ࡱ> npms Ubjbj ooLGD3NNNNN3]O(O(OOQP)X)X)Xh]j]j]j]j]j]j]{^a*j])XVX")X-Xj]E[OQP]E[E[E[1XO^QPh]E[)Xh]E[E[[^[ KuN[@[[]0][GbE[Gb[E[[)X)X)X337MD33M i:   Theory The Standardized Precipitation Index (SPI) is a tool which was developed primarily for defining and monitoring drought. It allows an analyst to determine the rarity of a drought at a given time scale (temporal resolution) of interest for any rainfall station with historic data. It can also be used to determine periods of anomalously wet events. The SPI is not a drought prediction tool. Mathematically, the SPI is based on the cumulative probability of a given rainfall event occurring at a station. The historic rainfall data of the station is fitted to a gamma distribution, as the gamma distribution has been found to fit the precipitation distribution quite well. This is done through a process of maximum likelihood estimation of the gamma distribution parameters, ( and (. In simple terms, the process described above allows the rainfall distribution at the station to be effectively represented by a mathematical cumulative probability function. Therefore, based on the historic rainfall data, an analyst can then tell what is the probability of the rainfall being less than or equal to a certain amount. Thus, the probability of rainfall being less than or equal to the average rainfall for that area will be about 0.5, while the probability of rainfall being less than or equal to an amount much smaller than the average will be also be lower (0.2, 0.1, 0.01 etc, depending on the amount). Therefore if a particular rainfall event gives a low probability on the cumulative probability function, then this is indicative of a likely drought event. Alternatively, a rainfall event which gives a high probability on the cumulative probability function is an anomalously wet event. For more information on the mathematical background to the SPI, please refer to Dan Edwards masters thesis, available at  HYPERLINK ftp://ccc.atmos.colostate.edu/pub/spi.pdf ftp://ccc.atmos.colostate.edu/pub/spi.pdf . You may also visit the SPI webpage of the Colorado Climate Center at  HYPERLINK http://ulysses.atmos.colostate.edu/SPI.html http://ulysses.atmos.colostate.edu/SPI.html ) In the instance described above, rainfall is the variate in a gamma distribution function. The function will have a standard deviation and a mean which depends on the rainfall characteristics of that area. If a probability function for a station in a different area is calculated, it will most likely have a very different standard deviation and a different mean. Therefore it will be very difficult to compare rainfall events for two or more different areas in terms of drought, as drought is really a below-normal rainfall event. And what is normal rainfall in one area can be surplus rainfall in another area, speaking strictly in terms of rainfall amounts. What therefore is the solution? The solution is to transform your cumulative probability gamma function into a standard normal random variable Z with mean of zero and standard deviation of one. A new variate is formed, and the transformation is done in such a way that each rainfall amount in the old (gamma) function has got a corresponding value in the new (transformed) Z function. And the probability that the rainfall is less than or equal to any rainfall amount will be the same as the probability that the new variate is less than or equal to the corresponding value of that rainfall amount. All probability functions which have been fitted for different rainfall station data can be transformed in this way, and the resultant transformed variate is always in the same units. This is where SPI comes in. I mentioned earlier that the standard normal distribution has a mean of zero and a standard deviation of one. The SPI is a representation of the number of standard deviations from the mean at which an event occurs, often called a z-score. The unit of the SPI can thus be considered to be standard deviations. Standard deviation is often described as the value along a distribution at which the cumulative probability of an event occurring is 0.1587. In a like manner, the cumulative probability of any SPI value can be found, and this will be equal to the cumulative probability of the corresponding rainfall event. Table 1. below gives the cumulative probabilities for various SPI values. SPICumulative Probability-3.00.0014-2.50.0062-2.00.0228-1.50.0668-1.00.1587-0.50.30850.00.50000.50.69151.00.84131.50.93322.00.97722.50.99383.00.9986 Table 1: SPI and cumulative Probabilities In summary therefore, the SPI can effectively represent the amount of rainfall over a given time scale, with the advantage that it provides not only information on the amount of rainfall, but that it also gives an indication of what this amount is in relation to the normal, thus leading to the definition of whether a station is experiencing drought or not. It gives output in units of standard deviation from the average based on as-long-a-rainfall-distribution-as-there-is-data-for. The longer the period used to calculate the distribution parameters, the more likely you are to get better results (e.g. 50 years better than 20 years). Therefore, you can use a very long time period (e.g. 1920-1998) to calculate the parameters of the distribution and then extract the SPI values for only a given time period (could be one year, or a number of years to give a time series). The theory section (above) is based on Chapter 3 of Dan Edwards masters thesis. Uses of the SPI Some of the advantages which can be derived from the SPI are as follows. Plotting a time series of year against SPI gives a good indication of the drought history of a paricular station. Figure 1 below shows the SPI calculated for 6 month rainfall totals (October-November-December-January-February-March) from 1980 to 1998, based on a gamma distribution function fitted for data from 1922 1998. Figure 2 below is a graph showing the actual 6-monthly rainfall totals from the corresponding time period. As an interpretation key, the amount shown on the scale for 1987 is the sum of rainfall from October 1986 to March 1987. These two graphs show quite well, from the similar trend they follow, the close relationship between the SPI and actual rainfall.  To summarize the interpretation of the SPI: High SPI value ( closer to 3 ) : heavy precipitation event over time period specified Medium SPI value ( approximately = 0 ) : normal precipitation event over time period specified Low SPI value ( closer to -3 ) : low precipitation event over time period specified (drought ?) Remember that the heaviness or lowness of a precipitation event in the SPI is relative to the rainfall characteristics of that area. The advantage of the SPI approach in this regard however, is that it can be used more beneficially than rainfall in spatial analysis for drought. This is because of the possibility of comparing different stations in different climatic regions (or climatic sub-regions) regardless of the fact that they may have different normal rainfalls. This being because in SPI, the rainfall is already normalized and compares the current rainfall with the average. Therefore the rainfall of two areas with different rainfall characteristics can be compared in terms of how badly they are experiencing drought conditions since the comparison is in terms of their normal rainfall. The concept is somewhat similar to a rainfall difference-from-average map. The advantage of the SPI over the difference-from-average map however is that while the latter will only indicate the numerical magnitude of variation (e.g. 40mm less, 10mm more etc) without stating how much less than what (is it 40mm less than 80mm, or 40mm less than 200mm), the SPI shows the statistical magnitude of deviation from the average, and therefore better portrays the seriousness of the shortage At a more advanced level of analysis, a raster SPI map can be generated form a series o rainfall estimation images, using advanced GIS analyses. The SEDI routine could be used to generate such rainfall estimation images from as far back as the data goes (c.f. SADC Climate Information System). Another possibility in terms of use of SPI would be monitoring by assessing the change in SPI over short time periods (e.g., time series for SPIoct, SPInov, SPIdec, SPIjan, SPIfeb, SPImar. One plausible question one might like to ask is where an investigation into the relationship between SPI and CCDs could lead. A lot of functions for which rainfall and related data is currently being used could equally be used with SPI for drought monitoring. One other use to which the SPI is currently being applied is the studying of a site or regions drought history, including an analysis of frequency and duration for a magnitude ranking of sorts. This is currently being done on the UNIX version, through other programs which use the SPI. The advantage of the SPI from a temporal view-point is related to the program itself. The program allows you to calculate SPI for rainfall totals of different time periods namely, 3 month, 6 month, 12 month and 24 month rainfall totals. This allows the analyst to study time rainfall events at different time scales. The time scales are, unfortunately hard coded into the program so they cannot be changed to time scales which we are more familiar with, such as one dekad, or one month. This is only true for the PC version o the SPI program, as it seems that time lengths can be specified by the user on the UNIX version. It should however be possible to recompile the PC version to allow the entry of user defined time lengths. Appendix 1 shows some graphs which were generated from SPI for 3 month, 6 month and 12 month rainfall totals over different time periods. Time periods which could prove to be interesting to the analyst are suggested below OND JFM ONDJFM JFMAMJJASOND JASONDJFMAMJ Each month is represented by its first letter e.g. OND = October November December (Total precipitation for those three months). Program operation The SPI program is relatively easy to operate. Prepare an input file with all your data for one station in the following format Header yyyy mm pppp yyyy mm pppp yyyy mm pppp yyyy mm pppp yyyy mm pppp yyyy mm pppp yyyy mm pppp yyyy mm pppp etc where Header = a string which describes the file, or something about the station, etc yyyy = year mm = month (in digit format 1,2,3 etc) pppp = precipitation multiplied by 100 do not put etc in the input file, but more like entries. The yyyy mm and pppp may either be separated by space or commas. Missing values are denoted by -9900 Name this file stdin (with no extension)and put it in the same directory as the SPI program. Go to that directory at the DOS prompt and type SPI. Your output will be written to the file stdout (in the same directory), and any error messages will be written to the file stderr. If the program runs correctly, there should be nothing written to the stderr file (and it will be zero bytes in size). However, some possible causes of error which may cause the program to not run properly are: The precipitation values entered contain decimals after multiplying by 100. The actual input precipitation values should be integers (after multiplying by 100, that is), so your actual precipitation should not contain more than 2 decimal places The input file contains too few values. There should be at least a minimum number of precipitation values for each month. I do not know how many is the minimum, but if you enter data for only one year, you will get an error, and nothing will be calculated. An example of what your input file should look like is given in appendix 2. The output of the program is in the following format Header yyyy mm spi3 spi6 spi12 spi24 yyyy mm spi3 spi6 spi12 spi24 yyyy mm spi3 spi6 spi12 spi24 yyyy mm spi3 spi6 spi12 spi24 yyyy mm spi3 spi6 spi12 spi24 yyyy mm spi3 spi6 spi12 spi24 yyyy mm spi3 spi6 spi12 spi24 etc Where yyyy and mm are as before spi3 = SPI for a 3 month rainfall total spi6 = SPI for a 6 month rainfall total spi12 = SPI for a 12 month rainfall total spi24 = SPI for a 24 month rainfall total An sample output file is shown in appendix 3. Put in as many years as possible within a single climatic period (I mention this because of the possibility of climate change) and only extract the SPIs you are interested in. I have written some short programs to extract periods of interest, and I will make them publicly available as soon as they are more user-friendly. In the same vein, macros can be written in Excel to automatically plot any curves of interest. In the interpretation of the results be sure to remember that the SPI value in, say, the 3-month column, is based on the rainfall total for 3 months, including the month against which the SPI value is plotted. For example, the 3-month SPI for March, 1977 is based on the total rainfall for January, February, and March 1977. The same is true for 6 month, 12 month, and 24 month totals Disadvantages of the program Currently there are 2 disadvantages to the SPI program. One is that time scale of analysis are hardcoded into the program and cannot be changed. The second is that, according to the source code, it would seem that the program can only be used for rainfall data between 1880 and 2000. We might say that it is not year 2001 compliant. This however can be corrected by recompiling the program. SADC Regional Remote Sensing Unit January 2000 Appendix 1: Graphs generated from SPI for 3, 6, and 12 month rainfall totals     Appendix 2: Sample input file The file has been truncated The preciptation for 1970 through 1990 multiplied by 100 (for SPI program) 1970 1 610 1970 2 4290 1970 3 430 1970 4 2570 1970 5 0 1970 6 3330 1970 7 200 1970 8 0 1970 9 0 1970 10 740 1970 11 4420 1970 12 9750 1971 1 16130 1971 2 1730 1971 3 280 1971 4 5000 1971 5 970 1971 6 0 1971 7 0 1971 8 0 1971 9 770 1971 10 2760 1971 11 11480 1971 12 7690 1972 1 36020 1972 2 7970 1972 3 2430 1972 4 10150 1972 5 3050 1972 6 230 1972 7 0 1972 8 110 1972 9 510 1972 10 3960 1972 11 2410 1972 12 1720 1973 1 5420 1973 2 370 1973 3 830 1973 4 950 1973 5 380 1973 6 900 1973 7 130 1973 8 840 1973 9 5430 1973 10 3290 1973 11 8080 1973 12 36770 1974 1 15730 1974 2 14670 1974 3 4600 1974 4 3390 1974 5 540 1974 6 0 1974 7 100 1974 8 80 1974 9 1700 1974 10 290 1974 11 18290 1974 12 24270 1975 1 8050 1975 2 19920 1975 3 7980 1975 4 9930 1975 5 3020 1975 6 210 1975 7 0 1975 8 1360 1975 9 0 1975 10 3030 1975 11 2010 1975 12 10040 1976 1 3820 1976 2 12080 1976 3 15650 1976 4 2870 1976 5 3180 1976 6 380 1976 7 70 1976 8 0 1976 9 470 1976 10 5160 1976 11 9610 1976 12 8320 Appendix 3: Sample output file the file has been truncated The preciptation for 1970 through 1990 multiplied by 100 (for SPI program) 1970 3 -2.12 -99.00 -99.00 -99.00 1970 4 -1.06 -99.00 -99.00 -99.00 1970 5 -1.14 -99.00 -99.00 -99.00 1970 6 .42 -1.59 -99.00 -99.00 1970 7 1.08 -.82 -99.00 -99.00 1970 8 1.73 -.56 -99.00 -99.00 1970 9 -1.39 -.01 -99.00 -99.00 1970 10 -1.89 -.66 -99.00 -99.00 1970 11 -1.11 -.53 -99.00 -99.00 1970 12 -.57 -.67 -2.13 -99.00 1971 1 .15 -.20 -1.02 -99.00 1971 2 -.30 -.67 -1.01 -99.00 1971 3 -.58 -.83 -.97 -99.00 1971 4 -1.10 -.44 -.68 -99.00 1971 5 -.36 -.40 -.58 -99.00 1971 6 .43 -.46 -.74 -99.00 1971 7 -.45 -1.19 -.75 -99.00 1971 8 -1.67 -.62 -.76 -99.00 1971 9 -.45 .15 -.77 -99.00 1971 10 -.35 -.58 -.64 -99.00 1971 11 .63 .47 -.37 -99.00 1971 12 .19 .10 -.56 -1.78 1972 1 1.33 1.26 .48 -.35 1972 2 .88 .90 .70 -.23 1972 3 1.05 .76 .77 -.16 1972 4 .23 .94 .87 .10 1972 5 .91 .92 .90 .19 1972 6 1.60 1.30 .91 .11 1972 7 .98 .31 .92 .10 1972 8 -.56 .83 .93 .10 1972 9 -.62 1.46 .95 .11 1972 10 -.03 .28 .97 .21 1972 11 -.69 -.84 .73 .16 1972 12 -1.62 -1.59 .66 -.03 1973 1 -1.57 -1.64 -1.31 -.50 1973 2 -2.14 -2.11 -1.64 -.55 1973 3 -1.88 -2.22 -1.68 -.52 1973 4 -2.17 -2.15 -2.11 -.62 1973 5 -1.45 -2.20 -2.22 -.61 1973 6 -.62 -1.90 -2.14 -.58 1973 7 -.07 -2.04 -2.15 -.58 1973 8 .90 -1.17 -2.10 -.55 1973 9 2.06 .55 -1.81 -.41 1973 10 1.06 .88 -1.79 -.39 1973 11 .86 .93 -1.59 -.53 1973 12 2.10 2.20 .40 .53 1974 1 1.54 1.73 .83 -.23 1974 2 1.45 1.50 1.30 -.02 1974 3 .51 1.26 1.39 .05 1974 4 .38 1.16 1.30 -.15 1974 5 .03 1.18 1.26 -.22 1974 6 -.05 .40 1.23 -.22 1974 7 -.83 .27 1.24 -.22 1974 8 -.91 -.16 1.22 -.23 1974 9 .39 -.08 1.16 -.19 1974 10 -.95 -1.25 1.04 -.31 1974 11 1.25 1.13 1.47 .19 1974 12 1.78 1.67 1.36 1.01 1975 1 1.14 .98 .94 1.06 1975 2 .90 1.11 1.04 1.49 1975 3 .56 1.12 1.13 1.65 1975 4 1.22 1.29 1.21 1.79 1975 5 1.41 1.10 1.24 1.79 1975 6 1.56 .87 1.24 1.78 1975 7 .96 1.28 1.25 1.79 1975 8 .71 1.49 1.29 1.80 1975 9 .06 1.53 1.29 1.70 1975 10 -.08 .23 1.34 1.70 1975 11 -1.14 -.97 .92 1.65 1975 12 -.55 -.52 .51 1.08 1976 1 -.89 -1.02 .19 .66 1976 2 -.41 -.78 -.20 .50 1976 3 .32 -.12 .18 .82 1976 4 .85 -.05 -.10 .78 1976 5 1.47 .22 -.07 .82 1976 6 .52 .36 -.06 .84 1976 7 1.13 .93 -.06 .84 1976 8 -.37 1.46 -.12 .84 1976 9 -.73 .20 -.12 .82 1976 10 .25 .56 -.02 .95 1976 11 .66 .56 .29 .76 1976 12 .30 .19 .30 .38 1977 1 .19 .15 .69 .49 1977 2 .51 .57 1.01 .48 1977 3 1.17 .90 .93 .67 1977 4 1.14 .69 .75 .36 1977 5 .89 .63 .65 .29 1977 6 -1.26 .92 .64 .29 1977 7 -.44 1.09 .64 .30 1977 8 .10 .86 .67 .28 1977 9 2.19 .41 .88 .45 1977 10 1.26 1.00 .82 .48 1977 11 .57 .53 .70 .59 1977 12 .59 .94 1.35 .95 1978 1 1.02 1.25 1.81 1.56 1978 2 1.45 1.42 1.66 1.73 1978 3 1.46 1.24 1.35 1.48 1978 4 1.47 1.37 1.55 1.65 1978 5 1.41 1.53 1.50 1.55 1978 6 1.65 1.68 1.51 1.55 1978 7 .25 1.47 1.52 1.57 1978 8 -.42 1.39 1.51 1.57 1978 9 .41 1.70 1.44 1.61 1978 10 1.23 1.12 1.55 1.71 1978 11 .93 .84 1.77 1.74 1978 12 .61 .59 1.98 2.01 1979 1 .09 .33 1.35 1.96 1979 2 -.06 .18 .61 1.47 1979 3 .17 .27 .62 1.27 1979 4 .05 -.01 .13 1.23 1979 5 .04 -.09 .08 1.18 1979 6 -1.33 -.09 .10 1.18 1979 7 -.65 -.06 .10 1.20 1979 8 .34 .01 .12 1.19 1979 9 -.19 -1.46 .05 1.06 1979 10 .90 .60 .02 1.17 1979 11 1.04 1.02 .14 1.38 1979 12 1.05 .93 .38 1.44 1980 1 .30 .43 .14 .93 1980 2 .40 .61 .53 .65 1980 3 .21 .51 .29 .51 1980 4 .29 .25 .29 .15 1980 5 -.91 .10 .30 .12 1980 6 -1.17 -.03 .30 .12 1980 7 -.84 .18 .29 .12 1980 8 .10 -1.00 .30 .13 1980 9 .84 -.64 .37 .14 1980 10 -.68 -1.00 .06 -.12 1980 11 .63 .58 .16 .06 1980 12 .33 .41 .05 .13 PAGE 1 PAGE 1 The Standardized Precipitation Index (SPI)  EMBED Excel.Sheet.8   EMBED Excel.Sheet.8  Figure 1 Figure 2  EMBED Excel.Sheet.8  The Standardized 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