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1.
Summary This paper assesses recent changes in extremes of seasonal rainfall in Ethiopia based on daily rainfall data for 11 key stations
over the period 1965–2002. The seasons considered are Kiremt (‘main rains’, June–September) and Belg (‘small rains’, February/March–May). The Mann-Kendall and linear regression trend tests show decreasing trends in the Kiremt and the Belg extreme intensity and maximum consecutive 5-day rains over eastern, southwestern and southern parts of Ethiopia whereas no
trends are found in the remaining part of Ethiopia. In general, no trends are found in the yearly maximum length of Kiremt and Belg dry spells (days with rainfall below 1 mm) over Ethiopia. 相似文献
2.
O. P. Singh 《Theoretical and Applied Climatology》2001,68(3-4):233-243
Summary The Bangladesh coast, which lies on the confluence of three mighty rivers, the Ganges, the Brahmaputra and the Meghna, with
the Himalayas to the north and the Bay of Bengal to the south, is an ideal zone for sea level rise due to enhanced rainfall
during the monsoon season from June to September. An attempt has been made here to look into the cause-effect relationships
between observed trends in sea surface temperature (SST) over the Bay of Bengal and the trends in monsoon rains and sea level
in Bangladesh. The study utilizes the 14-year satellite-derived SSTs over the Bay of Bengal for 1985–1998, the tide gauge
stations data along the Bangladesh coast for 1977–1998 and the 31-year monsoon rainfall data for Bangladesh, 1961–1991.
Received October 20, 2000 相似文献
3.
Changes of Accumulated Temperature, Growing Season and Precipitation in the North China Plain from 1961 to 2009 
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下载免费PDF全文 Using the high-quality observed meteorological data, changes of the thermal conditions and precipitation over the North China Plain from 1961 to 2009 were examined. Trends of accumulated temperature and negative temperature, growing season duration, as well as seasonal and annual rainfalls at 48 stations were analyzed. The results show that the accumulated temperature increased significantly by 348.5℃ day due to global warming during 1961-2009 while the absolute accumulated negative temperature decreased apparently by 175.3℃ day. The start of growing season displayed a significant negative trend of -14.3 days during 1961- 2009, but the end of growing season delayed insignificantly by 6.7 days. As a result, the length of growing season increased by 21.0 days. The annual and autumn rainfalls decreased slightly while summer rainfall and summer rainy days decreased significantly. In contrast, spring rainfall increased slightly without significant trends. All the results indicate that the thermal conditions were improved to benefit the crop growth over the North China Plain during 1961-2009, and the decreasing annual and summer rainfalls had no direct negative impact on the crop growth. But the decreasing summer rainfall was likely to influence the water resources in North China, especially the underground water, reservoir water, as well as river runoff, which would have influenced the irrigation of agriculture. 相似文献
4.
Rainfall characteristics during the annual rainy season are explored for the Mzingwane catchment of south-western Zimbabwe, for both historic period (1886–1906) and more recent times (1950–2015), based on available daily and monthly precipitation series. Annual and seasonal rainfall trends are determined using the modified Mann-Kendall test, magnitude of trends test and Sen’s slope estimator. Rainfall variability is quantified using the coefficient of variation (CV), precipitation concentration index (PCI) and standard precipitation index (SPI). Results suggest that contemporary mean annual rainfall may not have changed from that measured during the historic period of 1886–1906. However, the number of rainy days (≥ 1 mm) has decreased by 34%, thus suggesting much more concentrated and increased rainfall intensity. A notable shift in both the onset and cessation dates of the rainy season is recorded, particularly during the twenty-first century, which has resulted in a significantly reduced (p < 0.05) length of the rainy season. The combination of a reduced number of rainy days (≥ 1 mm) and a shortened rainy season suggests that long intra-season dry spells have become more common through time and have considerable negative consequences for agriculture and wetland ecosystem in the region. In addition, high spatio-temporal rainfall variability and seasonal PCI values indicate strong seasonality in the rainy season. Based on the SPI results, the El Niño Southern Oscillation (ENSO) strongly influences rainfall variability. The results further suggest high uncertainty in rain season characteristics, which requires effective planning for water needs. 相似文献
5.
The aim of this study was to investigate long-term seasonal trends and decadal change patterns of monthly mean water vapor
pressure (WVP) observation series at 16 meteorological stations scattered point-wisely over the Southeastern Anatolian Project (GAP) area in Turkey, where large-scale soil and water development projects have been put into practice since the 1970s. The record
length of WVP observation series of each station varied between 31- and 41-years between 1962 and 2002. The monthly mean WVP
observation series of each station was rearranged on seasonal basis. Sequential Mann–Kendall trend test, Sen’s slope estimator,
and Spearman’s rank–order correlation tests were employed for detection of likely trends, and Kruskall–Wallis test was used
to detect decadal variations in WVP series of each observation station. A possible area of representation for each meteorological
station was determined by using the Thiessen polygons technique in a geographical information systems media. It was found
that 15 seasonal WVP series have a positive trend covering 97% of the GAP area in the summer season; although one WVP series
has a negative trend direction. However, in the spring season, 33% of the area had a positive trend, and a negative trend
did not appear in any stations. WVP records in the winter season showed an increasing trend over 19% of the GAP area, whereas
a decreasing trend prevailed in 9% of the area. The study results led us to conclude that the substantial increase of WVP
observations in summer season could be attributed to both the shift from rain-fed agriculture to irrigated agriculture being
made increasingly spacious year by year and building large water reservoirs in the GAP located in a semi-arid region. The
results also indirectly suggested that the historical trends in the WVP parameters might be related to global climate change
phenomenon. 相似文献
6.
F. N. W. Nsubuga J. M. Olwoch C. J. deW. Rautenbach O. J Botai 《Theoretical and Applied Climatology》2014,115(1-2):53-71
A methodology has been applied to investigate the spatial variability and trends existent in a mid-twentieth century climatic time series (for the period 1943–1977) recorded by 58 climatic stations in the Albert–Victoria water management area in Uganda. Data were subjected to quality checks before further processing. In the present work, temporal trends were analyzed using Mann–Kendall and linear regression methods. Heterogeneity of monthly rainfall was investigated using the precipitation concentration index (PCI). Results revealed that 53 % of stations have positive trends where 25 % are statistically significant and 45 % of stations have negative trends with 23 % being statistically significant. Very strong trends at 99 % significance level were revealed at 12 stations. Positive trends in January, February, and November at 40 stations were observed. The highest rainfall was recorded in April, while January, June, and July had the lowest rainfall. Spatial analysis results showed that stations close to Lake Victoria recorded high amounts of rainfall. Average annual coefficient of variability was 19 %, signifying low variability. Rainfall distribution is bimodal with maximums experienced in March–April–May and September–October–November seasons of the year. Analysis also revealed that PCI values showed a moderate to seasonal rainfall distribution. Spectral analysis of the time components reveals the existence of a major period around 3, 6, and 10 years. The 6- and 10-year period is a characteristic of September–October–November, March–April–May, and annual time series. 相似文献
7.
Climatic characteristics of broadband solar radiation (Rs) in Chinese arid and semi-arid areas are reported in this study. The annual average daily Rs in the arid and semi-arid areas is 16.3 ±5.77 and 15.3 ± 5.16 MJ m^-2 d^-1, respectively. The highest value (17.2 ± 5.84 MJ m^-2 d^-1) appears in an arid area at Linze. The lowest value appears in the semi-arid area of Ansai. Pronounced seasonal variation of Rs is observed with the highest value in summer and the lowest in winter. The clearness index showed similar seasonal pattern at most sites, with the minimum observed in the summer and the highest values in winter at both arid and semi-arid areas. The seasonal variation of the ratio of Rs to its extraterrestrial value Kt in the arid area is more significant than that observed in the semi-arid region, and it is caused by the different range of variation of water vapor between arid and semi-arid areas. The seasonal fluctuations in Rs and Kt are mainly controlled by the water vapor content in these areas. The aerosol particles have significant influence on Rs and Kt at stations with higher aerosol burden. 相似文献
8.
Accurately predicting precipitation trends is vital in the economic development of a country. Ground observed data from the Nigeria Meteorological Agency (NIMET) was analyzed to study the long-term spatio-temporal trends of rainfall on annual and seasonal scales for 23 stations in Nigeria during a 40-year period spanning from 1974 to 2013. After testing the presence of autocorrelation, Mann–Kendall (modified Mann–Kendall) test was applied to non-autocorrelated (autocorrelated) series to detect the trends in rainfall data. Theil and Sen’s slope estimator test was used to find the magnitude of change over a time period. Pettitt’s test, Standard Normal Homogeneity Test, and Buishand’s test were further used to test the homogeneity of the rainfall series. The results show an increasing trend in annual rainfall; however, only nine stations have a significant increase during the period of study. On the seasonal time scale, a significant increasing trend was observed in the pre- and post-monsoon seasons, while only nine stations show a significant increasing trend in monsoon rainfall and a significant decreasing trend in the winter rainfall over the last 40 years. During the study period, 15.4 and 13.90 % increase were estimated for annual and monsoonal rainfall, respectively. Furthermore, seven stations exhibit changes in mean rainfall while majority of the stations considered (Eighteen stations) exhibit homogeneous trends in annual and seasonal rainfall over the country. The performance of the different tests used in this study was consistent at the verified significance level. 相似文献
9.
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
10.
Summary The aim of the paper lies in the identification of possible significant linear trends at monthly, seasonal and annual timescales
in the Mediterranean during the second half of the 20th century. Monthly and daily records of 63 stations have been used to
elaborate several precipitation indices: sum of daily precipitation (SDP) for rainfall >0.1 mm, >10 mm and >95th percentile, of number of rainy days (RD) >0.1 mm and >10 mm and of mean daily precipitation (MDP) >0.1 mm and >10 mm. For
each index the stations have been gathered together by Rotated Principal Component Analyses to determine 8 sub-areas which
can be considered as identical for all the timescales at the spatial scale of the research. Trends have been estimated from
the scores of each eigenvector retained in all RPCAs. They are mainly non existant or non significant decreasing, even if
a few monthly trends appear to be significantly diminishing, primarily during winter months, March in the Atlantic region,
October in the Mediterranean Spain, December in the Lions and Genoa Gulfs, January, winter and the year in Greece, winter
and the year in Italy and winter in the Near East and increasing in April in the two gulfs. Correlation coefficients between
SDP>0.1 mm and other indices have been computed: the significant trends seem mainly related to RD>10 mm, which represents
a high percentage of the total rainfall amount. Greece is remarkable: SDP>0.1 mm and >10 mm decrease significantly during
January, winter, the rainy season and the entire year whereas SDP>95th percentile increases significantly, in accordance with the climatic change scenarios for the end of this century as does
the decreasing of the total monthly and seasonal rainfall. 相似文献
11.
E. O. Oladipo 《Theoretical and Applied Climatology》1995,50(3-4):147-155
Summary The interannual variability of seasonal Bhalme-and-Mooley-type drought indices over the savanna belt of Nigeria is examined and a 57-year (1931–1987) drought area series has been derived using 34 stations. The area under drought conditions is obtained by considering areas which have drought indices of less than — 1.0. The interannual variability of the drought areas is large, demonstrating large variations in the seasonal rainfall over the region. Statistical tests suggest a significant long-term increasing trend in the areal extent of drought. In particular, there is a major shift towards an increase in the mean areal extent of drought between the two periods 1931–1960 and 1961–1987.With 4 Figures 相似文献
12.
Summary The summer monsoon rainfall over Orissa, a state of eastern India, shows characteristic intraseasonal and interannual variability,
due to interaction of basic westerly flow with orography and the synoptic scale monsoon disturbances including low-pressure
systems and cyclonic circulations extending upto mid-tropospheric level (LPSC). These systems normally develop over the north
Bay of Bengal and move west-northwestwards along the monsoon trough. The essence of this study is to find out the main features
of the intraseasonal variability of daily monsoon rainfall over Orissa in relation to synoptic systems like LPSC and its implication
on the interannual variation of rainfall. For this purpose, the actual and mean daily rainfall data of 31 uniformly distributed
stations, six homogeneous regions and Orissa as a whole during monsoon season (June–September) over a period of 20 years (1980–1999)
are subjected to auto-correlation and power spectrum analyses. The actual and average daily scores of significant EOFs and
actual daily occurrence along with daily probability of occurrence of the LPSC influencing rainfall over Orissa during the
same period are also subjected to auto-correlation and power spectrum analyses.
The intraseasonal variation of monsoon rainfall over Orissa and different homogeneous regions is dominated by the synoptic
mode (3–9 days) of variation due to the similar mode of variation in the occurrence of LPSC influencing the rainfall. The
seasonal rainfall and hence the interannual variation depends on the intraseasonal variation of rainfall modulated with the
synoptic mode of variation in the occurrence of the LPSC. The occurrence of LPSC over the northwest (NW) Bay/NW and adjoining
northeast (NE) Bay and its subsequent movement and persistence over Orissa and east Madhya Pradesh & Chhattisgarh in synoptic
mode (3–6 days) alongwith absence of similar mode in the occurrence of the LPSC over NE Bay, Gangetic West Bengal (GWB) in
the north and west central (WC) Bay to the south leads to excess rainfall over different homogeneous regions and Orissa as
a whole. The reverse is the case in deficient years over Orissa and all homogeneous regions except southwest Orissa. The occurrence
of the LPSC over GWB in synoptic mode (about 5 days) alongwith absence of synoptic mode in the occurrence of the LPSC over
NW Bay leads to deficient rainfall year over southwest Orissa.
Correspondence: U. C. Mohanty, Centre for Atmospheric Sciences, Indian Institute of Technology, Delhi Hauz Khas, New Delhi
110016, India 相似文献
13.
Stratospheric zonal wind and temperature in relation to summer monsoon rainfall over India 总被引:1,自引:0,他引:1
Summary The interannual variability of the Indian summer monsoon (June–September) rainfall is examined in relation to the stratospheric
zonal wind and temperature fluctuations at three stations, widely spaced apart. The data analyzed are for Balboa, Ascension
and Singapore, equatorial stations using recent period (1964–1994) data, at each of the 10, 30 and 50 hPa levels. The 10 hPa
zonal wind for Balboa and Ascension during January and the 30 hPa zonal wind for Balboa during April are found to be positively
correlated with the subsequent Indian summer monsoon rainfall, whereas the temperature at 10 hPa for Ascension during May
is negatively correlated with Indian summer monsoon rainfall. The relationship with stratospheric temperatures appears to
be the best, and is found to be stable over the period of analysis.
Stratospheric temperature is also significantly correlated with the summer monsoon rainfall over a large and coherent region,
in the north-west of India. Thus, the 10 hPa temperature for Ascension in May appears to be useful for forecasting summer
monsoon rainfall for not only the whole of India, but also for a smaller region lying to the north-west of India.
Received July 30, 1999 Revised March 17, 2000 相似文献
14.
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
15.
Summary The west coast of the Indian peninsula receives very heavy rainfall during the summer Monsoon (June–September) season with
average rainfall over some parts exceeding 250 cm. Heavy rainfall events with rainfall more than 15 cm day−1 at one or more stations along the west coast of India occur frequently and cause considerable damage. A special observational
programme, Arabian Sea Monsoon Experiment, was carried out during the monsoon season of 2002 to study these events. The spatial
and temporal distributions of intense rainfall events, presented here, were used for the planning of this observational campaign.
The present study using daily rainfall data for summer monsoon season of 37 years (1951–1987) shows that the probability of
getting intense rainfall is the maximum between 14° N–16° N and near 19° N. The probability of occurrence of these intense
rainfall events is high from mid June to mid August, with a dip in early July. It has been believed for a long time that offshore
troughs and vortices are responsible for these intense rainfall events. However, analysis of the characteristics of cloud
systems associated with the intense rainfall events during 1985–1988 using very high resolution brightness temperature data
from INSAT-IB satellite shows that the cloud systems during these events are characterized by large spatial scales and high cloud tops.
Further study using daily satellite derived outgoing longwave radiation (OLR) data over a longer period (1975–1998) shows
that, most of these events (about 62%) are associated with systems organized on synoptic and larger scales. We find that most
of the offshore convective systems responsible for intense rainfall along the west coast of India are linked to the atmospheric
conditions over equatorial Indian Ocean. 相似文献
16.
Summary The trends and the fluctuations in variability of surface air temperature in Italy has been investigated by statistical analysis
of historical data covering the recent 100 years. 27 stations were used for the analysis and these were distributed all over
the Italian territory divided into two climatically homogeneous zones. The temperature trends are different in each climatic
zone and season, while the interannual variability shows a similar seasonal dependence for the North and South of Italy. In
particular, summer temperature shows a characteristic pattern with alternating minima and maxima reaching significant values
in the period 1940–1970: a maximum for the North between 1940–1960 and a minimum for the South between 1960–1970.
Received February 1, 1996 Revised June 7, 1997 相似文献
17.
Summary Monthly rainfall conditions in Israel were determined, using data from 12 stations, during 30 years (1961–90). The definition
of a month to be dry, normal or wet, was done using standardized rainfall totals. Pressure departures for each of the three rainfall categories for each month
of the rainy season, were calculated and mapped. Correlation between rainfall totals at each of the 12 stations and monthly
mean sea level pressure at 72 grid points in the area delimited by the 20° W and 50° E meridians and the 20° N and 60° N parallels,
was performed. For each month, 12 correlation maps were prepared (one of each station). Similar maps were averaged together
to form coherent rainfall regions. At the beginning of the rainy season (October) the rainfall in Israel is sporadic and spotty
without a distinctable coherent region. At the end of the rainy season (April) the rainfall is more widespread, forming a
large coherent region covering most of the country.
Dry rainfall conditions in Israel, were found to be characterized by positive pressure departures in the eastern Mediterranean
and over Israel and/or by easterly or southerly circulation over the eastern Mediterranean. Wet rainfall conditions in Israel,
were found to be characterized by negative pressure departures in the eastern Mediterranean and over Israel and/or by westerly
or northerly circulation over the eastern Mediterranean. Moreover, in many cases dry conditions in Israel, were associated
with below normal pressure conditions over central or western Europe, while wet conditions in Israel, with above normal conditions
over the same region, thus, reflecting the so-called Mediterranean Oscillation. Finally, normal rainfall conditions are characterized by very slight to negligible pressure departures over the entire Mediterranean
and Europe.
Received November 18, 1997 Revised March 3, 1998 相似文献
18.
Iranian rainfall series analysis by means of nonparametric tests 总被引:1,自引:0,他引:1
P. Hosseinzadeh Talaee 《Theoretical and Applied Climatology》2014,116(3-4):597-607
The study of the trends and fluctuations in rainfall has received a great deal of attention, since changes in rainfall patterns may lead to floods or droughts. The objective of this study was to analyze the annual, seasonal, and monthly rainfall time series at seven rain gauge stations in the west of Iran for a 40-year period (from October 1969 to September 2009). The homogeneity of the rainfall data sets at the rain gauge stations was checked by using the cumulative deviations test. Three nonparametric tests, namely Kendall, Spearman, and Mann–Kendall, at the 95 % confidence level were used for the trend analysis and the Theil–Sen estimator was applied for determining the magnitudes of the trends. According to the homogeneity analysis, all of the rainfall series except the September series at Vasaj station were found to be homogeneous. The obtained results showed an insignificant trend in the annual and seasonal rainfall series at the majority of the considered stations. Moreover, only three significant trends were observed at the February rainfall of Aghajanbolaghi station, the November series of Vasaj station, and the March rainfall series of Khomigan station. The findings of this study on the temporal trends of rainfall can be implemented to improve the water resources strategies in the study region. 相似文献
19.
Summary Groundnut production strongly contributes to Senegal’s economy. Interannual variations of groundnut yield for the country
as a whole, and their relationship with rainfall amounts, are examined for the 31-yr period 1960–1990. It is shown that on
that scale, and after removing decadal trends, almost half of the variance is explained by rainfall variability, especially
that of the early part of the rainy season (July–August). Given the high spatial coherence of seasonal rainfall in the region,
teleconnections with global- and regional-scale climate dynamics, including sea-surface temperatures, are assessed. Though
some features are similar to the rest of the Sahel, others are more specific, such as the higher sensitivity to ENSO (El-Ni?o
Southern Oscillation) and to coupled ocean-atmosphere climate anomalies over the nearby Tropical North Atlantic Ocean, which
are associated to the latitudinal location of the ITCZ over the ocean. Lag-correlations with pre-season SST are also discussed.
Some of these teleconnections are used to define preliminary empirical models for rainfall and groundnut yield prediction
for Senegal.
Received March 23, 1998 Revised January 11, 1999 相似文献
20.
A comparison is made between modelled (NCEP/NCAR reanalysis) and observed (CRC and CRU dataset) annual and monthly precipitation
over tropical Africa during the period 1958–1997. The split moving-windows dissimilarity analysis (SMWDA) is used to locate
abrupt changes in rainfall time series. In the NCEP reanalysis data, we identify a main abrupt shift, which occurs in 1967
and concerns more than 50% of grid points. In the observation, this shift is only found over parts of tropical North Africa.
Three other NCEP abrupt shifts (1975, 1983 and 1987) in the reanalysis shown by the SMWDA, each concerning about 20% of tropical
Africa, are not identified in the observation. One hypothesis concerning the 1967 marked abrupt shift is a problem of data
assimilation in the NCEP/NCAR model which generated artificial shifts in the time series. In view of this result, further
comparisons have been restricted to the period 1968–1997. On a continental scale, while the CRC and NCEP mean seasonal rainfall
patterns are almost the same, however, some regional features are not well reproduced. Using five regional rainfall indexes,
the mean seasonal rainfall cycle is correctly reproduced, but the NCEP reanalysis generally underestimates the amounts during
the rainy season. The NCEP reanalysis rainfall is closer to the observation when the region shows a single rainy season. The
correlation values between NCEP and CRC interannual rainfall variations over the period 1968–1997 are very low and seldom
significant. The NCEP four main structures of rainfall variability as deducted from rotated principal component analysis are
not realistic at all and the associated time series are systematically dominated by a marked low-frequency variability not
present in the observation. However, the main teleconnections between ENSO and African rainfall variations are fairly well
reproduced, with a correct location of the main structures, but with lower correlation values than those found in the observation.
Received: 22 September 1999 / Accepted: 10 May 2000 相似文献