share_log

GoldON Outlines Lithium Pegmatite Discovery Potential at Its McInnes Lake Greenstone Belt Property

GoldON Outlines Lithium Pegmatite Discovery Potential at Its McInnes Lake Greenstone Belt Property

GoldOn 概述了其麥金尼斯湖綠石帶礦產的鋰偉晶岩發現潛力
newsfile ·  2023/04/24 20:36

Elevated lithium values of up to 1,126 ppm in metavolcanic host-rocks distributed proximal to the main plutons triggered comprehensive review

分佈在主巖體附近的變火山宿主巖中鋰值升高至1,126 ppm,引發了全面審查

Victoria, British Columbia--(Newsfile Corp. - April 24, 2023) - GoldON Resources Ltd. (TSXV: GLD) ("GoldON" or the "Company") is pleased to provide an overview of the fertile peraluminous granite plutons and lithium pegmatite potential at its 100%-owned McInnes Lake property (the "Property") that is located approximately 50 kilometres (km) southwest of Frontier Lithium's Pakeagama Lake area lithium deposits and covers the majority of the McInnes Lake greenstone belt in northwestern Ontario.

不列顛哥倫比亞省維多利亞--(Newsfile Corp.-2023 年 4 月 24 日)- GoldOn Resources Ltd.(多倫多證券交易所股票代碼:GLD)(“GoldOn” 或 “公司”) 很高興概述其100%擁有的麥金尼斯湖地產(“物業”)中肥沃的過鋁花崗岩巖體和鋰偉晶岩潛力,該物業位於Frontier Lithium的Pakeagama湖地區鋰礦牀西南約50公里(km)處,覆蓋了安大略省西北部麥金尼斯湖綠巖帶的大部分地區。

Highlights:

亮點:

  • Fertile lithochemical signature recognized in McInnes North pegmatitic granite pluton from GoldON's latest fieldwork on the 11,424-hectare Property.

  • Anomalous bulk rock lithium (Li), beryllium (Be), rubidium (Rb), cesium (Cs), tantalum (Ta), and niobium (Nb) in McInnes Lake pluton compare with fertile, peraluminous granite plutons elsewhere in Ontario such as the Allison Lake batholith and the MNW stock in Georgia Lake region.

  • Analytical results from the latest fieldwork included a database of 480 bulk rock samples with 67 exceeding 50 parts per million (ppm) lithium.

  • Elevated lithium values newly discovered ranging from 50 to 1,126 ppm in metavolcanic host-rocks distributed proximal to the main plutons in the McInnes Lake greenstone belt may reflect exomorphic dispersion outwards from exposed and blind pegmatitic granite plutonic centres.

  • Peraluminous granitic magma generation and emplacement are possibly controlled by the inferred northern continuation of a 100 -750 metres (m) wide, deep seismic tapping, E1/E2 extensional shear zones and associated second order shears, which also underlie the Red Lake Mine Complex and greenstone slivers to the north (Red Lake Extension).

  • Major fault zone control of peraluminous granite plutons and derivative lithium-rich pegmatites is evident elsewhere in northwestern Ontario, including 50 km to northeast of the McInnes North pluton, along the Bearhead fault system at Pakeagama Lake, where Frontier Lithium14 has delineated NI 43-101 Measured & Indicated (M&I) resources of 26 million tonnes (mt) of 1.62% Li2O and Inferred resources of 32.4 mt of 1.41% Li2O.

  • Goldon對這座佔地11,424公頃的土地進行的最新實地考察,McInnes North 偉晶質花崗岩巖體中發現了肥沃的巖性化學特徵。

  • 與安大略省其他地方肥沃的過鋁花崗岩巖體(例如艾莉森湖基岩底石和喬治亞湖地區的MNW巖羣)相比,麥金尼斯湖巖體中的異常塊狀岩石鋰(Li)、鈹(Be)、銣子(Rb)、銫子(Cs)、鉭(Ta)和鈮(Nb)。

  • 最新實地考察的分析結果包括一個包含480個散裝岩石樣本的數據庫,其中67個樣本的鋰超過百萬分之50(ppm)。

  • 在分佈在麥金尼斯湖綠巖帶主要巖體附近的變火山宿主巖中,新發現的鋰值從50到1,126 ppm不等,這可能反映了裸露和盲目的偉晶花崗岩深體中心向外擴散。

  • 過鋁花崗岩岩漿的產生和埋設可能由推斷出寬度爲100-750米(m)的深層地震攻擊、E1/E2伸展剪切帶和相關的二階剪切帶的北延伸所控制,後者也是紅湖礦羣和北邊的綠石碎片(紅湖延伸部分)的基礎。

  • 在安大略省西北部其他地方,包括位於麥金尼斯北部巖體東北50公里處的Pakeagama湖Bearhead斷層系統沿線,過鋁花崗岩巖體和衍生的富鋰偉晶岩的主要斷層區控制顯而易見,Frontier Lithium就在那裏14 已確定 NI 43-101 測得和指示的 (M&I) 資源爲 2,600 萬噸 (mt),其中 1.62% 的鋰2O 和推斷出的 1.41% Li 資源爲 32.4 萬噸2O。

"GoldON's fieldwork has discovered several new showings that confirm the presence of a fertile peraluminous granite setting. Geological similarities include the E1 fault that is inferred to pass right through the pluton area and may have been a controlling structure for the emplacement of fertile granites and related lithium-rich pegmatite melts. This is a similar setting to the Pakeagama Lake peraluminous parent granite and derived LCT-petrogenetic family pegmatites located 50 km to the northeast," said GoldON's Technical Advisor, Frederick Breaks, PhD, P.Geo. "The McInnes Lake project checks all the boxes, and I have recommended a follow-up fieldwork program to be conducted as soon as possible."

“戈爾登的實地考察發現了幾處新的發現,證實了肥沃的過鋁花崗岩地質的存在。地質相似之處包括推斷爲直接穿過巖體區域的E1斷層,可能是肥沃的花崗岩和相關的富鋰偉晶岩熔體的控制結構。這與位於東北50公里處的Pakeagama Lake過鋁母體花崗岩和衍生的LCT-Petrogenics家族偉晶岩類似。” Goldon的技術顧問、P.Geo博士Frederick Breaks說。“麥金尼斯湖項目符合所有條件,我建議儘快開展後續實地考察計劃。”

Recognition of fertile peraluminous granites is obviously one important aspect of exploration for potential derivative rare-element pegmatite deposits of the lithium-cesium-tantalum (LCT) petrogenetic family1. These plutons are widespread in the Superior Province of northern Ontario2 and especially in high to granulite metamorphic grade, migmatized, clastic-metasedimentary-dominant belts, such as the English River and Quetico terranes, where 5,000 sq. km of peraluminous granite was delineated in the former by regional mapping programs of the Ontario Geological Survey3.

識別肥沃的過鋁花崗岩顯然是勘探鋰-銫-鉭(LCT)岩石成因家族潛在衍生稀有元素偉晶岩礦牀的一個重要方面1。這些巖體在安大略省北部的蘇必利爾省很普遍。2 尤其是在高至顆粒巖變質等級、混雜質化、碎屑變質占主導地位的地帶,例如英吉利河和奎蒂科地形,安大略省地質調查局的區域測繪計劃在前者中劃定了5,000平方公里的過鋁花崗岩3

This news release documents a fertile granite, the McInnes North pluton (MNP), situated in the McInnes Lake greenstone belt (MLGB) of the North Caribou Lake terrane of northwestern Ontario4, based upon the compilation of existing published lithochemistry data (480 bulk rock samples) and petrographic attributes stemming from an extensive review of the literature.

本新聞稿記錄了一種肥沃的花崗岩,即麥金尼斯北冥體(MNP),它位於安大略省西北部北馴鹿湖地形的麥金尼斯湖綠巖帶(MLGB)中4,基於對現有已發佈的岩石化學數據(480個散裝岩石樣本)和對文獻的廣泛審查得出的岩石學屬性的彙編。

Fertile Peraluminous Granite Plutons

肥沃的過鋁花崗岩巖體

The degree of chemical evolution varies significantly in the peraluminous granite suite of S-type affiliation, and consanguineous pegmatites with rare-element mineral potential are largely restricted to terrane boundary zones with lower-grade greenstone belt-rich domains such as the western Uchi terrane and associated with major deep crustal fault systems such as the Sydney Lake-Lake St. Joseph fault5.

S型過鋁花崗岩組的化學演化程度差異很大,具有稀有元素礦物潛力的近緣偉晶岩主要侷限於具有低等級綠巖帶富集域(例如西烏奇地形)的地形邊界區,以及與悉尼湖-聖約瑟夫湖斷層等主要深層地殼斷層系統相關的地形邊界區域5

Examples of fertile granite plutons in this setting are found at the Allison Lake batholith5 and Separation Rapids pluton7, areas of extensive mineral exploration for lithium mineralization.

這種環境中肥沃的花崗岩巖體的例子可以在艾莉森湖基底石中找到5 和分離 Rapids 插件7,爲鋰礦化進行廣泛礦物勘探的地區。

A second setting involves peraluminous granite plutons entirely enclosed within greenstone belts, such as the 0.5 sq. km, unnamed pluton of tourmaline-garnet-muscovite pegmatitic granite situated just east of the Musselwhite mine6, a plausible source of spodumene pegmatite dykes found in underground workings8, and at the McInnes North and Lower Bay plutons.

第二種環境涉及完全封閉在綠巖帶內的過鋁花崗岩巖體,例如位於 Musselwhite 礦以東的 0.5 平方千米、未命名的碧璽-石榴石-白雲母偉晶質花崗岩巖巖體6,在地下施工中發現的鋰輝石偉晶岩堤的合理來源8,還有麥金尼斯北部和下灣的巖體。

The size of fertile pegmatitic granite plutons varies considerably from large batholiths such as the 30 by >100 km Glacier Lake batholith9 to the 1.5 by 2.8 km Separation Rapids pluton, the latter being the most evolved fertile granite known in Ontario7. The McInnes North pluton occurs in the northern part of the Property and, at a minimum size of 1.5 by 1.9 km, is similar in size to the 2,646±2 Ma Separation Rapids pluton. A second, smaller, 0.4 km diameter body, called the Lower Bay pluton, occurs in the southern part of the Property.

肥沃的偉晶花崗岩巖體的大小與大型岩石有很大差異,例如 30 x 100 千米的冰川湖基石9 到 1.5 x 2.8 千米的 Separation Rapids 巖體,後者是安大略省已知進化程度最高的肥沃花崗岩7。McInnes North 巖體出現在該物業的北部,最小尺寸爲 1.5 x 1.9 km,大小與 2,646±2 Ma 的分離急流巖體相似。第二個更小、直徑爲0.4千米的天體,稱爲下灣冥王體,出現在該物業的南部。

Geological Setting

地質背景

The MLGB is one of several supracrustal slivers that reside in the core of the predominantly Mesoarchean North Caribou Lake terrane4.Cycle 2 intermediate volcanism in the greenstone belt has an age spread of 2,975.4±0.8 Ma to 2,928.7±0.6 Ma13. The peraluminous granite plutonism is undated and plausibly developed late in the history of the terrane.

MLGB 是存在於以中太古時代爲主的北馴鹿湖地形核心的幾種超水晶碎片之一4。綠巖帶的第 2 週期中間火山活動的年齡分佈爲 2,975.4±0.8 Ma至 2,928.7±0.6 Ma13過鋁花崗岩冥王體在地形歷史的後期沒有註明日期,而且可能是在地形歷史的後期發展起來的。

From seismic studiesin the Red Lake area10,11,12, it is inferred that the MLGB lies along the northern continuation of the deep crustal E1/E2 extensional shear zone, which also underlies the Red Lake Mine Complex and greenstone slivers to the south of MLGB, called the Red Lake Extension. The Central sliver13 50 km south of the MLGB, is a shear zone approximately 100 -750 m wide and is coincident with a prominent first vertical derivative magnetic low that has numerous second-order shears.

來自地震研究在紅湖地區10,11,12,據推斷,MLGB 位於深地殼 E1/E2 伸展剪切帶的北部延伸段沿線,該延伸區也是 MLGB 以南的紅湖礦山羣和綠巖碎片的下方,稱爲紅湖延伸段。Central sliver13 在 MLGB 以南 50 千米處,是一個寬約 100 -750 米的剪切帶,與具有大量二階剪切的顯著的一級垂直導數磁低點重合。

Deep crustal level fault zones may have importantly acted as peraluminous granitic magma generation sites and conduits for emplacement along the length of the greenstone belt as suggested by the appearance of pegmatite bodies of various sizes distributed in the MLGB over a strike length of at least 30 km.

深層地殼層斷層帶可能重要地充當了過鋁花崗岩岩漿的生成地點和沿綠巖帶長度佈設的管道,正如在MLGB中分佈在至少30千米的衝擊長度上出現的不同大小的偉晶岩體所表明的那樣。

The Sydney Lake fault, south of Red Lake, demonstrates that significant volumes of peraluminous granitic magma can be generated within major deep crustal fault structures, as exemplified by a conspicuous, linear-shaped, garnet-cordierite-muscovite granite mass, 0.3 to 2 km in breadth and a minimum 130 km in strike length, entirely confined within this major fault system3.

紅湖以南的悉尼湖斷層表明,在主要的深層地殼斷層結構中可以產生大量的過鋁花崗岩岩漿,例如一個明顯的線性狀的石榴石-堇青石-白雲母花崗岩塊,寬度爲0.3至2千米,走向長度至少爲130千米,完全侷限於這個主要斷層系統內3

Major fault zone control of peraluminous granite plutons and derivative 2,672 Ma lithium-rich pegmatites is evident elsewhere, as 50 km to northeast of the McInnes North pluton, along the Bearhead fault system at Pakeagama Lake, where Frontier Lithium14 has delineated NI 43-101 resources of 26 mt (M&I) of 1.62% Li2O and 32.4 mt (Inferred) 1.41% Li2O.

過鋁花崗岩體及其衍生物 2,672 mA 富含鋰的偉晶岩的主要斷層區控制在其他地方顯而易見,位於麥金尼斯北巖體東北 50 公里處,帕克哈瑪湖的 Bearhead 斷層系統沿線 Frontier Lithium 所在地14 已確定 NI 43-101 資源爲 26 噸(M&I),其中 1.62% 李2O 和 32.4 mt(推斷)1.41% Li2O。

McInnes North Pluton

麥金尼斯 North Pluton

The McInnes North pluton (MNP) was previously briefly described in several Ontario Geological Survey mapping studies13,15,16. Rock types comprise massive, undeformed, medium-grained, two-mica granite and associated pegmatitic granite units such as potassic pegmatite15. Graphic K-feldspar megacrysts are also present suggestive of pegmatitic leucogranitephases.Mineralogy comprises deep pink, blocky K-feldspar, plagioclase, quartz, accessory muscovite, tourmaline, garnet, and biotite13.

安大略省地質調查局的幾項測繪研究此前曾簡要描述過麥金尼斯北冥體(MNP)13,15,16。岩石類型包括塊狀、未變形、中等粒度的雙雲母花崗岩和相關的偉晶花崗岩單元,例如鉀偉晶岩15。圖形 k-長石巨晶也暗示了偉晶質白花崗岩階段。礦物學包括深粉色、塊狀 K 長石、斜長石、石英、輔助白雲母、碧璽、石榴石和黑雲母13

The MNP has an apparent exocontact pegmatite swarm that extends for at least 1 km to the southeast18 into mafic and intermediate metavolcanic host rocks. Dykes of similar rock also occur up to 6 km north of the pluton18. The Lower Bay pluton, 20 km south, lacks bulk rock chemistry data but appears similar to the MNP, in descriptions of the previous work15,16,17. Peraluminous granitic pegmatite dykes also are evident and occur through the MLGB13,15,19.

MNP 有明顯的外接觸型偉晶岩羣,向東南延伸至少 1 千米18 進入鎂鐵質和中級變質火山宿主巖。類似岩石的堤壩也出現在冥王體以北 6 千米處18。位於南部 20 千米處的下灣巖體缺少散裝岩石化學數據,但在對先前研究的描述中看起來與 MNP 相似1516,17。過鋁花崗岩偉晶岩堤壩也很明顯,是通過 MLGB 形成的1315,19

Lithochemistry

光刻化學

Published lithochemistry data for the MLGB, with Li, Be, Rb, Cs, Ta, and Nb, comprise 142 bulk rock analyses from the 2006 Far North Initiative Ontario Geological Survey mapping project13 and 338 analyses in a 2021 belt-wide mineralization-geochemical investigation19.

MLGB 已發佈的岩石化學數據,包括 Li、Be、Rb、Cs、Ta 和 Nb,包括來自 2006 年安大略省遠北倡議測繪項目的 142 項塊狀岩石分析13 以及2021年全帶礦化地球化學調查中的338項分析19

Six bulk rock analyses from the McInnes North pluton were compiled from these sources and summarized in Table 1 with a comparison to various fertile granite plutons in other parts of Ontario previously investigated2,5,7. Key attributes of fertile granites and their internal pegmatitic granite phases were initially documented and classifiedin the Cat Lake-Winnipeg River pegmatite field of southeast Manitoba20.

從這些來源彙編了來自McInnes North巖體的六項塊狀岩石分析結果,並在表1中進行了彙總,並與先前調查的安大略省其他地區的各種肥沃花崗岩巖體進行了比較2,5,7。肥沃花崗岩的關鍵屬性及其內部偉晶花崗岩相最初被記錄和分類在曼尼托巴省東南部的 Cat Lake-Winnipeg River 偉晶岩田中20

Table 1. Summary of Rare-Element Bulk Rock Data for McInnes North Pluton
Compared to Other Fertile Peraluminous Granite Complexes in Ontario.

表 1。McInnes North Pluton 的稀有元素散裝岩石數據摘要
與安大略省其他肥沃的過鋁花崗岩複合體相比。

Lithium (ppm) Rubidium (ppm) Cesium (ppm) Niobium (ppm) Tantalum (ppm) K/Rb n Source
Mean Range Mean Range Mean Range Mean Range Mean Range Mean Range
McInnes North pluton 65 49 - 99 384 218 - 526 8.6 7.0 - 10.0 16.8 9.7 - 24.7 2.6 2.12 - 3.25 141 125 - 173 6 1,2
Allison Lake batholith 80 18 - 190 226 117 - 587 17.4 2.7 - 90 10.1 2.7 - 58.7 1.2 0.61 - 12.9 176 49 - 323 19 3
MNW stock 107 45 - 179 390 314 - 660 35.5 12.7 - 36.3 25.1 16.7 - 82 9 2.05 - 66 118 81 - 165 10 4
Barbara Lake stock 108 30 - 415 333 68 - 601 25.6 3.9 - 62.4 23.8 6.9 - 92.1 10.6 1.4 - 91.1 106 51 - 260 17 4
Separation Rapids pluton 160 53 - 235 921 726 - 984 30.0 11.8 - 58 73 41 - 94 22.1 9.2 - 28.7 21 0.6 - 42 5 5
n= number of samples
鋰 (ppm) 銣元素 (ppm) (ppm) 鈮含量 (ppm) 鉭 (ppm) K/Rb n 來源
意思 範圍 意思 範圍 意思 範圍 意思 範圍 意思 範圍 意思 範圍
McInnes North 冥王星 65 49-99 384 218-526 8.6 7.0-10.0 16.8 9.7-24.7 2.6 2.12-3.25 141 125-173 6 1,2
艾莉森湖基地 80 18-190 226 117-587 17.4 2.7-90 10.1 2.7-58.7 1.2 0.61-12.9 176 49-323 19 3
MNW 股票 107 45-179 390 314-660 35.5 12.7-36.3 25.1 16.7-82 9 2.05-66 118 81-165 10 4
芭芭拉·萊克股票 108 30-415 333 68-601 25.6 3.9-62.4 23.8 6.9-92.1 10.6 1.4-91.1 106 51-260 17 4
分離 Rapids 插件 160 53-235 921 726-984 30.0 11.8-58 73 41-94 22.1 9.2-28.7 21 0.6-42 5 5
n= 樣本數
  1. MacLachlan, B. and Robertson, C. 2022. GoldON Resources Ltd. Report on the May to June and Sept 2021 Exploration Programs on the McInnes Lake property. Assessment Work Report, Ontario MNDM: Grab samples 277167 -277171.
  2. Buse, S. and Prefontaine, S. 2006. Open File Report 6210, Appendix 2, Sample 06-SP-1104.
  3. Tindle, A.G., Selway, J.B. and Breaks, F.W. 2002. Ontario Geological Survey, MRD 111.
  4. Tindle, A.G., Breaks, F.W., and Selway, J.B. 2008. Ontario Geological Survey, MRD 231.
  5. Breaks, F.W. and Tindle, A.G. (2001). p.172-173 in CIMM Special Volume 53. Industrial Minerals in Canada.
  1. 麥克拉克蘭,B. 和 Robertson,C. 2022。Goldon Resources Ltd.關於2021年5月至6月和9月麥金尼斯湖物業勘探計劃的報告。評估工作報告,安大略省 MNDM:獲取樣本 277167 -277171。
  2. Buse,S. 和 Prefontaine,S. 2006。打開文件報告 6210,附錄 2,示例 06-SP-1104。
  3. Tindle、A.G.、Selway、J.B. 和 Breaks,F.W. 2002。安大略省地質調查局,MRD 111。
  4. Tindle、A.G.、Breaks、F.W. 和 Selway,J.B. 2008。安大略省地質調查局,MRD 231。
  5. Breaks,F.W. and Tindle,A.G.(2001)。CIMM 特別卷 53 第 172-173 頁。加拿大的工業礦物。

Figure 3 depicts Rb vs Li variation in MNP compared with other fertile granite plutons in the region. The MNP plots mid-way between the variation fields of the Allison Lake batholith and Separation Rapids pluton and define a trend of increasing fertile granite evolution. The MNP has elevated lithium (mean 65 ppm; range 53-99 ppm), and Rb values (mean 384 ppm; range 218 to 526 ppm) mostly exceed the Allison Lake batholith (Rb mean 226 ppm; range 117 to 587 ppm), albeit with a small overlap in the data fields (Figure 3). Mean Ta and Nb are higher in the MNP versus Allison Lake batholith with lower mean Cs (8.6 vs 15.6 ppm), but the Cs ranges mutually overlap. The Allison batholith, delineated in 20015, contains several rare-element mineral showings including recently discovered spodumene by Green Technology Metals14.

圖 3 描繪了 MNP 與該地區其他肥沃花崗岩體相比的 Rb 與 Li 的變化。MNP 位於艾莉森湖基岩和 Separation Rapids 巖體的變異場之間,定義了肥沃的花崗岩演化不斷增加的趨勢。MNP 的鋰含量升高(平均值爲 65 ppm;範圍爲 53-99 ppm),而 Rb 值(平均值爲 384 ppm;範圍 218 到 526 ppm)大多超過了艾莉森湖的深度(Rb 平均值爲 226 ppm;範圍 117 到 587 ppm),儘管數據字段略有重疊(圖 3)。MNP 中的平均值 Ta 和 Nb 高於平均值 C 較低的 Allison Lake 基底(8.6 對 15.6 ppm),但是 C 範圍相互重疊。艾莉森基石,於 2001 年劃定5,包含幾種稀有元素礦物,包括綠色科技金屬公司最近發現的鋰輝石14

Lithium Dispersion Halos

鋰分散光環

Numerous localities along the MLGB trend reveal anomalous lithium values in mafic and intermediate metavolcanic rocks13,19 in the range 55 ppm to 1,126 ppm, relative to the Upper Continental Crust mean lithium abundance of 20 ppm22, that may signify exomorphic dispersion outward from fertile pegmatitic granite bodies.

MLGB趨勢沿線的許多地方都顯示出鎂鐵質和中間變質火山岩中的鋰值異常1319 在55 ppm至1,126 ppm之間,相對於大陸上層地殼的平均鋰丰度爲20 ppm22,這可能表示肥沃的偉晶花崗岩體向外擴散。

The highest lithium values of 304, 340, and 1,126 ppm19are situated within 0.8 to 1 km of the McInnes North pluton, and occur in a fragmental, angular, possible debris flow/conglomerate rock of float origin that may represent disrupted parts of a nearby lithium dispersion halo.Other lithium anomalies, in the 68 to 376 ppm range, were documented in metavolcanic and banded iron formation bedrock within 6 km of the MNP19 and such anomalies require further field definition as does a lithium value of 180 ppm in metagabbro situated about 10 km southeast of the MNP23.

最高鋰值分別爲 304、340 和 1,126 ppm19位於 McInnes North 巖體 0.8 至 1 千米以內,存在於一種碎片狀、棱角分明、可能起源於浮動的碎片流/礫岩中,可能代表附近鋰離子色散光環的中斷部分。在距離 MNP 6 千米範圍內的變火山和帶狀鐵層基岩中記錄了其他鋰異常,介於 68 至 376 ppm 之間19 而且此類異常需要進一步的實地定義,位於 MNP 東南約 10 公里處的 metagabbro 的鋰值爲 180 ppm 也是如此23

Follow-up field investigation focused on lithium mineralization in known peraluminous plutons and related exocontact dykes is planned in the forthcoming field to further unravel the potential for LTC-class pegmatites. The source of the numerous lithium anomalies, which may have developed via dispersion from lithium-rich pegmatites hosted in the metavolcanic and banded iron formation bedrock, is presently unclear and will also require further field investigation.

計劃在即將開展的實地調查中,將重點放在已知過鋁巖體和相關的外接觸堤壩中的鋰礦化上,以進一步揭示LTC級偉晶岩的潛力。許多鋰異常的來源目前尚不清楚,也需要進一步的實地調查,這些異常可能是通過富含鋰的偉晶岩的分散產生的。

"We originally staked the underexplored McInnes Lake property for its deep crustal-scale features and similarities to the Red Lake Camp and have been successful in discovering several new gold showings. However, the discovery of elevated lithium values that compare with other fertile, peraluminous granite plutons in Ontario is a pleasant surprise," said Mike Romanik, president of GoldON. "Lithium and rare earth exploration is a specialized field, and we are very fortunate to have Dr. Breaks coordinating our exploration strategy."

“我們最初押注了未被充分開發的麥金尼斯湖地產,因爲它具有深厚的地殼尺度特徵以及與紅湖營地的相似之處,併成功地發現了幾處新的金礦。但是,與安大略省其他肥沃的高鋁花崗岩巖體相比,發現鋰值更高,這令人驚喜。” Goldon總裁邁克·羅曼尼克說。“鋰和稀土勘探是一個專業領域,我們很幸運有Dr. Breaks協調我們的勘探戰略。”

The technical information presented in this news release has been reviewed and approved by Frederick W. Breaks, PhD, P. Geo, a qualified person for exploration, as defined by National Instrument 43-101, Standards of Disclosure for Mineral Projects.

本新聞稿中提供的技術信息已由Frederick W. Breaks博士、P. Geo審查和批准,他是符合國家儀器43-101《礦業項目披露標準》的定義的勘探資格。

About GoldON Resources Ltd.

關於高登資源有限公司

GoldON is an exploration company focused on discovery-stage properties located in the prolific greenstone belts of northwestern Ontario, Canada. Our current project portfolio includes six properties in the Red Lake Mining District (McDonough, McInnes Lake, Pakwash North, Pipestone Bay, Springpole East, and West Madsen) and a seventh property in the Patricia Mining District (Slate Falls).

GoldOn 是一家勘探公司,專注於位於加拿大安大略省西北部多產的綠巖帶的發現階段地產。我們目前的項目組合包括紅湖礦區(麥克唐納、麥金尼斯湖、北帕克瓦什、派普斯通灣、斯普林波爾東和西麥德森)的六處房產,以及帕特里夏礦區(Slate Falls)的第七處房產。

For more information, you can visit our website at goldonresources.com, download our investor presentation by clicking here, and follow us on Twitter at .

欲瞭解更多信息,你可以訪問我們的網站goldonresources.com,點擊此處下載我們的投資者演示文稿,然後在Twitter上關注我們,網址爲。

ON BEHALF OF THE BOARD
Signed "Michael Romanik"
Michael Romanik, President
GoldON Resources Ltd.
Direct line: (204) 724-0613
Email: info@goldonresources.com
179 - 2945 Jacklin Road, Suite 416
Victoria, BC, V9B 6J9

代表董事會
已簽署 “邁克爾·羅曼尼克”
邁克爾·羅曼尼克,總統
高登資源有限公司
直撥電話:(204) 724-0613
電子郵件:info@goldonresources.com
179-2945 Jacklin Road,416 套房
不列顛哥倫比亞省維多利亞市,V9B 6J9

Forward-Looking Statements:

前瞻性陳述:

This news release may contain "forward-looking statements" that involve known and unknown risks, uncertainties, assumptions, and other factors that may cause the actual results, performance, or achievements of the Company to be materially different from any future results, performance or achievements expressed or implied by the forward-looking statements. Any forward-looking statement speaks only as of the date of this news release 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.

本新聞稿可能包含 “前瞻性陳述”,涉及已知和未知的風險、不確定性、假設和其他因素,這些因素可能導致公司的實際業績、業績或成就與前瞻性陳述所表達或暗示的任何未來業績、業績或成就存在重大差異。任何前瞻性陳述僅代表截至本新聞稿發佈之日,除非適用的證券法要求,否則公司不打算或有義務更新任何前瞻性陳述,無論是由於新信息、未來事件、業績還是其他原因。

Neither TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accept responsibility for the adequacy or accuracy of this release.

多倫多證券交易所風險交易所及其監管服務提供商(該術語在多倫多證券交易所風險交易所的政策中定義)均不對本新聞稿的充分性或準確性承擔責任。

Referenced Sources

參考來源

  1. Černý, P.C. and Ercit, T.S.E. 2005. The Classification of granitic pegmatites revisited. The Canadian Mineralogist Vol. 43, pp. 2005-2026.

  2. Breaks, F.W., Selway, J.B. and Tindle, A.G. 2006. Fertile and peraluminous granites and related rare-element mineralization in pegmatites, north-central and northeastern Superior Province, Ontario; Ontario Geological Survey, Open File Report 6195, 143p.

  3. Breaks, F.W. and Bond, W.D. 1993. The English River Subprovince - an Archean gneiss belt: geology, geochemistry, and associated mineralization; Ontario Geological Survey, Open File Report, 5846, 882p.

  4. Stott, G.M., Corkery, M.T., Percival, J.A., Simard, M. and Goutier J. 2010. A Revised Terrane Subdivision of the Superior Province; in Summary of Field Work and Other Activities 2010, Ontario Geological Survey, Open File Report 6260, p.20-1 to 20-8.

  5. Breaks, F.W., Selway, J.B. and Tindle, A.G. 2003. Fertile peraluminous granites and related rare-element mineralization in pegmatite, Superior Province, northwest and northeast Ontario: Operation Treasure Hunt; Ontario Geological Survey, Open File Report 6099, 179p.

  6. Breaks, F.W., Osmani, I.A. and deKemp, E.A. 1987. Precambrian geology of the Opapimiskan-Neawagank lakes area, western part (Opapimiskan Lake project), Kenora District (Patricia Portion); Ontario Geological Survey, Preliminary Map P. 3080.

  7. Breaks, F.W. and Tindle, A.G. 2002. Rare-element mineralization of the Separation Lake area, northwest Ontario: characteristics of a new discovery of complex-type, petalite-subtype, Li-Rb-Cs-Ta pegmatite; in Industrial minerals of Canada, Canadian Institute of Mining, Metallurgy and Petroleum, Special Volume 53, p.159-178.

  8. Taylor, R.P., and Henham, R. (2001): The Nature and Distribution of Tantalum-bearing Minerals in Newly Discovered, Rare-Element Pegmatites at the Musselwhite Mine, Northwestern Ontario. Exploration and Mining Geology 10(1/2), 85-93.

  9. Breaks, F.W., Selway, J.B. and Tindle, A.G. 2008. The Georgia Lake rare-element pegmatite field and related S-type, peraluminous granites, Quetico Subprovince, north-central Ontario; Ontario Geological Survey, Open File Report 6199, 176p.

  10. Zeng, F., & Calvert, A. J., 2006. Imaging the upper part of the Red Lake greenstone belt, a. northwestern Ontario, with 3-D travel time tomography. Canadian Journal of Earth Sciences, 43(7), p. 849-863.

  11. Lewis, S.O. 2021. Deep tapping seismic structure in the Red Lake district; in Ontario Geological Survey, Resident Geologist Program, Recommendations for Exploration 2020-2021, p.9-13.

  12. Zeng, F. and Calvert, A. 2011. Imaging the upper part of the Red Lake greenstone belt, northwestern Ontario, with 3-D traveltime tomography. Canadian Journal of Earth Sciences, v.43. p.849-863. .

  13. Buse, S. and Préfontaine, S. 2007. Precambrian geology of the McInnes Lake greenstone belt, the supracrustal remnants study area and the Frame Lake pluton, Berens River Subprovince, Ontario; Ontario Geological Survey, Open File Report 6210, 128p.

  14. Frontier Lithium:

  15. Cortis, A.L., Stott, G.M., Osmani, I.A., Atkinson, B. and Thurston, P.C. 1988. A geological re-evaluation of northwestern greenstone belts; in Summary of Field Work and Other Activities 1988, Ontario Geological Survey, Miscellaneous Paper 141, p.28-52.

  16. Stone, D. 1998. Precambrian geology of the Berens River area, northwest Ontario; Ontario Geological Survey, Open File Report 5963, 116p.

  17. Préfontaine, S. and Mumford, T. 2007. Precambrian geology of the McInnes Lake greenstone belt, northwestern Ontario-south sheet; Ontario Geological Survey, Preliminary Map P.3590.

  18. Préfontaine, S. and Mumford, T. 2007. Precambrian geology of the McInnes Lake greenstone belt, Northwestern Ontario-north sheet; Ontario Geological Survey, Preliminary Map P.3589, scale 1:20 000.

  19. MacLachlan, B. and Robertson, C. 2022. GoldON Resources Ltd. Report on the May to June and September Exploration Programs in the McInnes Lake Property. Assessment Work Report, MNDM, Sudbury, Ontario.

  20. Černý, P. and Meintzer. R.E. 1988. Fertile granites in the Archean and Proterozoic fields of rare-element pegmatites: crustal environment, geochemistry, and petrogenetic relationships; p. 170-206 in Recent Advances in the Geology of Granite-Related Mineral Deposits, The Canadian Institute of Mining and Metallurgy, Special Publication 39.

  1. Cerny,P.C. 和 Ercit,T.S.E. 2005。重溫花崗岩偉晶岩的分類。《加拿大礦物學家》第 43 卷,第 2005-2026 頁。

  2. Breaks,F.W.,Selway,J.B. 和 Tindle,A.G. 2006。安大略省中北部和東北部蘇必利爾省偉晶岩中的肥沃和過鋁花崗岩及相關的稀有元素礦化;安大略省地質調查局,公開文件報告6195,143p。

  3. Breaks,F.W. and Bond,W.D. 1993。英吉利河次省——太古時代的片麻岩帶:地質學、地球化學和相關礦化;安大略省地質調查局,公開檔案報告,5846,882p。

  4. Stott、G.M.、Corkery、M.T.、Percival、J.A.、Simard、M. 和 Goutier J. 2010。蘇必利爾省經修訂的地形分區;載於《2010年實地工作和其他活動摘要》,安大略省地質調查局,公開文件報告6260,第 20-1 至 20-8 頁。

  5. Breaks、F.W.、Selway、J.B. 和 Tindle,A.G. 2003。蘇必利爾省、安大略省西北部和東北部偉晶岩中肥沃的過鋁花崗岩和相關的稀有元素礦化:尋寶行動;安大略省地質調查局,公開文件報告6099,179p。

  6. Breaks,F.W.,Osmani,I.A. 和 DeKemp,E.A. 1987。奧帕皮米斯坎-內瓦甘克湖區的前寒武紀地質學,西部(奧帕皮米斯坎湖項目),凱諾拉區(帕特里夏部分);安大略省地質調查局,初步地圖 P. 3080。

  7. Breaks,F.W. and Tindle,A.G. 2002。安大略省西北部分離湖地區的稀有元素礦化:複合型、花瓣亞型 Li-Rb-Cs-Ta 偉晶岩新發現的特徵;載於《加拿大工業礦物》,加拿大礦業、冶金和石油研究所,特別卷53,第 159-178 頁。

  8. R.P. Taylor 和 R. Henham(2001):安大略省西北部穆塞爾懷特礦新發現的稀有元素偉晶岩中含鉭礦物的性質和分佈。勘探與採礦地質學 10 (1/2),85-93。

  9. Breaks,F.W.,Selway,J.B. 和 Tindle,A.G. 2008。喬治亞湖稀有元素偉晶岩田及相關的S型過鋁花崗岩,安大略省中北部奎蒂科省;安大略省地質調查局,公開文件報告6199,176p。

  10. Zeng、F. 和 Calvert,A.J.,2006。使用三維旅行時間斷層掃描,對安大略省西北部的紅湖綠巖帶上部進行成像。《加拿大地球科學雜誌》,43(7),第 849-863 頁。

  11. Lewis,S.O. 2021。紅湖區的深層挖掘地震結構;安大略省地質調查局,常駐地質學家計劃,2020-2021年勘探建議,第9-13頁。

  12. Zeng、F. 和 Calvert,A. 2011。使用三維旅行時間斷層掃描對安大略省西北部紅湖綠巖帶的上半部分進行成像。《加拿大地球科學雜誌》,第 43 卷。第 849-863 頁。

  13. Buse、S. 和 pre'fontaine,S. 2007。安大略省貝倫斯河分省麥金尼斯湖綠巖帶、超地晶殘餘物研究區和弗拉姆湖巖體的前寒武紀地質學;安大略省地質調查局,公開文件報告6210,128p。

  14. 前沿鋰電:

  15. Cortis,A.L.、Stott、G.M.、I.A. Osmani、B. Atkinson 和 P.C. Thurston,P.C. 1988。對西北綠巖帶的地質重新評估;載於《1988年實地工作和其他活動摘要》,安大略省地質調查局,雜項論文141,第 28-52 頁。

  16. Stone,D. 1998。安大略省西北部貝倫斯河地區的前寒武紀地質學;安大略省地質調查局,公開檔案報告5963,116p。

  17. Pre'fontaine,S. 和 Mumford,T.2007。安大略省西北部南部麥金尼斯湖綠巖帶的前寒武紀地質學;安大略省地質調查局,初步地圖 P.3590。

  18. Pre'fontaine,S. 和 Mumford,T.2007。麥金尼斯湖綠巖帶的前寒武紀地質學,安大略省西北部北圖;安大略省地質調查局,初步地圖 P.3589,比例 1:20 000。

  19. 麥克拉克蘭,B. 和 Robertson,C. 2022。Goldon Resources Ltd.關於麥金尼斯湖物業5月至6月和9月勘探計劃的報告。評估工作報告,MNDM,安大略省薩德伯裏。

  20. Cerny、P. 和 Meintzer。R.E. 1988。太古代和元古代稀有元素偉晶岩領域的肥沃花崗岩:地殼環境、地球化學和岩石成因關係;第 170-206 頁 花崗岩相關礦牀地質學的最新進展,加拿大礦業和冶金研究所,特別出版物39。

  1. Green Technology Metals:

  2. Taylor, S.R. and McClennan, S.M.1985. The continental crust: its composition and evolution; Blackwell, Oxford.

  3. Stone, D. 1998. Chemical Analyses of Minerals and Rocks of the Berens River Area; Ontario Geological Survey, Miscellaneous Release-Data 32.

  1. 綠色科技金屬:

  2. Taylor,S.R. 和 McClennan,S.M.1985。大陸地殼:其組成和演化;牛津布萊克威爾。

  3. Stone,D. 1998。貝倫斯河地區礦物和岩石的化學分析;安大略省地質調查局,雜項發佈數據 32。

To view the source version of this press release, please visit

要查看本新聞稿的源版本,請訪問

譯文內容由第三人軟體翻譯。


以上內容僅用作資訊或教育之目的,不構成與富途相關的任何投資建議。富途竭力但無法保證上述全部內容的真實性、準確性和原創性。
    搶先評論