X
2023 / Jan

Terra Balcanica Intersects 0.61 g/t Gold Equivalent Over 88.0 m From Surface at Brezani Discovery, Viogor-Zanik in Bosnia-Herzegovina

Vancouver, British Columbia – January 24th 2023 – Terra Balcanica Resources Corp. (“Terra” or the “Company”) (CSE:TERA, FRA:UB1) is pleased to announce the discovery of a gold bearing system at Brezani within its 90% owned Viogor-Zanik project, Bosnia and Herzegovina.

Highlights

  • Another Viogor-Zanik discovery: the Brezani target maiden drillholes intercepted 0.61 g/t AuEq over 88.0 m (BREDD002) and 0.58 g/t AuEq over 28.6 m (BREDD001); both drillholes encountered gold mineralization from surface confirming the extension of the 32 m at 0.54 g/t AuEq interval detected by trenching 65 m southeast of the drillhole collars (see Company news release from August 17th, 2022);
  • Expanding district-scale polymetallic footprint: Viogor-Zanik now features 3 styles of mineralization with 7 metals; the Brezani gold bearing system sits 12 km southeast of the high-grade, polymetallic Cumavici discovery (see Figure 1) which intercepted:
    • 824.2 g/t AgEq. over 4.0 m including 1634.4 g/t AgEq. over 2.0 m;
    • 816.1 g/t AgEq. over 2.0 m;
    • 465.5 g/t AgEq. over 8.7 m including 1196.6 g/t AgEq. over 2.0 m (see Company news releases from September 8th and October 22nd, 2022);
  • Open at depth with favorable lithologies: BREDD002 terminated in elevated gold mineralization at 215 m depth; the Company interprets the elevated gold at the end of the drillhole to be associated with another mineralized zone and silica-chlorite-sericite altered intrusive lithologies downhole highlight the potential for porphyry style mineralization which will require further drill testing (see Figure 3);
  • Exploration upside: gold-bearing target at Brezani coincides with a resistive volume of rock above a large conductivity anomaly (> 600 m wide, > 60 mS/m) interpreted to represent porphyry style mineralization (see Figure 3), which remains untested.

Terra Balcanica President and CEO, Dr. Aleksandar (Alex) Miskovic, commented:

We are extremely excited about the Brezani gold discovery located over 12 km southeast of the high-grade, polymetallic discovery made by Terra Balcanica at the Cumavici target last year. The Viogor-Zanik project is clearly underexplored as we have identified a number of quality exploration targets through our detailed targeting in 2021 and we have now confirmed three different styles of magmatic-hydrothermal mineralization. The intercepted metasomatized hornfels suggests that we are in the upper part of a large retrograde skarn-porphyry system at Brezani with the gold mineralization encountered from surface and a significant potential for either a deeper porphyry or a sulphide rich Cu-Au proximal skarn mineralization. The spatial coincidence of precious metals with a plus 1.2 km wide magnetic anomaly and the presence of a strong electric conductor at 400 m depth detected via airborne geophysics gives us confidence that we have a large potential mineralized system on our hands. We look forward to more assays from the 2022 program which will be released over the coming weeks.

Drillhole
From (m)
To (m)
Length (m)
Au (g/t)
Ag (g/t)
Cu (%)
Zn (%)
AuEq (g/t)
BREDD001
0.0
28.6
28.6
0.53
0.32
0.03
0.06
0.58
including
20.1
25.8
5.7
1.24
0.33
0.03
0.10
1.27
BREDD002
0.0
88.0
88.0
0.50
0.37
0.03
0.19
0.61
including
10.3
16.5
6.2
1.01
0.22
0.03
0.04
1.01
including
32.0
38.0
6.0
1.50
1.18
0.07
0.72
1.90
including
45.0
53.0
8.0
0.77
1.32
0.11
0.75
1.27

Table 1. Assay results of key mineralized intervals for diamond drillholes BREDD001 and BREDD002. Interval lengths reported are drilled lengths and not true widths. AuEq calculation assumes metal prices of US$1,900/oz for gold (Au), US$24.00/oz for silver (Ag), US$4.00/lb for copper (Cu) and US$1.65/lb for zinc (Zn). Metallurgical recoveries of 95% have been adopted based on metallurgical testwork by Dundee Precious Metals Inc. (TSX:DPM) on their Coka Rakita Au skarn in Serbia (see Note 1 below). BREDD001 was terminated early at 28.6 meters due to increased levels of core loss.

Figure 1. Terra Balcanica’s 216 km2 Viogor-Zanik project in eastern Bosnia and Herzegovina with the key drill target areas and their associated styles of mineralization: (i) the epithermal Cumavici corridor, (ii) the Olovine porphyry target and (iii) the southwesterly Brezani skarn/porphyry system is located approximately 12 km SE of the Cumavici Ridge discovery drillholes.

Brezani is located 8.4 km south of the Mineco Ltd.Sase Mine which produces approximately 330 kt of lead-zinc-silver-gold concentrate per year (Figure 1). Brezani hosts components of a large magmatic-hydrothermal system discovered by geophysical and geochemical surveys (Figure 2).

Drillhole BREDD001 was terminated at 28.6 m depth due increased levels of core loss. The core returned 28.6 m at 0.58 g/t AuEq from surface. The lithologies intercepted were strongly oxidized diorites and hydrothermal breccias, ending in a calc-silicate hornfels. Au contents of up to 1.9 m at 2.46 g/t Au are observed in hydrothermal breccias of dioritic intrusive rocks, apopheses of an underlying pre/inter-mineral intrusion.

Figure 2. Geological map highlighting the 1.2km wide, 95th percentile magnetic anomaly at the Brezani target. The strongest magnetic response remains untested at depth, however correlates to Au in surface trenches, quartz vein bearing sericitized diorites and calc-silicate altered hornfels with elevated concentrations of proximal pathfinder elements (Bi-Te) from soil geochemistry. Distal zonation sees strong argillic alteration and a Zn-Mn geochemical halo.

Drillhole BREDD002 was designed as a subsequent hole to BREDD001 to test the resistive hanging wall existing below the exposed calc-silicate hornfels. The drillhole collar was centered on an 850 m wide Au in soil anomaly and located 65 m NW from the previously completed exploratory trenches that yielded 32 m at 0.54 g/t AuEq (See Company’s news release dated August 17th, 2022). The mineralized interval reporting 88.0 m at 0.61 g/t AuEq from surface includes 7 m of dilution from a late, post-mineralization diorite dyke.

Figure 3. Conductivity profile of the Brezani target with >95th percentile magnetic anomaly. BREDD002 tests the resistive volume above an abrupt change into coincident high magnetic and elevated electrical conductivity response below 300 m depth which culminates at >60 mS/m at 450 m of depth. Dashed line represents distance from the end of BREDD002 to the top of conductor.

The sulphides encountered at Brezani are characterised by both disseminated and intervals of semi-massive sphalerite-chalcopyrite (Figure 4). Pyrrhotite is the dominant iron sulphide, with pyrite uncommon. The gold is controlled by lithology and associated with skarns, calc-silicate hornfels and specific intrusive phases. Quartz veins host pyrrhotite, sphalerite, chalcopyrite and molybdenite. A less reactive hornfels is present between 87.2 and 199 m depth but silicified diorite reappears between 214 and 215 m depth where the drillhole ended in Au mineralization returning 0.26 g/t Au.

Intermediate sulphidation veins were observed at 156 m and 168 m downhole returning 1.0 m at 0.39 g/t Au and 1.0 m at 0.34 g/t Au, 12.1 g/t Ag, respectively. The presence of these veins confirms another mineralization style within the broad porphyry (Cu) model. Mineralogy is varied with pyrrhotite, pyrite, sphalerite, galena, arsenopyrite and bismuthinite present within fault hosted, quartz-carbonate veins (Figure 5).

Figure 4. Retrograde skarn with sphalerite-chalcopyrite at 37.5 m (2.74 g/t Au).

Figure 5. Intermediate sulphidation veins in silicified hornfels of BREDD002

Hole ID
Easting
Northing
Elevation
Dip
Azimuth
Depth (%)
Recovery (%)
BREDD001
368461.4
4880027.0
872.5
-70
336
28.6
73.1
BREDD002
368460.7
4880028.8
872.4
-70
336
215.0
96.0

Table 2. Collar location and core recoveries for diamond drillhole BREDD001 and BREDD002 (UTM; WGS84). BREDD001 drillhole experienced a cumulative core loss of 2.0 m between 14.9-15.4 m, 16.3-16.9 m, 19.6-20.1 m, and 25.8-26.2 m, while BREDD002 experienced core loss of 0.8 m between 24.0-24.8m.

The Brezani target bears lithological similarities with the Rogozna Project operated by Zlatna Reka Resources located 150 km SW within the Oligo-Miocene Tethyan belt in neighbouring Serbia. The Rogozna Au-Cu skarn deposit has a 2021 JORC compliant inferred mineral resource of 64 Mt grading 0.7 g/t Au and 0.2% Cu (2.15 Moz Au total), calculated using multiple indicator kriging on 154 drillholes, totalling 90,278 drill metres (https://ibaera.com/rogozna-2-15moz-au-eq-maiden-resource-estimate/).

Further Drilling: The coincident strong magnetic and conductivity anomalies (> 60 mS/m) below the resistive surface shell at Brezani remains untested and presents a promising target for increased, interconnected sulphide content characteristic of mineralized porphyry shells (Figure 3), which will be the Company’s priority during the 2023 drilling campaign. Follow up will be undertaken from other locations within the Au-in-soil anomaly to assess lithological variability and grade of the Au skarn along strike. Additional drilling will test Au anomalous rock chips within argillically altered volcanics and hydrothermal breccias thus offering a chance for testing multiple styles of mineralization within a broad porphyry model.

Note 1: https://www.dundeeprecious.com/English/Corporate-News/press-release-details/2023/Dundee-Precious-Metals-Announces-Discovery-of-Significant-High-Grade-Deposit-at-oka-Rakita-Results-Include-Drill-Intercept-of-40-metres-at-63.6-gt-Au-and-0.11-Cu/default.aspx

QA/QC

Half core (PQ3 and HQ3) samples were delivered to ALS Bor, Serbia for sample preparation and subsequent wet chemical analysis at the Loughrea laboratory in Ireland, an ISO/IEC 17025:2017 certified test facility. Sample preparation PREP-31BY method involved crushing the core to 70% less than 2 mm, rotary split 1.0 kg and pulverizing the split to greater than 85% passing 75 microns. Silver and base metals were analysed by ICP MS after a four-acid digest (ME-MS61). Gold was assayed by 30g fire assay with ICP AES finish (Au-ICP21). Over limit samples for base metals were re-analysed by the four-acid digest ICP-AES analyses termed ME-OG62. Control samples comprising the certified reference material CDN-ME-1501 (Canadian Resource Labs Ltd.), quarter core field duplicates and blanks were inserted at a rate of 5% and investigated as part of the Company’s quality assurance and quality control program.

Qualified Person

Dr. Aleksandar Mišković, P.Geo, is the Company’s designated Qualified Person for this news release within the meaning of National Instrument 43-101 Standards of Disclosure of Mineral Projects (“NI 43-101”) and has reviewed and validated that the information contained in this news release as accurate.

About the Company

Terra Balcanica is a polymetallic exploration company targeting large-scale mineral systems in the Balkans of southeastern Europe. The Company has 90% interest in the Viogor-Zanik Project in Bosnia and Herzegovina, 100% of the Kaludra and Ceovishte mineral exploration licences in southern Serbia. The Company emphasizes responsible engagement with local communities and stakeholders. It is committed to proactively implementing Good International Industry Practice (GIIP) and sustainable health, safety, and environmental management.

On Behalf of the Board of Directors

Terra Balcanica Resources Corp.
“Aleksandar Mišković”

Aleksandar Mišković

President and CEO

For further information, please contact Aleksandar Mišković at amiskovic@terrabresources.com, or visit our website at www.terrabresources.com.

Cautionary Statement

This news release does not constitute an offer to sell or a solicitation of an offer to sell any of the securities in the United States. The securities have not been and will not be registered under the United States Securities Act of 1933, as amended (the “U.S. Securities Act”) or any state securities laws, and may not be offered or sold within the United States, or to or for the account or benefit of any U.S. person or any person in the United States, unless registered under the U.S. Securities Act and applicable state securities laws or an exemption from such registration is available. “United States” and “U.S. Person” are as defined in Regulation S under the U.S. Securities Act.

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Hole ID
Sample
From (m)
To (m)
Au (ppm)
Ag (ppm)
Cu (ppm)
Zn (ppm)
BREDD001
105407
0.0
1.0
0.407
3.64
173
564
BREDD001
105408
1.0
2.0
0.465
0.16
163
263
BREDD001
105409
2.0
3.0
0.29
0.2
170.5
257
BREDD001
105410
3.0
4.0
0.38
0.11
169.5
181
BREDD001
105411
4.0
5.0
0.373
0.12
194
194
BREDD001
105412
5.0
6.0
0.264
0.09
379
327
BREDD001
105413
6.0
7.0
0.247
0.1
433
372
BREDD001
105414
7.0
8.0
0.276
0.1
523
362
BREDD001
105415
8.0
9.0
0.281
0.09
493
366
BREDD001
105416
9.0
10.0
0.273
0.07
385
296
BREDD001
105417
10.0
11.3
0.198
0.09
390
248
BREDD001
105418
11.3
14.9
0.126
0.12
233
77
BREDD001
105419
15.4
16.3
0.198
0.14
289
191
BREDD001
105420
16.9
17.9
0.446
0.21
138.5
826
BREDD001
105421
17.9
19.6
0.312
0.28
48.4
1390
BREDD001
105422
20.1
21.1
2.32
0.45
224
1225
BREDD001
105423
21.1
22.0
2.62
0.23
156
1685
BREDD001
105424
22.0
23.0
0.611
0.21
215
823
BREDD001
105425
23.0
24.0
0.378
0.26
305
656
BREDD001
105426
24.0
25.0
0.735
0.41
341
1140
BREDD001
105427
25.0
25.8
0.801
0.45
417
484
BREDD001
105428
26.2
27.0
0.68
0.27
179
1020
BREDD001
105429
27.0
28.6
0.947
0.15
33.2
1175
BREDD002
105430
0
1
0.287
0.1
221
184
BREDD002
105431
1
2
0.345
0.07
355
175
BREDD002
105432
2
3
0.266
0.12
502
245
BREDD002
105433
3
4
0.149
0.11
414
189
BREDD002
105434
4
5
0.203
0.11
434
173
BREDD002
105435
4
5
0.206
0.11
412
179
BREDD002
105436
5
6
0.218
0.09
336
139
BREDD002
105437
6
7
0.128
0.09
343
126
BREDD002
105438
7
8
0.122
0.12
237
81
BREDD002
105439
8
9
0.167
0.11
290
123
BREDD002
105440
9
10.3
0.11
0.09
383
144
BREDD002
105441
10.3
12
0.214
0.16
680
230
BREDD002
105442
12
13
1.955
0.2
174.5
224
BREDD002
105443
13
14
1.995
0.43
178.5
410
BREDD002
105444
14
15
0.947
0.15
48.4
508
BREDD002
105445
15
16.5
0.658
0.19
24.1
372
BREDD002
105446
16.5
18
0.196
0.19
21.4
2640
BREDD002
105447
18
19
0.559
0.32
347
1625
BREDD002
105448
19
20
1.03
0.32
371
810
BREDD002
105449
20
21
0.876
0.36
330
831
BREDD002
105450
21
22
0.58
0.33
439
1045
BREDD002
105451
22
23
0.559
0.46
554
724
BREDD002
105452
23
24
0.834
0.53
552
1095
BREDD002
105453
24.8
26
0.953
0.24
125
1250
BREDD002
105454
26
27
0.542
0.22
64.1
1145
BREDD002
105455
27
28
0.533
0.17
110.5
1285
BREDD002
105456
28
29.2
1.365
0.36
71.4
1730
BREDD002
105457
29.2
30
1.29
0.38
29.2
2170
BREDD002
105458
30
31
0.546
0.24
46.3
1140
BREDD002
105459
31
32
0.478
0.31
122
5500
BREDD002
105460
32
33
1.04
0.48
125
2080
BREDD002
105461
33
34
0.545
0.26
58.5
1500
BREDD002
105462
34
35
0.293
0.3
83.3
4370
BREDD002
105463
35
36
1.525
1.91
1475
12400
BREDD002
105464
35
36
1.78
2.52
1705
10850
BREDD002
105465
36
37
2.62
2.06
1150
14550
BREDD002
105466
37
38
2.74
1.45
1140
10150
BREDD002
105467
38
39.6
0.718
0.38
294
1875
BREDD002
105468
39.6
41
0.265
0.21
156
1035
BREDD002
105469
41
42
0.17
0.2
100.5
977
BREDD002
105470
42
43
0.496
0.16
43.9
2240
BREDD002
105471
43
44
0.614
0.21
47.6
1690
BREDD002
105472
44
45
0.913
0.43
325
415
BREDD002
105473
45
46
0.658
1.27
1380
9210
BREDD002
105474
46
47
0.478
1.23
754
5650
BREDD002
105475
47
48
1.56
2.75
2610
13950
BREDD002
105476
48
49
0.583
0.9
1160
1970
BREDD002
105477
49
50
0.82
1.46
1985
21200
BREDD002
105478
50
51
0.429
0.5
524
2840
BREDD002
105479
51
52
0.547
2.19
377
4890
BREDD002
105481
52
53
1.08
0.24
195.5
524
BREDD002
105482
53
54
1.045
0.08
13.5
796
BREDD002
105483
54
55
0.411
0.06
82.4
142
BREDD002
105484
55
56
0.417
0.18
37.1
611
BREDD002
105485
56
57
0.463
0.13
3.6
514
BREDD002
105486
57
58
0.276
0.15
104
668
BREDD002
105487
58
59
0.184
0.07
60.6
337
BREDD002
105488
59
60
0.134
0.09
112.5
228
BREDD002
105489
60
61
0.222
0.1
126
312
BREDD002
105490
61
62
0.13
0.09
120
214
BREDD002
105491
62
63
0.083
0.08
86.1
228
BREDD002
105492
63
64
0.084
0.05
95.5
188
BREDD002
105493
63
64
0.086
0.24
83.3
224
BREDD002
105494
64
65
0.09
0.69
65
150
BREDD002
105495
65
66
0.027
0.09
58
94
BREDD002
105496
66
67
0.051
0.31
50.9
105
BREDD002
105497
67
68
0.07
0.14
63.7
98
BREDD002
105498
68
69
0.009
0.05
36.5
68
BREDD002
105499
69
70
0.041
0.07
55.5
108
BREDD002
105500
70
71
0.071
0.06
52.2
189
BREDD002
105501
71
72
0.025
0.06
57.3
193
BREDD002
105502
72
73
0.046
0.05
62.1
377
BREDD002
105503
73
74
0.038
0.1
5.8
610
BREDD002
105504
74
75
0.026
0.1
3.3
1295
BREDD002
105505
75
76
0.104
0.29
57.9
3050
BREDD002
105506
76
77
0.088
0.15
4.1
2050
BREDD002
105507
77
78
0.03
0.2
7.6
1965
BREDD002
105508
78
79
0.101
0.7
18.3
3690
BREDD002
105509
79
80
0.16
0.18
5.7
938
BREDD002
105510
80
81
0.185
0.12
26.9
274
BREDD002
105511
81
82
0.263
0.08
6.9
504
BREDD002
105512
82
83
0.23
0.13
34.7
268
BREDD002
105513
83
83.9
0.366
0.24
193
280
BREDD002
105514
83.9
85
0.103
0.13
118
165
BREDD002
105515
85
86
0.117
0.15
81.3
161
BREDD002
105516
86
87
0.082
0.31
206
120
BREDD002
105517
87
88
0.095
0.16
208
75
BREDD002
105518
88
89
0.067
0.16
206
73
BREDD002
105519
89
90
0.047
0.12
122.5
83
BREDD002
105520
90
91
0.021
0.05
65.2
79
BREDD002
105521
91
92
0.016
0.65
79.9
125
BREDD002
105522
91
92
0.013
0.11
74.6
123
BREDD002
105523
92
93
0.055
0.13
140.5
111
BREDD002
105524
93
94
0.072
0.17
178
98
BREDD002
105525
94
95
0.023
0.15
99.8
96
BREDD002
105526
95
96
0.043
0.38
110.5
112
BREDD002
105527
96
97
0.032
0.22
155
73
BREDD002
105528
97
98
0.024
0.38
145
358
BREDD002
105529
98
99
0.039
0.21
135.5
186
BREDD002
105530
99
100
0.037
0.17
76
109
BREDD002
105531
100
101
0.074
0.26
97.2
178
BREDD002
105532
101
102
0.065
0.19
163
127
BREDD002
105533
102
103
0.017
0.21
121.5
94
BREDD002
105534
103
104
0.009
0.11
69.7
136
BREDD002
105535
104
105
0.01
0.07
63.5
104
BREDD002
105536
105
106
0.022
0.34
73.2
164
BREDD002
105537
106
107
0.019
0.73
86
93
BREDD002
105538
107
108
0.009
0.39
114.5
67
BREDD002
105539
108
109
0.01
0.43
116
106
BREDD002
105540
109
110
0.015
0.28
103
167
BREDD002
105541
110
111
0.114
0.22
112.5
130
BREDD002
105542
111
112
0.082
0.11
100.5
72
BREDD002
105543
112
113
0.037
0.24
73.1
97
BREDD002
105544
113
114
0.019
0.6
137.5
343
BREDD002
105545
114
115
0.025
0.29
79.9
81
BREDD002
105546
115
116
0.024
0.25
64.8
42
BREDD002
105547
116
117
0.099
0.21
103
115
BREDD002
105548
117
118
0.076
0.42
82.3
192
BREDD002
105549
118
119
0.086
0.25
83.2
101
BREDD002
105550
119
120
0.08
0.23
54.3
130
BREDD002
105551
119
120
0.093
0.21
53.8
108
BREDD002
105552
120
121
0.069
0.23
52
120
BREDD002
105553
121
122
0.069
0.31
76.9
94
BREDD002
105554
122
123
0.066
0.32
78.1
114
BREDD002
105555
123
124
0.048
0.34
61.8
140
BREDD002
105557
124
125
0.058
0.42
60.9
229
BREDD002
105558
125
126
0.071
0.23
54.5
129
BREDD002
105559
126
127
0.06
0.27
56.2
168
BREDD002
105560
127
128
0.044
0.1
33.6
216
BREDD002
105561
128
129
0.012
0.03
31.8
321
BREDD002
105562
129
130
0.011
0.04
42.5
108
BREDD002
105563
130
131
0.009
0.14
58.7
87
BREDD002
105564
131
132
0.003
0.07
45
91
BREDD002
105565
132
133
0.021
0.14
71.2
162
BREDD002
105566
133
134
0.018
0.08
53.3
99
BREDD002
105567
134
135
0.008
0.06
33.6
93
BREDD002
105568
135
136
0.006
0.08
32.8
65
BREDD002
105569
136
137
0.005
0.04
35
90
BREDD002
105570
137
138
0.019
0.06
51.2
118
BREDD002
105571
138
139
0.018
0.16
79.6
76
BREDD002
105572
139
140
0.016
0.09
43.9
106
BREDD002
105573
140
141
0.047
0.11
56.8
67
BREDD002
105574
141
142
0.006
0.06
38.5
88
BREDD002
105575
142
143
0.018
0.53
20.4
284
BREDD002
105576
143
144
<0.001
0.35
31.7
157
BREDD002
105577
144
145
0.002
0.05
32.4
48
BREDD002
105578
145
146
0.001
0.06
31.7
65
BREDD002
105579
146
147
0.002
0.31
30.8
58
BREDD002
105580
147
148
<0.001
0.13
25.5
164
BREDD002
105581
148
149
0.016
0.99
29.2
386
BREDD002
105582
149
150
0.013
0.14
55
57
BREDD002
105583
150
151
0.02
0.09
45.3
69
BREDD002
105584
151
152
0.051
0.14
48.1
92
BREDD002
105585
151
152
0.014
0.11
54.5
63
BREDD002
105586
152
153
0.015
0.1
35.5
91
BREDD002
105587
153
154
0.026
0.29
50.3
132
BREDD002
105588
154
155
0.011
0.11
45.6
78
BREDD002
105589
155
156
0.019
0.26
55.3
142
BREDD002
105590
156
157
0.392
1.9
53.3
89
BREDD002
105591
157
158
0.03
0.27
36.6
130
BREDD002
105592
158
159
0.007
0.18
40.2
143
BREDD002
105593
159
160
0.038
0.81
59.4
236
BREDD002
105594
160
161
0.007
0.13
45.1
109
BREDD002
105595
161
162
0.013
0.26
52.2
92
BREDD002
105596
162
163
0.073
0.21
49.5
73
BREDD002
105597
163
164
0.013
0.27
50.6
116
BREDD002
105598
164
165
0.024
0.17
51.4
141
BREDD002
105599
165
166
0.058
0.17
72.8
200
BREDD002
105600
166
167
0.025
0.24
54.3
227
BREDD002
105601
167
168
0.062
0.34
64.4
287
BREDD002
105602
168
169
0.341
12.1
60.4
759
BREDD002
105603
169
170
0.01
0.2
38.6
212
BREDD002
105604
170
171
0.03
0.07
27.7
82
BREDD002
105605
171
172
0.016
0.11
32.8
87
BREDD002
105606
172
173
0.016
0.1
34.5
83
BREDD002
105607
173
174
0.131
0.24
42.7
129
BREDD002
105608
174
175
0.025
0.15
37.7
91
BREDD002
105609
175
176
0.024
0.22
46.1
135
BREDD002
105610
176
177
0.023
0.28
60.1
149
BREDD002
105611
177
178
0.106
0.22
67.6
210
BREDD002
105612
178
179
0.049
0.41
54.4
270
BREDD002
105613
179
180
0.034
0.14
35.8
170
BREDD002
105614
179
180
0.042
0.14
43.6
216
BREDD002
105615
180
181
0.022
0.79
75.9
156
BREDD002
105616
181
182
0.054
0.18
74.9
262
BREDD002
105617
182
183
0.031
0.18
74.4
605
BREDD002
105618
183
184
0.109
0.14
68
533
BREDD002
105619
184
185
0.023
0.12
63.5
81
BREDD002
105620
185
186
0.03
0.24
77.1
170
BREDD002
105621
186
187
0.006
0.3
48.2
140
BREDD002
105622
187
188
0.066
0.1
51.2
95
BREDD002
105623
188
189
0.165
0.31
120
151
BREDD002
105624
189
190
0.033
0.12
86.3
118
BREDD002
105625
190
191
0.007
0.1
52.8
134
BREDD002
105626
191
192
0.043
0.08
61
107
BREDD002
105627
192
193
0.014
0.26
62.4
155
BREDD002
105628
193
194
0.117
0.17
79.5
167
BREDD002
105629
194
195
0.033
0.1
117
78
BREDD002
105631
195
196
0.044
0.12
60.8
64
BREDD002
105632
196
197
0.098
0.02
52.2
59
BREDD002
105633
197
198
0.019
0.04
35.1
278
BREDD002
105634
198
199
0.019
0.02
4.5
547
BREDD002
105635
199
200
0.084
0.08
2.5
833
BREDD002
105636
200
201
0.015
0.05
2.5
601
BREDD002
105637
201
202
0.042
0.06
4.2
687
BREDD002
105638
202
203
0.042
0.08
18.6
521
BREDD002
105639
203
204
0.225
0.11
10.8
403
BREDD002
105640
204
205
0.032
0.07
7.7
337
BREDD002
105641
205
206
0.017
0.05
31.5
323
BREDD002
105642
206
207
0.02
0.14
60.9
284
BREDD002
105643
206
207
0.02
0.12
55.3
285
BREDD002
105644
207
208
0.021
0.07
19.2
292
BREDD002
105645
208
209
0.023
0.02
1.7
195
BREDD002
105646
209
210
0.013
0.05
1
314
BREDD002
105647
210
211
0.022
0.06
4.1
370
BREDD002
105648
211
212
0.054
0.06
4.8
177
BREDD002
105649
212
213
0.086
0.07
14
146
BREDD002
105650
213
214
0.052
0.07
30.1
89
BREDD002
105651
214
215
0.256
0.11
24
84

expand table

collapse table