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1.
Variations in the Temperature Regime Across the Mediterranean During the Last Century and their Relationship with Circulation Indices 总被引:2,自引:2,他引:0
Summary Circulation types were identified by means of zonal and meridional indices calculated separately over ten different regions
of 20°×20° over the Mediterranean and Europe. Seasonal temperature trends in 22 grid boxes of 5°×5° covering the entire Mediterranean,
and at six stations Lisbon, Madrid, Florence, Luqa (Malta), Athens and Jerusalem, were calculated.
A warming trend in the period 1873–1989 was detected. The warming is more evident in the western Mediterranean with an average
rate of about 0.4 [°C/100 yr], than in the eastern Mediterranean with an increase of only 0.2 [°C/100 yr]. A cooling trend
in autumn in the eastern Mediterranean with an average rate of −0.5 [°C/100 yr] was detected and attributed to an increase
in northerly meridional circulation in that region.
Warming trends at Lisbon, Madrid, Florence, Athens and Jerusalem, were more important than the trends in the grid boxes containing
these stations. This rapid warming was attributed to urban effects. No such effects were found in Luqa due to its location
and the lack of urban effects there.
Temperatures at Luqa, Athens and Jerusalem are highly positively correlated. Likewise, temperatures at Lisbon and Madrid.
Temperatures at Florence are either correlated with Madrid or with Luqa. Negative or no correlations were found between Lisbon
or Madrid with Athens or Jerusalem, except during the winter. This was attributed to the fact that favourable circulation
for high temperatures in the eastern stations was opposite to the favourable circulation for high temperatures in the western
stations and vice versa.
Finally, the above reinforces the concept of a Mediterranean Oscillation between the western and eastern basins.
Received November 14, 1997 Revised June 2, 1998 相似文献
2.
J. Jaagus 《Theoretical and Applied Climatology》2006,83(1-4):77-88
Summary Trends in the time series of air temperature, precipitation, snow cover duration and onset of climatic seasons at ten stations
in Estonia during 1951–2000 are analysed. Using the conditional Mann-Kendall test, these trends are compared with trends in
the characteristics of large-scale atmospheric circulation: the NAO and AO indices, frequency of circulation forms according
to the Vangengeim-Girs’ classification, and the northern hemisphere teleconnection indices. The objective of the study is
to estimate the influence of trends in circulation on climate changes in Estonia. Statistically significant increasing trends
in air temperature are detected in January, February, March, April and May, in winter (DJF), spring (MAM) and in the cold
period (NDJFM). The trends in precipitation, as a rule, differ from station to station. Increasing trends are present during
the cold half-year – from October until March – and also in June. Snow cover duration has decreased in Estonia by 17–20 days
inland and by 21–36 days on the coast. The onsets of early spring and spring have shifted to an earlier date. Some important
changes have occurred in the parameters of atmospheric circulation during 1951–2000. Intensity of zonal circulation, i.e.
westerlies, has increased during the cold period, especially in February and March. Results of the conditional Mann-Kendall
test indicate that the intensification of westerlies in winter is significantly related to climate changes in winter and also
in spring. A negative trend in the East Atlantic Jet (EJ) index, i.e. the weakening of the westerlies in May has caused warming
during that month. Decrease in northerly circulation, i.e. in frequency of circulation form C and in East Atlantic/West Russia
teleconnection index (EW) is related to an increase in precipitation in October. 相似文献
3.
The majority of natural hazards that affect Canadian territory are the result of extreme climate and weather conditions. Among these weather hazards, some can be calculated from the application of thresholds for minimum and maximum temperatures at a daily or monthly timescale. These thermal indices allowed the prediction of extreme conditions that may have an impact on the human population by affecting, for example, health, agriculture, and water resources. In this article, we discuss the methods used (RHtestsV4, SPLIDHOM, ClimPACT) then describe the steps followed to calculate the indices, including how we dealt with the problem of missing data and the necessity to identify a common methodology to analyze the time series. We also present possible solutions for ensuring the quality of meteorological data. We then present an overview of the results, namely the main trends and variability of extreme temperature for seven stations located in the Gaspé Peninsula from 1974 to 2013. Our results indicate some break points in time series and positive trends for most indices related to the rise of the temperatures but indicate a negative trend for the indices related to low temperatures for most stations during the study period. 相似文献
4.
STUDY ON CLIMATIC FEATURES OF SURFACE TURBULENT HEAT EXCHANGE COEFFICIENTS AND SURFACE THERMAL SOURCES OVER THE QINGHAI-XIZANG PLATEAU 总被引:1,自引:0,他引:1 
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下载免费PDF全文 Using monthly mean of surface turbulent heat exchange coefficients calculated based on datafrom four automatic weather stations(AWS)for thermal equilibrium observation in July 1993—September 1996 and of surface conventional measurements,an empirical expression is establishedfor such coefficients.With the expression,the heat exchange coefficients and the components ofsurface thermal source are computed in terms of 1961—1990 monthly mean conventional data from148 stations over the Qinghai-Xizang(Tibetan)Plateau(QXP)and its adjoining areas,and the1961—1990 climatic means are examined.Evidence suggests that the empirical expression is capable of showing the variation of the heatexchange coefficient in a climatic context.The monthly variation of the coefficients averaged overthe QXP is in a range of 4×10~(-3)-5×10~(-3).The wintertime values are bigger in the mountainsthan in the valleys and reversal in summer.Surface effective radiation and sensible heat are thedominant factors of surface total heat.In spring surface sensible heat is enhanced quickly,resulting in two innegligible regions of sensible heat,one in the west QXP and the other innorthern Tibet.with their maximums emerging in different months.In spring and summersensible heat and surface effective radiation are higher in the west than in the east.The effectiveradiation peaks for the east in October—December and the whole QXP and in June and October forthe west.The surface total heat of the plateau maximizes in May.minimizes in December andJanuary,and shows seasonal variation more remarkable in the SW compared to the eastern part.Inthe SW plateau the total heat is much more intense than the eastern counterpart in all the seasonsexcept winter.Under the effect of the sensible heat,the total heat on the SW plateau starts toconsiderably intensify in February,which leads to a predominant heating region in the west,withits center experiencing a noticeable westward migration early in summer and twice pronouncedweakening in July and after October.However,the weakening courses are owing to differentcauses.The total heat over the north of QXP is greatly strengthened in March.thus generatinganother significant thermal region in the plateau. 相似文献
5.
Kumar Naresh Jaswal A. K. Mohapatra M. Kore P. A. 《Theoretical and Applied Climatology》2017,129(3-4):1227-1239
Spatial and temporal variations in summer and winter extreme temperature indices are studied by using daily maximum and minimum temperatures data from 227 surface meteorological stations well distributed over India for the period 1969–2012. For this purpose, time series for six extreme temperature indices namely, hot days (HD), very hot days (VHD), extremely hot days (EHD), cold nights (CN), very cold nights (VCN), and extremely cold nights (ECN) are calculated for all the stations. In addition, time series for mean extreme temperature indices of summer and winter seasons are also analyzed. Study reveals high variability in spatial distribution of threshold temperatures of extreme temperature indices over the country. In general, increasing trends are observed in summer hot days indices and decreasing trends in winter cold night indices over most parts of the country. The results obtained in this study indicate warming in summer maximum and winter minimum temperatures over India. Averaged over India, trends in summer hot days indices HD, VHD, and EHD are significantly increasing (+1.0, +0.64, and +0.32 days/decade, respectively) and winter cold night indices CN, VCN, and ECN are significantly decreasing (−0.93, −0.47, and −0.15 days/decade, respectively). Also, it is observed that the impact of extreme temperature is higher along the west coast for summer and east coast for winter.
相似文献6.
Changes of atmospheric circulation in central Europe and their influence on climatic trends in the Czech Republic 总被引:1,自引:1,他引:0
This work deals with the influence of changes of atmospheric circulation on observed trends of 11 climatic elements at 21 stations in the Czech Republic in the period 1961–1998. Atmospheric circulation in central Europe is described by the German (Hess-Brezowsky) and Czech-Slovak (Brádka’s) subjective catalogues of synoptic types. In the study period there is a strong downward trend in the occurrence of anticyclonic types in Brádka’s catalogue in all seasons, this trend being most prominent in autumn. Westerly and northwesterly types become more frequent in autumn and winter, less frequent in spring and summer under both classifications. In the Hess-Brezowsky catalogue, the occurrence of anticyclonic types increases in winter, spring, and summer. To assess the effect of circulation changes on observed climate trends we have used the method of “hypothetical” seasonal trends that are calculated from a daily series, constructed by assigning the long-term monthly average of the given climatic element under a specific circulation type to each day classified with this type. The ratio of these circulation-conditioned trends and observed seasonal trends shows that changes in atmospheric circulation are the primary cause of massive winter warming and autumn cooling, which is connected with increasing precipitation and humidity. Summer climate trends are unrelated to changes in atmospheric circulation. Simultaneous use of more circulation classifications for the detection of climatic changes is highly recommended, as the long-term circulation trends depend on the catalogue applied. 相似文献
7.
An investigation of the Iranian climatic changes by considering the precipitation, temperature, and relative humidity parameters 总被引:5,自引:2,他引:3
Mohammad Reza Kousari Mohammad Reza Ekhtesasi Mehdi Tazeh Mohammad Ali Saremi Naeini Mohammad Amin Asadi Zarch 《Theoretical and Applied Climatology》2011,103(3-4):321-335
The present study tends to describe the survey of climatic changes in the case of the eastern and central areas of Iran and, to some extent, the northern parts. The monthly and yearly change trends in the minimum, maximum and mean temperatures, relative humidity, and the precipitation were surveyed for 26 synoptic stations in Iran during a 55-year period. The study was carried out by using the ??-Kendall test. The results showed the same temperature changes for the centrally located stations as the eastern and northern ones. Most of the stations in Zagros showed no significant temperature changes. A significant decrease in the precipitation was seen in summer in different stations. Most of the eastern and centrally located stations showed a decrease in relative humidity trend, while this condition was not recorded in Zagros and northern part of Iran. The present results also showed that the upward trend of minimum air temperature had an effect in increasing the mean air temperature in the stations with temperature ascending trend. This effect of minimum temperature was significantly more than that of the maximum temperature, which could be the result of increasing the amount of greenhouse gases and the reflection of received thermal energies, from land through the night. This increase in the temperature and a decrease in relative humidity would cause an increase in the evaporation of the received precipitation. 相似文献
8.
S. Becker 《Theoretical and Applied Climatology》1998,59(3-4):251-259
Summary The data of 20 climatic stations have been examined to determine heat-stress regions in Israel. The data was interpolated
and a model was developed for the calculation of direct and diffuse solar radiation. Thermal perception was calculated according
to the energy-balance model of man which considers all relevant energy fluxes affecting the human thermo-regulatory system.
It is based on the ‘Comfort Equation’ of Fanger (1972) and the ‘Klima-Michel-Modell’ of Jendritzky et al. (1990). Earlier
approaches for the assessment of thermal environmental conditions have been done by Sohar (1980), based on the discomfort
index. The average daily duration of severe heat stress which a person is exposed to during various activities in summer months
has been analyzed in order to classify the thermal environmental conditions in Israel. Statistical evaluations have led to
six heat-stress clusters and regions, respectively. A model calculating the spatial development of climatic data between two
measuring stations was set up and served to determine the location of the distinctions between the regions. The resulting
heat-stress map shows the different heat-stress regions in Israel. The regions are characterized by graphs that show the average
monthly duration of light, medium and severe heat-stress. The average duration of severe heat-stress varies in July from approximately
3 hours along the coastal strip and in the higher mountain regions to approximately 13 hours in the Arava.
Received September 3, 1996 Revised June 23, 1997 相似文献
9.
基于陕西1961—2018年94个气象台站逐日气温资料,选取世界气象组织(WMO)提出的10种极端气温指数,分陕北、关中和陕南三个气候区,采用线性趋势分析、Mann-Kendall突变分析和Morlet小波分析,分析了陕西极端气温事件的时空变化特征。结果表明:陕西各极端气温指数在近60 a发生了显著变化,热指数的增加趋势较冷指数的减少趋势更为明显且年际间波动较大,夜指数的变化较相应的日指数变化更为突出,其中暖夜天数的增幅达到了7.4 d/10 a。除极端最低气温外,其余冷指数在1995年前后出现突变,而暖夜和暖昼天数突变发生在2005年以后。冰日、冷昼和热夜天数变化趋势呈现出明显的纬向特征,关中的极端最低气温、冷夜天数、暖夜天数、霜冻天数和夏日天数变化趋势较其他两个区域更为显著。极端指数的周期性变化主要集中在2—8 a。相较于极值指数,相对指数和绝对指数的变化均能较好的反映陕西年平均最高和最低气温的变化趋势。 相似文献
10.
利用1951—2005年东北地区100个气象站日平均气温资料,得出各年代稳定通过10℃,0℃积温及其持续天数和起止日期分布的变化,进而分析了气候变暖背景下东北地区热量资源的变化特征。结果表明:东北地区气温持续增暖,线性趋势达0.4℃/10 a,较我国其他地区更为显著,且与各热量资源指标有较好的相关性。东北地区气候变暖使得稳定通过10℃,0℃积温普遍显著升高,且稳定通过10℃,0℃积温的持续天数也普遍显著增加;稳定通过10℃,0℃积温和持续天数的等值线在东北平原和相对平坦的内蒙古高原向北大幅度推进,而在山区有向高海拔地区抬升的趋势;稳定通过10℃,0℃积温持续天数普遍增加是受到起始日期提前和终止日期延后的影响,而且起始日期提前比终止日期延后的影响更明显。东北地区热量资源的变化有利于东北地区粮食产量的提高和稳定。 相似文献
11.
《大气与海洋》2013,51(2):243-256
Abstract Trends and variations in daily temperature and precipitation indices in southern Québec are examined for the period 1960–2005. The indices are based on daily temperature and daily precipitation which have been recently adjusted at 53 climatological stations. The adjustments were made for site relocation, changes in observing programs, known instrument changes and measurement program deficiencies. The results show that the surface air temperature has increased in southern Québec over 1960–2005. Significant warming is evident in the western, southern and central parts of the province but the increasing trends become smaller toward the east. The warming is greater during the winter although many significant increasing trends are found in the summer. The analysis of the temperature extremes strongly indicates the occurrence of more nights with extreme high temperatures in all seasons. The temperature indices also suggest an increase in the number of thaw/frost days during the winter (days with maximum temperature above 0°C and minimum temperature below 0°C), a decrease in the length of the frost season, an increase in the length of the growing season, a decrease in heating degree days and an increase in cooling degree days. The precipitation indices show an increase in the annual total rainfall although many stations indicate decreasing trends during the summer. The number of days with rain has increased over the region whereas the number of days with snow and the total snow amounts have decreased over the past 46 years. 相似文献
12.
Changing growing season observed in Canada 总被引:1,自引:1,他引:0
It is theoretically interesting for climate change detection and practically important for agricultural producers to know
whether climate change has influenced agroclimatic conditions and, if so, what the potential impacts are. We present analyses
on statistical differences in means and variances of agroclimatic indices between three 30-year periods in the 20th century
(i.e., 1911–1940, 1941–1970 and 1971–2000). We found many occurrences of statistically significant changes in means between
pairs of the three 30-year periods. The findings consistently support agroclimatic trends identified from trend analysis as
an earlier growing season start and an earlier end to spring frost (SF), together with an extended growing season, more frost-free
days (FFD) and more available heat units were often found in the later 30-year periods as compared to the earlier ones. In
addition, this study provides more detailed quantitative information than the trend signals for the practical interests of
agricultural applications. Significant changes were detected for SF and FFD at a much larger percentage of stations between
the latter two 30-year periods (1941–1970 vs. 1971–2000) as compared to the earlier two periods (1911–1940 vs. 1941–1970).
In contrast, changes in variances of the selected agroclimatic indices were less evident than changes in their means, based
on the percentage of stations showing significant differences. We also present new climate averages of the selected agroclimatic
indices that can be useful for agricultural planning and management. 相似文献
13.
Changes in Canada's Climate: Trends in Indices Based on Daily Temperature and Precipitation Data 总被引:1,自引:0,他引:1
ABSTRACTTrends in indices based on daily temperature and precipitation are examined for two periods: 1948–2016 for all stations in Canada and 1900–2016 for stations in the south of Canada. These indices, a number of which reflect extreme events, are considered to be impact relevant. The results show changes consistent with warming, with larger trends associated with cold temperatures. The number of summer days (when daily maximum temperature >25°C) has increased at most locations south of 65°N, and the number of hot days (daily maximum temperature >30°C) and hot nights (daily minimum temperature >22°C) have increased at a few stations in the most southerly regions. Very warm temperatures in both summer and winter (represented by the 95th percentile of their daily maximum and minimum temperatures, respectively) have increased across the country, with stronger trends in winter. Warming is more pronounced for cold temperatures. The frost-free season has become longer with fewer frost days, consecutive frost days, and ice days. Very cold temperatures in both winter and summer (represented by the 5th percentile of their daily maximum and minimum temperatures, respectively) have increased substantially across the country, again with stronger trends in the winter. Changes in other temperature indices are consistent with warming. The growing season is now longer, and the number of growing degree-days has increased. The number of heating degree-days has decreased across the country, while the number of cooling degree-days has increased at many stations south of 55°N. The frequency of annual and spring freeze–thaw days shows an increase in the interior provinces and a decrease in the remainder of the country. Changes in precipitation indices are less spatially coherent. An increase in the number of days with rainfall and heavy rainfall is found at several locations in the south. A decrease in the number of days with snowfall and heavy snowfall is observed in the western provinces, while an increase is found in the north. There is no evidence of significant changes in the annual highest 1-day rainfall and 1-day snowfall. The maximum number of consecutive dry days has decreased, mainly in the south. 相似文献
14.
With the surface air temperature (SAT) data at 37 stations on Central Yunnan Plateau (CYP) for 1961–2010 and the Defense Meteorological Satellite Program/Operational Linescan System (DMSP/OLS) nighttime light data, the temporal-spatial patterns of the SAT trends are detected using Sen’s Nonparametric Estimator of Slope approach and MK test, and the impact of urbanization on surface warming is analyzed by comparing the differences between the air temperature change trends of urban stations and their corresponding rural stations. Results indicated that annual mean air temperature showed a significant warming trend, which is equivalent to a rate of 0.17 °C/decade during the past 50 years. Seasonal mean air temperature presents a rising trend, and the trend was more significant in winter (0.31 °C/decade) than in other seasons. Annual/seasonal mean air temperature tends to increase in most areas, and higher warming trend appeared in urban areas, notably in Kunming city. The regional mean air temperature series was significantly impacted by urban warming, and the urbanization-induced warming contributed to approximately 32.3–62.9 % of the total regional warming during the past 50 years. Meantime, the urbanization-induced warming trend in winter and spring was more significant than that in summer and autumn. Since 1985, the urban heat island (UHI) intensity has gradually increased. And the urban temperatures always rise faster than rural temperatures on the CYP. 相似文献
15.
Earth surface temperatures are changing worldwide together with the changes in the extreme temperatures. The present study investigates trends and variations of monthly maximum and minimum temperatures and their effects on seasonal fluctuations at different climatological stations of Maharashtra and Karnataka states of India. Trend analysis was performed on annual and seasonal mean maximum temperature (TMAX) and mean minimum temperature (TMIN) for the period 1969 to 2006. During the last 38 years, an increase in annual TMAX and TMIN has occurred. At most of the locations, the increase in TMAX was faster than the TMIN, resulting in an increase in diurnal temperature range. At the same time, annual mean temperature (TM) showed a significant increase over the study area. Percentiles were used to identify extreme temperature indices. An increase in occurrence of warm extremes was observed at southern locations, and cold extremes increased over the central and northeastern part of the study area. Occurrences of cold wave conditions have decreased rapidly compared to heat wave conditions. 相似文献
16.
根据武汉市1951—2007年逐日气温、降水量计算分析了10个极端天气气候指数的变化特征。结果表明:1)4个气温指数中,年及四季高、低温阈值均为上升趋势,并造成最长热浪天数的延长和霜冻日数的减少;低温阈值升速明显快于高温阈值,高温阈值仅在春季变化显著,最长热浪天数仅在冬季变化显著;低温阈值则为极显著上升趋势,尤其是年和冬季,造成"热春"、"暖冬"频繁;暖夜、闷热、傍晚至夜间的强对流等显著增多,暖日、高温热浪增加,霜冻日大幅减少。2)6个极端降水指数以增趋势为主,其中强降水阈值、比例、日数以及最大5日降水量在冬季增趋势最明显,仅夏季强降水阈值、比例略有减小,冬季日降水强度的增大趋势、夏季持续干期的缩短趋势显著性水平分别可达0.1、0.01。3)一些气温指数在1980—1990年代发生突变,而降水指数未现突变。 相似文献
17.
Observed trends in severe weather conditions based on public alert statements issued by Environment Canada are examined for Canada. Changes in extreme heat and extreme cold events represented by various humidex and wind chill indices are analyzed for 1953–2012 at 126 climatological stations. Changes in heavy rainfall events based on rainfall amounts provided by tipping bucket rainfall gauges are analyzed for 1960–2012 at 285 stations. The results show that extreme heat events, defined as days with at least one hourly humidex value above 30, have increased significantly at more than 36% of the stations, most of which are located south of 55°N; days with nighttime hourly humidex values remaining above 20 have increased significantly at more than 52% of the stations, most of which are located south of 50°N. Extreme cold events represented by days with at least one hourly wind chill value below ?30 have decreased significantly at more than 76% of the stations across the country. No consistent changes were found in heavy rainfall events. Because city residents are very vulnerable to severe weather events, detailed results on changes in extreme heat, extreme cold, and heavy rainfall events are also provided for ten urban centres. 相似文献
18.
In this paper, change-points in time series of annual extremes in temperature and precipitation in the Zhujiang River Basin are analyzed with the CUSUM test. The data cover the period 1961–2007 for 192 meteorological stations. Annual indicators are analyzed: mean temperature, maximum temperature, warm days, total precipitation, 5-day maximum precipitation, and dry days. Significant change-points (1986/87, 1997/98, 1968/69, and 2003/04) are detected in the time series of most of the indicators. The change-point in 1986/87 is investigated in more detail. Most stations with this change-point in temperature indicators are located in the eastern and coastal areas of the basin. Stations with this change-point in dry days are located in the western area. The means and trends of the temperature indicators increase in the entire basin after 1986/87. The highest magnitudes can be found at the coast and delta. Decreasing (increasing) tendencies in total and 5-day maximum precipitation (dry days) are mostly observed in the western and central regions. The detected change-points can be explained by changes in the indices of the Western Pacific subtropical high and the East Asian summer monsoon as well as by change-points in wind directions. In years when the indices simultaneously increase and decrease (indices taking reverse directions to negative and positive) higher annual temperatures and lower annual precipitation occur in the Zhujiang River Basin. The high station density and data quality are very useful for spatially assessing change-points of climatic extreme events. The relation of the change points to large-scale oscillation can provide valuable data for planning adaptation measures against climate risks, e.g. for flood control, disaster preparedness, and water resource management. 相似文献
19.
Summary We analysed long-term temperature trends based on 12 homogenised series of monthly temperature data in Switzerland at elevations
between 316 m.a.s.l. and 2490 m.a.s.l for the 20th century (1901–2000) and for the last thirty years (1975–2004). Comparisons were made between these two periods, with changes
standardised to decadal trends. Our results show mean decadal trends of +0.135 °C during the 20th century and +0.57 °C based on the last three decades only. These trends are more than twice as high as the averaged temperature
trends in the Northern Hemisphere.
Most stations behave quite similarly, indicating that the increasing trends are linked to large-scale rather than local processes.
Seasonal analyses show that the greatest temperature increase in the 1975–2004 period occurred during spring and summer whereas
they were particularly weak in spring during the 20th century. Recent temperature increases are as much related to increases in maximum temperatures as to increases in minimum
temperature, a trend that was not apparent in the 1901–2000 period. The different seasonal warming rates may have important
consequences for vegetation, natural disasters, human health, and energy consumption, amongst others. The strong increase
in summer temperatures helps to explain the accelerated glacier retreat in the Alps since 1980.
Authors’ addresses: Martine Rebetez, WSL Swiss Federal Research Institute, 1015 Lausanne, Switzerland; Michael Reinhard, Laboratory
of Ecological Systems (ECOS), EPFL Swiss Federal Institute of Technology, 1015 Lausanne, Switzerland. 相似文献
20.
This paper examines trends in streamflow and their links with local climate in the Karkheh River and its major tributaries,
which originate from the Zagros Mountains, Iran. Streamflow records from five mainstream stations for the period 1961–2001
were used to examine trends in a number of streamflow variables. The studied variables were mean annual and monthly flows,
1 and 7 days maximum and minimum flows, timing of the 1-day maxima and minima, and the number and duration of high and low
flow pulses. Similarly, the precipitation and temperature data from seven climate stations for the period from 1950s to 2003
were used to examine trends in climatic variables and their correlation with the streamflow. The Spearman Rank test was used
for the detection of trends and the correlation analysis was based on the Pearson method. The results reveal a number of significant
trends in streamflow variables both increasing (e.g. December flows) and decreasing (e.g. May flows) for all stations. However,
some trends were not spatially uniform. For example, decline in low flow characteristics were more significant in the upper
parts of the basin, whereas increasing trends in floods and winter flows were noteworthy in the middle parts of the basin.
Most of these trends could be attributed to precipitation changes. The results show that the decline in April and May precipitation
causes the decline in the low flows while the increase in winter (particularly March) precipitation coupled with temperature
changes lead to increase in the flood regime. The observed trends at the Jelogir station on the Karkheh River reflect the
combined effect of the upstream catchments. The significant trends observed in a number of streamflow variables at Jelogir,
1-day maximum, December flow and low pulse count and duration, point to the changes in hydrological regime of the entire Karkheh
River system and are attributed to the changes in climatic variables. 相似文献