势做动态预测,最后实施灾情评估。结果表明:在青藏高原的雪灾形成过程中,除积雪的直接致灾作用之外,孕灾环境的脆弱性和承灾体的敏感性也起着重要的作用。提出保护草场、加强草原畜牧业配套设施建设等措施,可以发挥人类抗灾的能动性,降低雪灾级别。最后应用综合预警模型,对发生在青海境内的雪灾过程进行了预测,效果较好,模型具有业务应用潜力。 相似文献
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Test of a simple two-layer parameterisation to simulate the energy balance and temperature of a snow pack 总被引:3,自引:0,他引:3
Summary Reasonably simple yet realistic modelling schemes simulating the heat and mass balance within a snow pack are required to
provide the necessary boundary conditions for meteorological and hydrological models. An improvement to a one-layer snow energy
balance model (UEB, Tarboton etal., 1995) is proposed to better simulate snow surface and snow pack temperatures and, as a
result, snowmelt. The modified scheme is assessed against measured snow data from the WINTEX field campaign during spring
1997 in northern Finland, and compared with results from a complex multi-layer snow energy balance scheme. The results show
that separation of a one-layer representation into two snow layers and a soil layer enables a more realistic simulation of
soil and snow temperatures as well as of the snow surface temperature. The two-layer and the multi-layer snow schemes yielded
comparable results for internal processes in the snow whenever the simulation was carried out under similar boundary forcing.
The modified scheme is proposed for use as a sub-scheme in meteorological or hydrological models, or as a tool for simulating
spatially-variable snowmelt and the surface energy balance during seasonal snow cover.
Received November 18, 1999 Revised June 17, 2000 相似文献
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选取阿尔山气象站1981—2015年冷季(10月—次年4月)气象资料,利用滑动平均、线性倾向估计和Mann-Kendall等方法,对年最大积雪深度、积雪日数、气温和降水量进行分析。结果表明,阿尔山地区年最大积雪深度主要发生在1月至3月,其中2月份概率最大,达50%;34 a内最大积雪深度呈上升趋势(2.77 cm/10a),年平均增加0.98%,且年最大积雪深度在1998年发生了突变,即在1998年之前增长缓慢,在2000年以后上升趋势显著。积雪日数的统计分析表明,初始积雪日数和有效积雪日数呈现略微减少趋势,而稳定积雪日数有微弱的增加趋势;通常初始积雪日数比有效积雪日数大30天左右。年最大积雪深度与稳定积雪时期的降水量、积雪日数、日照时数有显著的相关性,相关系数分别为0.647、0.515、0.584,但与稳定积雪时期的气温没有明显的相关性。在全球变暖的大环境下,积雪深度随着降水量和日照时数的增加而增加,且积雪深度受降水量的影响大于日照时数的影响。 相似文献
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An empirical formula to compute snow cover fraction in GCMs 总被引:10,自引:0,他引:10
There exists great uncertainty in parameterizing snow cover fraction in most general circulation models (GCMs) using various empirical formulae, which has great influence on the performance of GCMs. This work reviews the commonly used relationships between region-averaged snow depth (or snow water equivalent) and snow cover extent (or fraction) and suggests a new empirical formula to compute snow cover fraction, which only depends on the domain-averaged snow depth, for GCMs with different horizontal resolution. The new empirical formula is deduced based on the 10-yr (1978-1987) 0.5°× 0.5° weekly snow depth data of the scanning multichannel microwave radiometer (SMMR) driven from the Nimbus-7 Satellite. Its validation to estimate snow cover for various GCM resolutions was tested using the climatology of NOAA satellite-observed snow cover. 相似文献
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基于GIS的浙江省积雪遥感监测与评估研究 总被引:1,自引:0,他引:1
针对2008年初浙江省遭受的持续性大范围低温雨雪冰冻天气,利用MODIS数据,综合运用遥感和地理信息系统技术对积雪的发生、发展和消融特征进行深入研究,在探讨云和积雪区分关键技术的基础上,建立积雪指数模型提取积雪专题信息,对积雪覆盖进行动态监测,同时利用DEM分地区分析各海拔高度带的积雪覆盖情况,探讨其消融变化特征,最后用雪灾前后△NDVI的方法结合地面实地调查,对林区进行灾情初步评估。研究结果表明,积雪的消融大致呈负指数减少趋势,起初各海拔高度带积雪覆盖比例呈中间多两头少的特征,即海拔300~900 m的中等海拔高度上积雪覆盖率较高,达70%以上,在300 m以下及900 m以上海拔高度带积雪覆盖率为50%左右,随着积雪的慢慢消融,各高程带间的积雪面积差逐渐减小,消融速度较之前明显减缓,表现出较稳定的下降趋势后再继续融化的特点,至2月16日,积雪覆盖比例与高程带呈正向一致性,即海拔越高,积雪覆盖越大,2月17日海拔500 m以下积雪已基本消融,20日700 m以下积雪基本消融,至2月29,全省基本无积雪。林区受灾的严重程度主要与积雪覆盖时间及林区海拔高度有关。利用遥感和地理信息系统技术在南方开展雪情分析、动态监测及灾后评估工作,对地方防灾减灾具有重要的指导意义。 相似文献
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利用阿勒泰地区7个气象观测站1981-2013年积雪初、终日期、积雪期(积雪初、终日期间日数),以及同期平均气温、平均0厘米地面温度、降水量、日照时数和平均风速资料,分析了该区积雪的变化特征及其与五个气象因子的关系。结果表明:阿勒泰地区平均初日为11月3日,终日为4月2日,平均积雪期为152d;近33年阿勒泰地区积雪初日呈上升的趋势,而终日和积雪期是呈下降趋势;除了吉木乃站的积雪初日气候倾向率是负值外,其余各站均是正值的,积雪终日的气候倾向率各站均为负值,积雪期的气候倾向率除了吉木乃站外其余均是正值;各站在积雪期内与降水量呈显著的正相关,表明降水量越多积雪持续时间越长,而且七个站均通过了显著性检验,降水因子在五个因子的对各站积雪期的影响较大;阿勒泰地区的各站积雪期与积雪初、终日期间的风速、降水量、0厘米地温、日平均气温、日照时数五个因子的相关系数中有57%的通过信度0.05的显著性检验,还有20%的通过了信度0.001的显著性检验; 相似文献