Jadar Lithium Ltd.: First Pass Sampling on Vranje-South Project Defines Li-B Anomalies
Jadar Lithium Ltd.

Jadar Lithium Ltd.: First Pass Sampling on Vranje-South Project Defines Li-B Anomalies

ID: 579734

(firmenpresse) -
First Pass Sampling on Vranje-South Project Defines Li-B Anomalies

HIGHLIGHTS
- Interpretation completed of first pass sampling data on Vranje -South project
- Preliminary stream sediment and soil surveys define a number of areas with elevated Lithium and Borate mineralisation on the Vranje-South project
- Good correlation between B and Li zones in 2 areas
- Follow-up sampling program currently being planned

20 August 2018, Jadar Lithium Limited (ASX: JDR) (Jadar or the Company) is pleased to provide the following update on its maiden reconnaissance sampling and mapping activities on its Vranje-South project in Serbia.

The initial soil and stream sediment sampling program focused on district scale faults and fractures which are present within the sedimentary basin. The program was completed in the previous quarter and the samples were sent to the ALS laboratory in Bor, Serbia where sample preparation was conducted. These samples (pulps) were then forwarded to the ALS laboratory in Canada for further analysis of Lithium, Boron and associated elements.

Stream Sediment and soil sampling
The objective of the maiden sampling program was to identify anomalous zones within the license area, which may point to lithium-borate mineralisation at depth. Areas covered with Miocene sediments are potentially prospective for Jadar style Lithium-Borate mineralisation.

The soil sampling program has defined 4 zones with elevated Boron anomalies, two of which are also elevated in lithium.

The program has defined four clusters with elevated B in soil results and within what are considered prospective sedimentary sequences. The zones which are elevated in Boron are located on, and in close proximity to fault lines and trends within the basin sediments. The Boron values reach over 800 part per million (ppm) which is considered significant.

The lithium values within the soil samples define two areas which are considered anomalous. Importantly, the elevated lithium clusters are also associated with the elevated Boron values.





The Company considers that the results warrant further follow-up work which will aim to define the anomalies in more detail. Further sampling will be conducted over the entire permit to determine if any further anomalies will be defined.

http://www.irw-press.at/prcom/images/messages/2018/44340/2018-08-07 JDR_ASX_Prelim Expo Update Vranje V3_Final DL_V2_PRCOM.001.jpeg

Figure 1 - Vranje-South project geology and Lithium soil sampling locations and results

http://www.irw-press.at/prcom/images/messages/2018/44340/2018-08-07 JDR_ASX_Prelim Expo Update Vranje V3_Final DL_V2_PRCOM.002.png

Figure 2 - Vranje-South geology, soil sampling positions and Boron results
Planned activities for current Quarter:
- Infill sampling of the target areas and step-out soil sampling across the entire permit
- Geophysics to determine depth of the basin if the follow up sampling program confirms the target

The Company is interpreting the results of other projects and on completion will release these results.


ENDS

Further Enquiries
Luke Martino
Non-Executive Chairman
Tel: +61 8 6489 0600
E: luke(at)jadarlithium.com.au-

Competent Person Statement
The information contained in this ASX release relating to Exploration Results has been compiled by Mr Jerry L Aiken, who is a Registered Member of the Society for- Mining, Metallurgy & Exploration (SME). Mr. Aiken has sufficient experience that is relevant to the style of mineralization and type of deposit under consideration, and to the activity being undertaken to qualify as a competent person as defined in the 2012 edition of the "Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves (the 2012 JORC Code). Mr. Aiken is a consultant to Jadar Lithium Limited and consents to the inclusion in this announcement of this information in the form and context in which it appears.

Disclaimer
Certain statements included in this release constitute forward looking information. This information is based upon a number of estimates and assumptions made on a reasonable basis by the Company in light of its experience, current conditions and expectations of future developments, as well as other factors that the Company believes are appropriate in the circumstances. While these estimates and assumptions are considered reasonable, they are inherently subject to business, economic, competitive, political and social uncertainties and contingencies, many of which are difficult to predict and generally beyond the control of the Company, that could cause actual results to differ materially from those expressed in, or implied or projected by, the forward-looking information and statements. Whilst the Company considers all the material assumptions to be based on reasonable grounds, there is no certainty that they will prove correct or that the outcomes indicated in the announcement will be achieved.

Forward-looking statements are statements that are not historical facts. Words such as expect(s), feel(s), believe(s), will, may, anticipate(s), potential(s)and similar expressions are intended to identify forward-looking statements. These statements include, but are not limited to statements regarding future production, resources or reserves and exploration programs and results. Many factors could cause the Companys actual results to differ materially from those expressed or implied in any forward-looking information provided by, or on behalf of, the Company. Such factors include, among other things, risks relating to lithium and other commodity prices and currency fluctuations; exploration risks; risks relating to the interpretation of exploration, sampling, drill results, the geology, grade and continuity of mineral deposits and conclusions of economic evaluations, development risks, operating risks; competition; time delays, regulatory restrictions; environmental harm and liability and additional funding requirements. Further, despite the Company having attempted to identify all material factors that may cause actual results to differ, there may be other factors that cause results not to be as anticipated, estimated or intended. Forward-looking information is no guarantee of future performance and, accordingly, investors are cautioned not to put undue reliance on forward-looking information due to the inherent uncertainty therein. Forward-looking information is made as at the date of this release (or as otherwise specified) and except as required by applicable law the Company does not undertake any obligation to update publicly such forward-looking information, whether as a result of new information, future events or results or otherwise
Table 1. Soil Sampling results - Vranje South ME-MS89L method

Sam.Ag As B ppm B Ba Be Bi Ca pCd Ce pCo Cs Cu Dy pEr pEu pFe pGa pGd pGe p
ID ppm ppm MS89L ppm ppm ppmerc ppmpm ppm ppm ppmpm pm pm erc pm pm pm

S-70- - - - - - - - - - - - - - - - - - -
1

S-70<5 113 181 392 2 0.2 0.9 <0.862 4.7 9.3 20 2.571.371.032.9 24.92.991.1
3

S-70<5 39 70 430 2.6 0.3 1 <0.853.114.714.620 3.8 2.131.1 2.7919.33.891.6
4

S-70<5 14 39 486 4.1 <0.11 <0.875.912.24.3 20 4 2.8 1.272.8 24.54.471.4
6

S-706 134 253 588 3.4 0.6 1 0.9 70.520.329.660 7.784.052.225.1522.57.112.6
7

S-705 194 107 494 3.8 0.3 0.9 0.8 79.717.524.530 5.032.891.6 4.3225.15.881.6
8

S-7110 123 147 545 4.3 0.5 1.1 0.9 75.418.322.240 4.822.421.5 4.4624.26.042
9

S-72<5 92 121 578 1.8 0.4 2 0.8 59.616.720.740 4.5 2.581.393.6419.45.131.9
1

S-72<5 68 171 319 3.4 0.2 1.1 <0.857.89.7 8.6 20 3.552.041.212.7822.94.6 1.3
3

S-726 88 109 482 2 0.4 1.1 0.8 54.715.522.130 3.992.191.113.4519.13.981.9
4

S-72<5 65 42 316 2.5 0.2 1.3 <0.844.310.68.6 20 3.211.640.871.8217.43.181.6
5

S-725 125 139 439 2.6 0.4 1.1 <0.873.614.322.650 3.752.071.674.2125.25.111.5
6

S-72<5 188 170 498 2.7 0.4 1.1 <0.863.321.836.660 3.681.921.214.7425.45.081.8
7

S-72<5 126 103 428 2.8 0.4 7.1 <0.869.911 19.340 3.852.011.672.7 22.95.091.3
8

S-735 126 168 547 3.1 0.5 1 0.8 74.720.629.650 6.6 3.381.635.1 23.45.832.1
1

S-7310 92 199 524 3.3 0.4 1.5 <0.867.118.323.940 4.452.561.433.9221 5.571.9
2

S-738 87 99 547 2.2 0.3 1.7 1.1 49.711 13.230 3 2.141.182.3516.82.741.3
4

S-73<5 66 110 380 2.2 0.1 3.8 1.1 44.613.19 20 2.821.851.252.8421.43.431.5
5

S-73<5 61 106 454 1.6 0.2 2 0.8 63.415.511.120 4.242.491.082.7115.94.331.4
6

S-736 59 105 474 2.1 0.3 1.8 0.8 58.615.712 30 4.182.541.5 2.9717.54.651.6
7

S-737 74 94 298 2.8 0.2 1.3 <0.864.39.5 8.4 30 3.652.2 1.443.4223.34.791.4
8

S-739 84 120 631 3.1 0.4 1.1 0.9 79.417.856.650 7.453.941.934.4621.47.681.5
9

S-748 58 103 538 1.8 0.4 1 1 65.419.319 40 5.023.3 1.363.3317.54.762.1
0

S-74<5 98 158 541 1.9 0.3 1.1 0.9 66.418.732.440 5.093.151.664.0820.55.271.8
1

S-7417 74 176 563 3.5 0.5 1 1.2 72.620.921.440 5.193.041.493.9919.35.291.8
2

S-74<5 66 78 364 1.3 0.2 1.3 <0.855.713.111.430 3.581.910.982.9321.24.242.7
3

S-747 123 175 618 1.8 0.4 1.8 0.9 71 18.873.150 5.522.981.634.0621.95.8 1.9
4

S-745 39 67 189 3 0.1 1.6 <0.837.27 3.7 <20 2.161.760.782.0716.82.481.4
6

S-74<5 59 57 390 2.4 0.4 1.1 0.8 59.39.9 8 20 4.583.291.292.4316.45.131.1
7

S-746 82 77 473 2.4 0.5 1.2 0.9 61.517.518.530 4.983.091.273.4317.94.842
8

S-74<5 76 95 531 2.6 0.4 1 <0.873.120.324.140 5.352.921.2 4.2720.95.931.9
9

S-75<5 48 51 419 3.6 0.4 0.7 <0.867.913.611.620 4.663 1.283.6219.44.741.5
0

S-756 40 70 465 2.7 0.5 0.9 0.8 62.812.312.120 4.273.291.183.4118 5.361.5
1

S-756 53 112 480 3.3 0.5 0.9 <0.854.417.125.530 4.1 2.771.224.1320 4.8 2.2
2

S-756 80 295 653 3 0.6 2.2 1 70.520.425.150 5.312.891.545.2 23.86.191.5
3

S-755 67 239 514 2.5 0.5 4.8 0.9 62.320.229.740 4.823.041.334.5721.36.362.2
4

S-756 44 286 554 2 0.5 1.3 1.1 64.917 21.840 4.932.991.464.2523.55.8 2
5

S-75<5 48 159 469 2.2 0.4 1 <0.847.615.813.640 3.712.440.954.1718.94.842.1
6

S-756 42 204 395 0.9 0.4 19.70.8 41.812.315.440 4 2.130.973.1 13.93.8 1.5
7

S-755 71 244 470 1.6 0.5 9.3 0.9 46.915.436.640 3.412.060.994.0117.74.171.5
8

S-755 102 208 548 2.8 0.6 2 <0.866.722.424.650 5.062.731.294.6623.55.922.4
9

S-765 118 321 611 1.8 0.4 0.8 <0.860.516.621.450 5.993.511.465.1 23.65.792.4
0

S-766 13 208 524 1.6 0.5 7 <0.845.312 11.430 3 1.730.9 2.6516.73.791.9
1

S-766 82 188 615 3.2 0.6 1.7 0.9 66.420 26 50 5.113.161.494.5121.45.912.2
2

S-765 115 294 648 2.9 0.6 3 1.1 67.218.850.150 5.663.181.4 5.0621.26.041.9
3

S-768 51 120 512 2 0.6 0.9 1 61.216.217.130 4.412.771.123.2 18.44.331.6
4

S-767 73 153 602 3.4 0.5 0.9 <0.868.621.421.140 5.163.281.554.2821.15.732.1
5

S-766 47 120 524 2.3 0.6 7.5 1 56.716.718.940 4.322.531.143.9419.54.811.9
6

S-765 65 120 576 3.4 0.5 0.9 1.1 64.619.820.540 5.383.061.314.4 19.55.241.9
7

S-765 42 126 505 2.9 0.5 0.8 1 82.919.530.640 8.454.781.894.5121.28.371.8
8

S-767 64 93 527 3 0.4 0.9 0.9 71.619.124.140 5.683.1 1.584.3821.26.362.3
9

S-776 71 93 459 2.1 0.5 1 1 71.313.121.640 4.872.611.394.2720.15.061.9
0

S-776 107 87 589 3.1 0.6 1.1 0.8 77.923.525.750 5.683.491.7 4.6421.66.052
1

S-777 157 160 638 2.5 0.7 1.2 0.9 74.623.234.660 4.952.9 1.394.7421.95.452.2
2

S-77<5 73 110 483 2.8 0.4 2.8 <0.859.918.339.330 4.752.831.014.0518 4.922.2
3

S-77<5 66 219 547 1.7 0.5 2.2 <0.857.918.917.140 5.112.821.214.2321.65.032.3
4

S-775 61 226 470 1.2 0.4 8.8 <0.848.313.214.930 4.1 2.3 0.853.4518.14.841.9
5

S-77<5 123 256 466 2.3 0.4 14.7<0.843.916.422.650 2.772.280.813.9416.14.6 1.6
6

S-77<5 64 288 506 2.1 0.5 3.9 <0.849.114.618.240 4.172.641.093.7919.14.681.7
7

S-775 45 180 556 2.8 0.4 1.1 <0.858.813.320.230 5.243.321.373.6 19.65.652
8

S-775 24 191 515 1.9 0.4 1.1 <0.849.411.417.230 4.042.191.353.5320.84.731.6
9

S-78<5 63 169 490 2.6 0.3 7 <0.853.215.727.740 4.012.521.424.0117.64.671.6
0

S-78<5 52 96 350 2.1 0.4 1.7 <0.849.912.710.320 3.5 1.571.242.8217.54.491.7
1

S-785 88 102 376 1.8 0.4 2.5 0.8 51.312.810.630 3.241.391.173.3321.33.821.7
2

S-786 49 137 515 2.8 0.6 0.9 1 58.215.816.130 4.682.841.323.9221.75.022.5
3

S-785 70 379 591 3.1 0.5 0.6 <0.864.716.126 40 4.632.661.044.2723.34.722.2
4

S-785 82 259 535 2.9 0.5 0.9 <0.863.313.916.940 4.882.811.373.7624.24.6 2.1
5

S-785 75 275 521 2.3 0.4 3.4 <0.860.317.730.640 5.083.251.354.4321.65.472.4
6

S-785 46 45 284 1.7 0.3 3.1 0.9 32.36.9 7.4 20 2.641.550.9 2.7719.52.951
7

S-787 75 122 391 1.8 0.5 3.5 1.1 54.814.715.740 3.151.731.113.1722.34.241.7
8

S-786 133 178 522 2.4 0.6 6.4 1.2 56.617.226.640 5.212.911.4 4.0719.15.681.6
9

S-797 153 187 560 1.4 0.4 8.6 0.8 59.316.324.750 4.612.341.343.3919.15.291.6
0

S-795 231 66 309 2 0.5 1.7 0.8 46.58.9 9.2 40 2.861.621.093.4521.43.851.8
1

S-795 80 49 301 0.7 0.2 20.50.9 26.77.4 4.2 <20 2.471.950.771.417.1 2.570.6
2

S-79<5 97 141 518 2 0.5 1 <0.851.513.929.140 5.112.511.254.1219.14.582.5
3

S-795 63 68 492 1.7 0.3 2.4 0.8 40.19.4 13.220 3.481.940.991.9713.32.891.7
4

S-795 96 145 471 2.3 0.5 1.2 <0.850.216.522.140 4.773.1 1.164.2 18.95.891.7
5

S-798 50 95 316 2.4 0.4 1.3 1 43.29.6 8.5 20 3.071.860.852.6520.13.381.2
6

S-797 104 135 354 2.6 0.4 1.3 1.1 71.712.510.840 5.2 2.821.484.0823.65.921.6
8

S-795 46 91 445 1.8 0.3 1.8 0.8 42.110.56 20 3.952.550.872.6416.53.731.8
9

S-806 44 153 538 2.4 0.5 1.1 0.8 60.415.615.530 4.963.1 1.093.6720.15.452.4
0

S-805 97 156 506 3.3 0.4 0.9 <0.857.217.920.740 4.6 2.791.093.8421.34.661.7
1

S-806 56 195 384 2.6 0.5 0.4 1 52.115.210.630 4.262.281.1 5.3120.44.242
2

S-806 108 190 571 2.5 0.6 1.7 1.1 75.425.232 50 5.093.321.485.3622.76.1 2
3

S-806 71 186 581 1.8 0.5 1.2 1 76.720 26.640 5.353.151.344.3520.56.282.6
4

S-80<5 54 170 482 2 0.4 7.7 0.8 48 10.425.330 4.132.590.943.0617 4.561.6
5

S-806 119 177 569 2.3 0.4 1 1.4 69.118.937.540 5.373.121.4 4.3 18.65.211.7
6

S-806 90 127 538 3.4 0.5 0.9 1.2 68.318.829.840 5.583.691.494.6222.25.632.1
8

S-81<5 101 178 520 2.4 0.4 2.6 1 55.615.236.450 4.913 0.893.6918.55.071.9
0

S-81<5 81 211 512 3 0.4 5.9 <0.862.818.922.140 5.452.891.344.1719 5.342.4
1

S-816 119 102 571 2.2 0.6 1 0.8 73.622.629.750 5.3 3.161.2 4.5320.36.042.5
3

S-816 55 209 605 2.5 0.6 1.1 1 67.517.227.950 6.213.9 1.454.6321.76.342.3
5

S-81<5 144 127 345 2.9 0.3 1.2 <0.869.613.220 40 3.121.851.264.8224.13.681.6
6

S-81<5 47 107 566 3.1 0.3 1.5 0.9 58.615 16.650 4.352.731.2 3.0815.95.011.3
8

S-819 36 93 321 2.5 0.2 1.4 1 43.88.6 7.4 20 2.341.510.721.8818.92.641.4
9

S-82<5 61 96 484 2.4 0.2 2.2 <0.847.610.38.1 20 3.381.9 1.1 2.5914.93.691.3
2

S-82<5 494 334 721 1.9 0.4 6 1.1 68.221.867.850 3.7 1.8 1.273.7921 3.971.2
5

S-82<5 59 104 458 1.7 0.2 1.9 <0.849.413 10 20 3.652.621.182.5415.43.811.1
6

S-826 86 163 496 3.3 0.6 1 1.2 73.819.814 60 6.473.681.4 5.1722.46.812.3
9

S-837 83 90 434 3 0.4 0.9 1.1 44.417.59.9 40 5.053.331.093.7518.14.931.4
0

S-83<5 70 102 491 1.9 0.4 0.7 0.8 47.815.28.5 30 4.453.281.033.6517.94.731.5
1

S-837 73 205 476 2.6 0.4 0.9 1.2 52.717.611.540 4.963.011.154.0818.85.161.9
2

S-836 112 70 538 1.7 0.5 0.6 1 66.621.310 50 6.163.531.485.5221.36.5 1.9
3

S-835 124 137 526 2.1 0.5 0.7 0.8 59.116.613.540 5.243 1.424.6 20.25.191.9
4

S-838 82 140 491 2.3 0.5 0.8 1.2 58.122.316.250 5.112.711.114.0819.54.661.9
5

S-837 171 173 502 2.6 0.4 1.2 <0.857.319.319 50 5.032.941.144.5 20.25.211.9
6

S-836 31 199 444 3.1 0.3 0.6 1 41.513.75.9 20 4.8 3.031.043.5616.84.811.5
7

S-838 33 223 507 2.6 0.4 0.5 1.4 46.114.44.4 20 3.942.571.043.3219.23.831.9
8

S-836 113 112 473 2.3 0.5 0.8 1.1 56.518.714.450 5 3.051.274.2919.75.121.9
9

S-847 105 105 557 3.7 0.5 0.5 0.8 62.418 12.750 5.362.811.284.7321.85.252.1
0

S-847 30 67 422 1.8 0.5 2 1.2 53.720.16 40 6.313.551.255.1820.55.621.4
1

S-847 105 90 358 1.3 0.3 0.9 0.9 48 16 10.540 4.573.171.454.8719.85.711.2
2

S-845 29 270 520 3.3 0.4 0.6 <0.847.212 7.5 20 3.852.710.773.6620.84.372.5
4

S-847 94 183 484 3.4 0.5 0.9 1.1 54.516.18.5 30 5.8 4.181.094.3419.76.181.9
5

S-84<5 220 391 668 1.5 0.3 13.30.8 54.524.414.650 5.543.421.454.3 15.15.740.9
7

S-84<5 66 70 449 2.1 0.4 3.9 <0.855.917.29.8 40 4.312.451.123.5517.14.561.7
8

S-857 86 230 504 2.9 0.6 1.7 1.1 69.820.730.550 5.123.261.354.7122.46.281.9
0

S-85<5 121 96 591 2 0.5 1.2 <0.858 21 26.150 6.083.611.684.9821.15.8 1.7
1

S-85<5 136 86 601 2.1 0.6 1.1 0.8 68.523.838.260 6 3.281.685.4122.26.032.6
2

S-856 81 255 487 2.2 0.5 5.1 1.1 57.620.222 40 4.7 2.8 1.284.4418.85.611.8
3

S-856 21 65 381 1.6 0.4 4.3 1.3 50.119.15.7 60 5.473.041.214.2617.55.341.3
4

S-856 44 33 518 2.8 0.3 1.1 <0.861.112.37 20 4.7 2.681.123.3919.15.481.8
5

S-8511 147 120 592 4 0.8 1.9 1.6 78 28.323.570 6.183.781.344.8420.46.851.9
7

S-857 70 249 590 1.9 0.4 0.5 0.9 63.416.610.430 4.042.581.094.5522.54.142.1
8

S-859 82 826 617 3.3 0.7 0.3 1.8 78.724.331.660 6.853.841.485.8224.37.041.7
9

S-866 12 56 453 1.4 0.5 2.2 1.2 56.223 5.6 30 6.773.611.715.5121.26.011.7
0

S-865 16 33 455 1.7 0.3 2.1 0.9 55.721.35.3 30 6.563.741.535.6322.95.961.8
1

S-867 13 35 416 1 0.4 1.9 1.3 47 19.33.5 30 5.413.511.444.9 20.35.691.5
2

Table 2. Soil Sampling Vranje South ME-MS89L method

Sam.Ho In K pLa Li Lu Mn pMo Nb pNd pNi Pb pPr pRb pRe Sb pSe Sm pSn pSr p
ID ppm ppmerc ppm ppm ppmpm ppmpm pm ppmpm pm pm ppmpm ppmpm pm pm

S-70- - - - - - - - - - - - - - - - - - - -
1

S-700.48<0.32.532 117 0.27150 <2 10.827.230 13.57.1782 <0.03.1 <3 4.67<3 350
3 1

S-700.67<0.31.528 65 0.36800 <2 13 23.250 31 5.9579.20.012 <3 4.34<3 250
4 9

S-700.8 <0.32.041.535 0.42660 2 22.532.230 18.28.8189.2<0.00.6 <3 5.13<3 290
6 3 1

S-701.46<0.32.638.7119 0.52760 4 12.735.7120 34.89.77128.<0.02.5 12 7.585 160
7 1 5 1

S-700.94<0.32.041.690 0.41680 3 18.234.850 26.49.16105.<0.04.8 <3 6.6 <3 280
8 6 5 1

S-711.05<0.32.039.196 0.37520 3 15.337.470 30 9.01108 <0.02.2 <3 6.28<3 230
9 1 1

S-721.04<0.32.330.465 0.431050<2 11 26.970 32.96.9 105 <0.02.1 6 5.16<3 260
1 3 1

S-720.8 <0.32.030.9101 0.29290 <2 8.6 28.130 12.66.9291.4<0.00.7 <3 4.51<3 360
3 6 1

S-720.75<0.32.027.274 0.39770 2 12.523.580 34.76.31110.<0.01.5 7 4.345 200
4 9 5 1

S-720.72<0.31.221.645 0.2 480 2 9.6 18.330 25.84.6762.90.011.1 5 3.34<3 340
5 3 5

S-720.76<0.31.536.684 0.27330 5 12.531.850 25.68.2685.7<0.02 <3 5.81<3 280
6 6 1

S-720.72<0.31.933.5132 0.28680 4 10.431.1110 27.67.44103.<0.03.5 <3 5.3 <3 260
7 8 5 1

S-720.76<0.31.737.292 0.29430 <2 12.332.440 18.27.9189.8<0.04.6 9 6.273 310
8 8 1

S-731.24<0.32.039.4112 0.45920 2 14.736.3100 34.99.12122 <0.02.4 <3 6.99<3 150
1 3 1

S-730.97<0.32.231.688 0.37800 <2 12.430 80 31.37.59109.<0.02.1 <3 5.51<3 290
2 1 5 1

S-730.75<0.32.223.741 0.36690 2 9.7 22.740 22 5.3979.4<0.01.3 <3 3.828 400
4 7 1

S-730.63<0.32.322.443 0.21510 <2 10.320.440 14 4.9576.1<0.01.4 <3 3.52<3 400
5 3 1

S-730.89<0.31.629.761 0.43770 <2 12.326.750 28.56.6976.2<0.01.6 6 4.96<3 280
6 3 1

S-730.87<0.31.729.366 0.41810 <2 12.425.760 29.36.5883.7<0.01.3 <3 4.32<3 280
7 8 1

S-730.84<0.31.632.456 0.25460 <2 8.3 30.250 12.27.5471.8<0.01.2 <3 4.88<3 330
8 2 1

S-731.41<0.32.341.9113 0.571000<2 14.442.290 37 10.1137 <0.02.8 <3 8.34<3 220
9 3 5 1

S-741.02<0.32.030.283 0.441010<2 14.327.780 38.26.94102.0.012.4 8 5.68<3 210
0 6 5

S-741.01<0.32.234 119 0.44880 <2 12.331 70 32.48.01114 <0.02.2 <3 5.71<3 220
1 6 1

S-741.05<0.32.136.1108 0.4510702 15.632.980 39.28.27115.<0.02.2 3 5.9 <3 210
2 7 5 1

S-740.76<0.31.527.561 0.3 420 <2 9.5 27.650 21.36.9274.5<0.01 <3 4.78<3 300
3 5 1

S-741.09<0.32.335.684 0.39900 <2 12.132.770 33.97.72123 <0.02.5 3 6.59<3 320
4 1

S-740.6 <0.31.319.713 0.29360 <2 6.2 16.420 11.44.4 40.6<0.00.6 4 2.96<3 360
6 5 1

S-740.96<0.31.530.439 0.38500 <2 15.827.3300 28.67.2575.8<0.01.3 7 5.53<3 240
7 7 1

S-740.95<0.31.731.277 0.33820 2 12.828.670 36.17.52102.<0.01.9 19 5.563 190
8 7 5 1

S-741.19<0.31.836.6102 0.41960 2 15.633.480 34.98.91115 <0.02.8 <3 7.22<3 160
9 6 1

S-750.96<0.31.331 49 0.31390 2 14.528 50 30.27.2683.3<0.01.2 4 5.62<3 160
0 4 1

S-751.02<0.31.631 64 0.34530 <2 15.628.650 28.27.5692.7<0.01.1 <3 5.4 <3 170
1 3 1

S-750.99<0.31.826.189 0.4 700 <2 12.423.880 29.56.77117.<0.02.9 6 5.18<3 140
2 8 5 1

S-751.01<0.32.236.1133 0.36940 <2 14.232.890 34.29.09128.0.022.6 11 7.84<3 200
3 7 5

S-750.91<0.32.232.1105 0.44840 <2 12.730.390 30.57.86123.<0.02.7 <3 7.06<3 150
4 1 5 1

S-751.12<0.32.232.294 0.45540 <2 13.328.860 32.57.79120.<0.02.2 <3 5.72<3 200
5 4 5 1

S-750.67<0.31.822.7105 0.271060<2 9.1 22.380 23.45.8779.10.011.8 4 4.63<3 190
6 5

S-750.71<0.31.522.874 0.24530 <2 7.5 21.770 25.55.3279.8<0.01.1 5 4.6 <3 260
7 4 1

S-750.64<0.31.924.5142 0.24790 2 9.8 23.390 28.75.94116 <0.03.3 3 3.97<3 360
8 9 1

S-750.95<0.32.035.7112 0.44900 3 12.331.8100 33.67.88116 <0.02.8 5 6.67<3 190
9 6 1

S-761.15<0.32.532.5103 0.44550 <2 13.329.3100 28.87.94141 0.012.1 <3 6.11<3 130
0 6

S-760.65<0.31.522.172 0.19450 <2 10.220.940 18.85.2 69.4<0.01 8 4.03<3 250
1 1 1

S-760.97<0.32.233.8110 0.43910 <2 13.830.390 36.67.91135.<0.01.9 <3 6.84<3 200
2 7 5 1

S-761.04<0.32.736 176 0.5 830 <2 12.733.5100 44.28.6 146 <0.05 5 6.074 170
3 1

S-760.84<0.31.828.786 0.4 990 2 12.824.770 35.16.57101 <0.01.7 <3 4.77<3 200
4 3 1

S-761.07<0.32.130.7102 0.41990 <2 13.829.390 34.77.71123 <0.01.9 <3 6.48<3 200
5 6 1

S-760.82<0.31.628 81 0.31810 <2 12 26.480 26.96.5999.5<0.01.7 3 5.36<3 190
6 1 1

S-761.09<0.32.133.495 0.47810 <2 14.328.680 32.47.68118 0.021.2 18 5.854 160
7

S-761.62<0.32.045 107 0.55610 <2 13.941.1110 29.511.1122.<0.01.9 10 8.544 160
8 9 5 5 1

S-761.15<0.31.937.988 0.43760 <2 14.833.490 32.48.78119 <0.02.6 <3 7.274 140
9 1

S-770.83<0.31.735.775 0.35400 2 14.831.970 30.29.16110.<0.01.9 9 6.6 5 150
0 8 5 1

S-771 <0.31.937.2124 0.42920 3 14.133.990 37.98.75129.<0.02.3 5 7 5 200
1 7 5 1

S-771.02<0.32.535.8166 0.43890 5 13 33.4110 43.68.57140 <0.02.7 3 6.475 200
2 3 1

S-770.83<0.31.932.6110 0.42820 <2 13 28.590 34 7.43114.<0.03.3 5 5.535 170
3 3 5 1

S-770.95<0.32.030.9106 0.41890 <2 11.326.980 29.66.69115 <0.02.1 <3 6.03<3 190
4 4 1

S-770.69<0.31.824.467 0.26840 <2 9.2 24.450 18 6.1885.6<0.01.4 4 4.77<3 210
5 1

S-770.66<0.31.621.1104 0.28590 3 6.3 21.880 21.15.5682.90.012.9 3 4.22<3 430
6 4

S-770.67<0.32.123.994 0.33630 <2 10.622.690 23.95.91104.<0.01.5 9 4.58<3 210
7 2 5 1

S-771.12<0.31.930 53 0.56770 <2 11.327.2200 30 7.3894.40.013.1 13 5.71<3 200
8 3

S-770.79<0.31.825.988 0.31270 <2 9.6 25 70 26.36.3485.7<0.01.7 <3 5.64<3 210
9 9 1

S-780.84<0.31.928 97 0.33690 <2 11 27.170 24.46.6996.9<0.02.7 8 5.564 230
0 6 1

S-780.7 <0.31.525.586 0.26510 2 10.123.450 23.45.9765.8<0.01.9 15 4.824 240
1 2 1

S-780.63<0.31.424.152 0.31740 4 9.3 23.150 14.95.7769.4<0.00.9 <3 3.68<3 330
2 9 1

S-780.87<0.31.730.471 0.29670 <2 13.725.660 29.76.89103.<0.01.5 <3 6.04<3 170
3 5 5 1

S-780.93<0.32.329.197 0.31780 2 15.324.270 30.97.04139.0.012.3 <3 5.62<3 290
4 6 5

S-780.93<0.32.233.4128 0.39460 2 12.627.750 19.97.5 118.<0.01 3 5.456 330
5 5 1

S-781.1 <0.32.332.5107 0.39890 <2 11.429.480 31.27.53116 <0.02.2 3 5.89<3 190
6 2 1

S-780.54<0.31.116.837 0.16610 3 7.4 14.730 9.1 3.8650.7<0.00.9 4 3.22<3 400
7 1 5 1

S-780.66<0.31.427.467 0.22570 4 9.6 24.760 19.86.2979.2<0.01.8 5 4.39<3 370
8 7 1

S-781.03<0.32.336.789 0.36790 2 11.930.1100 26 7.87113.<0.02.1 6 6.565 250
9 5 1

S-790.87<0.32.129.561 0.35930 <2 9.3 28 60 27.26.8799 0.012.9 <3 5.39<3 390
0 9

S-790.63<0.31.425.343 0.22220 11 7.8 21.940 20.86.0561.8<0.01.7 4 4.784 350
1 9 1

S-790.6 <0.30.612.534 0.33740 <2 4.7 11.540 13.92.8922.7<0.00.8 3 2.38<3 510
2 4 1

S-790.78<0.32.128.4119 0.34650 <2 11.527.390 31.56.61101.<0.03.5 11 4.715 150
3 1 5 1

S-790.57<0.31.619.980 0.34470 <2 8.9 18.850 24.24.4258.7<0.03 3 4.1 4 280
4 6 5 5 1

S-791.01<0.31.928.8108 0.33780 2 11 27.7100 25.67.2393.1<0.02.1 3 5.626 200
5 7 1

S-790.6 <0.31.319.790 0.24320 2 10.618.250 14.25.2758.4<0.01.7 5 4.1 <3 320
6 5 1

S-790.98<0.31.333.254 0.27590 4 11 33.160 15.28.5668.6<0.01.1 3 5.96<3 270
8 3 1

S-790.82<0.31.821 33 0.31630 <2 8.4 19.630 17.85.0472.8<0.00.7 <3 3.55<3 280
9 3 5 1

S-801 <0.31.830.265 0.34790 <2 14 27.250 32.17.5999.6<0.01.5 4 5.52<3 200
0 3 1

S-800.92<0.32.127.488 0.37740 3 11.824.760 29.76.58121 <0.01.7 <3 5.32<3 150
1 2 1

S-800.92<0.31.722.741 0.34460 <2 12.825 30 18.86.32105 <0.00.6 <3 4.65<3 270
2 4 1

S-801.04<0.32.239.1144 0.4210402 14.732.7120 40.79.22137.<0.02.4 19 6.676 140
3 9 5 1

S-800.980.3 2.339.5118 0.43970 <2 14.336 80 43.29.48134 0.012.1 7 6.216 190
4 9

S-800.85<0.31.826.194 0.31820 <2 9.3 23.350 28.86.0795.1<0.01.5 <3 4.9 <3 280
5 5 1

S-801.02<0.32.234.3124 0.421060<2 13.332.190 42.88.2 133.0.012.8 8 6.554 150
6 3 5

S-801.14<0.32.134.9105 0.42820 2 14.831.770 34.58.21125 <0.02.3 18 6.818 160
8 4 1

S-810.95<0.32.428.7113 0.38900 <2 12.926.370 32.26.47115.0.012.3 4 5.166 270
0 9 5

S-810.89<0.32.031.9126 0.39880 <2 12.229.2110 32.87.35115 0.022 3 6.477 410
1 5

S-810.94<0.31.937.1130 0.4 880 3 15.432.790 42.78.89135 <0.02.5 8 6.717 170
3 7 1

S-811.21<0.32.136.5105 0.62790 2 14.634 70 34.18.92123.<0.02.1 <3 7.074 160
5 8 5 1

S-810.66<0.31.734.949 0.22340 3 10.729.970 25.27.6188.9<0.01.9 <3 5.77<3 310
6 9 1

S-811.02<0.32.127 68 0.431080<2 11.425.660 32.96.5290.1<0.01.4 <3 4.76<3 260
8 1 1

S-810.53<0.31.821.330 0.24460 <2 10.718.430 21.24.8267.2<0.00.9 11 3.61<3 340
9 7 5 1

S-820.84<0.31.723.442 0.32610 <2 8.2 20.930 20.45.1165.1<0.00.8 <3 3.44<3 330
2 9 1

S-820.65<0.33.532.3119 0.26940 9 10.329.860 35 7.24166.<0.013.3<3 5.34<3 550
5 3 5 1

S-820.85<0.31.724.256 0.4 700 <2 8.7 21.540 23.35.5 69.50.011.1 <3 4.08<3 300
6 8

S-821.25<0.32.131.895 0.46770 <2 12.730.690 22.58.29117 <0.01.7 <3 6.93<3 120
9 5 1

S-831 <0.31.718.750 0.41630 <2 9.9 21.750 14.15.0480.2<0.01.1 <3 4.44<3 170
0 3 5 1

S-830.97<0.32.122.343 0.44780 2 11.923.440 22.66.0993.5<0.01 <3 3.82<3 200
1 2 1

S-831 <0.32.124 80 0.55650 <2 11.825.360 18.66.5595.40.011 <3 5.68<3 210
2 1

S-831.24<0.31.928.661 0.66890 2 12 30.570 20.27.69103 <0.01.1 <3 6.54<3 130
3 9 1

S-831.13<0.31.829.878 0.37970 2 10.828.370 24.37.5699.7<0.01.5 <3 6.38<3 140
4 3 1

S-830.99<0.32.026.381 0.43850 2 13 26 80 26.16.7 113 <0.01.3 5 5.75<3 150
5 9 1

S-830.99<0.32.024.469 0.44810 <2 11.224.170 21 6.45114 <0.01.5 9 5.57<3 180
6 7 1

S-830.93<0.31.918.791 0.39740 <2 11.619 30 19.75 76.7<0.00.8 <3 4.11<3 300
7 5 1

S-830.76<0.32.320.1116 0.36620 <2 12.920.530 22.45.2 91.9<0.01 <3 4.03<3 340
8 3 1

S-831.08<0.32.126.688 0.45700 <2 13.427.190 23 6.93109.<0.01.5 <3 5.27<3 140
9 3 5 1

S-841.04<0.32.326.891 0.41700 2 15 26.280 24.57.42126 0.011.2 <3 5.7 <3 120
0 8

S-841.17<0.31.624 29 0.541010<2 12.725 50 22 6.6568.3<0.00.7 <3 5.78<3 220
1 7 1

S-840.95<0.31.922.930 0.47440 <2 8.9 27.350 12.16.4665.5<0.00.7 <3 5.22<3 130
2 9 1

S-840.82<0.32.120.658 0.35540 <2 12.119.230 18.75.3786.4<0.00.7 <3 4.5 <3 320
4 9 5 1

S-841.33<0.31.924 35 0.57810 <2 13.625.740 17.16.8484.9<0.00.7 <3 5.93<3 260
5 3 1

S-841.02<0.33.126.890 0.3811408 7.2 27.770 26.76.48103 <0.04.2 <3 6.6 5 540
7 3 1

S-840.95<0.32.130.278 0.33740 <2 11 26.170 24.76.8889.5<0.00.8 <3 5.1 7 170
8 4 1

S-851.12<0.34.034.395 0.51710 <2 14.233.4140 27.68.59153.<0.01 <3 6.66<3 100
0 1 5 1

S-851.13<0.32.233.7140 0.46970 <2 10.230.9100 31 7.74118.<0.01.6 4 5.966 170
1 7 5 1

S-851.19<0.32.633.4135 0.4510402 11 32.290 35.78.55136.0.013.5 <3 6.5 11 140
2 6 5

S-850.93<0.32.126.798 0.37800 <2 13 26.170 27.16.63120.<0.02.1 <3 6.03<3 300
3 7 5 1

S-850.97<0.31.524.227 0.45940 2 10.923.350 22.15.7273.8<0.00.8 <3 5.65<3 200
4 7 1

S-850.94<0.31.729.633 0.42590 <2 13.427.730 19.27.1 93 <0.00.3 <3 6.32<3 190
5 2 1

S-851.18<0.32.334.9116 0.4815103 14 33.6110 51.88.46136 <0.01.7 <3 6.48<3 200
7 3 1

S-850.84<0.32.926.273 0.4 540 <2 14 24.250 19.86.57124.<0.00.6 5 5.05<3 150
8 9 5 1

S-851.38<0.35.035.3105 0.5911203 15.537.3110 24.79.83200 <0.02.6 <3 7.62<3 380
9 3 1

S-861.29<0.31.625.323 0.491010<2 12.327.650 19.46.9672.1<0.01 <3 5.71<3 230
0 7 1

S-861.21<0.31.625.124 0.651030<2 13 27.550 23.66.6577.5<0.00.8 <3 6.55<3 240
1 7 1

S-861.08<0.31.420.720 0.47890 <2 12.123.240 20.45.9267.4<0.00.8 <3 5.08<3 220
2 6 1

Table 3. Soil Sampling VranjeSouth -ME-MS89L method

Sam.Ta Tb Te pTh pTi pTl pTm U V W Y Yb pZn
ID ppm ppmpm pm erc pm ppm ppm pp ppm pppm ppm
m m

S-70- - - - - - - - - - - - -
1

S-700.850.42<0.58.3 0.320.320.192.1 84 1.9 14.1.3770
3 4 3

S-700.920.53<0.57.9 0.450.560.342.4 92 1.7 20.2.5460
4 4 7

S-701.490.7 <0.510.30.500.540.333.5 84 1.6 22.2.6160
6 2 2

S-700.8 1.141 12.70.470.940.5 3.1 1481.5 35.4.05120
7 6 8

S-701.110.840.5 10.60.431.070.372.8 1251.7 28 2.4190
8 4

S-710.990.810.8 12.30.420.830.322.3 1421.9 26.2.09100
9 5 1

S-720.820.670.5 8.9 0.410.710.382.2 1132.1 25.3.11140
1 5 7

S-720.750.56<0.57.6 0.330.350.252.1 74 1.6 21.2.0860
3 6 3

S-720.760.54<0.59.7 0.440.650.312.5 1011.4 21.2.4470
4 6 4

S-720.690.54<0.56.2 0.330.540.3 2.1 61 1.5 19.1.9150
5 5 1

S-720.850.570.5 9.7 0.390.8 0.252.6 1281.8 20.1.9890
6 4

S-720.740.58<0.58.5 0.400.820.273.3 1411.9 22.2.37120
7 1 2

S-720.810.650.7 11.10.410.630.292.4 1031.5 22 2 80
8 9

S-731 1.080.7 11.40.450.960.512.2 1562.2 33.3.31110
1 6 2

S-730.910.77<0.59.7 0.430.8 0.422.3 1192.4 26.2.4290
2 2 5

S-730.670.44<0.57 0.290.510.332.2 66 1.1 19.2.2170
4 4 9

S-730.910.52<0.55.6 0.370.380.3 1.5 84 1.4 16.1.7370
5 6 5

S-730.870.72<0.58.8 0.420.580.392.3 87 1.5 24.2.8770
6 8 5

S-731.130.6 <0.58 0.400.640.4 2.2 93 1.7 24.2.5770
7 5 4

S-730.540.64<0.59.5 0.290.440.261.9 89 1 22.1.75110
8 1 4

S-730.931.1 <0.511.20.431.240.563.2 1332.2 40.3.78110
9 9 3

S-741.020.72<0.59.1 0.470.8 0.482.4 1052.1 28.3.1780
0 1 3

S-741 0.87<0.510.40.490.810.482.4 1272.3 29.2.86100
1 8 7

S-741.110.91<0.510.90.480.820.522.7 1302.1 28.2.98100
2 1 5

S-740.8 0.610.5 7.1 0.350.530.292 93 1.9 18.1.8670
3 6 3

S-740.870.8 <0.510.20.431.090.512.6 1202 29.3.07100
4 1 4

S-740.550.39<0.54.5 0.240.230.241.6 52 0.9 15 1.7240
6 9

S-741.050.75<0.59.7 0.430.470.462.4 85 2.2 28.3.3450
7 7 3

S-740.730.69<0.510 0.420.760.452.2 1041.8 29.2.5790
8 5 2

S-741.110.89<0.511.40.500.750.452.3 1372.3 30.3.4 80
9 9 6

S-751.070.64<0.59.6 0.420.670.372.2 1111.8 24.2.5970
0 4 2

S-750.880.61<0.510 0.480.640.392.5 1122 28.2.3170
1 3 2

S-750.810.72<0.59.8 0.450.690.442.2 1222 25.2.3290
2 4 9

S-750.760.75<0.513 0.490.940.4 2.8 1602.7 31.3.42120
3 1 5

S-750.710.81<0.510.50.450.730.382.4 1392.2 29.2.57110
4 2 8

S-750.710.82<0.510.90.480.660.422.8 1332.4 32.3.31110
5 5 7

S-751.540.540.8 8.4 0.400.420.262 1141.8 23.2.01100
6 7 6

S-750.440.53<0.57 0.280.520.322 94 1.5 21.1.9280
7 3 1

S-750.590.58<0.58.9 0.350.750.322.3 1141.6 20.2.0690
8 5 9

S-750.890.85<0.511.90.430.810.412.5 1372.5 29.2.57100
9 6 3

S-760.760.89<0.510.60.480.790.452.3 1512.5 33.3.07110
0 8 6

S-760.550.48<0.57 0.360.420.262.6 89 1.7 18.1.8470
1 4 5

S-760.790.85<0.511.70.470.860.4 2.5 1372.1 29.3.0790
2 3 2

S-760.8 0.780.6 12.40.441.030.463.1 1441.7 31 2.72170
3 7

S-760.760.720.7 9.8 0.450.620.382.7 99 2.1 25.2.6670
4 1 6

S-760.880.81<0.511 0.470.730.462.4 1312.3 30.2.62100
5 4 3

S-761.210.7 <0.59.7 0.400.660.4 2.1 1152.2 26.2.0580
6 6 4

S-760.920.870.7 10.90.480.710.412.2 1291.7 32.3.11100
7 9 7

S-760.781.45<0.510.60.480.910.632.1 1312.4 47.4.4 100
8 1

S-760.960.880.9 11.80.470.970.422.5 1302.6 34.3.04100
9 8 5

S-770.930.84<0.512.20.460.740.392.5 1273.1 28 2.5680
0 1

S-770.740.88<0.512.20.430.780.382.5 1381.6 33.3.5 100
1 3 3

S-770.980.7 0.5 13.60.430.920.382.3 1462.1 29 3.13120
2 4

S-770.720.7 0.7 11.30.440.870.351.9 1231.3 26.2.2190
3 4 4

S-770.780.71<0.510.20.440.710.352.4 1322.3 29.2.6280
4 8 6

S-770.570.54<0.58.2 0.370.520.322.2 1042 23.2.1170
5 6 5

S-770.430.5 <0.57.7 0.290.680.313.5 1081.4 20.2.16100
6 6 3

S-770.6 0.75<0.58.3 0.420.490.372.2 1101.9 28.2.58110
7 7 5

S-770.770.8 <0.59.7 0.440.730.482.7 1042.1 30.3.1290
8 4 5

S-770.610.650.6 8.6 0.410.650.362.5 1091.8 22.2.3490
9 9 6

S-780.650.67<0.59.8 0.410.640.322.1 1162.4 26.2.3 80
0 1 9

S-780.640.570.6 8.4 0.380.490.372.3 82 1.2 21.1.9760
1 1 9

S-780.540.54<0.56.8 0.340.550.322.4 78 1.3 16.2.0370
2 6 6

S-780.760.680.7 10 0.460.770.462.5 1172 27.2.8580
3 3 4

S-780.980.6 <0.511.40.490.990.352.7 1302.7 25.2.74110
4 9 9

S-780.930.78<0.511.10.430.870.362.5 1392.5 26.2.6 110
5 8 5

S-780.760.8 <0.510.80.441.010.482.5 1342.3 34.3.22110
6 5 2

S-780.490.42<0.53.9 0.330.270.232.1 76 1.2 16.1.4 60
7 5 5

S-780.610.53<0.57.6 0.340.580.282.7 90 1.8 19.1.8980
8 7 7

S-780.8 1 0.7 10.50.370.9 0.382.3 1151.6 35.3.17110
9 4 3

S-790.570.78<0.510.20.330.630.362.9 1181.8 26.2.1960
0 9

S-790.480.550.5 6 0.330.310.253.3 85 1.5 17.1.7780
1 1 9

S-790.250.340.7 6.3 0.180.220.3 2.8 37 0.5 20.2 30
2 7 3

S-790.690.760.8 9.6 0.430.720.332.2 1141.2 24.2.69110
3 2 7

S-790.610.45<0.57.1 0.370.420.281.8 68 1.1 17.1.4770
4 1 1

S-790.8 0.831.2 9.5 0.420.660.452.2 1141.2 28.2.6590
5 8 3

S-790.670.44<0.56 0.320.440.282 68 1.4 16.1.5 70
6 6 1

S-790.680.92<0.510.10.370.560.412.9 1051.5 25.2.7290
8 7 4

S-790.9 0.55<0.56.3 0.330.4 0.342.2 74 1.1 23.2.8360
9 5 3

S-800.720.79<0.59.9 0.490.710.5 2.4 1112.1 31.2.7480
0 3 1

S-800.750.68<0.59.6 0.410.7 0.382.7 1182.1 27.2.2290
1 3 7

S-800.680.71<0.59.7 0.620.410.372 1502.1 21.2.3 80
2 9 8

S-801.011 0.7 13.40.490.890.462.1 1651.9 32.3.32110
3 9 7

S-800.950.870.7 13.20.500.870.412.7 1312 30.2.66110
4 2 8

S-800.590.670.5 8.2 0.370.490.392.2 1001.6 25.2.2790
5 6 3

S-800.910.850.9 12 0.460.960.422.7 1321.9 32.3.25100
6 7

S-801.120.98<0.511.40.500.950.5 2.3 1421.8 31.3.36110
8 4 8

S-810.850.720.8 9.6 0.480.850.422.4 1062.1 27.2.6 110
0 9 5

S-810.760.811.2 11.20.450.760.453.1 1231.5 27.2.6790
1 1 9

S-810.990.940.7 12.80.470.970.412.5 1402 29.3.06110
3 4 9

S-811.030.940.6 12.30.480.830.482.7 1422.8 36.3.42100
5 4 7

S-811.590.47<0.510.20.380.6 0.192.4 1181.5 16.1.5390
6 9 8

S-810.810.7 <0.58.2 0.410.770.392.2 96 1.9 25.3 100
8 8 5

S-810.690.38<0.56.2 0.320.390.282.2 60 1.2 14.1.7750
9 6 6

S-820.660.45<0.55.4 0.320.380.332.1 74 1.1 19.2.4750
2 9 7

S-820.740.6 0.6 9.4 0.382.330.242.7 1451.5 18.2.09130
5 9 1

S-820.660.56<0.56.8 0.360.5 0.4 2.5 76 1.3 25.2.7360
6 6

S-820.810.86<0.511.50.480.650.543 1482.6 33.3.7 110
9 8 4

S-830.620.76<0.57.5 0.450.560.462.6 1161.5 28.2.6380
0 6 5

S-830.830.63<0.58.9 0.500.560.442.4 1111.8 25.2.8380
1 5 5

S-830.7 0.75<0.59 0.480.650.452.7 1191.7 28.3.0680
2 2 1

S-830.780.99<0.510.20.480.670.522.6 1441.7 33.3.57100
3 3 1

S-830.620.87<0.59.2 0.470.480.492.5 1362.1 30.3.3190
4 1 5

S-830.870.81<0.59.8 0.490.8 0.4 3 1192 26.3.2690
5 8 6

S-830.710.69<0.59.3 0.470.760.352.8 1342 25.2.98100
6 1 5

S-830.750.59<0.58.2 0.560.430.472.7 1071.5 27.3 50
7 5 3

S-830.820.58<0.57.4 0.530.430.363 1061.7 23 2.4850
8 3

S-831.070.760.7 10.20.490.780.392.5 1242.5 25.2.95100
9 1 2

S-840.830.84<0.510.50.520.890.453.3 1302.5 25.3.18100
0 6 8

S-840.770.9 <0.57.4 0.760.470.492.3 1621.4 30.3.74110
1 3 6

S-840.540.74<0.57 0.540.4 0.412.2 1441.3 26.2.6860
2 7 3

S-840.8 0.66<0.58.6 0.530.470.432.4 1082 22.2.8960
4 1 9

S-840.910.93<0.510.20.620.510.6 2.9 1291.8 35.4 80
5 1 5

S-840.480.83<0.59.4 0.341.3 0.453.2 1221 31 2.9590
7 8

S-840.660.660.5 10.20.430.520.372.3 1081.7 24.2.1290
8 5 5

S-850.830.86<0.512.90.480.8 0.523 1431.9 29.2.99110
0 3 5

S-850.7 0.930.6 12.30.500.720.523.2 1452.1 34.3.02110
1 9 6

S-850.711.031 12.70.490.960.442.9 1611.9 32.3.15110
2 3 6

S-850.760.78<0.59.6 0.460.750.412.5 1281.8 25 2.82110
3 8

S-850.620.730.6 6.6 0.580.410.4 2 1411.3 28.2.89230
4 4 6

S-850.930.64<0.510 0.500.390.462.7 89 1.6 28.3.3470
5 9 1

S-850.810.92<0.511.90.441.130.543.4 1352.4 36 3.4 120
7 1

S-850.910.62<0.511.20.490.830.393.3 1321.9 22.2.3390
8 7 2

S-851.011.08<0.514.70.500.980.573.1 1892.4 36.3.89110
9 3 8

S-860.781.02<0.57.3 0.770.560.482.4 1841.3 33.4.03100
0 1 6

S-860.811.09<0.56.9 0.790.5 0.552.3 1891.4 32.3.56120
1 7 9

S-860.760.81<0.56.1 0.690.480.592.2 1591.3 29.3.09100
2 1 4

Table 4. Soil Sampling Vranje South ME-MS89L method

Samp.Ag As Ba Be Bi Ca pCd Ce pCo Cs Cu Dy pEr pEu pFe pGa pGd pGe pHo
ID ppm ppm ppm ppm ppmerc ppmpm ppm ppm ppmpm pm pm erc pm pm pm ppm

S-701- - - - - - - - - - - - - - - - - - -
S-702<5 204 556 1.8 0.1 0.8 <0.890.413.510.420 3.141.550.9 2.7221.83.781.1 0.71
S-7037 111 411 0.7 0.1 1 <0.874.84.2 9.4 20 2.651.731 2.7724.64.641 0.48
S-704<5 35 416 1.8 0.2 1 <0.850.813.815.120 3.742.170.982.6817.94.231.2 0.67
S-706<5 10 476 2.8 0.2 1 <0.866.810.14.3 20 4.092.030.952.6722 4.361.1 0.69
S-707<5 143 619 2.9 0.5 0.9 <0.875.118.126.960 6.343.751.915.0822.47.631.1 1.28
S-708<5 180 473 3 0.3 0.9 <0.878.616.823.630 4.912.461.334.0423.86.191.3 0.97
S-709<5 114 241 2.2 0.1 1.1 <0.840.35.8 3.2 20 1.821.170.861.5222.42.52<0.50.33
S-710- - - - - - - - - - - - - - - - - - -
S-71111 648 513 2.9 0.4 0.7 0.9 78.614.920.460 4.592.591.354.1 27.56.442 0.8
S-712<5 398 587 2.3 0.8 7.9 <0.899.955.232.460 7.334.231.516.1417.27.330.8 1.4
S-713<5 29 405 2.2 0.2 1.3 <0.881.49.3 2.8 20 2.411.181.332.8228.74.630.5 0.5
S-7146 61 911 3.9 0.3 0.9 0.8 104 24.58.6 60 6.573.861.885.4732.88.362 1.35
S-715<5 132 397 3.4 0.2 1 <0.868.412.815.320 3.732.141.032.7 23.64.371.2 0.76
S-7167 286 668 1.6 0.3 1.3 1.1 75.114.627.340 4.452.3 1.563.5824.45.442.5 0.88
S-717<5 163 506 2 0.3 7.5 1.3 69.422.720.240 7.764.711.734.1223.47.392.1 1.51
S-718<5 30 344 2.1 0.2 0.9 <0.895.710.27.4 <20 3.791.351.783.1631.35.14<0.50.59
S-7198 131 526 2.4 0.4 1 <0.872.718.224.540 4.652.8 1.274.4 24.25.852.4 0.99
S-720<5 124 427 2.4 0.5 1.3 <0.877.216.716.250 4.992.3 1.494.3525.65.250.7 0.78
S-7215 83 586 2.3 0.3 1.9 0.8 58.315.320.840 3.992.581.323.5620.14.8 2.4 0.91
S-7236 73 331 2.7 0.2 1.2 0.9 60.79.6 8.6 30 3.612.171.262.9423.64.771 0.72
S-724<5 90 503 1.9 0.3 0.8 0.9 54.317.420.740 3.562.370.893.7 19.53.651.5 0.8
S-7256 51 319 1.6 0.3 1.3 <0.849 9.8 9.5 20 2.7 1.610.791.8 18.63.151.6 0.54
S-726<5 125 401 2 0.3 0.9 <0.868.712.923.550 4.3 2.1 1.244.1527.74.621.8 0.82
S-7278 170 483 1.6 0.4 1.2 1.4 63.222.537.970 4.062.231.454.7225 5.381.5 0.81
S-728<5 136 431 2.3 0.4 6.7 1.2 77.513.419 40 4.482.421.472.9223.25.680.8 0.86
S-72910 99 472 2.9 0.2 1 1.3 56.112.511.320 3.612.320.952.4519.63.741 0.82
S-7308 136 551 2.9 0.4 1 0.9 82.520 37.840 4.231.961.313.7124 4.671.7 0.83
S-7316 140 521 2.6 0.4 0.9 0.8 71.719.334 50 6 3.491.425.1225.27.142.2 1.37
S-7326 105 517 3 0.4 1.2 <0.861.719.325.940 4.652.481.193.9822.34.942.6 0.93
S-733<5 103 577 2.6 0.4 0.7 0.9 68.521.639.860 5.442.821.345.5825.16.042.1 1.06
S-7348 82 553 1.8 0.1 1.5 0.8 50.610.915.630 3.291.721.012.3819.63.341.2 0.56
S-7356 70 386 1.3 0.2 3.6 0.8 49.512.211.420 3.162.381.172.8821.33.781.5 0.73
S-736<5 54 448 1.8 0.3 1.8 <0.859 13.711.720 3.832.771.062.6916.44.361.6 0.95
S-737<5 71 471 2.5 0.3 1.6 <0.857.514.612.730 4.732.520.942.9719.24.5 2.1 0.9
S-7385 68 281 1.8 0.1 1.1 <0.848.49.6 9.9 30 3.492.211.333.4324.54.762.6 0.79
S-7396 85 655 2.3 0.4 1 0.8 86.317.756.640 6.513.841.684.5 22.17.811.7 1.41
S-7406 59 539 3.2 0.3 1 0.9 71.217 19.540 5.4 3.1 1.383.3118 5.562.1 1.01
S-7419 105 591 2.2 0.5 1.1 1.3 67.418.136.240 5.343.2 1.6 4.3521.15.772 1.04
S-742<5 72 591 2.6 0.4 0.9 1 70 19.823 40 5.013.331.193.9220.45.561.8 0.9
S-743<5 54 373 2.2 0.2 1.3 0.8 52.712.613.230 3.912.120.873.1422.94.131.7 0.8
S-744<5 122 611 2 0.4 1.6 <0.865.318.975.140 5.183.281.394.1223.94.8 2.2 1.07
S-745<5 120 479 2.7 0.4 1 <0.861 18.428.150 4.562.491.134.2 23.74.762 0.91
S-746<5 43 195 2.9 0.1 1.5 <0.840.26.6 4.7 <20 3.071.561.082.1819.42.511.9 0.47
S-747<5 56 395 1.6 0.2 1.1 <0.860.18.6 9.1 20 4.512.481.322.4417.34.391.6 0.97
S-748<5 86 499 2.9 0.4 1.1 <0.864.419.119.740 4.662.881.233.7 20.14.490.8 1.06
S-749<5 86 543 2.3 0.5 0.9 <0.874.920.725.740 5.853.421.264.4420.76.332.2 1.2
S-7506 49 422 3.7 0.3 0.7 0.9 70.114.212.430 5.312.8 1.233.7422.24.921.6 1.09
S-751<5 52 477 3 0.4 1 <0.860.911.713.520 4.392.621.123.2716.65.1 1.6 0.84
S-7525 70 549 2.8 0.5 1 0.8 61.517.829 40 4.742.841.184.2522.55.022.2 0.83
S-7535 108 719 2.7 0.6 2.3 <0.873.821.128.550 5.233.461.515.0722 5.8 2.3 1.08
S-7546 78 557 2.2 0.6 4.7 <0.866.119.832.550 5.453.141.464.5520.65.931.8 1.08
S-7555 59 584 2 0.2 1.2 0.8 67.316.823.340 4.953.771.424.4422.35.8 2.3 1.19
S-756<5 56 509 1.8 0.4 1.1 <0.854.114.116.330 4.382.241.013.8718.55.132.3 0.87
S-757<5 54 410 2 0.5 18.3<0.840.912.216.730 3.792.211.083.0212.84.181.2 0.71
S-758<5 90 522 2.5 0.6 9.1 1 51.515.939.940 4.382.331.213.9817.94.042.2 0.79
S-759<5 139 562 2.9 0.7 2 <0.868.819.928.150 5.313.111.224.4820.95.171.9 1.03
S-760<5 142 626 3.1 0.4 0.7 0.9 60.417.422.150 5.133.631.545.2924.15.912.6 1
S-761<5 10 564 2.3 0.3 6.6 <0.846.513.211.630 3.281.760.942.7616.43.771.9 0.67
S-762<5 97 656 2.7 0.5 1.7 1 64.320 27.340 5.062.561.324.4421.36.022.1 1.03
S-763<5 115 671 3 0.5 2.9 1.1 76.721.149.860 5.8 3.161.585.4823.26.312 1.13
S-764<5 63 512 2.4 0.5 1 0.9 57.816.317.330 4.4 2.490.993.1616.24.571.6 0.91
S-765<5 93 621 3.3 0.5 0.9 <0.867.720.120.940 5.573.341.444.2320.85.242.5 0.99
S-766<5 62 557 2.5 0.5 7.3 <0.859.915.819.630 4.312.611.1 3.7 18 4.781.9 0.83
S-767<5 72 573 2.6 0.4 0.8 1 67.219.819.550 5.753.491.284.5120.95.961.3 1.16
S-768<5 52 498 4.8 0.5 0.8 1.1 93.219.228.840 8.864.882.014.5321.29.671.7 1.66
S-769<5 68 549 3.2 0.4 0.8 0.9 80.319.623.340 5.883.631.494.6821.16.261.4 1.21
S-770<5 75 492 3.5 0.4 0.8 <0.867.214.522.140 4.063.011.094.4720.45.211.7 0.94
S-771<5 135 618 3.2 0.5 0.9 <0.887.624.825.450 6.363.281.684.9122.86.591.5 1
S-772<5 154 679 1.8 0.6 1 <0.881.924.935.460 4.863.041.724.9923.46.472 1.09
S-773<5 73 532 3 0.5 2.5 <0.867.619.540 40 5.293.1 1.364.4119.55.882 1.16
S-7746 73 590 2.2 0.4 2.2 <0.866.419.218.850 4.923.011.394.3520.55.171.8 1.12
S-7756 81 521 1.7 0.4 8.4 1 53.312.318.230 4.3 2.771.083.4616.84.851.5 0.87
S-7766 147 573 2.6 0.4 13.60.9 48.515.931.650 4.062.191.133.7714 4.541.7 0.68
S-7779 72 546 2.2 0.4 3.8 1.2 55.914.620 40 4.382.661.073.7618.54.5 2 1.04
S-7786 52 603 2.3 0.3 1 1.1 68.813.220.430 4.722.9 1.4 3.7119.15 1.8 0.98
S-7795 22 578 2.4 0.4 1 0.8 56.211.920.930 4.732.361.253.5719.55.061.9 1
S-780<5 68 536 2.4 0.3 6.5 <0.859.118.228.440 4.322.661.144.3 19.45.511.4 0.88
S-781<5 67 405 2.2 0.3 1.5 <0.859 14.212 30 3.912.4 1.243.0518.94.831.5 0.89
S-782<5 110 436 2.4 0.3 2.6 <0.855.912.312.830 3.622.011.323.4523.13.551.6 0.74
S-783<5 78 541 2.6 0.5 1 <0.856.615.617.130 4.813.131.013.9419.95.3 2 0.9
S-784<5 83 627 3.3 0.7 0.7 <0.868.614.928.140 5.413.2 1.4 4.1422.45.292.1 1.07
S-785<5 102 574 2.9 0.3 0.7 <0.867.416.918.750 4.522.891.234.2126.15.882 1.08
S-786<5 98 566 2.4 0.5 3.2 0.9 58.516.633.540 5 3.191.134.2320.95.431.8 0.97
S-787<5 51 294 1.6 0.3 3.2 <0.838.87.4 7.7 20 2.341.520.922.7819.13.2 1 0.62
S-788<5 98 407 2.1 0.4 3.3 <0.854.515.117.640 3.361.961.223.0621.24.531.7 0.67
S-789<5 143 541 3.2 0.4 6 <0.860.417.725.340 4.8 3.191.394.2319.96.26<0.51.1
S-790<5 178 543 2.3 0.6 8.3 <0.858.315.825.850 4.622.751.113.3717.95.961.1 0.91
S-791<5 293 356 1.7 0.3 1.6 <0.852 10 11.240 3.192.221.4 3.7524.64.431.4 0.72
S-792<5 85 354 1.1 0.2

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Datum: 20.08.2018 - 12:29 Uhr
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