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To: LoneClone who wrote (179772)

6/25/2024 4:11:54 PM

From: LoneClone

Read Replies (1) | Respond to of 192834

Leviathan Gold, via Core Prospecting Pty Ltd. Receives High Grade Assay Results, from Initial Phase of Diamond Drilling at the Excelsior Prospect

ca.finance.yahoo.com

Leviathan Gold Ltd.
Tue, June 25, 2024 at 5:30 a.m. PDT·25 min read

LVXFF
+40.69%

Highlights include 4.85 meters at 9.0 g/t Au (43.66 gram meters) in hole EH014, 3.13 meters at 56.9 g/t Au (178.23 gram meters), in hole EH017 and 12.68 meters at 9.2 g/t Au, (116.85 gram meters), in hole EH029.
A total of 1964.65 meters of diamond drilling over 16 holes has been completed by Core Prospecting Pty Ltd.
Drilling identifies mineralized dilational zone opening to the northeast, remaining open along strike and depth.

VANCOUVER, British Columbia, June 25, 2024 (GLOBE NEWSWIRE) -- Leviathan Gold Ltd. (“Leviathan”, the “Company”) (LVX – TSXV, 0GP – Germany) is pleased to announce receipt of full assay results from an initial phase of diamond drilling completed at its Excelsior Prospect (“Excelsior”) pursuant to a Heads of Agreement entered into between Leviathan and Core Prospecting Pty Ltd (“Core”) on July 17, 2023 as subsequently amended on January 16, 2023 (“HOA”). The most prominent intervals among these results are presented in Table 1, and include 4.85 meters at 9.0 g/t Au (43.66 gram meters) in hole EH014, 3.13 meters at 56.9 g/t Au (178.23 gram meters), in hole EH017 and 12.68 meters at 9.2 g/t Au, (116.85 gram meters), in hole EH029. Additional drilling will be required to determine the true thickness of mineralization. Further pursuant to the HOA, Leviathan has received notification from Core of its intention to commence a second phase of diamond drilling at Excelsior. Accordingly, as a result of Core completing the initial phase of diamond drilling it has earned a 40% interest in in a New Tenement to be applied for by Leviathan, subject to the fulfilment of certain further conditions by Core.

A total of 1964.85 meters of diamond drilling over 16 holes has now been completed by Core in a series of generally parallel south-eastward and north-westward oriented fans of drill holes designed to test for continuations of known mineralization (Figure 1).

The purpose of the Core program was to drill beneath and along-structure from intervals previously reported by Leviathan from Excelsior, which include 8.24 g/t Au over 6.63 meters (54.63 gram meters), from 161.95 meters in hole EH003 (press release of April 21, 2021) and 5.40 g/t Au over 11.02 meters (59.51 gram meters), from 84.37 meters in hole EH005 (press release of April 26, 2021). These intervals are believed to represent the down-dip continuation of mineralization observed in historic mine workings, and are characterized by intense quartz veining, visible gold, and enveloping sericitic alteration and base metal sulphides.

Interpretative work on drilling completed to date suggests the presence of a north-eastward plunging mineralized dilational zone consisting of quartz reef and associated splays in which gold is hosted in quartz veins. It may be inferred from the results of drilling, most particularly from hole EH029 that this dilational zone opens to the northeast, in which regard it remains open along strike and depth. This feature will be the subject of further drill-testing.

Highlights of results to date are provided in Table 1, collar information in Table 2, and full results in Table 3.

Plan of drilling at the Excelsior Reef

Figure 1: Plan of drilling at the Excelsior Reef

Oblique section showing drilling and mineralized intervals at the Excelsior Reef

Figure 2: Oblique section showing drilling and mineralized intervals at the Excelsior Reef

Table 1: Significant intervals from drilling at the Excelsior Reef, current release

Drill Hole	From	To	Interval	Au	Au
Drill Hole	(m)	(m)	(m)	(g/t)	(gram meters)
EH014	94.71	99.56	4.85	9.00	43.66
EH014	120.65	122.87	2.22	3.15	6.99
EH014	143	149.22	6.22	3.00	18.65
EH017	121.42	124.55	3.13	56.91	178.13
EH017	130.8	132.85	2.05	4.62	9.45
EH017	148.8	154.8	6	3.50	20.99
EH017	173.65	177	3.35	3.18	10.64
EH029	130.58	143.26	12.68	9.22	116.85

Table 2: Collar data for drilling at the Excelsior Reef

Hole ID	Easting (MGA 2020 Z54)	Northing (MGA 2020 Z54)	Elevation (m)	Azimuth (°)	Inclination (°)	Depth (m)
EH014	726,205	5,899,560	235.8	150	-70	161.9
EH015	726,205	5,899,560	235.8	188	-65	140.9
EH016	726,205	5,899,560	235.8	133	-69	210
EH017	726,205	5,899,560	235.8	142	-75	184
EH018	726,180	5,899,400	239.8	334	-35	98
EH019	726,180	5,899,400	239.8	334	-51	149.7
EH020	726,180	5,899,400	239.8	334	-61	101.2
EH021	726,212	5,899,416	239.8	334	-36	74.45
EH022	726,212	5,899,416	239.8	336	-51	113.1
EH023	726,212	5,899,416	239.8	339	-62	110.8
EH024	726,223	5,899,438	239.8	331	-35	74.4
EH025	726,223	5,899,438	239.8	333	-52	39.8
EH026	726,223	5,899,438	239	332	-55	145
EH027	726,253	5,899,446	238.2	333	-36	110
EH028	726,253	5,899,446	238.2	334	-62	165
EH029	726,253	5,899,446	238.2	332	-64	155

*coordinates are in MGA2020 Z54, azimuths are referenced to grid north and inclinations are zero when horizontal and -90 when vertical true..

Excelsior lies within the Company’s Avoca Project in the Victorian Goldfields, Australia. As a preliminary component of the HOA Core, a private small-scale mining contractor based in Bendigo, earned an initial 40% interest in a New Tenement covering a three-square kilometre area within EL5387 to be applied for by Leviathan by completing, at its sole cost, 2,000 meters of diamond drilling including assays by April 17, 2024, subject to the fulfilment of certain further conditions by Core.

Leviathan Gold Chief Executive Officer, Luke Norman, remarked: “We are delighted by the success of Core Prospecting’s Phase 1 program at Excelsior, and the potential for depth and strike extensions to known high-grade mineralization returned by our own drilling that this now reveals. This campaign provides Leviathan with the opportunity to define a high-grade gold deposit of significance, of particular interest and relevance given the recent success of others in Victorian gold exploration. We thank Core for their considerable efforts to date and look forward to working with their highly skilled team as this program continues to evolve."

About the HOA

Under the terms of the HOA, Core may earn an initial 40% interest in a three square kilometre area within EL5387 (the Excelsior Area of Interest, or “AOI”) by completing, at Core’s sole cost and expense, 2,000 meters of diamond drilling including assays by April 17, 2024 (“Phase 1”), and a further 35% interest in the AOI for an additional 4,000 meters of diamond drilling including assays and preparing an independent JORC report (the “JORC Report”) identifying an Indicated and/or Measured Mineral Resource within 12 months from the end of Phase 1, each at Core’s sole cost and expense (“Phase 2”). In lieu of completing such further drilling, Core may instead prepare, at its sole cost and expense, a JORC report containing Indicated and/or Measured Mineral Resources of not less than 50,000 ounces of gold at a cut-off grade of 2.5g/t Au within the AOI. Upon fulfilment of certain conditions by Core, Leviathan shall on behalf of Core apply for a standalone tenure over the AOI, (the “New Tenement”). If Core fails to complete Phase 2 they shall forfeit any interest under Phase 1 and shall have no interest in the AOI.

Upon Core having attained a 75% equity interest in the AOI, Leviathan may either contribute its share of costs and maintain its equity interest or be diluted pro-rata to a minimum carried interest of 5%, which Core shall purchase from Leviathan for the sum of AUD$150 per ounce of Indicated and/or Measured Mineral Resources as estimated in the JORC Report, payable upon commencement of gold production. Alternatively, Core may, within 12 months of the completion of Phase 2, purchase Leviathan’s holding in the AOI for the sum of AUD$75 per ounce of Indicated and/or Measured Mineral Resources in the JORC Report, or Core may within 12 months of the completion of Phase 2 purchase Leviathan’s holding in the Excelsior AOI by paying instalments of AUD$25,000 per quarter, increasing to AUD$75,000 per quarter, commencing from the date on which a New Tenement is granted and continuing for the life of any gold production mine located within the area of the AOI.

The HOA also provides that Leviathan may, subject to Core first completing Phase 1, claw back Core’s equity stake in the AOI for the sum of AUD$500 per meter drilled, or after receipt of the JORC Report for AUD$150 per ounce of gold mineralisation estimated and classified as an Indicated Mineral Resource and/or a Measured Mineral Resource in the JORC Report.

About the Excelsior Prospect

The Excelsior prospect is interpreted to host structurally controlled gold mineralization developed within quartz veins. Historic production records from Excelsior indicate the mining of 13,200 tons for 9,260 ounces of gold down an ore shoot to a depth of 100 meters at an average recovered grade of 22 g/t Au between 1909 and 19151, with said mineralization open to depth and along strike. A total of 1,917 meters in 11 holes have been drilled at Excelsior by Leviathan to date.

Qualified Person and Data Verification

The technical content of this news release has been reviewed, verified and approved by Keith Whitehouse, MAusIMM (CP Geol), MAICD, Exploration Manager of Leviathan Gold (Australia) Pty. Ltd., a qualified person as defined by NI 43-101.

Drilling was carried out by Core using their equipment, and all core was drilled at NQ size. Average core recovery for the program was 96.6%. Drill core was cut in half by Core using a diamond saw, with one half of the core then taken as a sample for analysis. Samples were sawn along the bottom of hole orientation line, or if none present a consistent cutline as marked by the logging geologist. Sample intervals were generally between 10 and 150 centimetres, producing samples of between 0.27 to 4.0 kg. Samples were delivered to On Site Laboratory Services (Pty) Ltd (“On Site”), in Bendigo, Victoria. The samples were coarse crushed to P80 <2mm using industry standard Boyd crushers with a 1kg sub-sample being packed into standard containers for assay using a Chrysos Corporation Photon Assay analyser, lab method code PAAU02. Regular crush duplicates were generated and reported by the laboratory together with regular replicate results of the primary sample. Replicate results were provided for 100% of gold grades greater than 10 g/t and more than 85% of grades greater than 5 g/t. Core routinely inserted Photon Assay certified geochemical standards and blanks together with samples flagged for coarse crush duplicate-sampling into the drill core sample stream as part of a documented Quality Assurance/Quality Control (“QAQC”) process to monitor laboratory performance. During the drilling program QAQC material was inserted into every sample batch at the following average rates per primary sample: crush duplicates 1 in 30; basalt blanks 1 in 30; certified reference material 1 in 30. QAQC sampling was considered to provide acceptable results. Sample grades were checked against recovery percentage for potential bias; no discernible high- or low-grade bias was observed.

On behalf of the Company,

Luke Norman, Chief Executive Officer and Director

For further information please visit the Company website www.leviathangold.com or contact:

Adam Ross, Investor Relations,
Direct: (604) 229-9445
Toll Free: 1(833) 923-3334
Email: info@leviathangold.com

Neither the TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release. No securities regulatory authority has either approval or disapproved of the contents of this press release.

This news release does not constitute an offer to sell or a solicitation of an offer to buy 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 unless registered under the U.S. Securities Act and applicable state securities laws or an exemption from such registration is available.

Forward-Looking Statements

Information set forth in this news release contains forward-looking statements that are based on assumptions as of the date of this news release, including with respect to geological prospects of Leviathan’s mineral projects, planned exploration activities, success of exploration activities, the relevance of historical information, the continuation of mineralization, the relevance of comparable projects, the timing of exploration activities, general business and economic conditions; that applicable approvals are obtained; that qualified workers, financing, permits, approvals, and equipment are obtained in a timely manner; that market conditions continue; that contractual counterparties perform their obligations as required; and that Leviathan is able to locate sufficient financing for favourable ongoing operations. These statements reflect management's current estimates, beliefs, intentions and expectations. They are not guarantees of future performance. Leviathan cautions that all forward looking statements are inherently uncertain and that actual performance may be affected by many material factors, many of which are beyond Leviathan’s control. Such factors include, among other things: risks and uncertainties relating to whether exploration activities will result in commercially viable quantities of mineralized materials; the possibility of changes to project parameters as plans continue to be refined; the ability to execute planned exploration and future drilling programs;COVID-19; the ability to obtain qualified workers, financing, permits, approvals, and equipment in a timely manner or at all and on reasonable terms; changes in the commodity and securities markets; non-performance by contractual counterparties; and general business and economic conditions. Accordingly, actual and future events, conditions and results may differ materially from the estimates, beliefs, intentions and expectations expressed or implied in the forward-looking information. Although Leviathan has attempted to identify important risks and factors that could cause actual actions, events or results to differ materially from those described in forward-looking statements, there may be other factors and risks that cause actions, events or results not to be as anticipated, estimated or intended. Consequently, undue reliance should not be placed on such forward-looking statements. In addition, all forward-looking statements in this press release are given as of the date hereof. Leviathan disclaims any intention or obligation to update or revise any forward-looking statements, whether as a result of new information, future events or otherwise, save and except as may be required by applicable securities laws. The forward-looking statements contained herein are expressly qualified by this disclaimer.

Table 3: Full results by sample interval of drilling at the Excelsior Reef

Hole_ID	From (m)	To (m)	Interval (m)	Sample Type	SampleID	Au (g/t)
EH014	81.2	81.4	0.2	HC	CP1201	3.13
EH014	81.4	81.55	0.15	HC	CP1202	0.77
EH014	81.55	81.75	0.2	HC	CP1203	0.95
EH014	94.71	95.01	0.3	HC	CP1205	0.56
EH014	95.01	95.16	0.15	HC	CP1206	21.8
EH014	95.16	95.9	0.74	HC	CP1207	0.69
EH014	95.9	96.16	0.26	HC	CP1208	1.76
EH014	96.16	96.31	0.15	HC	CP1209	35.7
EH014	96.31	96.65	0.34	HC	CP1210	21.2
EH014	96.65	97.25	0.6	HC	CP1211	12.8
EH014	97.25	97.51	0.26	HC	CP1213	51.4
EH014	97.51	98	0.49	HC	CP1214	7.52
EH014	98	98.44	0.44	HC	CP1215	0.08
EH014	98.44	98.91	0.47	HC	CP1216	0.48
EH014	98.91	99.13	0.22	HC	CP1217	0.14
EH014	99.13	99.56	0.43	HC	CP1218	3.88
EH014	103.14	103.43	0.29	HC	CP1219	0.05
EH014	103.43	103.87	0.44	HC	CP1220	0.19
EH014	103.87	104.29	0.42	HC	CP1221	1.41
EH014	104.29	104.54	0.25	HC	CP1222	0.25
EH014	104.54	105.43	0.89	HC	CP1223	0.05
EH014	105.43	106.11	0.68	HC	CP1224	0.29
EH014	106.11	106.73	0.62	HC	CP1225	0.16
EH014	106.73	107.05	0.32	HC	CP1226	0.57
EH014	107.05	107.34	0.29	HC	CP1227	0.19
EH014	113.6	113.85	0.25	HC	CP1228	0.06
EH014	113.85	114.28	0.43	HC	CP1229	0.22
EH014	114.28	115	0.72	HC	CP1230	1.75
EH014	115	115.3	0.3	HC	CP1231	0.26
EH014	115.3	115.59	0.29	HC	CP1232	0.05
EH014	115.59	115.69	0.1	HC	CP1233	0.14
EH014	115.69	116	0.31	HC	CP1234	0.04
EH014	117.61	117.9	0.29	HC	CP1235	0.04
EH014	117.9	118.32	0.42	HC	CP1236	0.2
EH014	118.32	118.48	0.16	HC	CP1237	0.3
EH014	118.48	118.62	0.14	HC	CP1238	0.03
EH014	118.62	119.45	0.83	HC	CP1239	0.05
EH014	119.45	120	0.55	HC	CP1240	0.97
EH014	120	120.65	0.65	HC	CP1241	0.46
EH014	120.65	121.28	0.63	HC	CP1242	1.82
EH014	121.28	122	0.72	HC	CP1243	0.05
EH014	122	122.52	0.52	HC	CP1244	0.13
EH014	122.52	122.87	0.35	HC	CP1245	16.4
EH014	122.87	123.37	0.5	HC	CP1246	0.05
EH014	123.37	123.79	0.42	HC	CP1247	0.8
EH014	123.79	124.47	0.68	HC	CP1248	0.23
EH014	124.47	124.71	0.24	HC	CP1249	0.31
EH014	124.71	125.15	0.44	HC	CP1250	0.23
EH014	125.15	125.81	0.66	HC	CP1251	1.08
EH014	125.81	126.69	0.88	HC	CP1252	0.03
EH014	126.69	127.53	0.84	HC	CP1253	0.12
EH014	127.53	128.14	0.61	HC	CP1254	0.88
EH014	128.14	128.45	0.31	HC	CP1255	0.52
EH014	128.45	129	0.55	HC	CP1256	0.13
EH014	129	129.88	0.88	HC	CP1257	0.47
EH014	129.88	130.5	0.62	HC	CP1258	0.39
EH014	130.5	130.75	0.25	HC	CP1259	0.69
EH014	130.75	131.83	1.08	HC	CP1260	1.87
EH014	131.83	132.14	0.31	HC	CP1261	0.03
EH014	132.14	132.74	0.6	HC	CP1263	0.04
EH014	132.74	133.44	0.7	HC	CP1264	0.6
EH014	133.44	133.88	0.44	HC	CP1265	0.58
EH014	133.88	134.17	0.29	HC	CP1266	0.08
EH014	134.17	134.65	0.48	HC	CP1267	0.05
EH014	134.65	135.04	0.39	HC	CP1268	1.33
EH014	135.04	135.36	0.32	HC	CP1269	1.95
EH014	135.36	135.56	0.2	HC	CP1270	13.1
EH014	135.56	136	0.44	HC	CP1272	0.2
EH014	136	136.21	0.21	HC	CP1273	0.04
EH014	136.21	136.91	0.7	HC	CP1274	0.04
EH014	136.91	137.6	0.69	HC	CP1275	0.04
EH014	137.6	138	0.4	HC	CP1276	3.93
EH014	138	139	1	HC	CP1277	0.05
EH014	139	139.6	0.6	HC	CP1278	0.6
EH014	139.6	140.09	0.49	HC	CP1279	0.51
EH014	140.09	140.32	0.23	HC	CP1280	0.64
EH014	140.32	141	0.68	HC	CP1281	0.18
EH014	141	142	1	HC	CP1282	0.05
EH014	142	143	1	HC	CP1283	0.32
EH014	143	143.35	0.35	HC	CP1284	0.79
EH014	143.35	143.7	0.35	HC	CP1285	1.33
EH014	143.7	144.04	0.34	HC	CP1286	0.05
EH014	144.04	144.31	0.27	HC	CP1287	11.2
EH014	144.31	144.69	0.38	HC	CP1288	0.54
EH014	144.69	145	0.31	HC	CP1289	9.88
EH014	145	145.31	0.31	HC	CP1290	0.02
EH014	145.31	145.5	0.19	HC	CP1291	31.7
EH014	145.5	145.67	0.17	HC	CP1292	0.01
EH014	145.67	145.86	0.19	HC	CP1293	3.4
EH014	145.86	146.5	0.64	HC	CP1294	0.15
EH014	146.5	147.12	0.62	HC	CP1295	3.97
EH014	147.12	147.5	0.38	HC	CP1296	0.27
EH014	147.5	148	0.5	HC	CP1297	0.2
EH014	148	148.18	0.18	HC	CP1298	2.7
EH014	148.18	148.38	0.2	HC	CP1300	2.91
EH014	148.38	149.22	0.84	HC	CP1301	1.31
EH014	149.22	149.53	0.31	HC	CP1302	0.25
EH014	149.53	150	0.47	HC	CP1303	0.23
EH014	150	151	1	HC	CP1304	0.05
EH014	151	152	1	HC	CP1305	0.04
EH014	152	153	1	HC	CP1306	0.04
EH014	153	154	1	HC	CP1307	0.04
EH014	154	155	1	HC	CP1308	0.04
EH014	155	155.31	0.31	HC	CP1309	0.11
EH014	155.31	155.58	0.27	HC	CP1310	6.57
EH014	155.58	155.79	0.21	HC	CP1312	9.67
EH014	155.79	156.1	0.31	HC	CP1313	0.04
EH015	89	89.3	0.3	HC	CP1353	0.2
EH015	89.3	90	0.7	HC	CP1354	0.15
EH015	90	90.5	0.5	HC	CP1355	0.12
EH015	90.5	91.3	0.8	HC	CP1356	0.27
EH015	91.3	92.35	1.05	HC	CP1357	0.3
EH015	92.35	93.75	1.4	HC	CP1358	0.19
EH015	93.75	94.15	0.4	HC	CP1359	0.25
EH015	94.15	95.2	1.05	HC	CP1360	0.05
EH015	95.2	95.5	0.3	HC	CP1361	0.04
EH015	101	101.3	0.3	HC	CP1362	0.05
EH015	101.3	101.6	0.3	HC	CP1363	0.1
EH015	101.6	102.6	1	HC	CP1364	0.04
EH015	102.6	103.55	0.95	HC	CP1365	0.04
EH015	103.55	104	0.45	HC	CP1366	0.05
EH015	113.7	114	0.3	HC	CP1367	0.04
EH015	114	114.2	0.2	HC	CP1368	0.04
EH015	114.2	114.6	0.4	HC	CP1369	0.05
EH015	114.6	115	0.4	HC	CP1370	0.04
EH015	115	115.85	0.85	HC	CP1371	0.05
EH015	115.85	116.3	0.45	HC	CP1372	0.05
EH015	116.3	117.1	0.8	HC	CP1373	0.12
EH015	117.1	117.3	0.2	HC	CP1374	0.04
EH015	117.3	117.45	0.15	HC	CP1375	0.1
EH015	117.45	117.75	0.3	HC	CP1376	0.04
EH015	120.65	120.9	0.25	HC	CP1378	0.04
EH015	120.9	121.65	0.75	HC	CP1379	0.04
EH015	121.65	122.25	0.6	HC	CP1380	0.04
EH015	122.25	122.75	0.5	HC	CP1381	0.05
EH015	122.75	123.05	0.3	HC	CP1382	0.04
EH015	127	127.45	0.45	HC	CP1384	0.04
EH015	127.45	128.2	0.75	HC	CP1385	0.04
EH015	128.2	128.9	0.7	HC	CP1386	0.04
EH015	128.9	129.2	0.3	HC	CP1387	0.04
EH016	61.3	61.6	0.3	HC	CP1388	0.05
EH016	61.6	61.9	0.3	HC	CP1389	0.03
EH016	61.9	62.45	0.55	HC	CP1390	0.05
EH016	62.45	63.2	0.75	HC	CP1391	0.04
EH016	63.2	64.3	1.1	HC	CP1392	0.05
EH016	64.3	65.3	1	HC	CP1393	0.03
EH016	65.3	65.6	0.3	HC	CP1394	0.05
EH016	103.75	103.9	0.15	HC	CP1395	0.035
EH016	103.9	104.4	0.5	HC	CP1396	0.035
EH016	104.4	104.6	0.2	HC	CP1397	0.04
EH016	113.6	113.8	0.2	HC	CP1398	0.035
EH016	139.6	139.8	0.2	HC	CP1399	0.04
EH016	139.8	140.8	1	HC	CP1400	0.85
EH016	140.8	141.8	1	HC	CP1401	0.12
EH016	141.8	142.8	1	HC	CP1402	0.04
EH016	142.8	143.8	1	HC	CP1403	0.04
EH016	143.8	144.8	1	HC	CP1404	0.04
EH016	144.8	145.8	1	HC	CP1407	0.31
EH016	145.8	146.8	1	HC	CP1408	0.035
EH016	146.8	147.8	1	HC	CP1409	1.57
EH016	147.8	148.45	0.65	HC	CP1410	0.25
EH016	148.45	148.8	0.35	HC	CP1411	0.09
EH016	163.8	164	0.2	HC	CP1412	0.04
EH016	164	165	1	HC	CP1413	0.035
EH016	165	166	1	HC	CP1414	0.035
EH016	166	167	1	HC	CP1415	0.12
EH016	167	168.1	1.1	HC	CP1416	0.035
EH016	168.1	169.1	1	HC	CP1417	0.035
EH016	169.1	170.2	1.1	HC	CP1418	0.035
EH016	170.2	170.4	0.2	HC	CP1419	0.035
EH017	104.5	105	0.5	HC	CP1420	0.12
EH017	105	106	1	HC	CP1421	0.14
EH017	106	106.85	0.85	HC	CP1422	0.02
EH017	106.85	107.15	0.3	HC	CP1423	0.02
EH017	107.15	107.5	0.35	HC	CP1424	0.05
EH017	114.7	115.03	0.33	HC	CP1425	0.03
EH017	115.03	115.3	0.27	HC	CP1426	0.07
EH017	115.3	115.6	0.3	HC	CP1427	0.03
EH017	120	121	1	HC	CP1428	0.49
EH017	121	121.42	0.42	HC	CP1429	0.21
EH017	121.42	122.12	0.7	HC	CP1430	249
EH017	122.12	123	0.88	HC	CP1433	2.93
EH017	123	123.55	0.55	HC	CP1434	0.54
EH017	123.55	124.55	1	HC	CP1435	0.95
EH017	124.55	125	0.45	HC	CP1436	0.05
EH017	130	130.6	0.6	HC	CP1437	0.2
EH017	130.6	130.8	0.2	HC	CP1438	0.03
EH017	130.8	131.92	1.12	HC	CP1439	3.94
EH017	131.92	132.85	0.93	HC	CP1440	5.43
EH017	132.85	134	1.15	HC	CP1441	0.04
EH017	134	135	1	HC	CP1442	0.09
EH017	135	135.82	0.82	HC	CP1443	0.04
EH017	135.82	136.25	0.43	HC	CP1444	0.03
EH017	136.25	136.55	0.3	HC	CP1445	0.04
EH017	148.8	149.7	0.9	HC	CP1446	2.5
EH017	149.7	150.2	0.5	HC	CP1447	2.49
EH017	150.2	150.45	0.25	HC	CP1448	5.54
EH017	150.45	150.75	0.3	HC	CP1449	34.6
EH017	150.75	151.31	0.56	HC	CP1451	0.48
EH017	151.31	152.4	1.09	HC	CP1452	0.44
EH017	152.4	153.45	1.05	HC	CP1453	2.9
EH017	153.45	154.25	0.8	HC	CP1454	0.91
EH017	154.25	154.8	0.55	HC	CP1455	2.2
EH017	154.8	155.8	1	HC	CP1456	0.42
EH017	155.8	156.3	0.5	HC	CP1457	0.04
EH017	163.79	164.93	1.14	HC	CP1458	0.04
EH017	164.93	165.95	1.02	HC	CP1459	0.04
EH017	165.95	166.77	0.82	HC	CP1460	0.21
EH017	166.77	167.8	1.03	HC	CP1461	0.08
EH017	167.8	168.4	0.6	HC	CP1462	3.26
EH017	168.4	168.75	0.35	HC	CP1463	0.35
EH017	168.75	169.73	0.98	HC	CP1464	0.04
EH017	169.73	170.25	0.52	HC	CP1465	0.03
EH017	170.25	171	0.75	HC	CP1466	0.04
EH017	171	171.84	0.84	HC	CP1467	0.35
EH017	171.84	172.83	0.99	HC	CP1468	1.74
EH017	172.83	173.65	0.82	HC	CP1469	0.06
EH017	173.65	174.19	0.54	HC	CP1471	1.69
EH017	174.19	175.38	1.19	HC	CP1472	0.76
EH017	175.38	176.3	0.92	HC	CP1473	2.82
EH017	176.3	177	0.7	HC	CP1474	8.9
EH017	177	178.2	1.2	HC	CP1475	0.36
EH017	178.2	178.62	0.42	HC	CP1476	0.04
EH018	41	41.33	0.33	HC	CP1493	0.04
EH018	41.33	41.53	0.2	HC	CP1494	0.035
EH018	41.53	41.8	0.27	HC	CP1495	0.04
EH018	67.2	67.8	0.6	HC	CP1478	0.63
EH018	67.8	68.8	1	HC	CP1479	0.74
EH018	68.8	69.31	0.51	HC	CP1480	0.04
EH018	69.31	69.87	0.56	HC	CP1481	0.39
EH018	69.87	70.23	0.36	HC	CP1482	0.09
EH018	70.23	70.62	0.39	HC	CP1483	0.15
EH018	82	82.5	0.5	HC	CP1484	0.03
EH018	82.5	83.45	0.95	HC	CP1485	0.03
EH018	83.45	84.35	0.9	HC	CP1486	0.03
EH018	84.35	85.36	1.01	HC	CP1487	0.04
EH018	85.36	86.3	0.94	HC	CP1488	0.04
EH018	86.3	86.66	0.36	HC	CP1490	0.04
EH018	86.66	87.15	0.49	HC	CP1492	0.04
EH019	99	99.28	0.28	HC	CP1496	0.04
EH019	99.28	99.63	0.35	HC	CP1497	0.15
EH019	99.63	100.3	0.67	HC	CP1498	1.27
EH019	100.3	101.5	1.2	HC	CP1499	0.34
EH019	101.5	102.5	1	HC	CP1500	0.04
EH019	102.5	103.05	0.55	HC	CP1501	0.43
EH019	103.05	104.1	1.05	HC	CP1502	0.32
EH019	104.1	105.2	1.1	HC	CP1503	0.18
EH019	105.2	106	0.8	HC	CP1504	0.04
EH019	106	106.3	0.3	HC	CP1505	0.04
EH019	106.3	107.5	1.2	HC	CP1506	0.04
EH019	107.5	108	0.5	HC	CP1507	0.03
EH019	144.5	145	0.5	HC	CP1508	0.04
EH019	145	145.25	0.25	HC	CP1509	0.03
EH019	145.25	146.15	0.9	HC	CP1511	0.04
EH019	146.15	146.4	0.25	HC	CP1512	0.04
EH019	146.4	147	0.6	HC	CP1513	0.04
EH020	0	12.7	12.7	HC	CP1515	0.035
EH020	12.7	13.1	0.4	HC	CP1516	0.02
EH020	13.1	13.6	0.5	HC	CP1517	0.05
EH020	29.6	29.95	0.35	HC	CP1518	0.04
EH020	29.95	30.5	0.55	HC	CP1519	0.16
EH020	30.5	31	0.5	HC	CP1520	0.04
EH020	59.25	59.52	0.27	HC	CP1521	0.04
EH020	59.52	60.17	0.65	HC	CP1522	0.035
EH020	60.17	60.53	0.36	HC	CP1523	0.035
EH020	60.53	61.07	0.54	HC	CP1524	0.035
EH020	61.07	61.33	0.26	HC	CP1525	0.035
EH020	61.33	61.59	0.26	HC	CP1526	0.03
EH020	83.7	84	0.3	HC	CP1527	0.035
EH020	84	84.36	0.36	HC	CP1528	0.03
EH020	84.36	85.55	1.19	HC	CP1529	0.035
EH020	85.55	86.08	0.53	HC	CP1531	0.035
EH020	86.08	86.56	0.48	HC	CP1532	0.035
EH020	86.56	87.02	0.46	HC	CP1533	0.035
EH020	99.17	99.56	0.39	HC	CP1534	0.035
EH020	99.56	99.97	0.41	HC	CP1535	0.035
EH020	99.97	100.5	0.53	HC	CP1536	0.04
EH021	5.9	7.7	1.8	HC	CP1537	0.04
EH021	7.7	8.9	1.2	HC	CP1538	0.035
EH021	8.9	10.4	1.5	HC	CP1539	0.035
EH021	10.4	11.9	1.5	HC	CP1540	0.04
EH021	11.9	13.4	1.5	HC	CP1541	0.04
EH021	13.4	14.9	1.5	HC	CP1542	0.04
EH021	14.9	16.7	1.8	HC	CP1543	0.04
EH021	16.7	17.9	1.2	HC	CP1544	0.035
EH021	17.9	20.9	3	HC	CP1545	0.04
EH021	20.9	22.4	1.5	HC	CP1546	0.03
EH021	22.4	23.9	1.5	HC	CP1547	0.04
EH021	32.9	34.3	1.4	HC	CP1549	0.25
EH021	34.3	34.7	0.4	HC	CP1550	1.05
EH021	34.7	35.9	1.2	HC	CP1551	0.04
EH021	44.2	44.9	0.7	HC	CP1552	0.71
EH021	44.9	47.9	3	HC	CP1553	0.46
EH021	47.9	48.4	0.5	HC	CP1554	0.13
EH021	48.4	49.1	0.7	HC	CP1555	0.25
EH021	49.8	51.4	1.6	HC	CP1556	1.31
EH021	51.4	52.6	1.2	HC	CP1557	0.55
EH021	52.6	53.9	1.3	HC	CP1558	1.07
EH021	53.9	54.9	1	HC	CP1559	3.56
EH021	54.9	56.9	2	HC	CP1560	0.1
EH021	56.9	57.6	0.7	HC	CP1561	0.4
EH021	57.6	59.9	2.3	HC	CP1562	0.77
EH021	59.9	61.1	1.2	HC	CP1563	1.46
EH021	61.1	62.9	1.8	HC	CP1564	0.29
EH021	62.9	63.9	1	HC	CP1565	0.78
EH021	63.9	65.9	2	HC	CP1567	2.71
EH021	65.9	66.3	0.4	HC	CP1568	0.29
EH021	66.3	66.6	0.3	HC	CP1569	0.12
EH021	66.6	67.3	0.7	HC	CP1571	0.23
EH021	67.3	68.1	0.8	HC	CP1572	0.79
EH021	68.1	68.9	0.8	HC	CP1573	1.78
EH021	68.9	70.5	1.6	HC	CP1574	0.96
EH021	70.5	71.3	0.8	HC	CP1575	0.5
EH021	71.3	71.4	0.1	HC	CP1576	0.07
EH022	55.8	56.2	0.4	HC	CP1577	0.34
EH022	56.2	56.7	0.5	HC	CP1578	1.99
EH022	56.7	57	0.3	HC	CP1579	0.3
EH022	68.5	69.5	1	HC	CP1580	0.045
EH022	69.5	70.35	0.85	HC	CP1581	0.15
EH022	70.35	70.8	0.45	HC	CP1582	0.5
EH022	70.8	71	0.2	HC	CP1583	0.14
EH022	84	84.2	0.2	HC	CP1585	0.05
EH022	84.2	84.6	0.4	HC	CP1586	0.04
EH022	84.6	85.35	0.75	HC	CP1587	0.04
EH022	85.35	85.65	0.3	HC	CP1588	1.62
EH022	85.65	86	0.35	HC	CP1589	0.04
EH022	95	95.3	0.3	HC	CP1590	0.04
EH022	95.3	96.1	0.8	HC	CP1591	0.035
EH022	96.1	97	0.9	HC	CP1592	0.16
EH022	97	97.5	0.5	HC	CP1593	0.19
EH022	106.2	106.35	0.15	HC	CP1595	0.04
EH022	106.35	107.2	0.85	HC	CP1596	0.03
EH022	107.2	107.5	0.3	HC	CP1597	0.04
EH023	61.1	61.4	0.3	HC	CP1598	0.15
EH023	61.4	62.5	1.1	HC	CP1599	0.39
EH023	62.5	62.8	0.3	HC	CP1600	0.26
EH023	76.2	76.4	0.2	HC	CP1601	0.04
EH023	76.4	76.72	0.32	HC	CP1602	0.1
EH023	76.72	77.5	0.78	HC	CP1603	0.035
EH023	77.5	80.45	2.95	HC	CP1604	0.1
EH023	80.45	81.15	0.7	HC	CP1605	0.035
EH023	81.15	81.45	0.3	HC	CP1606	0.035
EH023	83.05	83.25	0.2	HC	CP1607	0.04
EH023	83.25	83.5	0.25	HC	CP1608	0.41
EH023	83.5	84.1	0.6	HC	CP1609	0.04
EH023	84.1	84.8	0.7	HC	CP1610	2.45
EH023	84.8	85.3	0.5	HC	CP1611	0.04
EH023	85.3	86.25	0.95	HC	CP1612	0.19
EH023	86.25	87.5	1.25	HC	CP1613	0.11
EH023	87.5	88.9	1.4	HC	CP1615	0.19
EH023	88.9	89.9	1	HC	CP1616	0.39
EH023	89.9	90.35	0.45	HC	CP1617	0.15
EH023	90.35	91.55	1.2	HC	CP1618	0.24
EH023	91.55	92.25	0.7	HC	CP1619	2.09
EH023	92.25	92.75	0.5	HC	CP1620	0.12
EH023	92.75	94	1.25	HC	CP1621	0.1
EH023	94	94.2	0.2	HC	CP1622	0.03
EH023	94.2	95.8	1.6	HC	CP1623	0.04
EH023	95.8	96.7	0.9	HC	CP1624	0.04
EH023	96.7	97	0.3	HC	CP1625	0.1
EH023	97	97.2	0.2	HC	CP1626	0.035
EH023	101.5	101.7	0.2	HC	CP1627	0.045
EH023	101.7	102.8	1.1	HC	CP1628	0.07
EH023	102.8	103	0.2	HC	CP1630	0.045
EH024	0	1.4	1.4	Soil	CP1631	0.31
EH024	3.9	4.15	0.25	WC	CP1632	0.25
EH024	4.15	5.1	0.95	HC	CP1633	0.13
EH024	5.1	5.6	0.5	HC	CP1634	0.12
EH024	5.6	7	1.4	HC	CP1635	0.12
EH024	7	8.1	1.1	HC	CP1636	0.57
EH024	18.1	18.35	0.25	HC	CP1637	0.08
EH024	18.35	18.9	0.55	HC	CP1638	0.03
EH024	18.9	19.6	0.7	HC	CP1639	0.12
EH024	19.6	20.5	0.9	HC	CP1640	0.035
EH024	20.5	21	0.5	HC	CP1641	0.19
EH024	30.9	31.2	0.3	HC	CP1642	0.05
EH024	31.2	31.9	0.7	HC	CP1643	0.12
EH024	32.4	32.9	0.5	HC	CP1644	0.1
EH024	32.9	33.9	1	HC	CP1645	0.22
EH024	33.9	34.4	0.5	HC	CP1646	0.18
EH024	34.4	34.5	0.1	HC	CP1647	0.35
EH024	45.3	45.7	0.4	HC	CP1648	0.39
EH024	45.7	46.75	1.05	HC	CP1649	2
EH024	46.75	46.9	0.15	HC	CP1650	0.37
EH025	1.3	1.5	0.2	WC	CP1653	0.91
EH025	1.5	2.6	1.1	WC	CP1654	0.14
EH025	2.6	3.1	0.5	WC	CP1655	0.29
EH025	3.1	3.85	0.75	WC	CP1656	7
EH025	3.85	4.8	0.95	WC	CP1657	0.27
EH025	4.8	5.8	1	WC	CP1658	0.04
EH025	5.8	6.8	1	WC	CP1659	0.04
EH025	6.8	7.1	0.3	WC	CP1660	0.035
EH025	28.95	29.25	0.3	WC	CP1662	0.11
EH025	29.25	29.9	0.65	WC	CP1663	1.41
EH025	30.1	30.5	0.4	WC	CP1664	0.99
EH025	30.5	31.1	0.6	WC	CP1665	0.12
EH026	57.4	57.7	0.3	WC	CP1667	0.12
EH026	57.7	58.5	0.8	WC	CP1668	0.45
EH026	58.5	59.6	1.1	WC	CP1669	0.08
EH026	59.6	60.15	0.55	WC	CP1670	0.14
EH026	60.15	60.7	0.55	WC	CP1671	0.08
EH026	60.7	61	0.3	WC	CP1672	0.04
EH026	70.45	70.65	0.2	HC	CP1673	0.14
EH026	70.65	71.2	0.55	HC	CP1674	0.18
EH026	71.2	71.5	0.3	HC	CP1675	2.15
EH026	71.5	71.8	0.3	HC	CP1676	0.045
EH026	75.9	76.2	0.3	HC	CP1678	0.035
EH026	76.2	76.65	0.45	HC	CP1679	0.04
EH026	76.65	77.1	0.45	HC	CP1680	0.07
EH026	77.1	77.85	0.75	HC	CP1681	0.04
EH026	77.85	78.7	0.85	HC	CP1682	0.035
EH026	78.7	79.8	1.1	HC	CP1683	0.11
EH026	79.8	80.15	0.35	HC	CP1684	0.035
EH026	85.1	85.4	0.3	HC	CP1685	0.045
EH026	85.4	86	0.6	HC	CP1686	2.81
EH026	86	86.5	0.5	HC	CP1687	0.04
EH026	86.5	87.2	0.7	HC	CP1688	0.17
EH026	87.2	88.4	1.2	HC	CP1689	0.04
EH026	88.4	89	0.6	HC	CP1690	0.035
EH026	89	90.2	1.2	HC	CP1691	0.11
EH026	90.2	91.35	1.15	HC	CP1692	1.02
EH026	91.35	92.15	0.8	HC	CP1693	0.04
EH026	92.15	93.15	1	HC	CP1694	0.04
EH026	93.15	93.95	0.8	HC	CP1695	0.88
EH026	93.95	95.05	1.1	HC	CP1696	0.37
EH026	95.05	95.64	0.59	HC	CP1697	0.12
EH026	95.64	95.85	0.21	HC	CP1698	2.1
EH026	95.85	96.15	0.3	HC	CP1700	0.04
EH026	96.15	96.45	0.3	HC	CP1701	0.035
EH026	102.27	102.57	0.3	HC	CP1702	0.1
EH026	102.57	102.9	0.33	HC	CP1703	0.19
EH026	102.9	103.85	0.95	HC	CP1704	0.32
EH026	103.85	104.45	0.6	HC	CP1705	0.13
EH026	104.45	105.4	0.95	HC	CP1706	3.6
EH026	105.4	106	0.6	HC	CP1707	0.27
EH027	17	17.2	0.2	WC	CP1708	0.03
EH027	17.2	17.8	0.6	WC	CP1709	0.28
EH027	17.8	18.35	0.55	WC	CP1710	0.03
EH027	18.35	19.2	0.85	WC	CP1711	0.13
EH027	20.4	21.75	1.35	HC	CP1712	0.035
EH027	21.75	22	0.25	HC	CP1713	0.11
EH027	22	22.7	0.3	HC	CP1714	0.035
EH027	22.7	22.9	0.2	HC	CP1715	0.04
EH027	57.3	57.7	0.4	WC	CP1723	0.03
EH027	57.7	57.9	0.2	WC	CP1724	0.25
EH027	57.9	58.3	0.4	WC	CP1725	0.17
EH027	58.3	58.8	0.5	WC	CP1726	0.035
EH027	58.8	59.2	0.4	WC	CP1727	0.14
EH027	59.2	59.4	0.2	WC	CP1728	0.03
EH027	77.4	77.6	0.2	HC	CP1729	0.035
EH027	77.6	77.8	0.2	HC	CP1730	0.025
EH027	77.8	78.2	0.4	HC	CP1731	0.03
EH027	78.2	78.6	0.4	HC	CP1732	0.035
EH027	78.6	79.1	0.5	HC	CP1733	0.07
EH027	79.1	79.5	0.4	HC	CP1734	0.07
EH027	79.5	79.7	0.2	HC	CP1735	0.03
EH027	86.5	97	10.5	HC	CP1741	0.11
EH027	90.6	91	0.4	HC	CP1736	0.03
EH027	91	91.4	0.4	HC	CP1737	0.025
EH027	91.4	91.8	0.4	HC	CP1738	0.035
EH027	91.8	92.2	0.4	HC	CP1739	0.18
EH027	93.3	93.9	0.6	HC	CP1740	0.035
EH027	104.2	104.5	0.3	HC	CP1743	0.04
EH027	104.5	105	0.5	HC	CP1744	0.025
EH027	105	105.2	0.2	HC	CP1745	0.025
EH027	105.2	105.6	0.4	HC	CP1746	0.04
EH027	105.6	106	0.4	HC	CP1747	0.03
EH027	106	106.2	0.2	HC	CP1748	0.48
EH027	108	108.3	0.3	HC	CP1750	0.24
EH027	108.3	108.8	0.5	HC	CP1751	3.39
EH028	69	69.3	0.3	HC	CP1752	4.11
EH028	69.3	69.7	0.4	HC	CP1753	0.035
EH028	69.7	70.2	0.5	HC	CP1754	0.09
EH028	71.8	72	0.2	HC	CP1755	0.08
EH028	72	72.3	0.3	HC	CP1756	0.03
EH028	72.3	72.6	0.3	HC	CP1757	0.035
EH028	72.6	72.8	0.2	HC	CP1758	0.07
EH028	72.8	73	0.2	HC	CP1759	0.03
EH028	73	73.3	0.3	HC	CP1760	0.17
EH028	73.3	73.7	0.4	HC	CP1761	0.09
EH028	73.7	74.2	0.5	HC	CP1762	0.08
EH028	74.2	74.5	0.3	HC	CP1763	0.03
EH028	74.5	74.8	0.3	HC	CP1764	0.03
EH028	74.8	75.3	0.5	HC	CP1765	0.03
EH028	75.3	75.7	0.4	HC	CP1766	0.07
EH028	75.7	76.4	0.7	HC	CP1767	0.035
EH028	76.4	77.1	0.7	HC	CP1768	1.32
EH028	77.1	77.8	0.7	HC	CP1769	0.03
EH028	77.8	78.4	0.6	HC	CP1770	0.03
EH028	78.4	79	0.6	HC	CP1771	0.03
EH028	79	79.5	0.5	HC	CP1772	0.09
EH028	79.5	79.8	0.3	HC	CP1773	0.03
EH028	79.8	80.4	0.6	HC	CP1774	0.1
EH028	80.4	80.8	0.4	HC	CP1775	0.29
EH028	80.8	81.3	0.5	HC	CP1776	0.19
EH028	81.3	81.6	0.3	HC	CP1777	0.03
EH028	101.9	102.5	0.6	HC	CP1778	0.035
EH028	102.5	102.7	0.2	HC	CP1779	8.79
EH028	102.7	103.3	0.6	HC	CP1780	0.035
EH028	103.3	103.7	0.4	HC	CP1781	0.13
EH028	103.7	104.1	0.4	HC	CP1782	0.11
EH028	104.1	104.5	0.4	HC	CP1783	0.03
EH028	108.4	108.9	0.5	HC	CP1784	0.03
EH028	108.9	109.3	0.4	HC	CP1785	0.03
EH028	109.3	109.9	0.6	HC	CP1786	0.09
EH028	109.9	110.1	0.2	HC	CP1787	0.65
EH028	110.1	110.4	0.3	HC	CP1788	0.11
EH028	110.4	110.7	0.3	HC	CP1789	0.33
EH028	110.7	110.9	0.2	HC	CP1790	0.12
EH028	110.9	111.6	0.7	HC	CP1791	0.15
EH028	111.6	112.4	0.8	HC	CP1792	0.13
EH028	112.4	113.1	0.7	HC	CP1793	0.03
EH028	113.1	113.4	0.3	HC	CP1794	0.03
EH028	113.4	114.2	0.8	HC	CP1795	0.03
EH028	114.2	115	0.8	HC	CP1796	0.03
EH028	115	115.2	0.2	HC	CP1797	0.025
EH028	125.8	126.3	0.5	HC	CP1798	0.035
EH028	126.3	126.7	0.4	HC	CP1799	0.6
EH028	126.7	127.6	0.9	HC	CP1800	0.12
EH028	127.6	128.2	0.6	HC	CP1801	0.035
EH028	128.2	128.8	0.6	HC	CP1802	4.25
EH028	128.8	129.3	0.5	HC	CP1803	0.27
EH028	129.3	129.9	0.6	HC	CP1804	1.42
EH028	129.9	130.7	0.8	HC	CP1805	0.27
EH028	130.7	131	0.3	HC	CP1806	0.03
EH028	133.2	133.6	0.4	HC	CP1808	0.57
EH028	133.6	134.3	0.7	HC	CP1809	1.09
EH028	134.3	134.9	0.6	HC	CP1810	2.51
EH028	134.9	135.7	0.8	HC	CP1812	0.24
EH029	125.65	126.2	0.55	HC	CP1813	0.03
EH029	126.2	127.05	0.85	HC	CP1814	0.4
EH029	127.05	128	0.95	HC	CP1815	0.16
EH029	128	129	1	HC	CP1816	0.03
EH029	129	129.6	0.6	HC	CP1817	0.15
EH029	129.6	130.58	0.98	HC	CP1818	0.14
EH029	130.58	131.74	1.16	HC	CP1819	26.1
EH029	131.74	132.82	1.08	HC	CP1820	0.03
EH029	132.82	133.33	0.51	HC	CP1821	0.09
EH029	133.33	134.13	0.8	HC	CP1822	0.03
EH029	134.13	135.33	1.2	HC	CP1823	10.4
EH029	135.33	135.75	0.42	HC	CP1824	0.12
EH029	135.75	136.5	0.75	HC	CP1825	0.21
EH029	136.5	137	0.5	HC	CP1826	4.23
EH029	137	137.45	0.45	HC	CP1827	21.8
EH029	137.45	138.15	0.7	HC	CP1829	65.9
EH029	138.15	138.7	0.55	HC	CP1830	1.86
EH029	138.7	139	0.3	HC	CP1831	4.92
EH029	139	139.7	0.7	HC	CP1833	8.57
EH029	139.7	140.42	0.72	HC	CP1834	0.01
EH029	140.42	141	0.58	HC	CP1835	1.29
EH029	141	141.4	0.4	HC	CP1836	4.28
EH029	141.4	141.82	0.42	HC	CP1837	9.45
EH029	141.82	142.2	0.38	HC	CP1838	0.68
EH029	142.2	143.26	1.06	HC	CP1839	0.5
EH029	143.26	144	0.74	HC	CP1840	0.13
EH029	144	144.99	0.99	HC	CP1841	0.03
EH029	144.99	146	1.01	HC	CP1842	0.12
EH029	146	147	1	HC	CP1843	0.03
EH029	147	147.52	0.52	HC	CP1844	0.03

1 GeoVic (2020) globenewswire.com

Infographics accompanying this announcement are available at
globenewswire.com

globenewswire.com