Apex Samples 393 Mg/L of Li From The Lithium Creek Project
Apex Samples 393 Mg/L of Li From The Lithium Creek Project
Vancouver, British Columbia--(Newsfile Corp. - October 3, 2024) - Apex Resources Inc. (TSXV: APX) ("Apex" or the "Company") is excited to announce analytical results from fluid samples recently collected from the Company's Lithium Creek Project (the "Project"), located in Churchill County, Nevada. The Project consists of 10 incontiguous blocks of placer claims covering approximately 4,720 acres and adjacent lands within the aerially extensive Fernley and Carson Sinks. These sinks have large expansive playas and lay within large hydrographic basins with a combined area of approximately 1.4 million-acres. The fluid samples were collected from Lithium Creek, a historic well, and shallow hand-dug auger holes that were excavated 1-2 meters below ground surface using hand tools throughout the Project area. The analytical results of the fluid samples show lithium values ranging from 393 milligrams per liter (mg/L) to 4.65 mg/L, with more than half (55%) of the samples higher than 50 mg/L.
卑詩省溫哥華-(新聞資料公司-2024年10月3日)-Apex Resources Inc. (TSXV: APX) ("Apex"或"公司") 興奮地宣佈最近從位於內華達州丘吉爾縣的鋰礦項目("項目")中收集的流體樣品的分析結果。該項目由10個不相連的灘礦權區組成,總面積約爲4720英畝,毗鄰空曠的Fernley和Carson Sinks地區。這些盆地有着廣闊的幹鹽田,位於面積約140萬英畝的大型水系盆地內。流體樣品來自鋰礦溪、一個歷史悠久的井,以及在項目區域使用手工工具在地表以下1-2米處挖掘的淺層手動鑽孔。流體樣品的分析結果顯示,鋰含量範圍從393毫克/升(mg/L)到4.65 mg/L,其中一半以上(55%)的樣品鋰含量高於50 mg/L。
The fluid samples were collected from playas where the shallow groundwater could be accessed using hand tools. The sample locations were separated by sufficient distances to examine the potential for the lateral distribution of lithium enriched brines. Fluid samples were collected from 20 shallow hand augured test holes, one (1) historic well remnant of the old salt works operation, and one (1) sample of surface water was collected from Lithium Creek. Two (2) duplicate samples and one (1) field blank sample were collected for Quality Assurance/Quality Control (QA/QC) purposes in accordance with the sampling and analytical plan for the Project. Table 1 below provides a tabulation of the analytical results for the samples collected.
樣品來自幹鹽田,可以使用手工工具獲取淺層地下水。樣品位置相距足夠遠,以檢查富含鋰的滷水的橫向分佈潛力。從20個淺層手動鑽孔測試孔、一個歷史久遠的井(作爲舊鹽廠作業的遺蹟),以及一個來自鋰礦溪的地表水樣品中收集了流體樣品。根據項目的採樣和分析計劃,收集了兩(2)個重複樣本和一個(1)現場空白樣本,以進行質量保證/質量控制(QA/QC)。下面的表1列出了收集樣品的分析結果。
Table 1: Lithium Creek Project Shallow Groundwater Analytical Results
表1: 鋰礦項目淺層地下水分析結果
Sample ID | Lithium (mg/L) |
Boron (mg/L) |
Potassium (mg/L) |
TDS* (ppm) |
Claim Block |
Sample Type |
Comments |
LiCk-8-082024 | 393 | 774 | 17,900 | 175,290 | ESW-BOR | Brine | Shallow Test Hole |
LiCk-29-082124 | 310 | 222 | 7,240 | 167,995 | ESW-BOR | Brine | Shallow Test Hole |
LiCk-9-082124 | 163 | 178 | 6220 | 158,096 | ESW-BOR | Brine | Shallow Test Hole |
LiCk-12-082124 | 112 | 111 | 6,640 | 123,770 | ESW-BOR | Brine | Shallow Test Hole |
DSW-25-082324 | 104 | 283 | 11,200 | 156,386 | CS | Brine | Shallow Test Hole |
LiCk-6-082124 | 85.4 | 186 | 3,550 | 118,223 | ESW-BOR | Brine | Shallow Test Hole |
Parker-1-082024 | 64.2 | 108 | 3,250 | 80,258 | ESW-BOR | Brine | Historic Well |
DSW-15-082324 | 61.9 | 155 | 5,260 | 146,561 | DSW | Brine | Shallow Test Hole |
LiCk-1-082324 | 61.7 | 61.4 | 3,850 | 123,835 | ESW-S | Brine | Shallow Test Hole |
LiCk-11-082124 | 58.2 | 268 | 2,660 | 91,075 | ESW-BOR | Brine | Shallow Test Hole |
LiCk-10-082324 | 58.1 | 16.1 | 3,100 | 133,268 | ESW-BOR | Brine | Shallow Test Hole |
LiCk-13-082124 | 52.7 | 74.1 | 2,850 | 97,160 | ESW-BOR | Brine | Shallow Test Hole |
DSW-14-082324 | 40.5 | 109 | 4,560 | 134,104 | DSW | Brine | Shallow Test Hole |
DSW-18-082324 | 37.7 | 58.3 | 4,730 | 126,248 | CS | Brine | Shallow Test Hole |
LiCk-4X-082324 | 26.2 | 29.3 | 2,270 | 92,127 | ESW-S | Brine | Duplicate of LiCk-4 |
LiCk-4-082324 | 23.8 | 30.4 | 2,220 | 92,127 | ESW-S | Brine | Shallow Test Hole |
DSW-20-082324 | 23 | 87.7 | 2,720 | 86,345 | DSW | Brine | Shallow Test Hole |
DSW-19-082324 | 22.8 | 55 | 3,340 | 105,192 | CS | Brine | Shallow Test Hole |
DSW-23-082324 | 20.4 | 79.5 | 2,280 | 74,863 | CS | Brine | Shallow Test Hole |
DSW-22X-082324 | 13.3 | 128 | 2,910 | 143,971 | DSW | Brine | Duplicate of DSW-22 |
DSW-22-082324 | 12.8 | 127 | 2,870 | 143,971 | DSW | Brine | Shallow Test Hole |
DSW-28-082324 | 6.93 | 49.6 | 782 | 22,448 | CS | Brackish Water | Shallow Test Hole |
DSW-26-082324 | 6.92 | 58.9 | 675 | 24,151 | CS | Brackish Water | Shallow Test Hole |
LC1-082024 | 4.65 | 6.77 | 445 | 31,290 | ESW-BOR | Brackish Water | Li Creek (Surface Water) |
DSW-30-082324 | <0.40 | <2.0 | <20 | - | -- | Fresh Water | Blank Sample |
Notes: Analytical results are reported in milligrams per liter (mg/L). | |||||||
The results have been tabulated in order from highest to lowest lithium concentration. | |||||||
* TDS - Total Dissolved Solids: measured in the field using a calibrated multiparameter sonde |
示例ID | 鋰礦 (毫克/升) |
硼 (毫克/升) |
Potassium (毫克/升) |
TDS* (ppm) |
Claim 塊 |
樣品 類型 |
評論 |
LiCk-8-082024 | 393 | 774 | 17,900 | 截至2024年6月30日的三個月內,廣告費用在銷售費用中呈現爲$ | ESW-BOR | 滷水 | 淺孔試驗 |
LiCk-29-082124 | 310 | 222 | 7,240 | 167,995 | ESW-BOR | 滷水 | 淺孔試驗 |
LiCk-9-082124 | 163 | 178 | 6220 | 158,096 | ESW-BOR | 滷水 | 淺孔試驗 |
LiCk-12-082124 | 112 | 111 | 6,640 | 123,770 | ESW-BOR | 滷水 | 淺孔試驗 |
DSW-25-082324 | 104 | 283 | 11,200 | 156,386 | CS | 滷水 | 淺孔試驗 |
LiCk-6-082124 | 85.4 | 186 | 3,550 | 118,223 | ESW-BOR | 滷水 | 淺孔試驗 |
Parker-1-082024 | 64.2 | 108 | 3250 | 80,258 | ESW-BOR | 滷水 | 歷史井 |
DSW-15-082324 | 61.9 | 155 | 5,260 | 146,561 | DSW | 滷水 | 淺孔試驗 |
鋰礦-1-082324 | 61.7 | 61.4 | 3,850 | 123,835 | ESW-S | 滷水 | 淺孔試驗 |
鋰礦-11-082124 | 58.2 | 268 | 2,660 | 91,075 | ESW-BOR | 滷水 | 淺孔試驗 |
LiCk-10-082324 | 58.1 | 16.1 | 3,100 | 133,268 | ESW-BOR | 滷水 | 淺孔試驗 |
LiCk-13-082124 | 52.7 | 74.1 | 2,850 | 84,243 | ESW-BOR | 滷水 | 淺孔試驗 |
DSW-14-082324 | 40.5 | 109 | 4,560 | 134,104 | DSW | 滷水 | 淺孔試驗 |
DSW-18-082324 | 37.7 | 58.3 | 4,730 | 126,248 | CS | 滷水 | 淺孔試驗 |
LiCk-4X-082324 | 26.2 | 29.3 | 2,270 | 92,127 | ESW-S | 滷水 | LiCk-4的複製 |
LiCk-4-082324 | 23.8 | 30.4 | 2,220 | 92,127 | ESW-S | 滷水 | 淺孔試驗 |
DSW-20-082324 | 23 | 87.7 | 2,720 | 86,345 | DSW | 滷水 | 淺孔試驗 |
DSW-19-082324 | 22.8 | 55 | 3,340 | 105,192 | CS | 滷水 | 淺孔試驗 |
DSW-23-082324 | 20.4 | 79.5 | 2280 | 35,358 | CS | 滷水 | 淺孔試驗 |
DSW-22X-082324 | 13.3 | 128 | $7,709。該租約於2023年7月開始。與此租約相關的使用權資產和租賃負債將於2023年7月記錄。 | 143,971 | DSW | 滷水 | DSW-22的重複 |
DSW-22-082324 | 12.8 | 127 | 2,870 | 143,971 | DSW | 滷水 | 淺孔試驗 |
DSW-28-082324 | 6.93 | 49.6 | 782 | 22,448 | CS | 半鹹水 | 淺孔試驗 |
DSW-26-082324 | 6.92 | 58.9 | 675 | 24,151 | CS | 半鹹水 | 淺孔試驗 |
LC1-082024 | 4.65 | 6.77 | 445 | 31,290 | ESW-BOR | 半鹹水 | Li Creek (Surface Water) |
DSW-30-082324 | - | -- | Fresh Water | 空白樣本 | |||
說明:分析結果以每升毫克(mg/L)報告。 | |||||||
結果已按鋰含量從高到低順序製表。 | |||||||
* TDS-總溶解固體:在現場使用校準的多參數聲吶儀器測量 |
Lithium was detected in all samples. Duplicate and field blank samples were submitted to evaluate the quality control standards for the Project in addition to the Western Environmental Testing Laboratory (WET Lab) QC Report for the samples analyzed. Analytical results for over half of the fluid samples indicate lithium concentrations at the Project exceed 50 mg/L, providing further indications that lithium bearing brine deposits exist within the Project area. For samples with lithium concentrations over 100 mg/L, the Company will recollect and analyze confirmatory samples for validation.
所有樣本中均檢測到鋰。提交了重複和現場空白樣本以評估項目的質量控制標準,另外還分析了西部環境測試實驗室(WEt Lab)針對樣本的質控報告。超過一半流體樣本的分析結果表明,項目中的鋰濃度超過50毫克/升,進一步表明項目區存在了含鋰滷水沉積。對於鋰濃度超過100毫克/升的樣本,公司將重新收集和分析驗證樣本。
A cut-off grade of approximately 50 mg/L has been adopted for several lithium brine projects in North America, as noted in publicly-filed technical reports filed for Albemarle's Silver Peak Project in Clayton Valley, Nevada[1] and Lithium Bank Resources Corp.'s Park Place Lithium-brine property in west-central Alberta, Canada[2]. Cut-off grades are, however, unique to the specific project and a cut-off grade has not been determined for the Lithium Creek Project.
北美幾個鋰滷水項目採用了約50毫克/升的截切品位,如在阿爾伯馬爾的內華達州克雷頓谷的Silver Peak項目以及加拿大阿爾伯塔省西部的Lithium Bank Resources Corp的Park Place鋰滷水地塊的公開報告中所述。但截止品位是特定項目獨有的,並且尚未確定Lithium Creek項目的截止品位。
Laboratory analytical results and measurements of Total Dissolved Solids (TDS) collected in the field indicate most of the shallow groundwater encountered in the playa sediments at the Project are classifiable as lithium-brines. These data provide compelling evidence of the potential for regional large scale lithium enriched brine aquifers or reservoirs to exist at the Project.
實驗室分析結果和採集於現場的總溶解固體(TDS)測量顯示,項目中遇到的大部分淺層地下水可分類爲鋰滷水。這些數據提供了有力證據,表明項目中存在區域大型富鋰滷水含水層或水庫的潛力。
A total of 25 fluid samples were submitted to WET Lab in Sparks, Nevada under Chain of Custody in accordance with the sampling and analytical plan for the Project. WET Lab is an independent and certified laboratory in the state of Nevada. The data and information contained in the WET Lab analytical report were generated using specified or selected methods contained in their references, such as Standard Methods for the Examination of Water and Wastewater, online edition; Methods for Determination of Organic Compounds in Drinking Water, EPA-600/4-79-020; and Test Methods for Evaluation of Solid Waste, Physical/Chemical Methods (SW846) Third Edition. Total metals including lithium, boron, potassium and sodium were analyzed using EPA Method 200.7. EPA Method 200.7 was approved for use as axial view of ICP-OES and is the required EPA method for compliance monitoring by ICP-OES. ICP-OES is preferred for analysis of samples with high total dissolved solids (TDS) or suspended solids.
根據項目的採樣和分析計劃,在內華達州斯帕克斯的WEt Lab共提交了25個流體樣本,並按照連鎖保管程序進行。WEt Lab是內華達州的獨立認證實驗室。WEt Lab的分析報告中包含的數據和信息是使用其參考文件中指定或選定的方法生成的,例如《水和廢水檢驗標準方法》在線版;《飲用水中有機化合物的測定方法》EPA-600/4-79-020;以及《固體廢物評價測試方法,物理/化學方法(SW846)第三版》。使用EPA 200.7方法分別分析了包括鋰、硼、鉀和鈉在內的總金屬。EPA 200.7方法已獲批准用於ICP-OES的軸向視圖,並且是ICP-OES根據EPA監測要求的必需方法。ICP-OES被用於對含有高總溶解固體(TDS)或懸浮固體的樣品進行分析。
This news release has been prepared in accordance with Canadian regulatory requirements as set out in National Instrument 43-101 and the scientific and technical information herein was reviewed and approved by Geoffrey Baldwin, PG., SME-RM., who is a consulting geologist for Apex and who acts as Apex's Qualified Person.
此新聞稿已根據加拿大監管要求編制,符合國家43-101號儀器的規定,此處的科學技術信息經過Apex的諮詢地質學家Geoffrey Baldwin, PG., 中小型企業-資源計量師審核批准,他是Apex的獨立人士。
About Apex Resources Inc.
Apex is a mineral exploration company engaged in the business of the acquisition, exploration and development of mineral resource properties. Apex has an option to acquire the Lithium Creek Property located in Churchill County, Nevada, USA and is currently conducting lithium brine exploration on the Project with a view to identifying and defining drill targets with high potential to penetrate lithium brine bearing aquifers.
關於Apex Resources Inc.
Apex是一家涉礦概念公司,從事涉礦產業的收購、勘探和開發業務。Apex已獲得了位於美國內華達州丘吉爾縣的鋰礦產權選項,並目前正在該項目進行鋰滷水勘探,旨在確定具有高滲透能力的鋰滷水含水層的鑽探目標。
On Behalf of the Board of Directors of
代表董事會
Apex Resources Inc.
頂點資源股份有限公司。
Ron Lang,
President and CEO
Ron Lang,
總裁兼首席執行官
Ph. +1(250) 212-7119 or info@apxresources.com website:
Ph. +1 (250) 212-7119 或 郵箱:info@apxresources.com 網址:
Neither TSX Venture Exchange nor its Regulation Services Provider (as that term in defined in the policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this press release.
TSX創業公司交易所或其監管服務提供商(如TSX創業公司政策所定義的那樣)不對本新聞稿的充分性或準確性負責。
CAUTIONARY NOTE REGARDING FORWARD-LOOKING STATEMENTS: This news release may contain forward-looking information within the meaning of applicable securities laws ("forward-looking statements"), such as statements relating to the potential existence of lithium bearing brine deposits on the Project. Forward-looking statements are statements that are not historical facts and are generally, but not always, identified by the words "expects," "plans," "anticipates," "believes," "intends," "estimates," 'projects," "potential" and similar expressions, or that events or conditions "will," "would," "may," "could" or "should" occur. These forward-looking statements are subject to a variety of risks and uncertainties which could cause actual events or results to differ materially from those reflected in the forward-looking statements, including, without limitation: risks related to fluctuations in metal prices; uncertainties related to raising sufficient financing to fund exploration work in a timely manner and on acceptable terms; changes in planned work resulting from weather, logistical, technical or other factors; the possibility that results of work will not fulfill expectations and realize the perceived potential of the Project; risk of accidents, equipment breakdowns and labour disputes or other unanticipated difficulties or interruptions; the possibility of cost overruns or unanticipated expenses in conducting work programs; the risk of environmental contamination or damage resulting from Apex's operations and other risks and uncertainties. Any forward-looking statement speaks only as of the date it is made and, except as may be required by applicable securities laws, the Company disclaims any intent or obligation to update any forward-looking statement, whether as a result of new information, future events or results or otherwise.
關於前瞻性聲明的警示:本新聞稿可能包含適用證券法律意義上的前瞻性信息(「前瞻性聲明」),例如涉及項目上鋰礦膠滷礦牀存在的潛能。前瞻性聲明並非歷史事實,通常但並非總是通過「預計」、「計劃」、「預期」、「相信」、「打算」、「估計」、「計劃」、「潛力」及類似表達來識別,或事件或狀況「將」、「將會」、「可能」、「可能會」、「應該」發生。這些前瞻性聲明面臨各種風險和不確定性,可能導致實際事件或結果與前瞻性聲明中反映的有所不同,包括但不限於:與金屬價格波動有關的風險;與及時以及以可接受條件籌集足夠資金用於勘探工作相關的不確定性;由於天氣、後勤、技術或其他因素而導致計劃工作的變化;工作結果可能未能滿足預期並實現項目的潛在;發生事故、設備故障、勞工糾紛或其他意外困難或中斷的風險;在執行工作計劃時可能存在超支或未經預料的費用;Apex經營可能導致環境污染或損壞的風險以及其他風險和不確定性。任何前瞻性聲明只代表其作出之日期,並且除非適用證券法要求,公司否認有任何意圖或義務更新任何前瞻性聲明,不論是因爲新信息、未來事件或結果還是其他原因。
[1] SEC Technical Report Summary - Pre-Feasibility Study - Silver Peak Lithium Operation- Nevada, USA dated February 14, 2023.
[1] 美國鋰礦白銀峯項目技術報告摘要- 2023年2月14日。
[2] Lithium Bank Resources Corp. Park Place NI 43-101 Technical Report with an effective date of June 24, 2024.
[2] 鋰礦銀行資源公司Park Place NI 43-101技術報告,有效日期爲2024年6月24日。