共查询到20条相似文献,搜索用时 595 毫秒
1.
2.
为了正确评估干旱,根据帕默尔旱度模式的思路和1986年安顺清等人修正的帕默尔旱度模式,我们以济南、郑州和太原3站逐年逐月气温和降水等作为基本资料(1961~2000年),以哈尔滨、佳木斯、呼和浩特、沈阳、北京、固原、西安、汉中、青岛、德州、运城、长沙、武汉、南昌、杭州、福州、广州、昆明、南宁、成都和贵阳21个站的有关资料(1961~2000年)为权重因子修正资料,并且在计算可能蒸散时选用了FAO推荐的彭曼-蒙蒂斯公式。另外0~20 cm和20~100 cm土层的土壤田间有效持水量根据我国测定的资料和土壤特性确定,对帕默尔旱度模式进行了进一步修正。利用此模式计算了我国北方地区139个站点(1961年1月~2000年12月)的帕默尔指数值。将计算的帕默尔指数值与一些文献记载的实际旱涝灾情相对照进行验证,表明进一步修正的帕默尔旱度模式能较为准确地评估旱涝情况,适合应用于我国 相似文献
3.
哈密地区气象干旱监测指数研究 总被引:2,自引:0,他引:2
慕彩芸 《沙漠与绿洲气象(新疆气象)》2014,8(1):6-10
应用Z指数方法和帕默尔气象干旱指数基本原理的优点,选取哈密地区6个代表站1961—2010年逐月降水量资料,分南、北两个区域建立区域修正帕默尔气象干旱指数,确定了区域旱涝等级的划分标准。以计算得到的干旱指数与历史旱情记录进行对比验证,并与Z指数、降水距平百分率干旱指数对比分析,结果表明该干旱指数对干旱的反应符合历史实际,较Z指数、降水距平百分率干旱指数更适合当地应用。在此基础上,对哈密地区修正帕默尔气象干旱指数与旱情的关系及干旱发生的特征作了更进一步分析。 相似文献
4.
《高原气象》2016,(3)
利用1961-2012年长江中下游地区90个测站逐日降水、气温等观测资料,建立长江中下游地区的帕默尔旱度模式,并利用此模式计算出52年90个测站逐月PDSI指数,与资料记载的实际旱涝灾情对比并分析了长江中下游地区的旱涝特征。结果表明,修正的帕默尔旱度模式能准确反映长江中下游地区的干旱过程,与实际旱涝发生时间、持续时段、旱涝严重程度及旱涝发生范围对应比较吻合,对旱涝的反应比较灵敏;长江中下游地区旱涝年际变化显著,夏、秋季旱涝具有连续性,干旱具有3个月的持续期;冬季存在较弱的年代际变化,而夏季年代际变化较为明显;长江中下游地区夏秋季干旱多发,极端干旱在秋季较多,安徽西部及北部、浙江北部、湖南西南部是干旱较容易发生的区域,而极端干旱多发生于安徽阜阳和宁国、湖南衡阳和郴州、浙江慈溪和定海以及湖北巴东等地。 相似文献
5.
1.引言帕默尔干旱度指标(PDST)是美国广 泛采用的,在美国商业部和农业部联合发布 的《天气和作物周报》中作为干旱监测报 道。在许多干旱研究中,如北美近三十多年 的旱情比较,分析旱情的时空分布特征、气 候评价,干旱面积与火灾,城市和灌溉供水 问题等许多方面都应用帕默尔干旱度指标。 这个指标比其他指标更全面实用。该指标是 在水分平衡计算的基础上算出气候适宜降水 量,然后用它求出距平值,并对距平进行权 重,再综合考虑时间因子,最后得出指数 值。 相似文献
6.
本文应用夏旱强度指数和修正的帕默尔指数对贵州夏旱的发生频率,持续时间,干旱类型,地区分布进行详细分析,得出贵州夏旱的基本规律和主要特点,提出了减轻夏时造成的损失应采取的对策和措施。 相似文献
7.
根据1965年Palmer旱度模式的思路,在1986年修正版及2003年修正版的基础上,为了使Palmer旱度模式更适用于我国北方干旱、半干旱地区,通过改进2003年修正的Palmer旱度模式在建模时表层失水模式的假设以及增加建模站点个数两个方面对Palmer旱度模式进行进一步修正。将计算的Palmer指数值与2003年计算的Palmer指数值及一些文献记载的实际旱涝灾情相对照进行验证,结果表明:新修正的Palmer旱度模式能更好地评估旱涝情况,扩大其在我国干旱地区的适用性。 相似文献
8.
甘肃黄土高原帕尔默旱度模式的修订 总被引:3,自引:0,他引:3
干旱是甘肃黄土高原雨养农业区最主要的气象灾害,干旱的发生包含许多复杂过程和条件,因而研究一个考虑因子较为全面的干旱指标较为困难。本文在美国帕尔默旱度模式和中国修正的帕尔默旱度模式的基础上,根据本区特点,从建模资料站点、可能蒸散计算、土壤田间持水量和径流计算等几个方面进行了修正,并利用甘肃黄土高原12个站点的资料,建立了适用于本区的旱度模式,以期为本区的干旱研究提供一种有效的工具。 相似文献
9.
10.
11.
利用河西内陆河水文代表站1959-2004年逐月径流量资料、内陆河流域灌溉区1949-2001年耕地面积及代表站1961-2005年的气象资料, 通过对径流量进行正态化处理来确定径流量Z指数, 并以径流量Z指数作为径流干旱指数, 对旱涝等级进行划分; 考虑径流量Z指数的旱涝等级与农业灌溉用水实际情况之间的关系, 给出了径流量Z指数的灌溉指标。将径流量转化为降水量, 改进Palmer旱度模式, 且在作改进后, 又将潜在蒸散量的计算法由利用桑斯威特公式改为利用彭曼公式。结果表明:将径流量考虑到Palmer干旱指数中并改变蒸散量的算法, 使得该指数对河西灌溉区干旱情况的监测均有所改善。对照河西地区的干旱事件, 径流量Z指数监测到的干旱情况, 比Palmer干旱指数改进前、后监测到的干旱情况效果更佳。径流量Z指数能更真实地反映河西灌溉区干旱状况。 相似文献
12.
Climate change in the twenty-first century, projected by a large ensemble average of global coupled models forced by a mid-range (A1B) radiative forcing scenario, is downscaled to Climate Divisions across the western United States. A simple empirical downscaling technique is employed, involving model-projected linear trends in temperature or precipitation superimposed onto a repetition of observed twentieth century interannual variability. This procedure allows the projected trends to be assessed in terms of historical climate variability. The linear trend assumption provides a very close approximation to the time evolution of the ensemble-average climate change, while the imposition of repeated interannual variability is probably conservative. These assumptions are very transparent, so the scenario is simple to understand and can provide a useful baseline assumption for other scenarios that may incorporate more sophisticated empirical or dynamical downscaling techniques. Projected temperature trends in some areas of the western US extend beyond the twentieth century historical range of variability (HRV) of seasonal averages, especially in summer, whereas precipitation trends are relatively much smaller, remaining within the HRV. Temperature and precipitation scenarios are used to generate Division-scale projections of the monthly palmer drought severity index (PDSI) across the western US through the twenty-first century, using the twentieth century as a baseline. The PDSI is a commonly used metric designed to describe drought in terms of the local surface water balance. Consistent with previous studies, the PDSI trends imply that the higher evaporation rates associated with positive temperature trends exacerbate the severity and extent of drought in the semi-arid West. Comparison of twentieth century historical droughts with projected twenty-first century droughts (based on the prescribed repetition of twentieth century interannual variability) shows that the projected trend toward warmer temperatures inhibits recovery from droughts caused by decade-scale precipitation deficits. 相似文献
13.
Rahmat Siti Nazahiyah Jayasuriya Niranjali Bhuiyan Muhammed A. 《Theoretical and Applied Climatology》2017,129(1-2):445-457
A comprehensive risk management strategy for dealing with drought should include both short-term and long-term planning. The objective of this paper is to present an early warning method to forecast drought using the Standardised Precipitation Index (SPI) and a non-homogeneous Markov chain model. A model such as this is useful for short-term planning. The developed method has been used to forecast droughts at a number of meteorological monitoring stations that have been regionalised into six (6) homogenous clusters with similar drought characteristics based on SPI. The non-homogeneous Markov chain model was used to estimate drought probabilities and drought predictions up to 3 months ahead. The drought severity classes defined using the SPI were computed at a 12-month time scale. The drought probabilities and the predictions were computed for six clusters that depict similar drought characteristics in Victoria, Australia. Overall, the drought severity class predicted was quite similar for all the clusters, with the non-drought class probabilities ranging from 49 to 57 %. For all clusters, the near normal class had a probability of occurrence varying from 27 to 38 %. For the more moderate and severe classes, the probabilities ranged from 2 to 13 % and 3 to 1 %, respectively. The developed model predicted drought situations 1 month ahead reasonably well. However, 2 and 3 months ahead predictions should be used with caution until the models are developed further.
相似文献14.
本文应用帕尔默旱度模式的基本原理,选取平凉等11个站点的资料,建立了适用于黄土高原西北部地区的修正的帕尔默旱度模式。并用此模式分析了本区的干旱特征。结果表明,此模式是分析本区干旱的一个良好工具。 相似文献
15.
Bivariate drought frequency analysis using the copula method 总被引:7,自引:2,他引:5
Rasoul Mirabbasi Ahmad Fakheri-Fard Yagob Dinpashoh 《Theoretical and Applied Climatology》2012,108(1-2):191-206
Droughts are major natural hazards with significant environmental and economic impacts. In this study, two-dimensional copulas were applied to the analysis of the meteorological drought characteristics of the Sharafkhaneh gauge station, located in the northwest of Iran. Two major drought characteristics, duration and severity, as defined by the standardized precipitation index, were abstracted from observed drought events. Since drought duration and severity exhibited a significant correlation and since they were modeled using different distributions, copulas were used to construct the joint distribution function of the drought characteristics. The parameter of copulas was estimated using the method of the Inference Function for Margins. Several copulas were tested in order to determine the best data fit. According to the error analysis and the tail dependence coefficient, the Galambos copula provided the best fit for the observed drought data. Some bivariate probabilistic properties of droughts, based on the derived copula-based joint distribution, were also investigated. These probabilistic properties can provide useful information for water resource planning and management. 相似文献
16.
Qiang Zhang Mingzhong Xiao Vijay P. Singh Xiaohong Chen 《Theoretical and Applied Climatology》2013,111(1-2):119-131
Daily precipitation data for the period of 1960–2005 from 42 precipitation gauging stations in the Pearl River basin were analyzed using the Mann–Kendall trend test and copula functions. The standardized precipitation index method was used to define drought episodes. Primary and secondary return periods were also analyzed to evaluate drought risks in the Pearl River basin as a whole. Results indicated that: (1) in general, the drought tendency was not significant at a 95 % confidence level. However, significant drought trends could be found in November, December, and January and significant wetting trends in June and July. The drought severity and drought durations were not significant at most of the precipitation stations across the Pearl River basin; (2) in terms of drought risk, higher drought risk could be observed in the lower Pearl River basin and lower drought risk in the upper Pearl River basin. Higher risk of droughts of longer durations was always corresponding to the higher risk of droughts with higher drought severity, which poses an increasing challenge for drought management and water resources management. When drought episodes with higher drought severity occurred in the Pearl River basin, the regions covered by higher risk of drought events were larger, which may challenge the water supply in the lower Pearl River basin. As for secondary return periods, results of this study indicated that secondary return periods might provide a more robust evaluation of drought risk. This study should be of merit for water resources management in the Pearl River basin, particularly the lower Pearl River basin, and can also act as a case study for determining regional response to drought changes as a result of global climate changes. 相似文献
17.
根据华北地区干旱具有显著的年代际和年际变化特性,该文提出了建立多时间尺度预测模型的新构想。利用奇异谱动力学重构的方法将干旱序列的年代际和年际时间尺度变化进行分离,然后分别建立两种时间尺度变化的预测模型,最后将两者进行组合。在建立年际变化预测模型时,使用信噪比的方法将前期大气和海温出现显著异常变化区域的强信号引进到预测模型中。1996~2002年跨季度的预测试验表明,这一建模方案可以较好地反映华北干旱的变化趋势,并具有一定的预测技巧。 相似文献
18.
There is increasing evidence that drought is leading to increased loss of dissolved organic carbon from upland peats. Therefore, this study endeavours to understand the severity and frequency of the scale of drought responsible for driving the observed changes; and, by reconstructing climatic records, to understand whether such droughts are increasing in severity and frequency. The study suggests that there are two levels of drought severity important in the peatlands: a hydrological drought that causes hydrophobic effects in the upper peat profile lasting 3–4 years in duration, and a more severe biogeochemical drought that triggers new mechanisms of DOC production and decade-long effects. The study uses long term climate data from Central England and Northern England to reconstructs depth to water table for an upland peat catchment back to 1766 and shows that hydrological drought has a return period of 25 years and that biogeochemical drought has a return period of 15.5 years. Statistical modelling of the time series of annual droughts shows only weak evidence for an increasing frequency of severe droughts since 1766, but stronger evidence for the recent past. The return period of drought of sufficient severity to cause biogeochemical response is coming close to the length of effect such a drought would have, i.e. trends in drought frequency mean that peatlands may no longer be resilient to the impact of drought, with dire consequences for the storage of carbon in these environments. 相似文献
19.
四川盆地干旱灾害统计特征 总被引:3,自引:0,他引:3
利用四川盆地1980—2009年17市103个县(市)实测逐日降水资料,按照四川省气象局制定的四川盆地的干旱地方标准DB51/T581—2007,对四川盆地近30年干旱灾害进行统计分析。结果表明:四川盆地夏旱出现的频率最高,夏旱的高发区集中在盆地西北部的成都、德阳和绵阳,伏旱的发生频率最低,强度最强。春、夏、伏旱的空间分布高发区依次从盆地西北部向东南转移。干旱发生的频率整体呈增长趋势,且严重干旱发生频次增长明显,与20世纪80年代相比90年代增幅达到110.3%,21世纪00年代在90年代的基础上又递增20.0%,21世纪00年代发生的严重干旱频次为80年代的2.5倍。 相似文献
20.
An integrated program of ecosystem modeling and field studies in the mountains of the Pacific Northwest (U.S.A.) has quantified many of the ecological processes affected by climatic variability. Paleoecological and contemporary ecological data in forest ecosystems provided model parameterization and validation at broad spatial and temporal scales for tree growth, tree regeneration and treeline movement. For subalpine tree species, winter precipitation has a strong negative correlation with growth; this relationship is stronger at higher elevations and west-side sites (which have more precipitation). Temperature affects tree growth at some locations with respect to length of growing season (spring) and severity of drought at drier sites (summer). Furthermore, variable but predictable climate-growth relationships across elevation gradients suggest that tree species respond differently to climate at different locations, making a uniform response of these species to future climatic change unlikely. Multi-decadal variability in climate also affects ecosystem processes. Mountain hemlock growth at high-elevation sites is negatively correlated with winter snow depth and positively correlated with the winter Pacific Decadal Oscillation (PDO) index. At low elevations, the reverse is true. Glacier mass balance and fire severity are also linked to PDO. Rapid establishment of trees in subalpine ecosystems during this century is increasing forest cover and reducing meadow cover at many subalpine locations in the western U.S.A. and precipitation (snow depth) is a critical variable regulating conifer expansion. Lastly, modeling potential future ecosystem conditions suggests that increased climatic variability will result in increasing forest fire size and frequency, and reduced net primary productivity in drier, east-side forest ecosystems. As additional empirical data and modeling output become available, we will improve our ability to predict the effects of climatic change across a broad range of climates and mountain ecosystems in the northwestern U.S.A. 相似文献