ࡱ> wytuv{|T5@ tbjbj22 4XX֊jjjjDd(FFFFѲѲѲ R"mGѲFFGGGFFGGG_F Xj D 0#b#$J#Ѳ߷G{_<ѲѲѲdj= jINFLUENCE OF DRAINAGE SYSTEMS ON CONTAMINATION WATER AND SOIL Ivan `imuni, Franjo Tomi, Lepomir oga Faculty of agriculture University of Zagreb, Croatia, e-mail:  HYPERLINK "mailto:simunic@agr.hr" simunic@agr.hr ABSTRACT This study was aimed: at determining the concentration and leaching of nitrate, atrazine and heavy metals in drainage water and at determining the concentration of atrazine and heavy metals (Pb, Zn and Cd) in hydroameliorated soil.. The study was conduced on reclamation test field, during of four years. The crop corn was grown. The weed protection was primextra. Nitrogen fertilization rate was 145 kg.ha-1 to 175 kg.ha-1 Based on the results, it may be concluded that concentrations of atrazine and NO3 N in drainage waters exceeded the allowable values (0.1 g.dm-3) and (10 g.dm-3), while the concentrations of heavy metals were below from limited values, like and concentrations of atrazine and heavy metals in soil. Since the concentrations of atrazine and NO3  N in drainage water exceeded the allowable values they need to be monitored and the actions need to be taken for their reduction. Key words: reclaimed soil, drainage water, nitrates, atrazine, heavy metals INTRODUCTION Different drainage systems with agricultural practices and applications of mineral fertilizers and herbicides may affect through different pollutants on contamination drainage water and hydroameliorated soil, this is, could influence on eutrophication of watercourses. In various soil plant systems pollutants may represent a potencial risk to the environment (Capriel et al. 1985, Mikanov et al. 2001) and uptake by plants and subsequent input into food chain (Borovka et al.1996, 1997). The danger ensuing from their tendency to accumulate in vital organs of humans, animals and plants (bake et al. 1972, Pratt and Jury, 1984, Santa Maria et al. 1986) Drainage systems and contamination have been the subject of many studies, among which are: Jani and Klaghofer (1975), Frster (1984), Bocken (1987), Gaynor et al (1989), Milburn and Richards (1994), Webster et al. (1999), Accinelli et al. (2002) `imuni at al. (2002a, 2000b and 2002c). In view of the above facts, this study was aimed -at determining the concentration and leaching of nitrate, atrazine and heavy metals in drainage water; -at determining the concentration of atrazine and heavy metals in hydroameliorated soil, since 161 530 ha of underground drainage systems have been built in Croatia (Maruai, 1995). 2. MATERIAL AND METHODS Trials were carried out on the experimental amelioration field  Jelena ak - near Kutina (central Sava valley) on soil type defined as hydroameliorated Gleyic Podzoluvisol. Trial variants involved pipe drainage spacing of 15 m, 20 m, 25 m and 30 m, set up in four replications. All variants were combined with gravel as contact material ( 5-25 mm) in the drainage ditch above the pipe. Drainpipe characteristics were: length 95 m, diameter 65 mm, average slope 3 and average depth 1 m. Drainpipes discharged directly into open channels. Variants covered areas of: 1425 m2, 1900 m2, 2375 m2 and 2850 m2. Pipes were plastic (PVC)- annular- ribbed and perforated. The same crop was grown and the same agricultural practices were applied in all pipe drainage variants in each trial year (Table 1). Drainage discharge was measured continually by means of automatic electronic gauges - limnimeters. Limnimeters were set up in each variant, at the drainpipe outlet into the open canal. Sampling of drainage water were done three times each month during the discharge period and sampling of soil were done three times each two months (to atrazine) and each year (to heavy metals). Nitrates were determined by yellow coloring of phenol disulphonic acid, atrazine was determined by chromatographic analysis, while heavy metals (Pb, Zn and Cd) by AAS. The total annual quantity leached of nitrogen, atrazine and heavy metals were estimated on the basis of average yearly concentration and yearly quantity of drainage discharge. Data were statistically processed by means of the analysis of variance. Table 1: Agricultural practices and application terms for maize grown during the period YearSowing dataFertilizationProtectionHarvestApplication dateQuantity (kg N.ha-1)Application dateQuantity (l.ha-1)1991April 30April 29 July 10121 54 175May 2Primextra (6 l. ha-1 =1200 g. ha-1 atrazine)Oct 201993May 1April 30 June 1894 51 145May 2Primextra (6 l. ha-1)Oct 141996May 22May 20 July 897 48 145May 23Primextra (6 l. ha-1)Nov. 161999May 25May 23 July 21101 54 155May 27Primextra (6 l. ha-1)Oct. 203. RESULTS To facilitate interpretation of research results, the site factors - soil and precipitation - were taken into consideration. 3.1 Soil properties Drained Gleyic Podzoluvisol is located in the Sava river valley, on level relief (slope<1), at an average altitude of 96.4 m a.s.l. Before the trial was set up, the area was utilised as a pasture, which was in association with swamp vegetation (Salix sp., Juncus sp. etc.). Genetic texture of the soil profile with major hydropedological indicators is presented in Graph 1, while the major physical and chemical properties are given in Table 2. 1. Soil type: Gleyic Podzoluvisols, drained, medium deep  0 2. Main mode of soil moistening: surface and ground water  3. Vertical hydraulic conductivity:  Ap 35 35 - 75 cm = 0.011 m/day (very low)  75 - 115 cm = 0.011 m/ day (very low) Bg 75 4. Layering of soil profile:  Ap - Bg - Gso/r - Gr,c  115 5. Depth to impervious horizon, D in m:  Gso/r ca. 2 m Mean rise of groundwater level, measured from 130 soil surface: ca. 75 cm.  Gr,c Figure 1. Genetic texture of Gleyic Podzoluvisol Table 2: Major properties of drained Gleyic Podzoluvisol HorizonDepth (cm) Content of particles (%) Porosity (%) Capacity (%) Permeability (m/day)Bulk density (g.cm-3)pHHumus (%)SiltClay%WaterAirH2O1M KClAp0-354746484440.0111.356.75.33.0Bt,g35-754548494540.0106.55.2Gso75-1155539464240.0117.97.1Gr115-130632549454 The soil has silty clayey texture to the depth of 0.75 m. The clay content of this soil section is in the range of 46-48 %, and the silt content is 45-47 %. The soil depth of 0.75-1.15 m is of lighter texture. The silt component preponderates in soil texture (55%), while the clay content decreases (39%). Soil texture at depths over 1.15 m is silty loamy. The soil is porous with the total pore volume of 48-49 %. Soil water capacity is 42-45 %. Air capacity is low - 4 %. Vertical hydraulic conductivity is very low (0.011 m/day). 3.2 Precipitation characteristics For the needs of this work, fluctuations of precipitation and drainage discharge have been studied in terms and out of the growing season. The four-year precipitation ranged from 897 mm (1996/97) to 1025 mm (1996/97). The primary precipitation maximum was recorded in the autumn period and the secondary maximum generally in late spring. Results from Table 3 point to a relatively high precipitation, which had a substantial effect on the particular pollutants leaching dynamics. Table 3: Total monthly and annual precipitation and its mean values(mm) YearVVIVIIVIIIIXXXIXIIIIIIIIIV1991/9215620160525015210821154578599161993/944413430119901071651125058377910251996/97713190831904613579445526458951999/0010789866695729210429376377917 Hydrological relations Drainage discharge and duration are important indicators of pipe drainage efficiency in draining excess water from soil. Systems with higher discharge and its shorter duration are more efficient. It would be impossible to estimate the quantity of leached pollutants in the tested pipe drainage variants without determining the quantity and dynamics of drainage discharge. Values of the said indicators for different drainpipe spacings are presented in Table 4 Table 4: Quantities of drainage discharge (mm) and total duration drainage discharge (days) per variants VariantYearPrecipitation (mm)Drainage dischargeDuration of drainage discharge (days)Quantity of drainage discharge (l/sec)mm% of precipitationR 151991/9291622824.91340.20R 2021923.91360.19R 2521323.31390.18R 3022925.01410.19R 151993/94102526626.01670.18R 2027126.41700.18R 2526826.11770.18R 3027727.01820.18R 151996/9789519822.11400.16R 2019822.11460.16R 2520322.71530.15R 3019922.21570.15R 151999/0091717419.01240.16R 2017519.11260.16R 2516618.11290.15R 3017118.61290.15 It can be seen from Table 4 that there are certain differences in the quantity of drainage discharge, both between the tested variants in each year and between the trial years. The largest quantities of discharge in all variants were recorded in the out of the growing season, when evaporation is the lowest, precipitation is the most abundant and there is no vegetable cover on soil, or plants are in their initial development stage. There are several reasons for these differences in drainage discharge, primarily the different total annual quantity and distribution of precipitation, as well as the different efficiency of each particular pipe drainage system. According to Kla i et al. (1998) an average drainage discharge was 246 mm or 22.5% of total precipitation (1094 mm). Also there are yearly and seasons differences in the duration of drainage discharge between the tested pipe drainage systems. Duration of drainage discharge increases with the width of drainpipe spacing and with the quantity of precipitation and vice versa, narrower spacing and less precipitation cause shorter drainage discharge. We relate the duration of drainage discharge to the efficiency of each particular pipe drainage system and to all other factors mentioned for drainage discharge. The foregoing allows the conclusion that narrower drainpipe spacing is more efficient in these edaphic conditions, which is especially expressed in more humid years. Petoai et al. (1998) report that the variant involving drainpipe spacing of 10 m rendered the best results in terms of drainage discharge intensity. 3.4. Concentration nitrate nitrogen and leaching in drainage water Results on the nitrate concentration in drainage water are presented per variants in Table 5. Table 5: Average and maximum concentration NO3-N (mg.dm-3) in drainage water, per variants Vari.1991/921993/941996/971999/00AverMaxAverMax.AverMax.AverMaxR 1516.2532.8212.9029.1510.2120.059.5118.15R 2013.9530.9312.2229.0310.3620.818.9919.24R 2515.6731.6712.8829.1310.5820.349.5420.21R 3015.2630.6311.9529.0710.5119.919.4718.43 Maximum concentrations of NO3-N in all variants during the four-year trial period exceeded the concentration of 10 mg.l-1 (Table 5), which is maximal admission concentration of nitrates in water. The highest maximum concentration for all variants was recorded in 1991/92 and the lowest maximum concentration in 1999/00 . Average values of NO3-N concentrations (for all variants) only in 1999/00 were below 10 mg.dm-3, while the by far highest average concentrations was recorded in 1991/92. It can be seen (Figure 2. pipe drainage spacing of 15 m) that the maximum NO3-N concentrations of all variants in all years were determined either in the spring or in the summer, soon after sowing and topdressing, which generally coincided with primary or secondary precipitation (that is, after higher drainage discharge) maxima. Higher fertilization and higher drainage discharge caused higher concentrations. The foregoing points to the conclusion that drainage water is exceeded maximal admission concentration of nitrates in one part of the year (until six monds after second application of fertilization)- (Figure 2 to distance 15 m). Similar results for drainage water were obtained in a three-year study done by Jani and Klaghofer (1975) in Petzenkirchen (Lower Austria). They determined an average NO3-N concentration of 14. 3 mg.l-1. Foerster (1984) estimated an average concentration of NO3-N in drainage water of 24.5 mg.l-1 38.3 mg.l-1 in northwestern Germany. `imuni et al. (2002a) recorded an maximum NO3-N concentration of 28.79 mg/l -32.43 mg/l.  Figure 2. Fluctuation of NO3-N concentration in drainage water The total quantity of leached nitrogen and its percentage relative to the total nitrogen added with fertilization are presented in Table 6. Table 6:. Quantity of nitrogen leached per pipe drainage variants (kg.ha-1) and percentage of nitrogen leached relative to the total N added with fertilization Vari.1991/921993/941996/971999/00Kg.ha-1%Kg.ha-1%Kg.ha-1%Kg.ha-1%R 1535.720.434.423.720.314.016.610.7R 2030.717.533.222.920.614.215.810.2R 2533.919.434.623.921.514.815.910.3R 3034.919.933.222.921.014.516.210.5 Since the nitrates bind poorly to colloid soil particles, it is important to determine the dynamics of their leaching It can be seen from Table 6 that the quantity of nitrogen leached varied per years and per trial variants. The lowest nitrogen leaching was recorded in all variants 1999/00 (the lowest quantity of drainage discharge and lower quantity of nitrogen added with fertilization). The highest leaching occurred in 1991/92 and 1993/94 (either the highest nitrogen added with fertilization or was the highest drainage discharge). According to `oaki et al., (1987) quantity of nitrogen leached is in linear correlation with the quantity of drainage discharge. The results (Table 6) are in agreement with the results obtained by Skaggs and Gilliam (1985) and Kla i et al. (1998). Different quantities of leached nitrogen are conditioned by the climate, namely the quantity and distribution of precipitation (drainage discharge), crops grown, that is, their development stages, as well as by the agricultural practices and the time of their application. Hence, the largest quantities of leached nitrogen were recorded in years with the highest drainage discharge, this is, with highest precipitation and the highest nitrogen added with fertilization. It was determined by the analysis of variance that there were no statistically significant differences between the tested variants of drainpipe spacing in drainage water concentrations of NO3-N and the quantity of nitrogen leached in a particular year, at P=0.05 and 0.01. Atrazine concentration and leaching in drainage water Results on atrazine concentration in drainage water and its leaching with drainage water are presented in Tables 7 and 8. Table 7: Average and maximum concentration atrazine (g.dm-3) in drainage water, per variants Vari.1991/921993/941996/971999/00AverMaxAverMaxAverMaxAverMaxR 151.757.231.556.870.942.881.155.05R 201.797.461.716.200.862.321.315.70R 251.847.581.896.310.842.951.295.84R 301.737.151.576.160.932.991.345.80 It can be seen from Table 7 that different maximal and average values were determined for atrazine concentrations in drainage water, both between the trial years and between different drainpipe spacings. This was influenced by the date of atrazine application, quantity and distribution of rainfall, this is, the quantity of drainage discharge, efficiency of each particular pipe drainage system. Maximum atrazine concentrations in drainage water were recorded soon after application and beginning higher drainage discharge (May 1991, Juni 1993, 1999 and Sep. 1996) and in all years decreased with later drainage discharges (Figure 3 to distance 15 m). Namely, atrazine is very water-soluble and is readily transported with waters (Albanis et al. 1988) and degraded in soil (Frank et al. 1991b). These results are in agreement with results, as reported by Ng et al (1995), as well as Accinelli at al. (2002). In the case of the mentioned atrazine rate (1200 g/ha) applied to the hidroameliorated soil type (Table 2) and the recorded quantities of precipitation drainage discharge, atrazine concentration were in all years in 10 months higher from the tolerated limit..Albanis et al. (1988) reported that no atrazine residues were detected in water after 247 days. Frank et al. (1991b) reported unequal duration of atrazine degradation in soil, from 149 to 684 days, depending on the temperature and microbiological activity of the soil.  Figure 3. Fluctuation of atrazine concentration in drainage water Table 8: Quantity of atrazine leached per pipe drainage variants (g.ha-1) and percentage of leached relative to the total added with applicatin Vari1991/921993/941996/971999/00g.ha-1%g.ha-1%g.ha-1%g.ha-1%R 153.990.334.120.341.860.162.000.17R 203.920.334.630.391.980.172.290.19R 253.920.335.070.421.710.142.140.18R 303.960.334.350.361.850.152.290.19 Mostly atrazine was lost during the growing season. The larger quantity of total atrazine leached occurred in first two years (higher total drainage discharge and higher concentrations) and vice verse. Atrazine losses were ranging from 0.14 % to 0.42 %. Frank et al. (1991b) recorded higher values of leached atrazine in drainage water and soil of predominantly sandy texture (0.2 % to 1.9 % of 3200 active ingredients). Albanis et al. (1988) reported different quantities of leached atrazine with respect to soil texture (0.54 % in clay, 0.66 % in loam and 0.47 % in silt-loam) and as Accinelli at al. (2002) reported about 0.61 % atrazine losses in silty loam. 3.6 Atrazine concentration in soil Atrazine concentration in soil is presented in Table 9, and the dynamics of its concentration in Figure 4. Table 9. Atrazine concentration in soil (g.kg-1), per variants Varig.kg-11991/921993/941996/971999/00JAODFAJAODFJAODFAJAODFAR 1576371574*5922144*953925166*1055637176*R 2077381584*6023144*933924166*1035537175*R 2578371694*5924155*934025167*1025538186*R 3076371574*5923144*934124156*1025635185** Not detected, limit of detection is 2 g.kg-1 It can be seen from Table 9 that atrazine concentration in soil recorded in the highest values in month Juni, (first taken of sampling ) and after duration year values are decreased and not detected in April in all years and February 1993/94. Starting concentrations in first two years were recorded lower than in last two years. Maybe was reason earlier application active ingredient (Table 1), this is, later taken of sampling and earlier drainage discharge (May) in 1991/92 and 1993/94 (a part of atrazine leached and degradeted). According Frank et al. (1991b) soil content of atrazine is, in fact, the difference between atrazine input into and its output from the soil (losses of residues to water leaching, disappear by dispersion into air or by degradation) and there are unequal duration of atrazine degradation in soil, depending on the temperature and microbiological activity of the soil. Half-time dissipation of atrazine in soil (Figure 4 to distance 15 m) durated until Sept..  EMBED Visio.Drawing.11  Figure 4. Contents of atrazine in soil and half-time of disspation The same results are reported by Kozak and Vacek (1996). Frank et al. (1991b) reported half-time of atrazine in soil from 125 to 198 days. The tolerance limit for atrazine concentration in soil depends on the susceptibility of the next crop, as well as on the soil physical and chemical properties. ilje (1980) for heavy clay soils, gives the following tolerated atrazine concentrations in soil for the next crop in the crop rotation: oil rape 0.1 ppm (100 (g. kg-1) and oats 0.25 ppm. 3.7 Heavy metals in drainage water and their leaching Results of average concentrations of heavy metals in drainage water and their leaching are presented per year and per variants in Table 10a, 10b and 10c. Table 10a. Average yearly concentration of Pb in drainage water (g.dm-3) and leaching (g.ha-1) Vari.1991/921993/941996/971999/00g.dm-3g.ha-1g.dm-3g.ha-1g.dm-3g.ha-1g.dm-3g.ha-1R 1528.564.9829.077.1427.053.4624.542.63R 2027.059.1328.577.2426.552.4724.042.00R 2526.055.3827.573.7027.054.8123.539.01R 3027.061.8327.576.1826.552.7424.041.04 Table 10b. Average yearly concentration of Zn in drainage water (g.dm-3) and leaching (g.ha-1) Vari.1991/921993/941996/971999/00g.dm-3g.ha-1g.dm-3g.ha-1g.dm-3g.ha-1g.dm-3g.ha-1R 1514.933.9717.546.5515.430.4213.924.19R 2014.331.3216.745.2615.029.7014.124.68R 2515.132.1616.544.2215.130.6513.722.74R 3014.533.2116.946.8114.829.4513.823.60 Table 10c. Average yearly concentration of Cd in drainage water (g.dm-3) and leaching (g.ha-1) Vari.1991/921993/941996/971999/00g.dm-3g.ha-1g.dm-3g.ha-1g.dm-3g.ha-1g.dm-3g.ha-1R 151.94.332.25.851.73.371.52.61R 201.73.722.25.961.73.371.52.63R 251.73.622.25.901.73.451.42.32R 301.84.122.26.091.73.381.52.57 Concentrations of heavy metals in drainage water do not indicate pollution, which is in agreement with the results obtained by Moore et al. (1981a and 1981b), umija et al. (1989) and oga et al. (1998). Different average concentrations of heavy metals were recorded per years and per drainage system variants. The average the highest concentration of all heavy metals were recorded in 1993/94 when were the highest total drainage discharge. Maximal concentration duration of all years recorded in the period of higher drainage discharge (Figure 5 to distance 15 m). Maximal concentration of Pb was from 36.5 g.dm-3 (1996/97) to 50.5 g.dm-3 (1991/92), Zn from 20.5 g.dm-3 (1999/00) to 28.2 g.dm-3 (1991/92) and Cd  Figure 5. Fluctuation of heavy metals (Pb, Zn and Cd) in drainage water The recorded concentration of heavy metals and the drainage discharge (Table 4) served to calculate the quantity of heavy metals leached. The highest leaching were also determined by all heavy metals at the time of its highest drainage discharge (1993/94), and vice verse. According to Bear and Verryjit (1987), variations in the quantity and percentage of leached Zn and Cd depend mostly on precipitation, as well as on the quantity and speed of drain water, which has an appreciable influence on the physical transport of heavy metals.The quantity of leached heavy metals was smaller than their overall input into soil (Table 11) The available data point to the conclusion that there are no substantial differences between the tested variants in each year. Greater differences were recorded between the tested years, which was the effect of the hydrological conditions, agricultural management procedures applied and air cleanliness. 3.8. Heavy metals in hydroameliorated soil Table 11. Contents of total heavy metals in soil (mg.kg-1), per variants VariContets of heavy metals mg.kg-1Total introduced g.ha-1Total leaching g.ha-1Difference (Introduced-leaching) g.ha-1Contets of heavy metals mg.kg-11991During four yearsDuring four years2000PbZnCdPbZnCdPbZnCdPbZnCdPbZnCdR 1513.577.20.7295.1655.655.5238.2135.116.279.7520.539.13.577.20.7R 2013.577.20.7230.8131.015.764.3524.639.813.577.20.7R 2513.577.20.7222.9129.815.372.2525.840.213.577.20.7R 3013.577.20.7231.8133.116.263.3522.539.313.577.20.7Weight of soil (0-0.3 m)= 4050 t.ha-1It is need 405 g.ha-1 to increasing 0.1 mg.kg-1 The obtained results did not indicate contamination of hydroameliorated soil by heavy metals (Table 11). According to Mengel and Kirkby (1979), symptoms of toxicity at levels of about 400 mg.kg-1 Zn and higher, Cd levels in uncontaminated soils do not exceed 1 mg.kg-1 . Results of content for each metal did not reveal differences within ten-year as well as between the tested variants within ten-year. For increasing 0.1 mg.kg-1 each heavy metals in soil it is needed 405 g.ha-1 without losses. `imuni at al. (2002c) reported that in three-year plants through yield and harvest residues taken out 53.2 g.ha-1 Pb, 399 g.ha-1 Zn and 4.7 g.ha-1 Cd. The obtained results are relatively lower also in comparison with other studies (Kralovec and Slavk, 1997; Romi M. and Romi D., 1998), which we attribute to the short time that this soil has been used for agricultural production. This points to the tentative conclusion that did not have accumulation of heavy metals in hydroameliorated soil.. Yield of crops The mean values of crop yields, in dependence on the drainpipe spacing variant, are presented in Table 12. Table 12: Duncans Multiple Range test of the mean values of crop yields (dt.ha-1) in dependence on the drainpipe spacing variant Vari.Dry grain yield (dt.ha-1)Maize (1991)Maize (1993)Maize (1996)Maize (1999)15 m88.00a64.28a58.20a62.30a20 m81.30b63.50a53.43b61.60a25 m78.66c60.80a49.15c57.70ab30 m71.74d60.10a43.48d56.20bValues marked by the same letter are not significantly different according to Duncans test (p>0.05) Yields of the same crops differed in different trial years due to various factors, such as genetic characteristics of the cultivars, or hybrids, drilling date, total fertilizer applied, topdressing pattern in the growing season, the harvest time (Table 1), different quantities and distribution of precipitation during the growing season (Table 3). As a rule, the highest yields were achieved in the drainpipe spacing variant of 15 m, and the lowest in that involving 30 m spacing, which the authors attribute to the efficiency of particular drainage systems (Tomi et al., 1994 and 2002d; `imuni, 1995). Analysis of variance, done separately for each trial year, rendered highly significant differences (p<0.01) between yields of particular crops in dependence on the drainpipe spacing in all trial years. Duncans test revealed that maize yields were significantly higher in drainpipe spacing variants of 15 m in trial years 1991 and 1996. In 1999 yield was not significantly different between drainpipe variants of 15 m and 20 m. In 1993 yield was not significantly different between all drainpipe variants. Maybe it was reason in repeated vertical deep loosening. Accordingly, satisfactory yields can be achieved with the drainpipe spacing of 15 m. Drainpipe spacing of 20 m, supplemented by repeated vertical deep loosening, may give satisfactory results in years when the drainage system is adequately maintained. Hence, drainpipe spacing of 20 m is recommended for Gleyic Podzoluvisol, along with appropriate and regular maintenance of the drainage system and application of vertical deep loosening of soil (Tomi et al., 1994; `imuni, 1995; Petoai et al., 1998). CONCLUSION Based on the results, it may be concluded: 1. Concentrations of NO3  N and atrazine in drainage waters exceeded the allowable values (10 mg.dm-3, 0.1 g.dm-3), respectively. 2 .Maximum NO3-N and atrazine concentrations in all variants and in all years were determined either in the spring or in the summer, soon after sowing and topdressing, which generally coincided with primary or secondary precipitation (that is, after higher drainage discharge) maxima. 3.Higher applications of fertilization and active ingredients herbicide and higher drainage discharge caused higher concentrations. 4. Concentrations of atrazine in soil did not detected in April. 5. Concentrations of heavy metals in drainage waters and in soil in all variants and in all years were below from limited values 6. Contets of heavy metals in soil was the same after ten years. 7. Significant the best yield were on variant of dist*,:<@B\^hjprz|~N P   0 R S T U }  ̿糪碖whDh},CJaJh},h},CJH*aJhUrCJaJhq5CJaJmH sH hHCJaJh[N5CJaJh},h},5CJaJh},h},0JCJaJjh},h},CJUaJh},h},>*CJaJh},h},CJaJ h[N5h},h},5.|~ | noY68hjK$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:`gd},`gd},$a$gdg~$a$gdD$a$gd},$a$gd},t > B b f  v x z | ʿʿxl]Q]hnCJaJmH sH hnh#CJaJmH sH h#CJaJmH sH hysgCJaJmH sH h1K5CJaJmH sH h[N5CJaJmH sH h/fG5CJaJmH sH hu>CJaJh},h},CJH*aJh},h},CJaJhDCJaJh},hDCJH*aJh},hDCJH*aJh},hDCJaJhDhDCJaJC`zfXY.h2468еvvvvi\Oh| 5CJaJmH sH h/fG5CJaJmH sH hm5CJaJmH sH hmCJaJmH sH hY#CJaJmH sH hgCJaJmH sH h},hgCJaJmH sH h7CJaJmH sH hfiCJaJmH sH hysghg~CJaJmH sH h8 @CJaJmH sH h CJaJmH sH hg~CJaJmH sH h#CJaJmH sH 8@NPVXfhj .;HIJǽǯǯǯǯǢ{{o`o`h},hUrCJaJmH sH hUrCJaJmH sH hHCJaJmH sH hY#CJaJmH sH h},h},CJaJmH sH h},h},CJmH sH h},h},CJH*mH sH hHCJmH sH h},h},CJmH sH h},h},5CJmH sH h[N5CJaJmH sH h},h},5CJaJmH sH KKCHTbmu$v:$v:$v:$v:$v:$v:$v:dv:`v:h v: v:`v: $$Ifa$$a$gd},gd}, uv'(fhqr     !d"f"ʻ檜}}ll} h},h},@CJaJmH sH h},h},CJaJmH sH h},h},5CJaJmH sH h[NCJOJQJmH sH  h},h},CJOJQJmH sH h},h},CJaJmHsHh},h},5>*CJh},h},CJH*aJmH sH h},h},CJaJh},h},CJaJmH sH (uvwx711(v: $$Ifa$$Ifkd$$Ifl4rH<t"`<`8@  `8044 laf4p2 '(-3<DGv:v:v:|v:|v:dv:`v:v:v:v:v:v:v:|v:|v:|v:|v:`v:dv:`v:v:v:v:FfFfr$If $$Ifa$GJNT^jqrw~v:v:v:|v:|v:`v:dv:`v:v:v:v:v:v:v:|v:|v:`v:dv:`v:v:v:v:v:v: $$Ifa$Ff Ff $$Ifa$    !e"f"g"""#a#v:|v:|v:`v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$$$$ $ 0*$a$gd$ 0@ *$^@ a$gd $ 0*$a$gd} $ 0*$a$gd},$a$gd},$a$gd},Ff $$Ifa$f"g"""""##a#b#####$$7$9$=$$$$$$$$$$$ %|%}%%%%%%%%%Ƕtdtth},h},CJH*aJmH sH h},hfRCJaJh},h},CJH*aJmH sH hP(CJaJmH sH h[NCJaJmH sH h},h},CJaJmH sH h},h},@CJaJmH sH hH@CJaJmH sH hhmHnHujhUmHsH h@h}CJaJmH sH 'a####$7$h$$$$$$$$$$$$ %%%%$$$$$$$$$$v:$v:$v:$v:$v:$v:$v:$v:$v:PSLPSLPS$d$Ifa$gdfRgdfR$a$gd}, 0*$gdgd$ & F 0*$a$gd $ 0*$a$gd%%3%7%8%A%E%F%O%S%T%a%i%v%%%%%%%%%%%%%%LPSPSPSPSLPSLPSLPSPSPSPSPSPSPSPSPSXPSXPSPSPSLPSPSPS $$Ifa$gdfRFf$d$Ifa$gdfR%%%%%%%%%%%%%%%%%%%%%%%%%PSPSPSLPSPSPSLPSPSPSPSPSPSPSXPSPSLPSPSPSLPSPSFfB d$IfgdfRFf$d$Ifa$gdfR $$Ifa$gdfR%%&&& & & &&&&& &#&%&+&,&0&4&5&6&9&A&D&G&J&PSPSPSPSPSXPSPSLPSPSPSLPSPSPSPSPSPSPSXPSPSLPSPSPSLPSFf' d$IfgdfRFff"$d$Ifa$gdfR% & &5&6&T&U&V&j(k((()***++,,P,Q,,,,,,,,--|.ƶxxxxxi^ihh},CJaJhh},CJaJmH sH h},h},CJaJh},h},CJh},h},CJmH sH h},h},5CJmH sH h},h},CJaJmH sH h},h},5CJaJmH sH hh},5CJmH sH hh},5CJhyc^mH sH h},hfRCJaJh},h},CJaJmH sH J&M&O&P&Q&R&S&T&U&V&k(l((())*n+x+|+++PSPSPSPSPSPSXPS$$v:$v:$v:$v:$v:$v:$v:v:v:v:v: $$Ifa$gd},$a$gd}, $`a$gd},$a$gd},$a$gdFf,$d$Ifa$gdfR++++++++++++++++++,, , ,,,,,,",v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:Ffv6Ff 1 $$Ifa$",%,),,,0,3,7,;,?,B,E,H,K,P,Q,Y,\,_,b,e,i,l,p,s,v,y,|,,,v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:Ff< $$Ifa$,,,,,,,,,,,,,,,,,,,,..v:v:v:v:v:v:v:v:v:v:v:v:v:v:$v:$v:$v:$v:$v:$d^a$gdH$d^a$gd $ & Fa$gd},$a$gd},FfH $$Ifa$FfB|... / /////,////////////0 0!020F0L0`0f0z0000000000011111*1+15191D1E1O1S1^1_1i1m1s1t14ĵĵĵĵĵĵĵĵĵĵĵĵĵĵĵĵĵĵĵĵĵĵĵĵĵĵĨh},h},CJaJmH sH h},h},CJmH sH h},h},CJaJmHsHh},h},CJaJhh},CJaJmH sH hh},CJaJhP(CJaJhh}CJaJmH sH ;........ ///-/@/U/_/f///$v:$v:$v:$v:$v:$v:$v:$v:fv:v:hv:8v:8v:8v:8v:v:v: $$Ifa$gdH $$Ifa$$d^a$gdH//kdL$$IfT4ֈj@  U"``6`p`p`5044 ap<T////////////////////////v:hv:fv:v:hv:v:hv:8v:v:fv:v:hv:8v:v:FfVT $$Ifa$ $$Ifa$gdFf>P $$Ifa$gdH$If////////0000 0 00000!0)0.02070;0@0fv:v:hv:8v:v:fv:v:hv:8v:v:fv:v:hv:v:hv:8v:v: $$Ifa$FfbFf~]$If $$Ifa$gdFfX@0A0F0G0H0L0Q0U0Z0[0`0a0b0f0k0o0t0u0z0{0|000000fv:v:hv:8v:v:fv:v:hv:8v:v:fv:v:hv:8v:v:Ff@tFfoFfk$If $$Ifa$gdFff0000000000000000000000000fv:v:hv:v:hv:8v:v:fv:v:hv:8v:v:fv:v:hv:8v:v:FfFfb}$IfFfx $$Ifa$ $$Ifa$gd000000011111111$1%1*1+1,1015191>1?1fv:v:hv:8v:v:fv:v:hv:v:hv:8v:v:fv:v:hv:8v:v:FfFf $$Ifa$Ff$If $$Ifa$gd?1D1E1F1J1O1S1X1Y1^1_1`1d1i1m1r1s1t15X9Z999O::fv:v:hv:8v:v:fv:v:hv:8v:v:$v:$v:$v:$v:$v:$a$gdoY$a$gd},gd},FfFf$If $$Ifa$gd404445X9Z9b9d99L:M:O:U:V:|:}::::::::::::ŸumuauUuFuFuFuFuh},h},CJaJmHsHh},h},CJH*aJh},h},CJH*aJhHCJaJh},h},CJaJhHCJaJmH sH h},h},5CJaJmH sH hP(CJaJmH sH hP(hP(5CJaJmH sH h},h},CJmH sH h},h},CJmH sH h},h},CJH*aJmH sH h},h},CJaJmH sH h},h},CJaJmH sH ::::::v:v:nv:v:bv: $$Ifa$gd $$Ifa$::::5/#v: $$Ifa$gd$Ifkd$$Ifl4nrX ;u `F:044 lalf4p2::::::::::; ;;;;";';-;.;3;9;?;E;K;Q;W;\;,v:v:v:v:Av:v:v:v:v:,v:v:v:v:Av:v:v:v:v:,v:v:v:v:Av:v:Ff| $$Ifa$Ff $$Ifa$gd::::::::::;-;2;3;P;b;g;h;;;;;;;;;;;;E<G<O<P<\<|<#=$=&='=l=n=====>>> >E>L>l>q>??%@&@׷׷׫ל׷׷׫ל׷אאל׫h>bCJaJmH sH h},h},CJaJmH sH hHCJaJmH sH h},h},CJH*aJmH sH h},h},CJH*aJmH sH h},h},CJaJmH sH h},h},CJaJh},h},CJaJmHsH8\;b;c;h;n;t;z;;;;;;;;;;;;;;;;;;=v:v:v:,v:v:v:v:Av:v:v:v:v:,v:v:v:v:Av:v:v:$v:$v:$a$gd},FfFf& $$Ifa$FfQ $$Ifa$gd==U?:@BBBlCnCCDDDDDE E$v:$v:$v:$v:$*0$v:$v:$v:v:0v:v:v:v: $$Ifa$gdH$a$gdC *$a$gdP($a$gd},&@*@7@@@@@AA=A>A_AaAmAB\B^BBBBBBBBBC$C&CjClCnCٹٹٹٹ٭١xlxl\lMhP(hP(CJaJmH sH hP(hP(CJH*aJmH sH hP(CJaJmH sH h},hP(CJaJmH sH hNhhNhCJaJmH sH jGhNhhNhUhNhCJaJmH sH hY#CJaJmH sH h},h},CJH*aJmH sH h},h},CJH*aJmH sH h},h},CJaJmH sH h9CJaJmH sH hC *CJaJmH sH nC@DADCDHDIDJDDDDDEEE E E EEEEEE$E&E)E.E0E3E8E9EQEaEfEgEEEEEEEEEEEE}F~FGGGGG H:IECEHEMEREWE\EaEbEgElEqEvE{EEEEE`v:v:`v:v:|v:Fv:v:v:v:`v:v:`v:v:|v:Fv:v:v:v:`v:v:`v:v:|v:Fv:FfFf $$Ifa$gdHEEEEEEEEEEEEEEEEEEEEEEEKLv:v:v:`v:v:`v:v:|v:Fv:v:v:v:`v:v:`v:v:|v:Fv:$v:$v:$a$gd}, $h^ha$gd},Ff Ff9 $$Ifa$gdHFfhIIKKKKLLL M!M"MMMMMMMMMNfNjNNNNNNNNN*O,O2O4OODOFO幪sddddddddh},h},CJaJmHsHh},h},CJH*aJhhCJaJh},h},CJaJhhCJaJmH sH h_ CJaJmH sH h},h},CJaJmH sH h},h},5CJaJmH sH h},h},CJH*aJmH sH h_ CJaJmH sH h},h},CJaJmH sH hY#CJaJmH sH &LL M!MMNNNNNN$v:$v:$v:$v:`v:0v:0v:|v:v: $$Ifa$gdh $ & Fa$gdP($a$gd}, NNNOO0$$v:$v: $$Ifa$gdhkd`$$Ifl4r8@ H<`8T0<44 lalf4p2OO"O,O4O>OFOHORO\OfOpOzOOOOOOOOOOOOOOOv:v:v:v:v:v:`v:v:v:v:v:v:v:v:v:`v:v:v:v:v:v:v:v:v:FfgFf $$Ifa$gdhFOHOPOROOOOOOOOPPPP-P.P2P3PKP[P\PwPxPPPPQQQQ*R/RERNRORVR}R~RRRRRR̴̉}}}}}}h8CJaJmH sH h},h8CJaJmH sH h},hhCJmH sH h},hFCJaJmH sH hACJaJmH sH hhCJaJmH sH h},h},CJaJmH sH h},h},CJaJmHsHh},h},CJaJh},hhCJaJ+OPP PPPPP#P(P-P.P3P8P=PBPGPLPQPVP[P\P]PSMUv:v:v:v:v:v:v:v:`v:v:v:v:v:v:v:v:v:$v:$v:$v:$a$gd8$a$gd},Ff2Ff $$Ifa$gdhFfRRRRRRMSbScSqSvSSTTTTUUUUUU?VEVFVVVVVVʾʾwog[Lh},h},CJaJmHsHh},h},CJH*aJh}CJaJhP(CJaJhNhhNhCJaJjhNhhNhUhOCJaJh},h},CJaJhFh8CJaJmH sH h},h8CJaJmH sH h8CJaJmH sH h},h},CJaJmH sH hCCJaJmH sH h9CJaJmH sH h},hCCJaJmH sH MUUUU?VVVVVVV$v:$v:$@2$v:$v:v:v:v:v:v: $$Ifa$gdY $$Ifa$$a$gdP($a$gd}, VVVVVVVVWW WWWWWWW W4WHWMWNWbWvW{W|WWWWWWWWWXXXXX2XQXRXYXvXwXXXXXXXXXXXXQYRYZY[YYY˼˰˰˰˰˰˰˰ˤˤˤhjCJaJh}CJaJmH sH hjCJaJmH sH h},hjCJaJmH sH h},h},CJaJmH sH h},h},CJH*aJh},h},CJaJh},h},CJaJmHsH=VVVV0*v: $$Ifa$gdY$Ifkd($$Ifl4 rm )$`m~~0$44 lalf4p2VVWWWWWWW W%W*W/W4W9W>WCWHWIWNWSWXW]WbWgWlWqWv:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:Ff $$Ifa$Ff $$Ifa$gdYqWvWwW|WWWWWWWWWWWWWWWWWWWWWlZv:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:v:$v:$v:$a$gd},FfFf $$Ifa$Ff $$Ifa$gdYYYYZZZ5Z6Z@ZkZlZoZpZZZZZZZZZZZ[[\ \\,\.\6\ynbnWhZ9h},CJaJh},h},CJH*aJh},h},CJaJhZ9CJaJmH sH h},hOCJaJmH sH h},CJaJmH sH hm<3CJaJmH sH (h},h},CJOJQJ^JaJmH sH h~[bCJaJmH sH hOCJaJmH sH hjCJaJmH sH h}CJaJmH sH h},h},CJaJmH sH lZZZZZ.\8\H\J\$<$v:$v:$v:D^$^Okd $$IfTl406R '`%0'44 laf4pT $$Ifa$gdZ9 $$Ifa$$a$gd},$a$gd},6\8\B\F\H\J\L\Z\\\z\|\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\0]r]t]|]~]]]]hZ9hZ9CJaJhZ9hm<3CJaJmHsHhZ9hm<3CJaJhZ9h},CJH*aJhZ9h},CJaJhZ9h},CJaJmHsHGJ\L\\\l\|\\^^ ^^ $$Ifa$gdZ9$If\\\\.(^ $$Ifa$gdZ9$Ifkd $$IfTl4r6R mQ 's   0'44 laf4p2T\\\\\\\\\\\\\\\\\\\\\\\\\\]^D^^^^D^D^D^^^ ^D^ ^^?^J^'^^^D^^-^D^^^ $$Ifa$Ff2 $$Ifa$gdZ9] ]]]]]"](],]0]6]<]B]H]L]P]X]^]d]j]n]r]t]~]]]]D^^^^D^D^D^^^ ^D^ ^^?^J^'^^^D^^-^D^^^D^ $$Ifa$Ff $$Ifa$gdZ9]]]]]]]]]]]]]]]]]]]]]]^ ^^^^^^^D^D^D^^^ ^D^ ^^?^J^'^^^D^^-^^^D^^ $$Ifa$Ff! $$Ifa$gdZ9]]]]]^^<^X^Z^z^|^~^^^^^^^____`_d___```!`(`:`;`F`T`_```````````ĵvvvvh?5CJaJmH sH h},h?CJaJmH sH hbJCJaJmH sH h?CJaJmH sH hZ9CJaJmH sH h},h},CJaJmH sH h},h},CJH*aJh},h},CJaJhZ9hZ9CJaJhZ9h},CJaJhZ9h},CJaJmHsH.^^"^(^.^4^8^<^B^H^N^T^X^\^d^j^p^v^z^~^^^^^^^^^^D^D^D^^^ ^D^ ^^?^J^'^^^D^^-^D^^^D^^^ $$Ifa$Ff) $$Ifa$gdZ9^^^^^^^^^^^^^^^^^___f_ccccc^D^D^D^^^ ^D^ ^^?^J^'^^^D^^-^$v:$v:$v:$v:$v:$a$gd?$a$gd},Ff1 $$Ifa$gdZ9````aaa3a=aHaMadakala~aaaaaaaaaaaaaaaaaabbbbc6c@cAckc|c~cccͲ͈ͣ|p|h9CJaJmH sH hCJaJmH sH hXGLCJaJmH sH h},h6;hCJaJmH sH h},h?CJaJmH sH h},h&iCJaJmH sH h&iCJaJmH sH h6;hCJaJmH sH h?CJaJmH sH h?5CJaJmH sH h},h},CJaJmH sH ,ccccccccccccccd d&dAd`dedidudddeŲyj^OOOOh},h},CJaJmH sH hC *CJaJmH sH h},hC *CJaJmH sH %j&7hNhhyc^CJUaJmH sH -j2 F hNhCJUVaJmHnHsHtHhNhhNhCJaJmH sH %jhNhhNhCJUaJmH sH hNhCJaJmH sH hyc^CJaJmH sH h},h?CJaJhCJaJmH sH h8CJaJmH sH cccccccccccccccccd dee)f*ffJh$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$`D$v:$v:$I $v:$v:$v:$v: $xa$gd}, $xa$gdC * $]a$gdC *$a$gd},eeeeeeff)f*fnfsffffffffffffhh:hBh²߲ߚߚߚtldtXlMh},h>CsCJaJh},h},CJH*aJhcCJaJh>CsCJaJh},h},CJaJhCJaJmH sH h},h>CsCJaJmH sH h>CsCJaJmH sH hC *CJaJmH sH h},h},5CJaJmH sH h~[b5CJaJmH sH h},h},CJH*aJmH sH h},h},CJaJmH sH " jmh},h},CJaJmH sH BhFhHhJhThVhhhhhhhhhhhhhhhhhhhhhi iiiiiJiviiiiiiij>jHjJjvjjjjjjjj6k:kVkXkѶѶѶѶѶѶѶѶѧѶьh>Csh>CsCJaJhcCJaJh[NCJaJh},h},CJaJmH sH h},h},CJH*aJh},h},CJaJmHsHh},h},CJaJh>Csh},CJaJmH sH h>CsCJaJh},h>CsCJH*aJ7JhVhfhvhhhv:v:v:v:v: $$Ifa$gd>Cshhhhh0$$v:$v: $$Ifa$gd>Cskd\$$Ifl4r <!`044 lalf4p2hhhhhiiii(i4i>iJiTi`ijivixiiiiiiiiii`v:v:`v:v:`v:tv:v:v:v:`v:v:`v:v:`v:tv:v:v:v:`v:v:`v:v:`v:tv:FfbFf^ $$Ifa$gd>Csiiiiijjj(j2j>j@jJjTj`jjjvjjjjjjjjv:v:v:v:`v:v:`v:tv:v:v:v:`v:v:`v:v:`v:tv:$v:$v: $xa$gd}, $x`a$gd},Ff\nFfsj $$Ifa$gd>CsFffjjjkvkkkkk$v:$v:v:v:v:v:v: $$Ifa$gd>Cs $xa$gd},XkZkbkfkhkjktkvkkkkkkkkkkkkkkkllllll"l,l0l2lljllllllmm2m^mhmjmmmmmmmRnVnrntnvn~nnnnǸǸǸǸǬǬǬǬǬǬǬǬǸǸǸǸǸǸǸǸǤǬǙh>Csh>CsCJaJhcCJaJh},h},CJH*aJh},h},CJaJmHsHh},h},CJaJh},h},CJaJmH sH h},h>CsCJH*aJh},h>CsCJaJh>CsCJaJCskdp$$Ifl4rt 5"!`044 lalf4p2kkkll$l2l4l>lHlTl^ljltllllllllllllllev:v:v:`v:v:v:`v:v:ev:v:`v:v:`v:v:v:`v:v:ev:v:`v:v:`v:v:Ff_wFfts $$Ifa$gd>Csllmmm&m2mCsFfD{nnnnnnnnnnnnnno ooo o*o.o0o:o>oHoLoNoXoZo~oooooopp&pJpTpVpzppp(s0s:s>sssssssstBtlttttt˿˿˿˿˿˿˿˳h1>CJaJmH sH h+CJaJmH sH hcCJaJmH sH h},h},CJaJmH sH h},h},CJH*aJh},h},CJaJmHsHh},h},CJaJ=nnnnnnv:v:v:v:v: $$Ifa$gd>Csnnnnn0$$`v:$v: $$Ifa$gd>Cskdh$$Ifl4r =!`044 lalf4p2noo"o0o@oNoPoZoboloto~ooooooooooooooo`v:v:`v:v:`v:sv:v:`v:v:`v:v:`v:v:`v:sv:v:`v:v:`v:v:`v:v:`v:sv:FfFf. $$Ifa$gd>Csoop ppp&p.p8p@pJpLpVp^phpppzppppppp>v`v:v:`v:v:`v:v:`v:sv:v:`v:v:`v:v:`v:v:`v:sv:$v: $xa$gd8 $x`a$gd},FfЗFf $$Ifa$gd>CsFft uuu:udunurutuuuuuuuuuu vvvv@vBvvwwyٿwod\THhcCJaJmH sH hC *CJaJhyc^CJaJj"hyc^hyc^Uh8CJaJh-rCJH*aJh},h-rCJH*aJh},h-rCJaJh-rh-rCJaJh-rCJaJh+CJH*aJh},h+CJH*aJh},h+CJaJh},h+CJaJmH sH h+CJaJmH sH h},h},CJaJmH sH h9CJaJmH sH >vBvvy{?{@{{{{{{{{{{{||&|$ .$v:$v:$v:$v:$v:D^|^|^'^'^^^9^9^9^|^|^$$Ifa$gd1>l$$Ifa$l $xa$gdL%#$-DM a$gd}, $xa$gdC * $xa$gd8yyyy{{?{@{F{I{w{y{{{{{{{{{{{{{{||||#|%|}}}}̼vgWgWgWvvvh1>h},CJH*aJmH sH h1>h},CJaJmH sH h1>h},CJH*aJh1>h},CJaJh1>CJaJh},h},CJH*aJh1>CJaJh},h},CJaJhC *CJaJh},h},5CJaJmH sH hC *5CJaJmH sH h8CJaJmH sH h},h},CJaJmH sH hcCJaJmH sH "&|'|kdɪ$$Ifl4ֈpo+<$`T`T t0$44 lalp<'|(|-|?|Q|R|W||^'^^|^$$Ifa$gd1>l$IflW|X|kd$$Ifl4ֈpo+<$TT t0$44 lalp<X|Y|\|_|b|e|h|k|n|q|t|w|z|}|||||||D^D^D^D^^;^^^D^M^^D^D^D^D^D^D^$$Ifa$gd1>l$$Ifa$lFf$$Ifa$gd1>l$Ifl||||||||||||||||||||||D^D^D^^;^^^D^M^^D^D^D^D^D^D^D^D^$$Ifa$gd1>l$$Ifa$lFf$$Ifa$gd1>l||||}} }}}}} }%}*}/}3}4}5}6}<}B}G}^^D^M^^D^D^D^D^D^D^D^D^^^D^$$Ifa$gd1>l\$$Ifa$l\Ff$$$Ifa$gd1>lG}L}R}W}\}a}e}f}k}p}u}y}z}{}|}}}}}}}}M^^D^D^D^D^D^D^D^D^^^D^M^^D^D^$$Ifa$gd1>lT$$Ifa$lTFf$$Ifa$gd1>l\}}}}}}~D^D^#^dQ#^$$Ifa$llkd$$Ifl$$ t0$44 lalp $$Ifa$lFfP$$Ifa$gd1>lT}~~~~T~i~l~~~~6>X[,ǻǫǫǻǻ֓ֈqffZh},hMCJH*aJh},hMCJaJh},hMCJaJmH sH hMCJaJhL%#hL%#CJaJh},h},CJH*aJhXGLCJaJmH sH h},h},CJH*aJmH sH hL%#CJaJmH sH h},h},CJaJmH sH h},h},CJaJh1>CJaJh1>h},CJH*aJh1>h},CJaJ ~~~4q$v:$v:$v:$v:$v:}$v:}$v:u$v:iv: $$Ifa$gdoY$a$gd}gd} & Fgd~[b$a$gd},lkdf$$Ifl$$ t0$44 lalp ,.j&,4Vxڃmoqwy„yoy`T`Dh},h}CJH*aJmH sH h~[bCJaJmH sH h},h}CJaJmH sH h~[bCJmH sH h},h}CJmH sH h},h}5CJmH sH h},h},5CJaJmH sH h80h},CJaJmH sH hMCJaJmH sH h},h},CJaJmH sH h},h},CJH*aJh},hL%#CJaJhL%#CJaJh},h},CJaJhXGLCJaJ„IJNOop(*NqҎԎ֎>Fue]R]h},hbCJaJhbCJaJhDh},5CJaJmH sH h805CJaJmH sH hDhD5CJaJmH sH h},h},CJaJmH sH h},h}CJmH sH hXGLCJaJmH sH h},h}5CJaJmH sH h},h}CJaJh},h}CJH*aJmH sH h~[bCJaJmH sH h},h}CJaJmH sH "(/5<BIv:nev:v:v:v:tv:tv:v:v: $IfgdoYkd$$Ifl40`044 lalf4p $$Ifa$gd~[b IJO2&v: $$Ifa$gdoYkd$$Ifl4rX XL044 lalf4p2OUW]_egmopu{}v:Dv:v:v:v:v:v:Dv:v:v:Dv:v:v:v:v:v:Dv:v:v:Dv:v:v:v:Ff $$Ifa$gdoYFf $$Ifa$gd~[b…ȅʅЅ҅؅څHINqSڋҎԎv:v:Dv:v:v:Dv:v:v:v:v:v:Dv:$v:$v:$v:$v:$v:$v:$a$gd},gd}$a$gd}FfE $$Ifa$gdoYFfl $$Ifa$gd~[bBLDȒ ˓ l llllmEnoozq]r-subh>bCJH*aJh>bCJaJh ICJaJh},hbCJH*aJh},hbCJaJhbCJaJh\CJaJvƐΐV`CFM]noȒʒ˒̒ܒ +>kvwz岣匄yqf[qfqqqh},h\CJaJh},hbCJaJh\CJaJh},hnCJaJhbCJaJhnCJaJh},h\CJaJmH sH h},h\CJaJmH sH h\h\CJaJmH sH h\CJaJmH sH hbCJaJmH sH h ICJaJmH sH h},hbCJaJmH sH h>bCJaJmH sH #Γۓl l l l lll9l=lllmm m mmm m!m)m*m1m@mEmFmmmDnEnFnKnoopƷxllh CJaJmH sH h4CJaJmH sH hY#CJaJmH sH h},h#-vCJaJmH sH hfRCJaJmH sH h#-vCJaJmH sH h},h80CJaJmH sH h},h80CJmH sH hlYCJaJhbCJaJUh?CJaJhnCJaJh},hbCJaJ'ance 15 m. REFERENCES Accineli C., Vicari A., Rossi P. and Catizone P. (2002): Losses of atrazine, metolachlor, prosulfuron and triasulfuron in subsurface drain water, Agronomie, 22: 399-411. Albanis T.A., Pomonis P.J. and Sdoukos A.T.(1988): Movement of methyl parathion, lindane and atrazine through lysimeters in field conditions, Toxicological and Environmental Chemistry, Vol. 17: 35-45. Bear, J. and Verryjit A. (1990): Modeling groundwater flow and pollution with computer programs for sample cases. D. Reidel Publishing company. Dodrecht-Boston-Lancaster-Tokio, p. 414. Bocken, P. (1987): Flow and chemical composition of drainage water from farmland in the Belgian Loamy region. Part 2: Patterns of ions leaching with particular reference to nitrate. Pdologie 37 (2), 117-136. Booltnik, H. W. G. (1995): Field monitoring of nitrate leaching and water flow in a structured clay soil. Agriculture, Ecosystems & Environment. Vol.52 (2-3), 251-261. Borovka, L., Huan-Wei Ch., Kozak J. and Kriatoufkov S. (1996): Heavy contamination of soil with cadmium, lead and zinc in the alluvium of the Litavka River. Rostlinn Vroba, 42: 543-550. Borovka, L., Kriatoufkov, S., Kozak J. and Huan-Wei Ch. (1997): Speciation of cadmium, lead and zinc in heavily polluted soils. Rostlinn Vroba, 43: 187-192. Capriel, P..and,Haish A.,Khan S.U.(1985): Distribution and nature of bound (non-extractable) residues of atrazine in mineral soil nine years after the herbicide application, J. Agric. Food Chem.,20: 602-607. oga, L., Vida ek, }., Poljak M. and Kova evi V. (1998): Cadmium and lead in the system drained Soil-Plant-Water in the Drava-Danube catchment area. 16th World Congress of Soil Science, Volume I, No. 113 (summaries), Montpellier. umija, Lj. And Manitaaevi J. (1989): Determination of heavy metals and inorganic pollutants in water of canals on experimental field  Je~evo . Agrohemija (Beograd), No. 1-3: 69-77. Frster, P. (1984): Stoffgehalte in Drn -und im Grundwasser und Stoffanstiege in einem Sandboden Nordwestdeutschlands bei Minerald(ngung und bei zus(tzlicher G(tled(ngung. Kali - Briefe (B(ntehof ) 17/5, 373-405. Frank, R., Clegg B.S. and Patni N. K (1991b): Dissipation of atrazine on a clay loam soil, Ontario, Canada 1986-1990, Archives of Environmental Contamination & Toxicology, 21: 41-50. Gaynor, J..D., MacTavish D.C. and Findlay W.I. (1989): Surface and subsurface transport of atrazine and alachlor from a brookston clay loam under continuous corn production. Archives of Environmental Contamination & Toxicology, 23: 240-245. Jany, V. and Klaghofer E. (1975): Auswirkung der Mineraldngung auf Oberflchen und Drnwasser. Sonderdruck aus Verffentlichungen der Landwirtschaftlich-Chemischen Bundesversuchsanstalt. Linz. Kla i, }., Petoai, D. and oga L. (1998): Nitrogen Leaching in Different Pipe Drainage Distances. Poljoprivredna znanstvena smotra, Vol. 63, Br.4, 331-338 (in Croatian, with English summary). Zagreb. Kozak, J. and Vacek O .(1996): The mathematical model (BPS) for prediction of pesticide behaviour in soils. Rostlinn Vroba 42: 551-558. Kralovec, J. and Slavik L. (1997): Transfer of lead, cadmium and mercury in the system Soil Plant Animal. Rostlinn Vroba, 43: 257-262. Maruai, J. (1995): Underground hydroamelioration drainage system in Croatia-requirements and its significance. 1st Croatian Conference on Water-Sustainable Development and Water Management. Proceedings 24-27 May (in Croatian, with English summary), Dubrovnik. Mikanov, O., Kubt, J., Mikhailovskaya, N., Vrs, I. and Bir B. (2001): Influence of heavy metal pollution on some soil-biological parameters in the alluvium of the Litavka river. Rostlinn Vroba, 47: 117-122. Milburn, P. and Richards, J. E. (1994): Nitrate concentration of the subsurface drainage water from a corn field in southern New Brunswick. Canadian Agricultural Engineering 36 (2), 69-78. Moore, J. W. and Sutherland, D.J. (1981a): Distribution of heavy metals and radionuclides in sediments, water and fish in an area of Great Bear Lake Contaminated with mine Wastes. Arch. Environm. Contam. Toxical, 10: 329. Moore, J. W. (1981b): Influence of water movements and other factors on distribution and transport of heavy metals in a Shallow Bay (Canada). Arch. Environm. Contam. Toxical, 10: 715. Ng, H.Y.F., Gaynor, J.D., Tan, C.S. and Drury, C.F. (1995): Dissipation and loss of atrazine and metolachlor in surface and subsurface drain water: a case study, Water Res. 29, 2309-2317. Petoai, D., BAR I, J. and Kka i, }. (1998): Dynamics of drainage discharge at the trial amelioration field  Jelena ak -Kutina. Poljoprivredna znanstvena smotra, Vol. 63, Br.4, 257-263 (in Croatian, with English summary). Zagreb. Pratt, P. and Jury, W. A. (1984) : Pollution of the unsaturated zone with nitrate. Ecol. Stud., 47, 52-67 Romi, M.and.Romi, D. (1998): Contents of metals Pb, Cd, Zn and Cu in agricultural soils of Zagreb and its surroundings. Poljoprivredna znanstvena smotra, 63: 147-154. Santa Maria, C., Vilas, M.G., Muriana, F.G. and Relimpio A. (1986): Subacute atrazine treatment effects on rat renal functions. Bull. Environ. Contam. Toxicol., 36: 325-331. Skaggs, R. and Gilliam, J.W. (1985): Effect of drainage system design and operation on nitrate transport. Transaction of the ASAE (24), 929-934. ilje, I. ppp2pFpHpPpppppppqqqqqq]rdrergrhrirlrtt t"t@tBtJttt0u6uuuuuuwJw!x"x3xڤ" jh},h80CJaJmH sH h CJaJmH sH h},h80CJaJmH sH h},h+OECJH*mH sH h},h+OECJmH sH h CJaJmH sH h},h+OECJaJmH sH h CJmH sH h},h#-vCJmH sH /3x4x>x?xCxDx[x\xtxyxxxxxxxxxxxx1y2y4yHyIyMynyzyyyyyyyyyyyyyyyyyyy8z:z@zHzPzTzdzfzlz{{{{{{{{{{߾ߦߦߦߦߦߦߦߦߦh CJaJmH sH h CJaJmH sH h},hA*CJaJmH sH " jh},h80CJaJmH sH h},h80CJaJmH sH " jh},h80CJaJmH sH Atx+y8z{|2}}ڀv.΅9"|&$p$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:gd1 $a$gd1 gdA*$a$gd80$a$gdA*{{||||||||}}:};}?}C}a}b}g}h}s}t}}~ ~>~@~b~d~t~v~~~~~~~  +,67;?ڀۀҁӁ؁فh},h80CJH*aJmH sH hq4CJaJmH sH hq4CJaJmH sH h},hA*CJaJmH sH h CJaJmH sH h},h80CJaJmH sH D  >?v{|Ђ܂݂.9Ã(,.68JtvЄЅƆȆ02JL¶›h},h80CJaJmH sH hq4CJaJmH sH hgCJaJmH sH h@CJaJmH sH hq4CJmH sH h},hA*CJmH sH h},hA*CJaJmH sH hq4CJaJmH sH =Lrtz| &*56YyĈ9?@C"4rt|tz|~$&46JL`ʰʰ։~v~v~hHdCJaJh1 h1 CJaJh1 CJaJmH sH h},hgCJaJmH sH h~CJaJmH sH hgCJaJmH sH UhHdCJaJmH sH hHdCJaJmH sH h},h80CJaJmH sH hq4CJaJmH sH h},hA*CJaJmH sH .(1980): Efikasnost i rezidualno djelovanje herbicida (triazina) za kukuruz u tlima isto ne Slavonije, Zrenjanin, Yugoslavia, doc.disert., pp 85. `oaki, M., umija, LJ., Manitaaevi, J. and Pavli, F. (1987): Quantity of nitrogen in drainage water in dependence on different system of detailed drainage. Agrohemija 4. `imuni, I. (1995): Regulation of excess water in soil by combined detailed drainage in the area of Lonjsko. Poljoprivredna znanstvena smotra, Vol. 60, Br.3-4, 279-306 (in Croatian, with English summary). Zagreb. `imuni, I., Tomi, F., Mesi, M. and Kolak I. (2002a): Nitrogen leaching from meliorated soil. Die Bodenkultur, 53(2): 71-79. `imuni, I., Tomi, F. and Ostoji, Z. (2002b): Concentration and leaching of atrazine into drainage water in Gleyic Podzoluvisol. Rostlinn Vroba, 48, (4):167-174. `imuni, I., Tomi F., Kisi I. and Romi M. (2002c): The contet of Pb, Zn and Cd in hydroameliorated soil and drainage water and their uptake by plants. Rostlinn Vroba, 48, (9):401-406. Tomi, F., `imuni, I. and Petoai D. (1994): Efficiency of different drainage systems on pseudogley-gley of the Sava-river valley. Agronomski glasnik (1-2), 159-174 (in Croatian, with English summary). Zagreb. Tomi, F., `imuni, I., Petoai D., Romi D. and `atovi Z. (2002): Effect of drainpipe spacing on the yield of field crops grown on hydroameliorated soil. Polj. znan. smotra, vol. 67 (2):101-105. Webster, C., Poulton, P.R. and Goulding, K.W.T. (1999): Nitrogen leaching from winter cereals grown as part a 5-yearley-arable rotation. Europen Journal of Agronomy 10, 99-109. ***APHA (1992): Standard methods for the examination of water and wastewater. 18th Edition, APHA-AWWA-WPCF, Washington. *** FAO (1990): Gudelines for Soil Description. Soil Resources, Management and Conservation Service Land and Water Development Division. 3rd Ed. Rome. Authors address Prof. Ivan `imuni, Ph.D.* Prof. Franjo Tomi, Ph.D. Lepomir oga, Ph.D., Assist. Prof. Faculty of Agriculture University of Zagreb Svetoaimunska 25 HR- 10000 Zagreb *Corresponding author s e-mail: simunic@agr.hr `bjr24HPRZhj|~np~Ԝ֜$&8Ο02DFbdtv ǻǻǻǻh#-vCJaJmH sH h@CJaJmH sH hHdCJaJmH sH h},h80CJaJmH sH h1 h1 CJaJmH sH h1 CJaJh1 h1 CJaJhHdCJaJ>rȤ2xХrt$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$v:$a$gd80gd80$a$gd+OE$a$gd#-v"&prxzȤxrtŹteVGh80h80CJaJmH sH h},h80CJaJmH sH h1 h80CJaJmH sH h},h80CJmH sH h#-vCJmH sH h},h+OECJH*aJmH sH h},h+OECJaJmH sH h+OEh+OECJaJmH sH h#-vCJaJmH sH h@h#-v5CJaJmH sH h},h#-vCJH*aJmH sH hHdCJaJmH sH h},h#-vCJaJmH sH 21h:p},/ =!"n#$% !$$If!vh5<585@ 5 58#v<#v8#v@ #v #v8:V l40+++5<585@ 5 58/ f4p2M$$If!vh5<585555T58#v<#v8#v#vT#v8:V l40+++,,555T5/ f4pFkd#$$Ifl4֞ H<t"T044 laf4pF0$$If!vh5<585555T58#v<#v8#v#vT#v8:V l05<5855T58/ pFkdd$$Ifl֞ H<t"<8T8044 lapF4$$If!vh5<585555T58#v<#v8#v#vT#v8:V l05<5855T58/ pFkd~$$Ifl֞ H<t"<8T8044 lapF0$$If!vh5<585555T58#v<#v8#v#vT#v8:V l05<5855T58/ pFkd $$Ifl֞ H<t"<8T8044 lapF0$$If!vh5<585555T58#v<#v8#v#vT#v8:V l05<5855T58/ pFkd $$Ifl֞ H<t"<8T8044 lapFB$$If!v h55585558555 #v#v#v8#v#v#v8#v#v#v :V 40+++++55585558555 / / / / / / / / /  /  /  4 apZSkd$$If4 T 4!``8`8``0$$$$44 apZ$$If!v h5555555585 5 5 5 #v#v#v#v#v#v#v8#v #v #v #v :V 40+++++ ,, , 555555585 5 5 5 / / / /  / /  /  / / / / 4 af4pxkdm$$If4  Tp 4 !80000044 af4px@$$If!v h5555555585 5 5 5 #v#v#v#v#v#v#v8#v #v #v #v :V 0555555585 5 5 5 / / /  / / / / 4 apxkd$$If  Tp 4 !80000044 apx@$$If!v h5555555585 5 5 5 #v#v#v#v#v#v#v8#v #v #v #v :V 0555555585 5 5 5 / /  / / / / / 4 apxkd$ $$If  Tp 4 !80000044 apx@$$If!v h5555555585 5 5 5 #v#v#v#v#v#v#v8#v #v #v #v :V 0555555585 5 5 5 / /  / / / / / 4 apxkdH%$$If  Tp 4 !80000044 apx@$$If!v h5555555585 5 5 5 #v#v#v#v#v#v#v8#v #v #v #v :V 0555555585 5 5 5 / /  / / / /  / 4 apxkdl*$$If  Tp 4 !80000044 apxz$$If!vh555555555 5 5 5 5 5 #v:V l05/ p֌T>kd/$$IfTl8(P x 4\!#0888844 lap֌T($$If!vh555555555 5 5 5 5 5 #v:V l ֌05/ p֌TkdL4$$IfTl8(P x 4\!# ֌0888844 lap֌T($$If!vh555555555 5 5 5 5 5 #v:V l ֌05/ p֌Tkdd:$$IfTl8(P x 4\!# ֌0888844 lap֌T($$If!vh555555555 5 5 5 5 5 #v:V l ֌05/ p֌Tkd|@$$IfTl8(P x 4\!# ֌0888844 lap֌T($$If!vh555555555 5 5 5 5 5 #v:V l ֌05/ p֌TkdF$$IfTl8(P x 4\!# ֌0888844 lap֌T$$If!vh55655p5p55#v#v6#v#vp#v5:V 40+++++55655p55/ /  / / / / /  / 4 ap<T$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 40+++++,,5565555/ /  / / / / /  / 4 apFTkd\N$$IfT4֞j@  U"6044 apFT$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++5565555p55/  /  / / /  / / 4 apFTUkd;R$$IfT4֞j@  U"`6`p5 F044 apFT;$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++,5565555p55/ /  /  / / / / /  / 4 apFTUkdV$$IfT4֞j@  U"6p5 F044 apFT;$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++,5565555p55/ /  /  / / / / /  / 4 apFTUkdA[$$IfT4֞j@  U"6p5 F044 apFT;$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++,5565555p55/ / /  / / / / / / 4 apFTUkd_$$IfT4֞j@  U"6p5 F044 apFT$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++5565555p55/  /  / / /  / / 4 apFTUkdid$$IfT4֞j@  U"`6`p5 F044 apFT;$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++,5565555p55/ /  /  / / / / /  / 4 apFTUkdh$$IfT4֞j@  U"6p5 F044 apFT;$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++,5565555p55/ /  /  / / / / /  / 4 apFTUkdom$$IfT4֞j@  U"6p5 F044 apFT;$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++,5565555p55/ / /  / / / / / / 4 apFTUkdr$$IfT4֞j@  U"6p5 F044 apFTC$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++5565555p55/ / / / / / /  / / / 4 apFTUkdv$$IfT4֞j@  U"`6`p5 F044 apFT-$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++,5565555p55/ / / / / / / /  4 apFTUkd3{$$IfT4֞j@  U"6p5 F044 apFT-$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++,5565555p55/ / / / / / / /  4 apFTUkd$$IfT4֞j@  U"6p5 F044 apFTW$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++,5565555p55/ / / / / / / / / / / 4 apFTUkd?$$IfT4֞j@  U"6p5 F044 apFT'$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++5565555p55/  / / / / / /  / 4 apFTUkd$$IfT4֞j@  U"`6`p5 F044 apFT$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++,5565555p55/ / / / / / /  4 apFTUkdo$$IfT4֞j@  U"6p5 F044 apFT$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++,5565555p55/ / / / / / /  4 apFTUkd$$IfT4֞j@  U"6p5 F044 apFT-$$If!vh5565555p55#v#v6#v#v#v#vp#v5:V 4 F0++,5565555p55/ / / / / / / / 4 apFTUkd_$$IfT4֞j@  U"6p5 F044 apFT $$Ifl!vh555F55:#v#v#vF#v#v::V l4n0+555F55:/ alf4p2$$Ifl!v h55555555l5 #v#v#v#v#v#v#vl#v :V l40+,5555555l5 / alf4pZPkd$$Ifl4 TX ";u l0$$$$44 lalf4pZ$$Ifl!v h55555555l5 #v#v#v#v#v#v#vl#v :V l05555555l5 / alpZJkd$$Ifl TX ";u l0$$$$44 lalpZ$$Ifl!v h55555555l5 #v#v#v#v#v#v#vl#v :V l05555555l5 / alpZJkdȣ$$Ifl TX ";u l0$$$$44 lalpZ$$Ifl!v h55555555l5 #v#v#v#v#v#v#vl#v :V l05555555l5 / alpZJkd$$Ifl TX ";u l0$$$$44 lalpZ$$Ifl!v h55555555l5 #v#v#v#v#v#v#vl#v :V l05555555l5 / alpZJkdr$$Ifl TX ";u l0$$$$44 lalpZDd .0  # A"UŃ4T-.1@=)Ń4T-.!Et$U=x p7! jx kQc( my*-*ChG%ԀN)TLkpډh}@AiJQ1JTEfZ*~ooq<9woݳs8J:HJBJ=Jm/Q`*߮TURJ|pR7öDz.+r*5{Cr{j(aِPaKVf t=[a/P123+U|=_u'O>~ h݅4R/H;ԕeӱ7_/%49aet,h!wګaHǾ8U`b+lp=/%d՗۩`ZyW] N9t1nʮe{NshJR*yq4NEq+փ ?YԎC*zjomZ?0ӿ=Z=8OM|`n;$gڭNϮ80d_o\54B[fUۖr[nm-ܖr[nm-ܖr[nm-ܖr[3);?1v nV Jq^'zcj_Sb)ccױp)i8I)I2ݝlo79=eOvXakqa>%kH9rj>EVs^24ׅokC'I}wOr SD6|1M B&B!LDS;msRO:湾S;U[(F/"W ,#x;%#}g>8^HΪSM^!ۮF]W}(Л,]B?,B?.Buus_"2 JUB!Bz }7 }з}_ B+BO Џ =&z^$"WB z VkF7 IO ) Uo -"Oп+x(tz#Y߫7r4qQkqg\鞋d4"$lXu].q]㸮q\8bu1u].q]㸮q\8bu1u].q]㸮q\8bu1u].q]㸮q\8bu1u].q]㸮q\:Fѿ~8_Xr _xEXG~G ţ\CRa:xV|.y埃O_,./XsH_|I{??? [Xj?DCd3b;D @O,Y<7v`Gߞx7џYn?n V_n} X~x|@sW&\Om0"]c\>xPyWׇ8xRT;!ƪ ŵ/h\fן dNLl [6៓y:J-P+{|/VKU*{T1, * T-|TˡxBEP@lBy6s\fQ幔~emX>BevX'Cb0,[dO_L%~ʯ|Vo@1 (w'=_sR7b2M'h3Gc:QGhSG{ Wݽ;Jk6k6[;ww.٭؝nY+$݊@v;=1:LKg—t8V<‰=IG<61mл;m0h_ VOrՒݫqY3hi_`N4|7~Z[T9JgW+{s}qHĉVg;<]>x1m;6>ikV#@O ,1*'Lxg?lH>y6\ٰ#gCC|c4 `e8ߛw-3L 0= eA|o!? ` 1i4vbZft O{2h,3xP [8182h<lj hˠq!!7av1Bl+d{N1Bt̔1Bc|GNa?pNsf,^Lηa1q8ONsfFZ8>lXE<wҝ33> bnˠ k;g2hufˠ iwҝ3c4vˠ %0xˠ)o$wXgp#12xUrˠ!o![gp 17 ۜt-41xĎO?>41ij]/Faq=];!#rh6纝9<ԅzˡ9%gã ᱴ믴φ282hqx5w{q>lDy6|wj M9b73IN &5 `p2>,o >e? HDeJJ},!ˠ  3B|;qo&Irw8"q敖;u'3ѵ J׭b˯i+G[u*a"jZ^t2z-TN{oH!]_/3N]>爾t/Byc˧Š;;bAQ1b۠2XM11AA)&AXy?][bXrl~<^ۉh7'Yqhx+h/څc L*_ RUߵj|/ &V*D-R,a lُsaV/̖$[usY fN7MW0] i7Cvr^'~Ϭ=[7 IR?#<19IWΉxSFtc*|l6|muSkqWbPu4^XvM۸<ڊnD$$Ifl!vh55555r#v#v#v#vr:V l4L0v +5555r/ alf4p2$$Ifl!v h5555855855T5 #v#v8#v#v8#v#vT#v :V l40v +,55855855T5 / alf4pZZkd4$$Ifl4  HXv 88T0v $$$$44 lalf4pZy$$Ifl!v h5555855855T5 #v#v8#v#v8#v#vT#v :V l0v 55855855T5 / alpZTkd$$Ifl  HXv 88T0v $$$$44 lalpZy$$Ifl!v h5555855855T5 #v#v8#v#v8#v#vT#v :V l0v 55855855T5 / alpZTkd$$Ifl  HXv 88T0v $$$$44 lalpZy$$Ifl!v h5555855855T5 #v#v8#v#v8#v#vT#v :V l0v 55855855T5 / alpZTkd$$Ifl  HXv 88T0v $$$$44 lalpZy$$Ifl!v h5555855855T5 #v#v8#v#v8#v#vT#v :V l0v 55855855T5 / alpZTkd$$Ifl  HXv 88T0v $$$$44 lalpZ$$Ifl!vh58555T5#v8#v#vT#v:V l40<+5855T5/ alf4p2R$$Ifl!v h5855555555 #v8#v#v :V l40<+,5855 / alf4pZZkdt$$Ifl4 8@ Hl<80<$$$$44 lalf4pZA$$Ifl!v h5855555555 #v8#v#v :V l0<5855 / alpZTkd$$$Ifl 8@ Hl<80<$$$$44 lalpZA$$Ifl!v h5855555555 #v8#v#v :V l0<5855 / alpZTkd$$Ifl 8@ Hl<80<$$$$44 lalpZA$$Ifl!v h5855555555 #v8#v#v :V l0<5855 / alpZTkdV$$Ifl 8@ Hl<80<$$$$44 lalpZA$$Ifl!v h5855555555 #v8#v#v :V l0<5855 / alpZTkd$$Ifl 8@ Hl<80<$$$$44 lalpZDd ~60  # A"[[oHl@=[[oHl5*ɎJxp^ODM `a-B`:B+i h0@2Utg5:ZMԎک =g}}ko߻g={PLRQKjT鴙JiuRS\9rXw*UOA*F*.@Hwp|H*${WTFOVy_j<_JWT~̗Pٳj ]ByPHu=k˧} ?a m$WKxAjOt{jѹ(~ c۶t\ϯ +?>•g)Qթ>WA vzKݭ+:v'N| Q8W.[@Jnۥ TGvļ_tspK GT}˛tv3\R+af=_.tX;}opQP?ɰ<r\\ o~c~_ts-W1/b]wջzW]wջzW]wg9ggs=wϞgg3s9=Izo4s=oNK w ԫͯceq+9om޴̰-𧹌m7x|vܞi3DA-lajҵ ӜnYϽu;}MꟃQk0xChwmAs Uz e(Mۄ$&ϑw!Ӎ!:DŽ>11<0vUd&6/3BF臅~X'~B]u,s}Gz_/B-B_.B_/-B"B)V ]B?%SBy]u,sD%BO =)jW } QBozз }}ۄ&B?.B?-zXW}Ї }' }g }З } }s{h};ؑn5];iC\:D4cs~o ;cnBߣY^k&~^Ą{tuS)qnq\78bM1uS)qnq\78bM1uS)qnq\78bM1uS)qnq\78bM1uS)qnq螏q q3{ƅƒ-`dE>J68>g\sg-jEV~Mv=i+9z> qʗrqI>!LU(_(qEwoWys/8>q V*`RqVQ~ ,X7$(,r=+Oug^? I~l=Yy ؏ogߡ84hBHny̝y%lW(zUڗֵVu,}}WwEv^ujjPA-E uS/k1P-YZqIВK>Ԋ_6/rر Im{"f'fP[}}fїR&%Ƅ?{uWCMgq 5d`& 29`,119`3XcGc6l>Kl>u:; 6``Igd:sRfM "5/پ7UJ4{oQoQ=?ASLXyh .uТ6n?K/7}Ɂb'j?;"+܃zhA뾬J[_YE{ x,Nu٬|$-N ^ߵ@2&+^Q闁!Lg<{El:? H w Z7uEdpc:߿C uځ aL`G`p---|Y0="<ǡ;pqa}d+~qqh=a{#s8qh{Ç÷ "vF1ߟ$O9g)b#281hA|?1h7'qW2A|?J ^c`czK 60x:AK|ՎA, h V:<WFdpc:+A#{p 1بٿ33Zt~ǡ [ ~SgΌkC9>1;3C{|8 7l"6پ33Z&bczF ܬ}g1h;A|y;m[A||^IǠ >I ~h`^A[|O Q'잟xb'^򲟯'8,qZ៉>zǡ="G;aÏcqhyi1woha~,pjaa,|ͤ}3XJ 508,}1h`cz NEw { 1}oE<1h/4.JG=;ugƌ\u_Tvs o؏mՓFB-[ Z#TM9˾Cs61&a -4 1&<_pd\ jHuΗ=Q+|1ū aRARW@0_«]cP%w|΂uޡuBr~0q^ +B\r$5:>=5D_mw>}cn6fg?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrsUx Q~Root Entry FN>Xz Data WordDocument 4ObjectPoolXN>X_1175073467FXXOle EPRINT}CompObjs  !# FMicrosoft Visio DrawingVisio 11.0 ShapesVisio.Drawing.119q Oh+'0 X`lx Agronomski fakul   R !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPS>)VWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~lr0}dZ EMF h"@~lF, EMF+@``F llEMF+0@?@ @ @0!@ @k|klklD@- EMFlkh"@~l  % % %   !!s % % % 0        : # ??$$??s F(GDICm+F, EMF+@``F\PEMF+"@ @ $@ 0@?!@ @     !" !" # ??$$??!  " !  m+&% '%     +g&% % " !% %   m+% % " !% %   HS$dH_   6_H6H6H'6'H6HW6W% % " !% %   m+$d% % " !% %   m+% % " !% %   h&% % " !% %   HW% % " !% %   HV% ( '3f% (  3f  V0Tj-^^<y<iU~GsEt%Q~i~Q%sGi<^&%  W0Tj-^^<y<iU~GsEt%Q~i~Q%sGi<^% % " !% %   3fHW% % " !% %   3fm+&% ( HW  6HRpArial 0j!68"X48"8"8"8"8"8"68>!X486!81!81!81!86!8>!=8#68$%X48+%81%81%81%8+%8$%68#X48#8#8#8#8#8#=8 &68'X48'8'8'8'8'8'68 &X48&8%8%8%8&8 &=8q(68)X48)8)8)8)8)8)68q(X48j(8d(8d(8d(8j(8q(=8*68W,X48^,8d,8d,8d,8^,8W,68*X48*8*8*8*8*8*=<?I % % $$AA( FEMF+*@$BBDDB@0$G>ARIAL6@\PHALF^J>>>>{>>l?>??   RpArial @84|ww@xww"CwX wwwxwwpP 9mAwdv% Td'yTAA'LTHALF % FtEMF++@ *@$BBDDB6@@4-1?>??   % TTWy[AAWLP-% F4(EMF++@ *@$BBDDB6@TIME OF DISSIPATIONhB?>`?>n?> ?>?>?>?>!?> ?>@?>?>@?>@>@>S@>`@>`:@>"@>],@>??   % T]yAA]LtTIME OF DISSIPATION      % FEMF++@ @L@?AA@4(6DĮCGDĮC6DĮC@$$==_888% %  ;1h6[0hX4T0hN0bN0[N0TT0O[0O61OX41O1T1[1b1h1h=u/h6-hX4-h-b-[-T-O-O6u/OX4|/O/T/[/b|/hu/h=Z.O6/OX4/O/T/[/b/h/h6Z.hX4S.hM.bM.[M.TS.OZ.O=0O61OX41O2T2[2b1h1h60hX40h0b0[0T0O0O=<?" % % $$AA( Ldq/p.)??" FEMF+@ ObjInfo VisioDocument VisioInformation" SummaryInformation( (Visio (TM) Drawing OKRF1A0V `X `<͸8 !fffMMM333IyFwͩ|oݡHxUPT/ L CTJDT5I[P1hXT@U.U U /Ub##bK0zGz?LA\&B1&b%ʕ !$oM $d )P?;$),,J & #& ,i 5&?D#//?M?\.?o A  ~,,,'q/%P6$Y6Q (}k?l)?"   A3#o >S@#B:a_ReUeUeUeUeUeUePONOD`_ReUeUeUeUeUeUeUUb SR;d5OM@%>Qiq;RR*RggRAqh>Qj /#A^F' %pP3|bFp#| J| | vi?A=Os<34Ux,,,/RQmeY q]U@QvovL__q____OO_OOY A`,X@L&d2%?ɖQ3Ҩ sUΡ̦xΟ$H")ʼ Dͥ*@dUA??ϟJ[D!# f:45ŧ5ŷ5ŧ 0H 0D$# U   Q#Wb ;Ch4  , 00JDNrqNENQNNNEN&&NDuc7XMXKvvFNKD#KDR#-D#KHGHDHBNz$DKN%iz4}1AT,Eu9fdhyT,W'0΢Uܮ50 fI$[OmOC%@E##HZ  ET,3Y&4Y&5&I6<s9Faaj(+h8 8?&!3"DE=T;ܯ?w???8&t,'5U R^LY  Y7BakKt//BJhuipsĝa.1DTcAcpvOpM KKuhdX(GNiX I[EEh.#E,ah-50zGzDpvbaH!Gmc/P K {\Hʲ_ hd? pA?%?7?I?[;<t5j! OO*FQ///F/K]SEn%cOOOlE$g\Ey[EO_!_3_E_W_i_{_____VB506,HM.`e^MIa,>PbQaƒ27q? 0a%oXIofd oooSEX_O-OF6ED@i66Oҟm2Hg;pbӏ_ ,7R[,<b Ӥ69sc Rba"2T^"<C=C(oor/P/b/t//////i%&/??BE0?b7>EbL?^?p????????OO%O7OIO[OmOOOOOOOOO_!_3_E_'(k_}__Xsϒbd ޲sb____ oo@/oAoSoeowoooooooo,>Pbtzq)sPё0R:ؗASew я%7I[mǟٟ!3*|+Zl~<´k{b%jb:ʯܯ$6HZlǿٿ!3EWi{ύϟ),-xqbٮ[+ub/ASew߉ߛ߭߿,>Pbt).N`6 2D Am!3EU&8a1t!T=b;b (U/0ݴ2-b@b[3?bDb //P//A/S/e*ms)!4////6p"bHaS// ??1?C?U?g?y?????~??3?<8@IbO2S7OIO[O/a1rB~Z[OOOOOO__$_6_H_Z_q________oo%o7oIo[oiczoo4=v`"ooo9j2rB,>Pbt eX"4FXj|ď֏ p0:56PbtH`@ا˟ݟ%7I[eXgį֯ 0BTfxlFw8 {"qo?;M_ql/~//a*?P?"t??Q_?????__(O:OLO^OpOOOOOO __$_6_H_"l_~__\44( 6e 𿳕?[@]7?@g( "`*^p? 4 [F\ #5GYk}D C:\Progam FilWesMc]sftOUfeVso1"\"0}3,\BAKGR_5.SF[F7\"4FXj| D C:\Progam FilesMcsftOfeVso1"\"03,\B RDE6_.SFYF\"4FXj| C:\Progam FilesMcsftOfeVso1"\"03,\BASI_.S6՜(h2a*@PWUC!I+/tIS//IO/U` ,?\5@Ǹ1n@ LFDTyqC uhz(T UF?['@F]7 @Fx fE&1Oѿ+=Oasϗϩϻ '9K1GD 1eP1 aHA!1Htt_vDAI4vQG%!!U"ޤ$%&U')*+itTA/A/01U23T56U789: ;=rUBCvEjID1JKLM0&d11C@R>ATl!VWXYZ[k]^_ab cdTNQmAUijkl)m]4QpqQsAuvwxyz{|}~tR@o@ lnB@rŷ AO??P՜.w@,Eѹ)QI͡ԌԔ b! ͠ufLC2kpyOt ____^BrRaBE= gpex; TBB=hC2\=[X@"Bj1/q_JA il|ooooob@oo*z`!BT*x\ut@(:p `ia'uEϏ᏷' ]ASpewl#,##0\ "kn";\-Θ#|Ι[Red]ڜ$t)Βs.0Ҝ)xА->=_7-* Θ_-ِnl"-"@_-zc)h_k_n{˦F]l{??F@C۩I H{q􉿛Pſ 0BTfxϊϜϮH\I)߬,߬*2 Jߨima}#ݓX`rb` 5Aʔ21EQ0ShKee(1 2)8 4ђI 3`a0iCP$`yxc` ZPk Au!5A_w:#!k13 -AxPA@SA=@5@%P3P(r@7godinmek0Pbk0Znk0Cdu5.1991.u7#y10J-1-2#B2(M\3X4X"3(32BMB4]ku "6(62BMB7]k(u"9(92HBHM>1.20S00]p3o4o%6980>9.0x(atrazin'9.mNO3-N:x}5A},>ar@Ep6pp]S TdZur@LBLBMd``macFA53?,4+c:A3Q?`3_PLd<q25AQa 7M q3q4_P DPqQ< ]C ; abI!k0rS&E#+B$@5% _%!E&#+De$%S c Y0Y05 h_POݱO&<*%!!A///?ph4z\\P,$t&az(nss0i, *nD@ h*f-pimP 0fd(sN@ip*7qop`'QciE%!Q4!5e"A6..9B1pqcp8|98d010~+Sr2~ӡpwq ffq|3tczF~a.F d*V}Pqq#p9D|ޅs|Å7.ԁq3z[t}|[2Ǒ.ΐrtS@LՑeHB9i.+SC撀P@AgcՑ3Mfh6"H,@'SՑWnD%CnE9n"י0n C.ՑH@Zn9Ln~Y2nݥq> r=8TeUp d1MbP?_*+Ҁ`%@}H0z\SILVAH0EIOHPACJBpophPrH-pT4C_њ 4]d.X`QA4_rτϖ8e`>6DINU==xAϲD+=Oas߅ߗߩ߻'9K]oH D@QX9dUk}ʀ P (r3*RհsU ^3^3^N^^^e^^ˁ^A^R_ ^^H^1^~^^@^q^A^p"^,`]';b^c\^j"]! +Q Na+Qm mp@I@3!G r@83fb&!+#;3!p3!p?$G&32&!_q.!@3!9"w?$D!J#BN&!р<3!3 ?$G&&!1pXf!k4 ^?$G&R&! _$9"-#3![?$ G&p&! _$79"B=2Q?$!J#j&! $63!q:I G&ˁʂ&! $ 43!Ёq:6J#AB&! $33!X% : &Q&!鑇qE3!`3!% &!ڇq53!3!@e?$ !^:&!_$2"?HG&!+$D3!Ȥ=2{? &!$G3!&8"@zD}&!_$>"/9&i&!_)uB`DP#$9@q6q&! 1Fh=2VD&!q.!B 2BIyD&!_$=3!L@Bq"&!c9h!IgD&%&!/8C0tAS:9&!_$2=2f$DNM&!$nA'"{Zab&!-9 2NDvu&!_$Bpj]&!$8L!3qDB&! $FgWZ&!!IP"DR&!"iitBBDPl#B_q*~#$%6&'rr&!#+$H3!(% 2nD&!$ii8PRB4&!%9psz.i-&!&I{ZBA&!'9"@Ġ6Pnv“𺝳! #LD EmP#j_P |N 0_P\M?tB*KѰK ֢]% @[t {޿BTұݹ3` #$EȯmL{mi m m.t-m/tJfj<3^)"d26ұ  ݨ%4^$`^QJ:: PqbOPՒ ; nyQ_ע #T5N ע .%M<^Eע8tJ\bZnn'?򆿘G!ο UbC B"Y@kϪ@ͮ"HD $נ% /Ryy_P OUl&נBĽFנAUf *@=C_PȊ*@0|j bupr pZajkR R~"PVV~d4Ki0"N !vSS&1*ASe& i  ~F _P_PбG. *Ayears'!6_P qQ)ZVl3x &ug/!mgM5&i!'J-5ܻע"obP B*@Ky+0` /}ߏߡ%/ %N~z 9a x rafluct0]a0io? "0uf1phvy1pUmtl(+b,nL0)1pi$2da\2a*e1pw2e0) ]eҳ14p3313=>+C=1YK=2;)I=>M=;N= 7@.^B=>lV=>_]= >uW=! >n= >qAi= > wi= >;c=-K1m@=:>>>s=У9>q~=+s=;2#=!>ȁY=>T=>>>U>>>>0=>>>>>>P>!ӝ=>>Q>;>>> > >!!>!>">U">">#>#>#1>F"@9kT$~ Jb̰ b7* @"?anbdr|tMbP?_@B*V+V҂@BrX% ! S!1V҄VM\.SILVAz }E6IOR:UC4J.Bo0/1rH6-14Cf 4dXr$wAA4Wϻm ^DINU4=xsψ'E!L^p߂ߔߦ߸$6HZl~ )\u!X?S#UE bD)F""} !AQ=QE!Q]a[!% 1% 3a% 2Yq% q% q% !% 1% g% % Ӂ% % ?% u% % !% % p@% % % eAckB~! @AB'!A`4"R'!1&`4"=Q'!`30t'!`H4"a'!`04"B'!)`pCBM'!_`+CBf#`\3.$$ˡA4"'!Q@Dlΐ___Q%% $_%_ &_'o:2%!'!7`#Qi$'!$,#4"RQR'!%,#(#a/$$&,#Cab'!',#3;1b'!(d||PdX6qz,#;1{9' rhn9#j ?s|q 0 qzr]M5p'?yӲ1~_`ְP:!]bt0G!k [" =2Iv S3p #$ q 0²?M>0J.EBv0X/`)wW<3*"d72! < (uq4؀5%b҂Qs0Ro:" ]WND3fN0R ;aR7=!Qų_׃q IN< 1M<Grcqu 0PS7_stz I``qsEpMbP?_2*+2W%́) 0oUB#)avm̓kIqm4mFm skmmfmmmlmXm!m)AmT!mf!mj1m!1mvcsiq=á1HdSXbIs2.dqB>b4Ba.P>bFP.d6d>bB qa>bRba RdM>b()/c 6d6>bf)1a 6d,>b1a j54.dRcW>bW,.dRdC>bRi21a6d9>bBXlB1a 0>bB!"1a:>b)A3/cRc@Z\>bT!5.d6d!L>bf!B.dRjj1)=21a6d2>b!1avDp0| CU104f0p`  vCcj f񔠃 uaF@-UQ0?2`0c0]l@vpQa`[rƻ3 :&AxcPage & P-OPADQp< #;&`:?6N&^!EtrÀDa @ѯFA!0T6`MT`@ r#!@n OACbogP ZajkR[R|bV[V0d4 .*VB 4V{*<arJ gХdaeqW!D1 `߮6Ϭwqk-8,`VDVh~p4~+$6 "kLk`"$``aG ^-KAQz`sGi 'ng Uh'l5-)mut4sHip'"H^7ȉޏ }c0P6$ 9tASewtMM˟ݟ4b(:sOsfx!C:L^B/T/f/x/n?їͿ߿'9K]oρ?Ϸ#5GYk}ߏߡ߳;_ ,/P/t@OU TE"5GYk}5 %DVhz8@ Qc9Ĺ0 2DVhz8<//6//_/~//ϟ//? ?2?D?V?h?z???????J OO.O@OROdOvOOOOOOOO__*_N_`_r______oo&oeIottoooooooo(:L^ ppT @p /A`rp̏ޏw/ASewџ"4=Oasͯ߯'9/]oɿۿ#5GYk}?ϳX 1CUgyߋ߯ -?Qcu悔xrpx"~1 3 F"Q/ p}x ߽*!R-"p!/ &?6Q+y10as3?WF Hp`!^?p; 'u6;?O"M%DB0OLOpOϔOOOOO߸Q) _>-_6\`,AOZ^_p_____U~`___ oo/o Y aa WGKY ŔT WmWp˚W^5of`"1h`a`a>U0qb)@Q& N7bcdjU `-P"c0MbP?_P"*`+j`P"%1=^`y3!þ0TMoU`w(./` ="-;Q-----A----T-d-1<-a--^--<-"---4.OO -_-.!T\fadwSyqa0TP``~Qyq@wQ#10RQPRiQS\RQPOR*QTARQQI lP@'-!!-#D $X.-H&k]!"Q"JtIRrWVQ#TICRkjQ$TI>R~Q%bҡQ&Nj&T%Q'f# hd,Z!8 @s3#  S! v. uS7j8 f Q0`[o?Rc""r%V]@:Q"<[h;# B*/%$J-3QoWcunS]myIf r 8D HhPe AS٢RP.^*Pe0¾heP8 #π4FYsςߨR#0+Q^agronomski fakultet QSheetU1243R/Char #1|+QaaWorkss8)Mh wh)mT#1hmguSt"&8J\n` $4O(:>"v!3Rd.Ӣn##3. M j4D !%>Qd:" ձr԰zذn~ep ;)U Q,j,w)_C$ Rj'NP  %MP<8 gEgH' 2!+TҬ1"mD8!}$% j؞رPDPO&!ig! //1/C,S.F`UJjj*`a`R)Faj`v ,b$jjP30g 30ZaC0jkR RaL5PL59VM0Vd 4 l"(bN!SM0Sq8g!jc*/???1! P8A]agj)P`0`P-;`oN!S* gΰd>e'e8Tj)!h~`+KAZOD0nO FicڲQc׵ ΰfЀ (Ұg/fmB3`A#g57> FAPdgd9B"œp`0ϕ=! aj%v-0!_D+S._I IgD o4g5dMwhѶ0AFoP`kN!Lp`6+FutF_B 8_usdaiPeЀwԲeаA3 yT5gche " ;*Pk*C4t56á222a8912W86e6T56,*͑2*/+*A/k*o2////!2//Q22/ /!/2#/`qhݒU5>F V)$7f 2DVhzHCBnT```````````````````*````!IA``"ѝ`7I[mϑϵ!3EWi{ߍߟ߮t1:NU&" WMFC3cDt2n$Ib ihlg9&~dz|Y+EM0P~9Ԫ9h0"<@~l0Q,zK+@%. 1`0Qq\`4q"@@ $e0@Mt3?!@eСeaaT1!hha$FQNZ"N*Um9+@&`&?СPeUPaQ".!+* : . v H[ЋP`QС$*ЄdЙrN_P`"L 6Vv"vv'!"v&!vWF! ^pZ/l/~////@/??&?8?*ho@e?w???=C$P`???OODV7OI(3fE* A@*A[^[QP`-'R^<y<iU~SPGsEt%Q~iPǑPUP~RǁRkPUkPkPskRiRUWPWPWRURUWP=@=@?RPe" F!&_8_J_\_n_______SBOTOfM" OC*ONP Trp X4WO4fW<5vAr?7201= R1=1?R;4?24OHQBO;6;O24.[OBrO;8L`J ) R1# EqON105OOT.a]bQ"_4]1JY////// ?/____oo&o8oj)oDoVohooookjQ*?J&VqfJZ!$wW!218mw21$ ! ꁎڿ0*βɢꁧ% M2lCj+:wCA10fkmqkCF0fR@0RC$03? wfCkzu(&x4 W<A_NU\s.AP9o1kAіE2qz6y(oo .@Rdoo\ʟܟx$6~q`rL% mr T8J\nȏڏ"*/A_CUBl~pʯܯ2DIUg&" WMFC3ȱ $@$iw߉ߛ߭$Մ{tQ'?/AS'9)ҿy f 1mq2DVh΀1}1Bϫ|D*Q?`Z9 yBQ%7mgy߫+=Oas{t//HZl~ 2DVhI!*vAT//%/7/O3_OOOOOO U1~q g/y///6oHo/// ??+u???sυ?3*2$O2;A!oO=_O_a_s______5_!@3EϏi{;Qi___o"oɟXojo|oooooooo 0BTfUqhA=(6Pbt"1q /A&/8/J"wY/k/}//?o???????1?'oo3o@EoWoio{oooYGOO'O9OoOOOOO_#_5_;Mk_qksFzp zp_EE oooo!3EWooOϟk()EntsvSe$*<T( ˡM_qˏ@ݏr"Auq9K9^pbtί$6;5GYk}ߡ߳I&" WMFCh۱$$i mnt?!3E+{?OOOO0BT@G_Y_}_-o_M)__$(:L^>*N`rnt//;M_q%7I[4Pbߠ ՋSe0w-w {16AriafD;}=p Ot3~ߐ*?P?O;}Mv6?>OPObOtOOO"O4OB_T_f_(x__is@EOO(Ojo:~G R9_#_____oo__@oooo 䞠@m5oGoYoȾoU6?oEWi{);K]o̭@tȾ0ʏ܏$ПK@ ?QcN R7oRdv6HVhz~IQ#ƯدM% V9*<ֿ 0̿"ߠI~EPI[mNR€ϿYk}ߡ߳=O]o(zEwX߆y9C%7+zւEQcu 2btFXhz|K/Nף2.20002P/ /2/D// ?? .?@?n'~!2~!//A+OZ?l?~5%??&eCŮ)jAyears0!i@O#O5OGOYOkOM?OOOOO_\'|e"b/t!4/?QR DRug/kg!0A!%#`@_@R_d_v___$_`1e#daceWd$FoXo~=4eeQgkc%);M_|`}#`e 3f-fcqcuo1)kj!Ç4PbtU@wR:nَ?@n @@Nd2W%?a$(l0B&[m!3EWi{a&$ Z-Kf/O3X'ONs //%/>} @@b M 0 @@Q( BUU{/(&a/BV////??5?>?P?b?t?????8???@PTO OsG_P_b_t___U@!.g@@Z>0@@U*JR!@@rP#*_(_C[%o7oIo[omooooooooo!3EW+!O#د3##9=OZ_vV鹘zղnʄj(偩_ej#@@'si@@@o@@Vc"?+?E _BƊxКЂLR0_em`XוU㯣҄]1SůnߒוPfETungaH"@&>fGSendyqaj (  R$fERavi"&5<fGDhenu"j (  R$fELath#&<fEGautmi &<fGCordia Neqwj (  R$fGMS Farsiwj ( _ R$fGulim"j (  R$fETimes NwRoanz@D$@U^wLB|@Uw.B@Uw%BlAUw5BAU2x9B\BUkx=BBUxCBLCUx9BCU$y7Bz;B GUyz"BGUz9BGUz&BtHUz'BHU!{CBdIUd{>BIU{8BTJU{GBGuideTheDocPage-1"Gestur Fom aSchemN aViso 90Co}nectrVi}so 0Viso 01Viso 02Viso 03Viso 10Vi}so 1Viso 12Viso 13Viso 20Viso 21Vi}so 2Viso 23Viso 50Viso 51Viso 52Viso 53Viso 70Viso 80BasicBasic ShdowLocalRw03L}E3L~G3L~G3dK/~%G3̄@T~A3dUX~G3Us~G3U~G3U~G3U~G3U~G3$U~G3DU G3dU#G3U<G3UUG3UnG3UG3UG3$UG3DUG3dUG3UG3UG3U6G3UOG3,LhE3dKx"G3UG U^U U UUt4?['@]7C @ CWKC-hBU7 A%t4 hB_ A-@AJ@tOOR@O5RH<(H<(JEINFLUENCE OF DRAINAGE SYSTEMS ON CONTAMINATION WATER AND SOILNNFLSimunicimuimuNormalSimunic27uMicrosoft Word 10.0@- @02@@aK@ԁ@=# ]]֑*⠆s2 ,v#x|չ&q7qd&1AXུRTPScoT^W6mnjV/bXǨ 6;;ggggwf!,vVfΜg~g93G , nd!#*B3/$ 2>6N56oapW' ċ"X~Zft]?/mjY;WYDfԆ`j>ܖʶܑz{nIס]~LOmb~'{ TNlj yHe>Ƕ:Jc됳JneeZs7B:]l68py+/:SUegőjf꭪@*ǬK/m݌,҉իaWub12_ ʼ:?~揅rb~l47YhiHU},X $⫆}_9w[G%+㶝l_ֱؘMAK' =Z h-pt%cK`zIly5߇%>./n}}EjUU5UKD|:xhm*\-WɶrlWm6#ч)}㓯OB]/YFo`agapa :|'OrN=Q,ze£{5GXV.d8S|Y\)OK&%PyA| _}p*1+V8MNfs%ŹߢbBݯ띏z}s1M}_*< r;YFN8辥]vMguXotě\QG?VƥzgzۤY|·Vr3%zU`ٺE2gUO;c>C\nФ*:]70t<A:4_Q(gv.Sŕo "o!~ eO?jn!K0]1\uXv+~.+mXފ}YUr~n]Ň3|//οMÿC_g8 =Feq8R27`AT:eɘ]_2_e[>cD哮@ۘg joߏ}SDۚ?1k07{-~ MZ`/ qb?ǐE6jZ/^O[L޿(c?w]l#E1Uݻjm>jܼwVW=ݓ7Aץ[.㤉߃]ѱ+g^0.+˱> ,RGQKwڦ_uE”w~B_DtSNuqӾɥĿv#T#t s>_걟q[b#x8(s㫣9`yk켩0mdc ^d0lb `pA#&YA:ֲZ6s $apcp(11K RiC?'eB;AñվqasqR sbr1sLcҕ5Ƥ(l1ǤY\Afp`3N ҽ73d0K`2 d ^eBfLE=yMׄ0qMHAf&ׄY3?29zg=BfLG{(s8K4Ǥ>&-d1GLf&Y`cB gdp`i1hG}<8ULf/f=8Uӿ.49ecҬ* @cLoS1ih,2_ f;ܮ`i&YJgp;cw ε`h_|b^f5^!k;-ߛf^f29zno0{8X1iIO2 1~{3-wr4MIA;g}?)ɒŪ7ӈIw*x;hQxV {DTо"IwIÑ={;C,mczNKżQ?p}-r P8w94􎋜崞?QO"}9tJ|}|Ρss(͟CiY9ROP{M~yJˏq>zc[Zϗۛbu\zE;MM77i9_td } 7FreXc*i8ᨼ[<'z"/iL+Wo꼻T9IQUG2-eu^ {pPyU4;D9VՄ? D3{â޼b{X屰޸wsg:zƹYy2Sjt(qFKp}`Ū}_Ote:NCSؾmtP/fǧ}GlϑТ91ҸA ?6${ڢ鴢:|~cn/nlW߼{vsj1' ̋_1FMdXʶw +c[-M(WdY>SU~'ͤV % ߉UƳOşT'r)'KqFom[ΨwVd}-HUwX;^zMI?T ym'4V"أ9p9r"mxKֳle7>YEcoyHn ]V ѿ9o$"q|%/㓷l憎lѽ~gt/~ۖ/L畾(z7E&i8|}^Ąe bL;~Qn!nCyGw'Wzk01{?eFk>:uF6ޱ61e,99h;m`0k{ltr0_ܞdx`wi#9(Tb֪?c1m}<9Z+ÒK:ç?ffF3񋛃r0fo[dI|XUHS&b`'6 6r0 #Ҹǵ8:9_c>=&~qr0R1 b~H__$ߐ`kUƱ"I'[>hOlHlȨ?bF?/ X`n՞q|&3nFc5dFjO73YeA: 3,c0hr8~ngIL`49̬ts0cqǤh2Y`4? 25dFjO71xc1 3d0h^5#_ ׄhrY`49?_b09M3=tƤ^QR1qL&՞nFc f2`fx6Ohs0fV{9MǏ'}f:afߘ_5Ƥh2Y`4?j(, f2`fdp`09M3=5]~1mI&tFjO7qqhrY`4Ǥ7&}qh&I3Lf0h|d+9Ū7ӈts0Va=[ԒٴoA`5s0/7~.!99qqGnqGl~E>V99;BF'XjQz9GS~UUƩVy.LTZ29>]-J|;4h|.L`T맛1l4"L?srjzhl撬o埴<y{ yb~սEK1­GD }ylzlݳۏveJFA%mH~DwByeQ-y_EȺB$4ejCLvi!w[Cv8c$Qvl16:$-˕/d{ /R%zX9 U*rumw{amÿQzJs7`}^iEnVrUj9CU1Xu>Xu 6d?R| e| W_QyFWT8Vj#wI>6CK`3>3cIqlr/HZjl |w Q3dT L+cޭ@R>dg9g&4"e:t~$'̩Z9)Gnk V-=gI/~^mn{5 -f{DQzJs#3VJs}REnx}<}}|3y-ļdˋ>qDՎXZZIk-׷"'ίw~"?"-Ϗ>F{жqm=6%[B}} }@a5 [˜>SO삈4.f^(R4|8 >E(E1\>G.(G1(p>\ÅvpiQm7p7||9>J Q>JG b| >>( i}R4\Z 4uh.&+)}{v僥Rl AiDBS؇CRTKΠҊaQ>X *>2|,ҵQ.}ZK`;Cz:B:;CA=}ж!qm <\z2oQm?3 al#|僥a^ZWk/[lEZ~]Gz6+iaQ>Xz^Z߮:tb1^7pR0 yXY"_}vez&;cAZN=mNNXpۺ }}5ѱNo} ۼ;>SO_iN3wGm>:71mމy;>SONj6X7lwӻ֑o(/^ [] ۼ+wzQz=h8Fq(nw6 cO=} vzgl! 6ygtz$8>p'p·|8E|!G(å|w1(.| |.. >JT| no7p7G>JG (A Q[G>G(2Q>8>@{жqm=65(W1|x=><(1\>G^>||>|5|xG?^ >*T| ~o??G>*G@ W QGQiJQ >*Õ|Tj!#>#h66!I``L_CN`p{D qRjMg& n{ևr_pTr}Fpw.,%ooX&͆ƹRb ~=g~>F~c>S a`(i;w[UUYUFU}۪x}GzRzVg5|Wc}(WHzH,Q ._>kۨC/x~ 't@Q Ix}kuZ6j lc-O !pDy0(4>ۨ q|u#vÈ0b9 >`]d _k߾聗+?||\ _ rk9`O6zlD`޵Ou# s`Z¼>z-o}۾-N{L4wǙl4w"7Qnka=}{y`31oǖG}[Y{Ʊ޳֑o(/^ӷ"gu|oYG}; mhzmKG[y}ZXO߁ 0.9PZaLov̂0pukN|8|8 >Qd"Q>E|iRQlbQ >|b>\>\ap%*>p7p÷|%| KG (íe |w(en|=h8F|><r|rQ.\>|>|> >Ë/jQo??||9>* Q>*Gb|T >*U|H>$>$J|TJQRIGp|H@{жqm=6I|U||Ԁ5ࣆ#h  b8>#GHGaa0s| !B G|4SQozQ>|ԃz:|ԁ:QuNhG#hh0Gh >4hTlf >|4fF|=h8F5hQ1d1'c2G>ZG hA Ѣh[G+hb)c >)|LU1G|DG##>"S 1|LSST15Q_|HGuD'|6i+l I.3ȍ-%ޭ{"j׷~÷wYo+l~ ***l Ȯ*^zZ+D+vzP\PKWW|@]KҖȿH[a;`=(D$-}p |w QӅrW^߄>K6~~A'2!GHG.Y ߵF-#GB !VHz]>뱍z[PGX0b7#?彻!Zٛ{w޻>i1/}~,9Ml;{uY31̅.[,9+.Q._O}R3yݏӎrggBgfޱOQ.ԜN2u^gP<S"پ_vu〓X7M~ҜKM ;"w.gӷfa[nr>jU-n?ں^:Y7NU[SxjoZ &#9Gmet_}~^ž]B#I$9]Zw?kktsOP݃][⹮-Fbj[X@:^oNQ-`gYb\է?!q,j/%OI;ߥ }FvlߵiG-SO7.O+SW6ۀLJ?[ɜc^atzny yԷ1}5v ])J~{6[Ϧze>[_+^9xugmm}uVtpi#:B:t=6X$S 7-_Ѵ6>i}!9Gǡ9?7χ--j^j=w4;Ѡ?7,w|G s'bO=}w5αq>l!lƥ;]uKAA#k|q9K헟6>9`j}{0pl>ű[?q9ӷ@َََy)O=n|Yu@Q9-Xlʷ|ʵ^h$rR{ޟz:5$$Ifl!vh55555#v#v#v#v:V l40+5555/ alf4p2$$Ifl!v h55p5585585585 L#v#vp#v#v8#v#v8#v#v8#v L:V l40+,55p5585585585 L/ alf4pZVkd]$$Ifl4 @ <t!p888L0$$$$44 lalf4pZ$$Ifl!v h55p5585585585 L#v#vp#v#v8#v#v8#v#v8#v L:V l055p5585585585 L/ alpZPkda$$Ifl @ <t!p888L0$$$$44 lalpZ$$Ifl!v h55p5585585585 L#v#vp#v#v8#v#v8#v#v8#v L:V l055p5585585585 L/ alpZPkdd$$Ifl @ <t!p888L0$$$$44 lalpZ$$Ifl!v h55p5585585585 L#v#vp#v#v8#v#v8#v#v8#v L:V l055p5585585585 L/ alpZTkdh$$Ifl @ <t!p888L0$$$$44 lalpZ$$Ifl!v h55p5585585585 L#v#vp#v#v8#v#v8#v#v8#v L:V l055p5585585585 L/ alpZPkdl$$Ifl @ <t!p888L0$$$$44 lalpZ $$Ifl!vh55555#v#v#v#v#v:V l40+55555/ alf4p2$$Ifl!v h5585l5=5585585 l#v#v8#vl#v=#v#v8#v#v8#v l:V l40+,5585l5=5585585 l/ alf4pZVkdq$$Ifl4 t 5m"Z!8l=88l0$$$$44 lalf4pZ$$Ifl!v h5585l5=5585585 l#v#v8#vl#v=#v#v8#v#v8#v l:V l05585l5=5585585 l/ alpZPkdu$$Ifl t 5m"Z!8l=88l0$$$$44 lalpZ$$Ifl!v h5585l5=5585585 l#v#v8#vl#v=#v#v8#v#v8#v l:V l05585l5=5585585 l/ alpZPkdy$$Ifl t 5m"Z!8l=88l0$$$$44 lalpZ$$Ifl!v h5585l5=5585585 l#v#v8#vl#v=#v#v8#v#v8#v l:V l05585l5=5585585 l/ alpZTkd}$$Ifl t 5m"Z!8l=88l0$$$$44 lalpZ$$Ifl!v h5585l5=5585585 l#v#v8#vl#v=#v#v8#v#v8#v l:V l05585l5=5585585 l/ alpZPkd$$Ifl t 5m"Z!8l=88l0$$$$44 lalpZ $$Ifl!vh55555#v#v#v#v#v:V l40+55555/ alf4p2$$Ifl!v h5585585585585 K#v#v8#v#v8#v#v8#v#v8#v K:V l40+,5585585585585 K/ alf4pZVkd$$Ifl4  =u!8888K0$$$$44 lalf4pZ$$Ifl!v h5585585585585 K#v#v8#v#v8#v#v8#v#v8#v K:V l05585585585585 K/ alpZPkd$$Ifl  =u!8888K0$$$$44 lalpZ$$Ifl!v h5585585585585 K#v#v8#v#v8#v#v8#v#v8#v K:V l05585585585585 K/ alpZPkdk$$Ifl  =u!8888K0$$$$44 lalpZ$$Ifl!v h5585585585585 K#v#v8#v#v8#v#v8#v#v8#v K:V l05585585585585 K/ alpZTkdP$$Ifl  =u!8888K0$$$$44 lalpZ$$Ifl!v h5585585585585 K#v#v8#v#v8#v#v8#v#v8#v K:V l05585585585585 K/ alpZPkd=$$Ifl  =u!8888K0$$$$44 lalpZDd W00  # A"#a``9S*aOf@=a``9S*aOX9w$U=x] lUEBOVOl"X-[ePDfqJ@AP~Odk FF FFqWMDd n@@"d%hc}=t^^)t\57g;3ΜoΝ9Z)5 RRkxPkEJ~RZܩT,Q⅕JM]t*{(CUЀ)4Si 9[! kEU+jsYD2o+KU I`2ȷSQyo \{ ԥSYK }y1ʷ/w`pv밬݋'+=|Uu*MzǶvg8 *{DVb5^bj/S^C4r+}wv?bƬP*y ekL_`NUs>е6Sqt'w+W&a7xi~ºl'FAL{*쬁l]4|yӖ˷f]+wܕrW]+wܕrW]+wXbl6x5 U}x:f0du >ۊ[٭_nQsN65< tJvvM2'yHrޔ27y>t[yؼc}w 6op[F92ï/ф i] 7zͮN2c=Mmʱ➸^;_Nܱ/Ч;7 '(6:Z{СփP#PPc075ϔ%O`<^ҽt/򩐟-4;RtJ`XOB/$Ox<5C5@׳pNg6FcZDHŎY{JuD1wB/2/jvo! x(s; D%/xo-*(g_+_/X G(/B r_.!"-Y%_ _*7 |?'Z_ ܋q/ u7$[[M6v1?Scz;-=U?*L""g|M>&qɇq8na70|M>&qɇq8na70|M>&qɇq8na70|M>&qɇq8na70|M>&qxSi o!. tH>Ġc 9" /V#!ݕ^k<ҫL~Z&!me^H;|GLF%29LF^@a:|0Ǚ<L~LU }63vQn&_ |A>Af ofr/<v<ɇ~J*n/?LIk$=o䶸Fg檅6wL؜ak66Vmasۄ6wTaso JIas? ;.lnm ;,l":lst6wXas TIas?|(L*_{:ls]66/l@\as>mta6wקZE{hs|.ar u6EI!{Ghsu8~Jhs4sA53J=wSS{Ӹ3 .!Kg#Aa}H4ً} POo)2EQO#!'ы O.3U])U\ۗjZC_+S$P_ }-HiUI}0UB_IU?{C_S諴:<1@LgC7 t|?sNSsjt<% /x-o5r䭳hv*xvpn56nUkW1?9ňfu +v>yevtSM}nȖ`*wc7XFTjl;3}n e,`\ia^cճ_l(w [rwܓ{ϩ>>Pp~N}oI8/qV(5\]N`eܾLwɎH8h=88(E^8h7n/-p8k" ,N AfE}}ga}ް%D8h=_"1p9X8hkGW"K}'qqn$8+EuNj:x-O#>8h=f nqtso88_wEjA98%:x}%$t+8JwE.>a}|b-q[C|b]#.>a:Ï^]nDݿ vp<_xe#ڽ7xxWwo  -\/ rpy^zA[tFqzv#d%^zA[t8x8xWymÎsCҍsD'X_ wE.>a}|b:qp!>1K?^'}Cy8xG}xz.&n7p~ v{Co?7 J#^_ҘZV)A98x4v~8*8h;#u9x0x]#;Zc 2N>^9]{budkpE>xA;Z Aiw[lm+.{vȾ\ۍž4/VK \*lԝ OONц4Vo=|'9^]{8= ҭ?hS=glA$;A;Qv8&ɞLcbx-/T(ZQٴ6y,8ji8Zjs0={7?t6?5xe}m$$Ifl!vh55T5555T#v#vT#v#v#v#vT:Vl4 t$++55T5555T/ alp<"$$Ifl!vh55T5555T#v#vT#v#v#v#vT:Vl4 t$++,,55T5555T/ alp<$$Ifl!vh555555555 5 5 %5 5 5 55#v#v#v#v #v #v %#v #v :Vl4 t$+,5555 5 5 %5 5 / alp֠kd$$Ifl4d8Tp \ o?+P <X t"$% t0$@@@@44 lalp֠$$Ifl!vh555555555 5 5 %5 5 5 55#v#v#v#v #v #v %#v #v :Vl4 t$+++5555 5 5 %5 5 / alp֠kd$$Ifl4d8Tp \ o?+P <X t"$```% t0$@@@@44 lalp֠$$Ifl!vh555555555 5 5 %5 5 5 55#v#v#v#v #v #v %#v #v :Vl4 t$+++,555 5 5 %5 5 / alp֠kd9$$Ifl4d8Tp \ o?+P <X t"$% t0$@@@@44 lalp֠$$Ifl!vh555555555 5 5 %5 5 5 55#v#v#v#v #v #v %#v #v :Vl4 t$+++,555 5 5 %5 5 / alp֠kdϽ$$Ifl4d8Tp \ o?+P <X t"$% t0$@@@@44 lalp֠$$Ifl!vh555555555 5 5 %5 5 5 55#v#v#v#v #v #v %#v #v :Vl4 t$+++,555 5 5 %5 5 / alp֠kde$$Ifl4d8Tp \ o?+P <X t"$% t0$@@@@44 lalp֠i$$Ifl!vh5$#v$:Vl t$5$/ alp i$$Ifl!vh5$#v$:Vl t$5$/ alp $$Ifl!vh55#v#v:V l40+55/ alf4p"$$Ifl!vh555X5L5#v#v#vX#vL#v:V l40+,555X5L5/ alf4p2 $$Ifl!v h55l55l55l555 #v#vl#v#vl#v#vl#v#v#v :V l4 Z055l55l55l555 / alf4pZkd$$Ifl4 <X lll Z0$$$$44 lalf4pZ $$Ifl!v h55l55l55l555 #v#vl#v#vl#v#vl#v#v#v :V l4 Z055l55l55l555 / alf4pZkd$$Ifl4 <X lll Z0$$$$44 lalf4pZ $$Ifl!v h55l55l55l555 #v#vl#v#vl#v#vl#v#v#v :V l4 Z055l55l55l555 / alf4pZkd]$$Ifl4 <X lll Z0$$$$44 lalf4pZ $$Ifl!v h55l55l55l555 #v#vl#v#vl#v#vl#v#v#v :V l4 Z055l55l55l555 / alf4pZkd:$$Ifl4 <X lll Z0$$$$44 lalf4pZ000000000000000000000000000 0 0 0 0 0 0 0 0 00 0 00 0 0 0 0 00 000 0 0000 0 0 0 0 00 000 0 00 0 0 0 0 00 0@@@ },NormalCJ_HaJmH sH tH \@\ }, Heading 1$<@&5CJKHOJQJaJmHsHJ@J }, Heading 2$$@&a$5aJmHsHV@V }, Heading 3$<@&5CJOJQJ\^JaJH@H }, Heading 4$@&5CJaJmHsHJ@J }, Heading 5$@&5>*CJaJmHsHDA@D Default Paragraph FontRi@R  Table Normal4 l4a (k(No List4U@4 }, Hyperlink >*phDV@D },FollowedHyperlink >*ph@"@@ },Caption$a$5aJmHsH@B@"@ }, Body Text$a$ aJmHsHVC@2V },Body Text Indent$`a$ aJmHsHRR@BR },Body Text Indent 2dx^@S }, Table GridA:V0a_HmH sH tH ֊>?hinoYx z z"rw ",7EOVW\bksvy}  ".67BC?Lf9AGLMbfgptu~ "%(*0159:;?FILORTZ[_cdehpsvy|~I  #'*-158;>ADHIQTX[_bfjnqtwz< D I \ o !!!! !!!!!!!"!'!+!0!1!6!7!8!,,.i/111T1U112222222222222222222222222233 33333#3(3-3.33383=3B3G3L3Q3V3[3\3a3f3k3p3u3z333333v899999:::::::::::::::::::::::;; ;;;;;!;&;+;0;5;:;?;@;E;J;O;T;Y;^;c;h;m;n;s;x;};;;;;;;;;*?@:A;A=AABBB$B,B4B5B6B=B?BFBHBOBQBXBZB[B`BeBjBoBtByB~BBBBBBBBBBBBBBBBBBBBBBBBBBBBBCC CCCCEEE;FG@GCGFGIGLGNGPGTGWGZG]G_GaGbGgGjGmGpGrGtGvGyG|GGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGHKKKKKKKLLLLLLLLL L L L L*LmLnLWNXNNN*OOOOOOOOOOOOOOOOOOOOOP PPPP P!P&P+P1P6P\?\D\I\N\R\S\T\U\[\a\f\k\q\v\{\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\]] ]]]7]8]h]i]j]y^_`NaOa^a_aaLbRblbmbnbtb{bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbcc c ccccc!c#c)c+c1c3c9c;crrstLu"vvwxVyylzq{G|}}~W?R-ڃ.ԅf+݈U5XoՊ؊000000 0 00 0 0 0 0 00 000 0 00 0 0 0090909090909090909090909090909090909 0909090909090909090909090909 090909 090909 090909 090909 0909 0909 09 0909 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09090909090909090909 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09090909090909090909090909 09 09 09 090909 0909 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 0909090909(09090909 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 090909090909090909090090909 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09090909 0909p09p09809 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 090909p0909@0909@0909 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 09 0909p(09p0E0Ep0Ep0Ep0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E0E0Ep0Ep0Ep0Ep0Ep0Ep0Ep0E0Ep0Ep0Ep0E0E0Ep0Ep0Ep0Ep0Ep0E0Ep0E0Ep0Ep0Ep0Ep0E0E0Ep0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E0Ep0Ep0Ep0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E0Ep0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E0E0E0EP0E0Ep0E0E0EX0E 0E0E 0E0E 0E0E 0E0E0E 0E0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E0E0Ep0Ep0E0E 0Ep0Ep0Ep0Ep0E 0E 0E 0E 0E0E 0E0E 0E0E 0E0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E 0E0E0E0E0Ep0Ep0Ep0Ep0Ep0Ep0E0Ep0E0Ep0Ep0E0E0E0E09p0mp0m0mp0mp0mp0mp0mp0mp0mp0mp0mp0mp0mp0mp0mp0mp0mp0mp0mp0mp0mp0m0mp0mp0m0mp0mp0m0m0m0m0mp0mp0m0m0mp0mp0mp0mp0mp09p0909p0p0p0p0p00p0p00p 8f"%|.4:&@nCIFORVY6\]`ceBhXknty},„Fvp3x{L`tJMNOQV[`impquy{}KuGa#%%%J&+",,.///@000?1:::\;= EEELNOOMUVVqWlZJ\\\]]^^cJhhhijkklnnno>v&|'|W|X|||G}}~IOtxtKPRSTUWXYZ\]^_abcdefghjklnorstvwxz|~tL L&L(L֊X:8@V(  6  "      !"#$%&'(+*,-./0123456789:;<=6B  "6B  "6B  "6B  "6B  " 6B  "6B  "6B  " 6B  " 6B  "6B  "6B  " B S  ??Lfg֊XH tXUtH Ut   tA tk tktk 8t$k$tk0 Pt<k<t<<tkT tt\K<KtKlK KK\K4QK$KdKKK$KdKKKRR$RdRRR$RdRRR$ Rd R R R$ Rd R R Rd R R R$ Rd R R R$ Rd R R R$RdRR$RdRRR$R dR R R $R dRRR$RdRRR$RdRRR$RdRRR$RdRRR $R!dR"R#R$$R%dR&R'Q(?@ACBDEFHGIJKLMONPSQRTUVXWYZ[ I /00aaaaaccffqqqrrrrrvrvrtt9uvvvvvvvxxTyTyo{o{{||b~f~f~n~n~== ]] ڄ݄݄9߅dd|GSSy؊   !"$#%&'()*+,-.0/123456789:<;=>?@ACBDEFHGIJKLMONPRSQTUVXWYZ[ urn:schemas:contactsSn97*urn:schemas-microsoft-com:office:smarttagsState=N*urn:schemas-microsoft-com:office:smarttags PlaceType=O*urn:schemas-microsoft-com:office:smarttags PlaceName9\*urn:schemas-microsoft-com:office:smarttagsplaceBZ*urn:schemas-microsoft-com:office:smarttagscountry-region8[*urn:schemas-microsoft-com:office:smarttagsCity8:*urn:schemas-microsoft-com:office:smarttagstime 2141HourMinute\[Z\Z\\\\Z\[\ON\[\[\[Z\ON\[Z\[\\[Z:\[7\[\[\[\\7\ON\Z\[\[\[\\[Z\\[\\\\\\\[\\[7\OON\[\NO\[DKMSTY[bcg6>IR3:HP7@OV8 @ U e $ - 5 ; E I j z { U ` b m OW  QY"+EM    !TY(GIkm  PS%+,8;>u\ n o !!!!!8!;!P!W!X!\!]!`!w!z!!!!!!!!!!!!!!!!!!!!!!!""" " """"" "!"%"&")"*"."5"<"J"M"d"g"~""""H%N%'(E(L())K*P*Q*U*V*[*******************////////40<0000022222222223"3#3'3(3,3L3P3Q3U3V3Z3z3~3333355669999d:l:::;;; ; ;;0;4;5;9;:;>;^;b;c;g;h;l;;;;;;;;;<<2=:===2>:>y>>??G?O?p????&@4@T@\@@@VA^AAABBBBtBxByB}B~BBBBBBBBBBBBBBBBBBBBBCCCC C CCC#CeCmCCCJDRDDDDE_EhEEEEEEEEFMF|FFFFF G GG@GBGCGEGFGHGIGKGLGMGPGSGTGVGWGYGZG\G]G^GGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG9HAHHH JJ!J+J]JeJJJ8K@KKKKK@LHLbLlLLLLLLLMMMMMM1N4NRNUNUOWOOO PPPPPPPPrErKrWr]rbrjrrrrrrrrrrrrrGsOsssssssss't,tttttttu#u&u0uLuSu`uluputuzu|u}uuuuuuuuuuuuuuuuuuuuuuuuuuvv vvEGUV`agDŽ̄Մڄ.5;@IP|ԅۅ#%)9nwx~")fkqx~ 8?JRen !'(-5<=AƊԊ؊fu(1 " W Y     ns &\ n o !!!!!8!;!P!W!X!\!]!`!w!z!!!!!!!!!!!!!!!!!!!!!!!""" " """"" "!"%"&")"*"."5"<"J"M"d"g"~""""K*P*Q*U*V*[*******************j++9,=,,,I/K/*030000011112222222222223"3#3'3(3,3L3P3Q3U3V3Z3z3~3333344;;; ; ;;0;4;5;9;:;>;^;b;c;g;h;l;;;;;;;+@-@=AFAOBQBXBZBtBxByB}B~BBBBBBBBBBBBBBBBBBBBBCCCC C CCHCCD Dtt.V-s/ hh^h`hH hh^h`hH. 0^`0hH.. 0^`0hH... 88^8`hH .... 88^8`hH ..... `^``hH ......  `^``hH.......  ^`hH........hh^h`5o(.hh^h`5o(..0^`05o(...0^`05o(.... 88^8`5o( ..... 88^8`5o( ...... 88^8`5o(....... `^``5o(........ `^``5o(.........hh^h`o(hh^h`o(.0^`0o(..0^`0o(... 0^`0o( .... 88^8`o( ..... 88^8`o( ...... `^``o(....... `^``o(........ hh^h`hH.hh^h`o( hh^h`o(.0^`0o(..0^`0o(... 0^`0o( .... 88^8`o( ..... 88^8`o( ...... `^``o(....... `^``o(........@[ ^[ `56CJhH. -s-s NP!Ls>-V+'yPPҟS8T)#0؞}/r>'% pqp(qZ94nNhi | 8!@b}&i}zg+?L%#Y#S$P(C *},m<3q5<:@M;1>u>?8 @D+OEoE/fGH IbJ1KALXGLM[N]NJlO+wPPQbQTUoY c]yc^=_~[bHdysgFhh6;hfioUr-r>Cs#-vl{OOnA*^C=_ F%0\A_c?5j7;YlYg~Hgq4>b2i#~C ,v8B?3m809#'1 M;fRrw"OVW\bs}.679AMguXv՜.+,D՜.+,l( hp  RH-TDUFA >INFLUENCE OF DRAINAGE SYSTEMS ON CONTAMINATION WATER AND SOIL Title 8@ _PID_HLINKSAd6 mailto:simunic@agr.hr  FMicrosoft Word Document MSWordDocWord.Document.89q "%(*0159:;?FILORTZ[_cdehpsvy|~  #'*-158;>ADHIQTX[_bfjnqtwz< D I \ o !!!! !!!!!!!"!'!+!0!1!6!7!8!G@GCGFGIGLGNGPGTGWGZG]G_GaGbGgGjGmGpGrGtGvGyG|GGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGOOOOOOOOOOOOOOOOOOOOP PPPP P!P&P+P1P6P\?\D\I\N\R\S\T\U\[\a\f\k\q\v\{\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\]] ]]]7]8]h]i]LbRblbmbnb{bbbbbbbbbbbbbbbbbbbbbbbbbbbbcc c ccccc!c#c)c+c1c3c9c;c