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1.
Application of relative drought indices in assessing climate-change impacts on drought conditions in Czechia 总被引:4,自引:1,他引:3
M. Dubrovsky M. D. Svoboda M. Trnka M. J. Hayes D. A. Wilhite Z. Zalud P. Hlavinka 《Theoretical and Applied Climatology》2009,96(1-2):155-171
The common versions (referred to as self-calibrated here) of the Standardized Precipitation Index (SPI) and the Palmer Drought Severity Index (PDSI) are calibrated and then applied to the same weather series. Therefore, the distribution of the index values is about the same for any weather series. We introduce here the relative SPI and PDSI, abbreviated as rSPI and rPDSI. These are calibrated using a reference weather series as a first step, which is then applied to the tested series. The reference series may result from either a different station to allow for the inter-station comparison or from a different period to allow for climate-change impact assessments. The PDSI and 1–24 month aggregations of the SPI are used here. In the first part, the relationships between the self-calibrated and relative indices are studied. The relative drought indices are then used to assess drought conditions for 45 Czech stations under present (1961–2000) and future (2060–2099) climates. In the present climate experiment, the drought indices are calibrated by using the reference station weather series. Of all drought indices, the PDSI exhibits the widest spectrum of drought conditions across Czechia, in part because it depends not only on precipitation (as does the SPI) but also on temperature. In our climate-change impact experiments, the future climate is represented by modifying the observed series according to scenarios based on five Global Climate Models (GCMs). Changes in the SPI-based drought risk closely follow the modeled changes in precipitation, which is predicted to decrease in summer and increase in both winter and spring. Changes in the PDSI indicate an increased drought risk at all stations under all climate-change scenarios, which relates to temperature increases predicted by all of the GCMs throughout the whole year. As drought depends on both precipitation and temperature, we conclude that the PDSI is more appropriate (when compared to the SPI) for use in assessing the potential impact of climate change on future droughts. 相似文献
2.
The drought conditions over the seven sub-climatological regions in Vietnam are examined using three meteorological drought indices: de Martonne J, PED, and Standardized Precipitation Index (SPI). According to the seasonal probabilities of drought occurrence estimated by the de Martonne index, droughts mainly occur between November and March in all the sub-regions. The PED index and the SPI index generally show high probabilities of drought occurrence from April to August and from May to October, respectively. In the southern sub-regions of Vietnam, droughts more frequently occur in El Niño years and wet conditions are more frequently observed in La Niña years. However, such El Niño–Southern Oscillation influences are not clearly observed in the northern sub-regions. During 1961–2007, droughts significantly increased in the northern part of Vietnam. In the southern regions, PED shows increasing drought conditions while J and SPI show decreasing drought trends for almost all the stations. 相似文献
3.
Because drought is a very common and widespread natural disaster, it has attracted a great deal of academic interest. Based on 12-month time scale standardized precipitation indices (SPI12) calculated from precipitation data recorded between 1960 and 2015 at 22 weather stations in the Tarim River Basin (TRB), this study aims to identify the trends of SPI and drought duration, severity, and frequency at various quantiles and to perform cluster analysis of drought events in the TRB. The results indicated that (1) both precipitation and temperature at most stations in the TRB exhibited significant positive trends during 1960–2015; (2) multiple scales of SPIs changed significantly around 1986; (3) based on quantile regression analysis of temporal drought changes, the positive SPI slopes indicated less severe and less frequent droughts at lower quantiles, but clear variation was detected in the drought frequency; and (4) significantly different trends were found in drought frequency probably between severe droughts and drought frequency. 相似文献
4.
以2017年春夏季呼伦贝尔草原干旱过程为研究对象,利用呼伦贝尔草原范围内6个气象站的气温、降水数据和MODIS NDVI数据,分析对比2017年4—9月多种气象干旱指数(Pa30、SPI30、SPEI30、CI、MCI)与植被状态指数(VCI)的监测情况。结果表明:只考虑单一降水的气象干旱指数(Pa30、SPI30)在4月波动较大,且此类指数无法反映出高温等其他气象条件对干旱发展的影响。综合气象干旱指数(CI、MCI)由于引入多时间尺度干旱进行计算,旱情缓解时轻旱等级持续的时间过长,且草原植被在降水增加后的恢复速度较快,造成干旱缓解期间植被与监测结果差异较大。MCI与同期和前1期VCI的相关性最好,CI和SPEI30与前1期和前2期VCI的相关性较好,而只考虑单一降水的气象干旱指数与VCI的相关性普遍偏差。植被对SPEI30的响应时间更长,更适宜草原生态干旱的早期预警使用。 相似文献
5.
呼伦贝尔市新旧综合气象干旱指数应用对比 总被引:1,自引:0,他引:1
利用呼伦贝尔市4个气象台站1972—2013年逐日气象观测资料,计算逐日新的综合气象干旱指数MCI与旧的综合气象干旱指数CI,并对比两种干旱指数统计出的干旱日数、干旱强度,以及根据相应标准统计出的干旱过程和与实际干旱发生情况的吻合程度,分析新旧指数的优劣。结果表明,由于CI没有区分逐日降水量在指数中的权重,从而造成其跳变要多于MCI,而且MCI引入了近150天降水量的SPI并区分了冬、夏半年的权重值,避免了干旱指数对呼伦贝尔市冬季、初春干旱评价过重的问题。结合呼伦贝尔市实际的气候特点和干旱灾害发生实况,MCI更符合实际,适合业务应用。 相似文献
6.
R. Brázdil M. Trnka P. Dobrovolný K. Chromá P. Hlavinka Z. Žalud 《Theoretical and Applied Climatology》2009,97(3-4):297-315
We analyze droughts in the Czech Republic from 1881–2006 based on the Palmer drought severity index (PDSI) and the Z-index using averaged national temperature and precipitation series for the calculations. The standardized precipitation index (SPI), PDSI and Z-index series show an increasing tendency towards longer and more intensive dry episodes in which, for example, droughts that occurred in the mid-1930s, late 1940s–early 1950s, late 1980s–early 1990s and early 2000s were the most severe. Cycles at periods of 3.4–3.5, 4.2–4.3, 5.0–5.1 and 15.4 years exceeded 95% confidence levels in application of maximum entropy spectral analysis. These are expressed at different intensities throughout the period studied. The occurrence of extremely dry and severely dry months is associated with a higher frequency of anticyclonic situations according to the classification employed by the Czech Hydrometeorological Institute. Principal component analysis documents the importance of the ridge from the Siberian High over Central Europe when extreme and severe droughts in months of the winter half-year are considered in terms of sea-level pressure. In the summer half-year, the ridge of the Azores High over Central Europe is the most important. Drought episodes have a profound effect on national and regional agricultural production, with yields being consistently lower than in normal years, as is documented through the example of spring barley, winter wheat, forage crops on arable land, and hay from meadows. Seasons with pronounced drought during the April–June period (e.g., 1947 and 2000) show the most significant yield decreases. Forests appear to be very vulnerable to long-term drought episodes, as it was the case during the dry years of 1992–1994. This study clearly confirms the statistically significant tendency to more intensive dry episodes in the region, driven by temperature increase and precipitation decrease, which has already been suggested in other studies. 相似文献
7.
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
8.
The study makes a probabilistic assessment of drought risks due to climate change over the southeast USA based on 15 Global Circulation Model (GCM) simulations and two emission scenarios. The effects of climate change on drought characteristics such as drought intensity, frequency, areal extent, and duration are investigated using the seasonal and continuous standard precipitation index (SPI) and the standard evapotranspiration index (SPEI). The GCM data are divided into four time periods namely Historical (1961–1990), Near (2010–2039), Mid (2040–2069), and Late (2070–2099), and significant differences between historical and future time periods are quantified using the mapping model agreement technique. Further, the kernel density estimation approach is used to derive a novel probability-based severity-area-frequency (PBS) curve for the study domain. Analysis suggests that future increases in temperature and evapotranspiration will outstrip increases in precipitation and significantly affect future droughts over the study domain. Seasonal drought analysis suggest that the summer season will be impacted the most based on SPI and SPEI. Projections based on SPI follow precipitation patterns and fewer GCMs agree on SPI and the direction of change compared to the SPEI. Long-term and extreme drought events are projected to be affected more than short-term and moderate ones. Based on an analysis of PBS curves, especially based on SPEI, droughts are projected to become more severe in the future. The development of PBS curves is a novel feature in this study and will provide policymakers with important tools for analyzing future drought risks, vulnerabilities and help build drought resilience. The PBS curves can be replicated for studies around the world for drought assessment under climate change. 相似文献
9.
Vera Potop Luboš Türkott Věra Kožnarová Martin Možný 《Theoretical and Applied Climatology》2010,99(3-4):373-388
This paper presents the methodology for assessment of drought episodes and their potential effects on winter and spring cereal crops in the Czech Republic (in the text referred to as Czechia). Historical climate and crop yields data for the period of 47 years (1961–2007) have been integrated into an agrometeorological database. The drought episodes were determined by three methods: according to the values of the standardized precipitation index (SPI), percentage of long-term precipitations (r), and on the basis of the Ped drought index (S i). Consequently, the combined SPI, S i, and r indices have been used as tools in identification of the severity, frequency, and extent of drought episodes. Additionally, the paper also presents the S i drought index and its potential use for real-time monitoring of spatial extension and severity of droughts in Czechia. The drought risk to crops was analyzed by identifying the relationships between the fluctuation of crop yields and drought index (S i) based on the multiple regression analysis with stepwise selection. In general, models explain that a high percentage of the variability of the yield is due to drought (more than 45% of yield variance). 相似文献
10.
Recent drought and precipitation tendencies in Ethiopia 总被引:3,自引:0,他引:3
Ellen Viste Diriba Korecha Asgeir Sorteberg 《Theoretical and Applied Climatology》2013,112(3-4):535-551
In 2011, drought in the Horn of Africa again made news headlines. This study aims to quantify the meteorological component of this and other drought episodes in Ethiopia since 1971. A monthly precipitation data set for 14 homogeneous rainfall zones was constructed based on 174 gauges, and the standardized precipitation index was calculated on seasonal, annual, and biannual time scales. The results point to 2009 as a year of exceptionally widespread drought. All zones experienced drought at the annual scale, although in most zones, previous droughts were more extreme. Nationally, 2009 was the second driest year, surpassed only by the historic year 1984. Linear regression analysis indicates a precipitation decline in southern Ethiopia, during both February–May and June–September. In central and northern Ethiopia, the analysis did not provide evidence of similar tendencies. However, spring droughts have occurred more frequently in all parts of Ethiopia during the last 10–15 years. 相似文献