UNITED STATES
SECURITIES AND EXCHANGE COMMISION
Washington, D.C. 20549
FORM 20-F
( ) | REGISTRATION STATEMENT PURSUANT TO SECTION 12(b) OR (g) OF THE SECURITIES EXCHANGE ACT OF 1934 |
OR
(X) | ANNUAL REPORT PURSUANT TO SECTION 13 OR 15 (d) OF THE SECURITIES EXCHANGE ACT OF 1934 FOR THE FISCAL YEAR ENDED DECEMBER 31, |
OR
( ) | TRANSITION REPORT PURSUANT TO SECTION 13 OR 15(d) OF THE SECURITIES EXCHANGE ACT OF 1934 |
OR
( ) | SHELL COMPANY REPORT PURSUANT TO SECTION 13 OR 15(d) OF THE SECURITIES EXCHANGE ACT OF 1934 |
Date of event requiring this shell company report
For the transition period from _____________________ to ____________________
Commission file number 001-32702
ALMADEN MINERALS LTD.
(Exact name of Registrant as specified in its charter)
British Columbia, Canada
(Jurisdiction of incorporation or organization)
1333 Johnston Street, #210, Vancouver, British Columbia V6H 3R9
(Address of principal executive offices)
Korm Trieu,
ktrieu@almadenminerals.com,(Name, Telephone, E-mail and/or Facsimile number and Address of Company Contact Person)
Securities registered or to be registered pursuant to Section 12(b) of the Act.
Title of each class | Name of each exchange on which registered | |||
Common Stock without Par Value | NYSE MKT |
Securities registered or to be registered pursuant to Section 12(g) of the Act.
None
(Title of Class)
Securities for which there is a reporting obligation pursuant to Section 15(d) of the Act.
None
Indicate the number of outstanding shares of each of the issuer'sissuer’s classes of capital or common stock as of the close of the period covered by the annual report.
102,199,625
Indicate by check mark if the registrant is a well-known seasoned issuer, as defined in Rule 405 of the Securities Act.
( ) Yes ( X ) No
If this report is an annual or transition report, indicate by check mark if the registrant is not required to file report pursuant to Section 13 or 15(d) of the Securities Exchange Act of 1934.
( ) Yes ( X ) No
Indicate by check mark whether the registrant (1) has filed all reports required to be filed by Section 13 or 15(d) of the Securities Exchange Act of 1934 during the preceding 12 months (or for such shorter period that the registrant was required to file such reports), and (2) has been subject to such filing requirements for the past 90 days.
( X ) Yes ( ) No
Indicate by check mark whether the registrant has submitted electronically and posted on its corporate Website, if any, every Interactive Data File required to be submitted and posted pursuant to Rule 405 of Regulation S-T (§232.405 of this chapter) during the preceding 12 months (or for such shorter period that the Registrant was required to submit and post such files).
( ) Yes ( ) No
As a foreign private issuer that prepares its financial statements in accordance with International Financial Reporting Standards ("IFRS"(“IFRS”) as issued by the International Accounting Standards Board ("IASB"(“IASB”), the Registrant ishas not currentlypreviously been required to submit to the SEC and post on its corporate website Interactive Data Files (as defined by Item 11 of Regulation S-T) pursuant to Rule 405 of Regulation S-T. This requirement will now apply to the Company for this its first annual report for a fiscal period ending on or after December 15, 2017.
Indicate by check mark weather the registrant is a large accelerated filer, an accelerated filer or a non-accelerated filer. See definition of "accelerated“accelerated filer and large accelerated filer"filer” in Rule 12b-2 of the Exchange Act.
Large accelerated filer ( ) | Accelerated filer (X) | Non-accelerated filer ( ) |
If an emerging growth company that prepares its financial statements in accordance with U.S. GAAP, indicate by check mark if the registrant has elected not to use the extended transition period for complying with any new or revised financial accounting standards† provided pursuant to Section 13(a) of the Exchange Act. ( )
Indicate by check mark which basis of accounting the registrant has used to prepare the financial statements included in this filing:
U.S. GAAP ( ) | International Financial Reporting Standards as issued (X) | Other ( ) |
by the International Accounting Standards Board | |
If "Other"“Other” has been checked in response to the previous question, indicate by check mark which financial statement item the registrant has elected to follow.
( ) Item 17 ( ) Item 18
If this is an annual report, indicate by check mark whether the registrant is a shell company (as defined in Rule 12b-2 of the Exchange Act).
( ) Yes ( X ) No
(APPLICABLE ONLY TO ISSUERS INVOLVED IN BANKRUPTCY PROCEEDS DURING THE PAST FIVE YEARS)
Indicate by check mark whether the registrant has filed all documents and reports required to be filed by Section 12, 13 or 15(d) of the Securities Exchange Act of 1934 subsequent to the distribution of securities under a plan confirmed by a court.
( ) Yes ( ) No
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TABLE OF CONTENTS
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Adularia:
A colourless, moderate to low-temperature variety of orthoclase feldspar typically with a relatively high barium content. It is a prominent constituent of low sulphidation epithermal veins.Alkalic Intrusive:
An igneous rock emplaced below ground level in which the feldspar is dominantly sodic and or potassic.Alkalinity:
The chemical nature of solutions characterized by a high concentration of hydroxyl ions.Alteration:
Usually referring to chemical reactions in a rock mass resulting from the passage of hydrothermal fluids.Andesite
: A dark-coloured, fine-grained extrusive rock that, when porphyritic, contains phenocrysts composed primarily of zoned sodic plagioclase (esp. andesine) and one or more of the mafic minerals (eg. Biotite, horn-blende, pyroxene), with a ground-mass composed generally of the same minerals as the phenocrysts; the extrusive equivalent of diorite. Andesite grades into latite with increasing alkali feldspar content, and into dacite with more alkali feldspar and quartz. It was named by Buch in 1826 from the Andes Mountains, South America.Anomalous:
A geological feature, often subsurface, distinguished by geological, geochemical or geophysical means, which is detectably different than the general surroundings and is often of potential economic value.Anomaly:
Any concentration of metal noticeably above or below the average background concentration.Argillic
: A form of alteration characterized by the alteration of original minerals to clays.Arsenopyrite
: A sulphide of arsenic and iron with the chemical composition FeAsS.Assay:
An analysis to determine the presence, absence or quantity of one or more components.Axis:
An imaginary hinge line about which the fold limbs are bent. The axis of a fold can be at the top or bottom of the fold, can be tilted or horizontal.Batholith:
An intrusion, usually granitic, which has a large exposed surface area and no observable bottom. Usually associated with orogenic belts.Breccia:
Rock consisting of more or less angular fragments in a matrix of finer-grained material or cementing material.Brecciated:
Rock broken up by geological forces.Bulk sample:
A very large sample, the kind of sample to take from broken rock or of gravels and sands when testing placer deposits.Calc-silicate:
Calcium-bearing silicate minerals. These minerals are commonly formed as a result of the interaction of molten rock and its derived, hot hydrothermal fluids with very chemically reactive calcium carbonate (limestone). Calc-silicate minerals include garnet, pyroxene, amphibole and epidote. These minerals are commonly described as skarn and are genetically and spatially associated with a wide range of metalsChert:
A very fine grained siliceous rock. Many limestones contain nodules and thin lenses of chert.Chip sample:
A sample composed of discontinuous chips taken along a surface across a given line.Claim:
That portion of public mineral lands, which a party has staked or marked out in accordance with provincial or state mining laws, to acquire the right to explore for the minerals under the surface.5 |
Clastic:
Consisting of rock material that has been mechanically derived, transported, and deposited. Such material is also called detrital.Cleavage:
The tendency of a crystal to split, or break, along planes of structural weakness.Concordant Bodies:
Intrusive igneous bodies whose contacts are parallel to the bedding of the intruded rock.Conglomerate:
Rock composed of mostly rounded fragments which are of gravel size or larger in a finer grained matrix.Craton:
A central stable region common to nearly all continents and composed chiefly of highly metamorphosed Precambrian rocks.Cretaceous:
Geological time period between 136 and 64 million years ago.Crystalline:
Means the specimen is made up of one or more groups of crystals.Cut-off grade:
The minimum grade of mineralization used to establish quantitative and qualitative estimates of total mineralization.Dacite:
A fine grained acid volcanic rock, similar to rhyolite in which the feldspar is predominantly plagioclase.Degradation:
The ongoing process of erosion in a stream.Diagenesis:
The changes that occur in a sediment during and after lithification. These changes include compaction, cementation, replacement, and recrystallization.Diamond drill:
A type of rotary drill in which the cutting is done by abrasion using diamonds embedded in a matrix rather than by percussion. The drill cuts a core of rock which is recovered in long cylindrical sections.Dilution:
Results from the mixing in of unwanted gangue or waste rock with the ore during mining.Dip:
Geological measurement of the angle of maximum slope of planar elements in rocks. Can be applied to beddings, jointing, fault planes, etc.Discordant Bodies:
Intrusive igneous bodies whose contacts cut across the bedding, or other pre-existing structures, to the intruded rock.Disseminated deposit
: Deposit in which the mineralization is scattered through a large volume of host rock, sometimes as separate mineral grains, or sometimes along joint or fault surfaces.Dyke:
A tabular, discordant, intrusive igneous body.Earn in:
The right to acquire an interest in a property pursuant to an Option Agreement.Ejecta:
Pyroclastic material thrown out or ejected by a volcano. It includes ash, volcanic bombs, and lapilli.Epithermal:
Epithermal deposits are a class of ore deposits that form generally less than 1 km from surface. These deposits, which can host economic quantities of gold, silver, copper, lead and zinc are formed as a result of the precipitation of ore minerals from up-welling hydrothermal fluids. There are several classes of epithermal deposits that are defined on the basis of fluid chemistry and resulting alteration and ore mineralogy. Fluid chemistry is largely controlled by the proximity to igneous intrusive rocks and as a result igneous fluid content.Extrusive Rock:
Igneous rock that has solidified on theFault
: A fracture in a rock where there had been displacement of the two sides.6 |
Faults:
Breaks in rocks with noticeable movement or displacement of the rocks on either side of the break.Feldspar:
A group of aluminum silicate minerals closely related in chemical composition and physical properties. There are two major chemical varieties of feldspar: the potassium aluminum, or potash, feldspars and the sodium-calcium-aluminum, or plagioclase, feldspars. The feldspars possess a tetrahedral framework of silicon and oxygen, with the partial substitution of aluminum for the silicon. They make up about 60 percent of theFelsic:
Light colored silicate minerals, mainly quartz and feldspar, or an igneous rock comprised largely of felsic minerals (granite, rhyolite).Fluid inclusion:
Folds:
Are flexures in bedded or layered rocks. They are formed when forces are applied gradually to rocks over a long period of time.Fracture:
Breaks in a rock, usually due to intensive folding or faulting.Gangue:
Term used to describe worthless minerals or rock waste mixed in with the valuable minerals.Geochemical Anomaly:
An area of elevated values of a particular element in soil or rock samples collected during the preliminary reconnaissance search for locating favourable metal concentrations that could indicate the presence of surface or drill targets.Geochemistry:
The study of the chemistry of rocks, minerals, and mineral deposits.Geophysics:
The study of the physical properties of rocks, minerals, and mineral deposits.Gouge:
The finely ground rock that results from the abrasion along a fault surface.Grade:
The concentration of each ore metal in a rock sample, usually given as weight percent. Where extremely low concentrations are involved, the concentration may be given in grams per tonne (g/t) or ounces per ton (oz/t). The grade of an ore deposit is calculated, often using sophisticated statistical procedures, as an average of the grades of a very large number of samples collected from throughout the deposit.Granite:
A coarse grained, plutonic igneous rock that is normally pale pink, pale pink-brown, or pale grey, and composed of quartz, alkali feldspar, micas and accessory minerals.Granodiorite:
A course grained, plutonic igneous rock that is normally pale grey, and composed of quartz, calc-alkali feldspar, micas and accessory minerals.Grid:
A network composed of two sets of uniformly spaced parallel lines, usually intersecting at right angles and forming squares, superimposed on a map, chart, or aerial photograph, to permit identification of ground locations by means of a system or coordinates and to facilitate computation of direction and distance and size of geologic, geochemical or geophysical features.Hectare:
A square of 100 meters on each side.Host rock:
The rock within which the ore deposit occurs.Hydrothermal:
Of or pertaining to hot water, to the action of hot water, or to the products of this action, such as a mineral deposit precipitated from a hot aqueous solution; also, said of the solution itself.7 |
Igneous:
Means a rock formed by the cooling of molten silicate material.Induced polarization (I.P.) method:
The method used to measure various electrical responses to the passage of alternating currents of different frequencies through near-surface rocks or to the passage of pulses of electricity.Intermediate:
An igneous rock made up of both felsic and mafic minerals (diorite).Intrusion
: General term for a body of igneous rock formed below the surface.Intrusive Rock:
Any igneous rock solidified from magma beneath theJoint venture agreement:
An agreement where the parties agree to the terms on which a property will be jointly explored, developed, and mined. (See alsoJurassic:
Geological time period between 195 and 136 million years ago.Kriging:
(a) A statistical technique employed in calculating grade and tonnage of ore reserves from sampling data. The data are handled by computer. (b) A technique for interpolating which honors data points exactly. An output point is calculated as a linear combination of known data points. Kriging attempts to produce the best linear unbiased estimate. Used to interpolate between drill holes.K-silicate:
Potassium-bearing silicates. Potassium silicates are very common rock-forming minerals, however they are also formed by the interaction ofK-spar:
Potassium feldspar.Lava:
Means an igneous rock formed by the cooling of molten silicate material which escapes to theLimestone:
Sedimentary rock that is composed mostly of carbonates, the two most common of which are calcium and magnesium carbonates.Lithosphere:
The crust and upper mantle, located above the asthenosphere and composing the rigid plates.Mafic:
A general term used to describe ferromagnesian minerals. Rocks composed mainly of ferromagnesian minerals are correctly termed melanocratic.Magma:
Naturally occurring molten rock material, generated within the earth and capable of intrusion and extrusion, from which igneous rocks have been derived through solidification and related processes. It may or may not contain suspended solids (such as crystals and rock fragments) and/or gas phases.Massive:
Implies large mass. Applied in the context of hand specimens of, for example, sulphide ores, it usually means the specimen is composed essentially of sulphides with few, if any, other constituents.Metamorphic:
Means any rock which is altered within theMetasediment
: A sediment or sedimentary rock that shows evidence of having been subjected to metamorphism.Metavolcanic:
An informal term for volcanic rocks that show evidence of having been subject to metamorphism.Mineral claim:
A legal entitlement to minerals in a certain defined area of ground.8 |
Mineral Deposit or Mineralized Material:
A mineralized underground body which has been intersected by sufficient closely spaced drill holes and/or underground sampling to support sufficient tonnage and average grade of metal(s) to warrant further exploration-development work. This deposit does not qualify as a commercially mineable ore body (Reserves), as prescribed under Commission standards, until a final and comprehensive economic, technical, and legal feasibility study based upon the test results is concluded.Mineral:
A naturally occurring, inorganic, solid element or compound that possesses an orderly internal arrangement of atoms and a unique set of physical and chemical properties.Mineralization:
Usually implies minerals of value occurring in rocks.National Instrument 43-101 or NI 43-101:
A rule developed by the Canadian Securities Administrators and administered by the provincial securities commissions that govern how issuers disclose scientific and technical information about their mineral projects to the public. It covers oral statements as well as written documents and websites. It requires that all disclosure be based on advice by aNet profits interest:
A contractual granted right to some portion of the profits after deduction of expenses sometimes expressed as a form of royalty.Net smelter returns:
Means the amount actually paid to the mine or mill owner from the sale of ore, minerals and other materials or concentrates mined and removed from mineral properties. A royalty based on net smelter returns usually provides cash flow that is free of any operating or capital costs and environmental liabilities.Option agreement:
An agreement where the optionee can exercise certain options to acquire or increase an interest in a property by making periodic payments or share issuances or both to the optionor or by exploring, developing or producing from theOrdinary kriging:
The basic technique of kriging and uses a weighted average of neighboring samples to estimate the 'unknown' value at a given location. Weights are optimized using the semi-variogram model, the location of the samples and all the relevant inter-relationships between known and unknown values. The technique also provides a "standard error" which may be used to quantify confidence levels.Ore:
A natural aggregate of one or more minerals which may be mined and sold at a profit, or from which some part may be profitably separated.Ore reserve:
The measured quantity and grade of all or part of a mineralized body in a mine or undeveloped mineral deposit for which the mineralization is sufficiently defined and measured on three sides to form the basis of at least a preliminary mine production plan for economically viable mining.Orogeny:
The process of forming mountains by folding and thrusting.Outcrop:
An in situ exposure of bedrock.Overburden:
A general term for any material covering or obscuring rocks from view.oz/t or opt:
Ounces per ton.Paleozoic:
An era of geologic time, from the end of the Precambrian to the beginning of the Mesozoic, or from about 570 to about 225 million years ago.Phenocrysts
: An unusually large crystal in a relatively finer grained matrix.Pluton:
Term for an igneous intrusion, usually formed from magma.Porphyry:
An igneous rock composed of larger crystals set within a finer ground mass.9 |
Pyroclastic rock:
A rock of volcanic origin consisting of highly variable mixture of rock fragments, cinders and ashes and bits of crystals and glass.Quartz monzonite:
A course grained, plutonic igneous rock that is normally pale pink, and composed of quartz, alkali feldspar, micas and accessory minerals.Rare Earth:
A group of rare metallic chemical elements with consecutive atomic numbers of 57 to 71.Reclamation bond:
A bond usually required by governmental mining regulations when mechanized work on a property is contemplated. Proceeds of the bond are used to reclaim any workings or put right any damage if reclamation undertaken does not satisfy the requirements of the regulations.Reserve:
That part of a mineral deposit which could be economically extracted or produced at the time of the reserve determination.Reserves:
A natural aggregate of one or more minerals which, at a specified time and place, may be mined and sold at a profit, or from which some part may be profitably separated.Reverse circulation drill:
A rotary percussion drill in which the drilling mud and cuttings return to the surface through the drill pipe.Rhyolite:
The fine grained equivalent of granite.Royalty interest:
A royalty, the calculation and payment of which is tied to some production unit such as ton of concentrate or ounce of gold or silver produced. A common form of royalty interest is based on the net smelter return.Sample:
Small amount of material that is supposed to be absolutely typical or representative of the object being sampled.Sandstone:
Composed of sand-sized fragments cemented together. As a rule the fragments contain a high percentage of quartz.Sedimentary:
A rock formed from cemented or compacted sediments.Sediments:
Are composed of the debris resulting from the weathering and breakup of other rocks that have been deposited by or carried to the oceans by rivers, or left over from glacial erosion or sometimes from wind action.Selvage:
A marginal zone, as in a dyke or vein, having some distinctive feature of fabric or composition.Sericite:
A fine-grained variety of mica occurring in small scales, especially in schists.Shale:
An argillaceous rock consisting of silt or clay-sized particles cemented together. Most shales are quite soft, because they contain large amounts of clay minerals.Silicate:
Most rocks are made up of a small number of silicate minerals ranging from quartz (SiO2) to more complex minerals such as orthoclase feldspar (KAlSi3O8) or hornblende (Ca2Na(Mg,Fe)4(Al,Fe,Ti)Si8)22(OH)2).Sill:
Tabular intrusion which is sandwiched between layers in the host rock.Skarn:
A thermally altered impure limestone in which material has been added to the original rock. Skarns are generally characterized by the presence of calcium and silica rich minerals. Many skarns contain sulphide minerals which in some cases can be of economic value.10 |
Stock:
An igneous intrusive body of unknown depth with a surface exposure of less than 104 square kilometres. The sides, or contacts, of a stock, like those of a batholith, are usually steep and broaden with depth.Stockwork:
A mineral deposit consisting of a three-dimensional network of closely spaced planar or irregular veinlets.Strike:
The bearing, or magnetic compass direction, of an imaginary line formed by the intersection of a horizontal plane with any planar surface, most commonly with bedding planes or foliation planes in rocks.Sulphide minerals
: A mineral compound characterized by the linkage of sulfur with a metal or semimetal; e.g., galena.Syncline:
A fold in which the bed has been forced down in the middle or up on the sides to form a trough.Tailings:
Material rejected from a mill after recoverable valuable minerals have been extracted.Tailings pond:
A pond where tailings are disposed of.Tonne:
Metric ton – 1,000 kilograms – equivalent to 1.1023 tons.Triassic:
Geological time period between 225 and 195 million years ago.Tuff:
A finer grained pyroclastic rock made up mostly of ash and other fine grained volcanic material.Veins:
The mineral deposits that are found filling openings in rocks created by faults or replacing rocks on either side of faults.Vuggy silica:
In a high sulphidation epithermal environment, the highly acidic waters have dissolved everything but silica resulting in a highly porous and pox marker rock which is a good host for gold deposition. It is an indicator mineralization typical of epithermal rocks.Waste:
Rock which is not ore. Usually referred to that rock which has to be removed during the normal course of mining in order to get at the ore.Glossary of Abbreviations
Ag:
SilverAg g/t:
Silver grade measured in grams per metric tonConverts to ounces per ton by dividing by 34.286
Au:
GoldAu g/t:
Gold grade measured in grams per metric tonConverts to ounces per ton by dividing by 34.286
Cu:
Copperg/t:
grams per tonneIP:
Induced Polarization geophysical surveymasl:
meters above sea levelNSR:
net smelter returns royaltyOz:
Troy ounceQA/QC:
Quality Assurance/Quality Controltpd:
Tonnes per dayton:
Short ton (2,000 pounds)tonne:
Metric ton (1000 kilograms - 2204.62 pounds)11 |
Please see "CAUTIONARY“CAUTIONARY NOTE TO U.S. INVESTORS REGARDING MINERAL RESOURCE AND MINERAL RESERVE ESTIMATES,"” below.
The terms "mineral resource", "measured mineral resource", "indicated mineral resource", "inferred mineral resource", "mineral reserve"“mineral reserve”, "probable“probable mineral reserve"reserve” and "proven“proven mineral reserve"reserve” used in this Annual Report are Canadian mining terms as defined in accordance with National Instrument 43-101 (“NI 43-101”), Standards of Disclosure for Mineral Projects under the guidelines set out in the Canadian Institute of Mining, Metallurgy and Petroleum (the "CIM") Standards on Mineral Resources and Mineral Reserves, adopted by the CIM Council. On November 14, 2004, November 27, 2010 and May 10, 2014, CIM Council adopted an update to the CIM Definition Standards to reflect the more detailed guidance available and effect certain editorial changes required to maintain consistency with current regulations. This version of the CIM Definition Standards includes further editorial changes required to maintain compatibility with the new version of National Instrument 43-101 which became Canadian law in 2011. The CIM Definition Standards can be viewed on the CIM website at www.cim.org.www.cim.org. In accordance with Industry Guide 7, Description of Property by Issuers Engaged or to be Engaged in Significant Mining Operations, issued by the U. S. Securities and Exchange Commission (the “Commission”), a reserve is termed a "mineral deposit"“mineral deposit”.
Definitions
Qualified Person
Mineral Resource and Mineral Reserve estimates and resulting technical reports under NI 43-101 must be prepared by or under the direction of, and dated and signed by, a Qualified Person. A "Qualified Person"“Qualified Person” means an individual who is an engineer or geoscientist with a university degree, or equivalent accreditation, with at least five years of experience in mineral exploration, mine development or operation or mineral project assessment, or any combination of these; has experience relevant to the subject matter of the mineral project and the technical report; and is a member or licensee in good standing of a professional association. The Qualified Person(s) should be clearly satisfied that they could face their peers and demonstrate competence and relevant experience in the commodity, type of deposit and situation under consideration. If doubt exists, the person must either seek or obtain opinions from other colleagues or demonstrate that he or she has obtained assistance from experts in areas where he or she lacked the necessary expertise. Determination of what constitutes relevant experience can be a difficult area and common sense has to be exercised. For example, in estimating Mineral Resources for vein gold mineralization, experience in a high-nugget, vein-type mineralization such as tin, uranium etc. should be relevant whereas experience in massive base metal deposits may not be. As a second example, for a person to qualify as a Qualified Person in the estimation of Mineral Reserves for alluvial gold deposits, he or she would need to have relevant experience in the evaluation and extraction of such deposits. Experience with placer deposits containing minerals other than gold, may not necessarily provide appropriate relevant experience for gold. In addition to experience in the style of mineralization, a Qualified Person preparing or taking responsibility for Mineral Resource estimates must have sufficient experience in the sampling, assaying, or other property testing techniques that are relevant to the deposit under consideration in order to be aware of problems that could affect the reliability of the data. Some appreciation of extraction and processing techniques applicable to that deposit type might also be important.
Estimation of Mineral Resources is often a team effort, for example, involving one person or team collecting the data and another person or team preparing the Mineral Resource estimate. Within this team, geologists usually occupy the pivotal role. Estimation of Mineral Reserves is almost always a team effort involving a number of technical disciplines, and within this team mining engineers have an important role. Documentation for a Mineral Resource and Mineral Reserve estimate must be compiled by, or under the supervision of, a Qualified Person(s), whether a geologist, mining engineer or member of another discipline. It is recommended that, where there is a clear division of responsibilities within a team, each Qualified Person should accept responsibility for his or her particular contribution. For example, one Qualified Person could accept responsibility for the collection of Mineral Resource data, another for the Mineral Reserve estimation process, another for the mining study, and the project leader could accept responsibility for the overall document. It is important that the Qualified Person accepting overall responsibility for a Mineral Resource and/or Mineral Reserve estimate and supporting documentation, which has been prepared in whole or in part by others, is satisfied that the other contributors are Qualified Persons with respect to the work for which they are taking responsibility and that such persons are provided adequate documentation.
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Preliminary Economic Assessment (PEA)
A study, other than a Pre-Feasibility or Feasibility Study, that includes an economic analysis of the potential viability of mineral resources.
Preliminary Feasibility Study (Pre-Feasibility Study)
The CIM Definition Standards requires the completion of a Preliminary Feasibility Study as the minimum prerequisite for the conversion of Mineral Resources to Mineral Reserves.
A Preliminary Feasibility Study is a comprehensive study of a range of options for the technical and economic viability of a mineral project that has advanced to a stage where a preferred mining method, in the case of underground mining, or the pit configuration, in the case of an open pit, is established and an effective method of mineral processing is determined. It includes a financial analysis based on reasonable assumptions on mining, processing, metallurgical, economic, marketing, legal, environmental, social and governmental considerations and the evaluation of any other relevant factors which are sufficient for a Qualified Person, acting reasonably, to determine if all or part of the Mineral Resource may be classified as a Mineral Reserve.
Feasibility Study
A Feasibility Study is a comprehensive technical and economic study of the selected development option for a mineral project that includes appropriately detailed assessments of realistically assumed mining, processing, metallurgical, economic, marketing, legal, environmental, social and governmental considerations together with any other relevant operational factors and detailed financial analysis, that are necessary to demonstrate at the time of reporting that extraction is reasonably justified (economically mineable). The results of the study may reasonably serve as the basis for a final decision by a proponent or financial institution to proceed with, or finance, the development of the project. The confidence level of the study will be higher than that of a Pre-Feasibility Study.
Exploration Information
Exploration information means geological, geophysical, geochemical, sampling, drilling, trenching, analytical testing, assaying, mineralogical, metallurgical and other similar information concerning a particular property that is derived from activities undertaken to locate, investigate, define or delineate a mineral prospect or mineral deposit. It is recognized that in the review and compilation of data on a project or property, previous or historical estimates of tonnage and grade, not meeting the minimum requirement for classification as Mineral Resource, may be encountered. If a Qualified Person reports Exploration Information in the form of tonnage and grade, it must be clearly stated that these estimates are conceptual or order of magnitude and that they do not meet the criteria of a Mineral Resource.
Mineral Resource
Mineral Resources are sub-divided, in order of increasing geological confidence, into Inferred, Indicated and Measured categories. An Inferred Mineral Resource has a lower level of confidence than that applied to an Indicated Mineral Resource. An Indicated Mineral Resource has a higher level of confidence than an Inferred Mineral Resource but has a lower level of confidence than a Measured Mineral Resource. A Mineral Resource is a concentration or occurrence of diamonds, natural solid inorganic material, or natural solid fossilized organic material including base and precious metals, coal, and industrial minerals in or on the Earth'sEarth’s crust in such form and quantity and of such a grade or quality that it has reasonable prospects for economic extraction. The location, quantity, grade, geological characteristics and continuity of a Mineral Resource are known, estimated or interpreted from specific geological evidence and knowledge. The term Mineral Resource covers mineralization and natural material of intrinsic economic interest which has been identified and estimated through exploration and sampling and within which Mineral Reserves may subsequently be defined by the consideration and application of technical, economic, legal, environmental, socio-economic and governmental factors. The phrase "reasonable“reasonable prospects for economic extraction"extraction” implies a judgment by the Qualified Person in respect of the technical and economic factors likely to influence the prospect of economic extraction. A Mineral Resource is an inventory of mineralization that under realistically assumed and justifiable technical and economic conditions might become economically extractable. These assumptions must be presented explicitly in both public and technical reports.
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Inferred Mineral Resource
An "Inferred“Inferred Mineral Resource"Resource” is that part of a Mineral Resource for which quantity and grade or quality can be estimated on the basis of geological evidence and limited sampling and reasonably assumed, but not verified, geological and grade continuity. The estimate is based on limited information and sampling gathered through appropriate techniques from locations such as outcrops, trenches, pits, workings and drill holes. Due to the uncertainty that may be attached to Inferred Mineral Resources, it cannot be assumed that all or any part of an Inferred Mineral Resource will be upgraded to an Indicated or Measured Mineral Resource as a result of continued exploration. Confidence in the estimate is insufficient to allow the meaningful application of technical and economic parameters or to enable an evaluation of economic viability worthy of public disclosure. Inferred Mineral Resources must be excluded from estimates forming the basis of feasibility or other economic studies.
Indicated Mineral Resource
An "Indicated“Indicated Mineral Resource"Resource” is that part of a Mineral Resource for which quantity, grade or quality, densities, shape and physical characteristics can be estimated with a level of confidence sufficient to allow the appropriate application of technical and economic parameters, to support mine planning and evaluation of the economic viability of the deposit. The estimate is based on detailed and reliable exploration and testing information gathered through appropriate techniques from locations such as outcrops, trenches, pits, workings and drill holes that are spaced closely enough for geological and grade continuity to be reasonably assumed. Mineralization may be classified as an Indicated Mineral Resource by the Qualified Person when the nature, quality, quantity and distribution of data are such as to allow confident interpretation of the geological framework and to reasonably assume the continuity of mineralization. The Qualified Person must recognize the importance of the Indicated Mineral Resource category to the advancement of the feasibility of the project. An Indicated Mineral Resource estimate is of sufficient quality to support a Preliminary Feasibility Study which can serve as the basis for major development decisions.
Measured Mineral Resource
A "Measured“Measured Mineral Resource"Resource” is that part of a Mineral Resource for which quantity, grade or quality, densities, shape, and physical characteristics are so well established that they can be estimated with confidence sufficient to allow the appropriate application of technical and economic parameters, to support production planning and evaluation of the economic viability of the deposit. The estimate is based on detailed and reliable exploration, sampling and testing information gathered through appropriate techniques from locations such as outcrops, trenches, pits, workings and drill holes that are spaced closely enough to confirm both geological and grade continuity. Mineralization or other natural material of economic interest may be classified as a Measured Mineral Resource by the Qualified Person when the nature, quality, quantity and distribution of data are such that the tonnage and grade of the mineralization can be estimated to within close limits and that variation from the estimate would not significantly affect potential economic viability. This category requires a high level of confidence in, and understanding of, the geology and controls of the mineral deposit.
Mineral Reserve
Mineral Reserves are sub-divided in order of increasing confidence into Probable Mineral Reserves and Proven Mineral Reserves. A Probable Mineral Reserve has a lower level of confidence than a Proven Mineral Reserve.
A Mineral Reserve is the economically mineable part of a Measured or Indicated Mineral Resource demonstrated by at least a Preliminary Feasibility Study. This Study must include adequate information on mining, processing, metallurgical, economic and other relevant factors that demonstrate, at the time of reporting, that economic extraction can be justified. A Mineral Reserve includes diluting materials and allowances for losses that may occur when the material is mined. Mineral Reserves are those parts of Mineral Resources which, after the application of all mining factors, result in an estimated tonnage and grade which, in the opinion of the Qualified Person(s) making the estimates, is the basis of an economically viable project after taking account of all relevant processing, metallurgical, economic, marketing, legal, environment, socio-economic and government factors. Mineral Reserves are inclusive of diluting material that will be mined in conjunction with the Mineral Reserves and delivered to the treatment plant or equivalent facility. The term "Mineral Reserve"“Mineral Reserve” need not necessarily signify that extraction facilities are in place or operative or that all governmental approvals have been received. It does signify that there are reasonable expectations of such approvals.
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Probable Mineral Reserve
A "Probable“Probable Mineral Reserve"Reserve” is the economically mineable part of an Indicated and, in some circumstances, a Measured Mineral Resource demonstrated by at least a Preliminary Feasibility Study. This Study must include adequate information on mining, processing, metallurgical, economic, and other relevant factors that demonstrate, at the time of reporting, that economic extraction can be justified.
Proven Mineral Reserve
A "Proven“Proven Mineral Reserve"Reserve” is the economically mineable part of a Measured Mineral Resource demonstrated by at least a Preliminary Feasibility Study. This Study must include adequate information on mining, processing, metallurgical, economic, and other relevant factors that demonstrate, at the time of reporting, that economic extraction is justified. Application of the Proven Mineral Reserve category implies that the Qualified Person has the highest degree of confidence in the estimate with the consequent expectation in the minds of the readers of the report. The term should be restricted to that part of the deposit where production planning is taking place and for which any variation in the estimate would not significantly affect potential economic viability.
As used in this Annual Report on Form 20-F, the terms "Mineral“Mineral Reserve," "Proven” “Proven Mineral Reserve"Reserve” and "Probable“Probable Mineral Reserve"Reserve” are Canadian mining terms defined in accordance with NI 43-101 and the CIM Standards. These definitions differ from the definitions in SEC Industry Guide 7 under the U.S. Securities Act. Under SEC Industry Guide 7, a reserve is defined as that part of a mineral deposit which could be economically and legally extracted or produced at the time the reserve determination is made. The terms "Mineral“Mineral Resource," "Measured” “Measured Mineral Resource," "Indicated” “Indicated Mineral Resource"Resource” and "Inferred“Inferred Mineral Resource"Resource” are defined in and required to be used by NI 43-101. However, these terms are not defined terms under SEC Industry Guide 7 and are normally not permitted to be used in reports and registration statements filed with the SEC. Investors are cautioned not to assume that all, or any part, of a mineral deposit in these categories will ever be converted into reserves. "Indicated“Indicated Mineral Resource"Resource” and "Inferred“Inferred Mineral Resource"Resource” have a great amount of uncertainty as to their existence, and great uncertainty as to their economic and legal feasibility. It cannot be assumed that all, or any part, of an Indicated Mineral Resource or an Inferred Mineral Resource will ever be upgraded to a higher category. Under Canadian rules, estimates of Inferred Mineral Resources may not form the basis of Feasibility or Preliminary Feasibility studies, except in rare cases. Investors are cautioned not to assume that all, or any part, of an Inferred Mineral Resource exists or is economically or legally mineable. Disclosure of "contained ounces"“contained ounces” in a resource is permitted disclosure under Canadian regulations. However, the SEC normally only permits issuers to report mineralization that does not constitute "reserves"“reserves” by SEC standards as in place tonnage and grade without reference to unit measures. Accordingly, information contained in this Annual Report on Form 20-F and the exhibits filed herewith or incorporated by reference herein contain descriptions of mineral deposits that may not be comparable to similar information made public by U.S. companies subject to the reporting and disclosure requirements under U.S. federal securities laws and the rules and regulations promulgated thereunder. Further, the term "mineralized material"“mineralized material” as used in this Annual Report on Form 20-F does not indicate "reserves"“reserves” by SEC standards. We cannot be certain that mineralized material will ever be confirmed or converted into SEC Industry Guide 7 compliant "reserves". Investors are cautioned not to assume that mineralized material will ever be confirmed or converted into reserves or that mineralized material can be economically or legally extracted.
Conversion Table
Metric / Imperial
1.0 millimeter (mm) = 0.039 inches (in)
1.0 meter (m) = 3.28 feet (ft)
1.0 kilometer (km) = 0.621 miles (mi)
1.0 hectare (ha) = 2.471 acres (ac)
1.0 gram (g) = 0.032 troy ounces (oz)
1.0 metric tonne (t) = 1.102 short tons (ton)
1.0 g/t = 0.029 oz/ton
Unless otherwise indicated, all dollar ($) amounts referred to herein are in Canadian dollars.
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Statements contained in this Annual Report on Form 20-F of the Registrant, Almaden Minerals Ltd. ("Almaden"(“Almaden” or the "Company"“Company”), and the exhibits attached hereto that are not historical facts are forward-looking statements within the meaning of U.S. and Canadian securities legislation and the U.S. Private Securities Litigation Reform Act of 1995 that involve risks and uncertainties. Such forward-looking statements include, but are not limited to, statements with respect to anticipated results and developments in the Company'sCompany’s operations, planned exploration and development of the Company'sCompany’s properties, plans related to the Company'sCompany’s business and other matters that may occur in the future. These statements relate to analyses and other information that are based on forecasts of future results, estimates of amounts not yet determinable and assumptions of management. Statements concerning Mineral Reserve and Mineral Resource estimates may also be deemed to constitute forward-looking statements to the extent that they involve estimates of the mineralization that will be encountered if a property is developed, and in the case of Mineral Reserves, such statements reflect the conclusion based on certain assumptions that the mineral deposit can be economically exploited. Any statements that express or involve discussions with respect to predictions, expectations, beliefs, plans, projections, objectives, assumptions or future events or performance (often, but not always, using words or phrases such as "expects"“expects” or "does“does not expect"expect”, "is expected"“is expected”, "anticipates"“anticipates” or "does“does not anticipate"anticipate”, "plans"“plans”, "estimates"“estimates” or "intends"“intends”, or stating that certain actions, events or results "may"“may”, "could"“could”, "would"“would”, "might"“might” or "will"“will” (or the negative and grammatical variations of any of these terms and similar expressions) be taken, occur or be achieved) are not statements of historical fact and may be forward-looking statements. Forward-looking statements and forward-looking information are based, in part, on assumptions and factors that may change and are subject to a variety of known and unknown risks, uncertainties and other factors which could cause actual events or results, performance or achievements of the Company to differ materially from those expressed or implied by the forward-looking statements and forward-looking information. Some of the important risks, uncertainties and other factors that could affect forward-looking statements and forward-looking information include, but are not limited to, those described further in the sections entitled "ITEM“ITEM 3. KEY INFORMATION - Risk Factors"Factors”, "ITEM“ITEM 4. INFORMATION ON THE COMPANY - Business Overview"Overview”, "ITEM“ITEM 4. INFORMATION ON THE COMPANY – Principal Property Interests"Interests” and "ITEM“ITEM 5. OPERATING AND FINANCIAL REVIEW AND PROSPECTS"PROSPECTS” and in the exhibits attached to this Annual Report on Form 20-F. Should one or more of these risks, uncertainties and other factors materialize, or should underlying assumptions prove incorrect, actual results may vary materially from those described in the Company'sCompany’s forward-looking statements or forward-looking information. There can be no assurance that forward-looking statements will prove to be accurate, as actual results and future events could differ materially from those anticipated in such statements and information. The forward-looking statements and forward-looking information are based on beliefs, expectations and opinions of the Company'sCompany’s management on the date of this Annual Report on Form 20-F and speak only as of the date hereof and the Company does not undertake any obligation to publicly update forward-looking statements or forward-looking information contained herein to reflect events or circumstances after the date hereof, except as required by law. For the reasons set forth above, investors should not place undue reliance on forward-looking statements.
Forward-looking statements and other information contained herein concerning the mining industry and the Company'sCompany’s expectations concerning the mining industry are based on estimates prepared by the Company using data from publicly available sources as well as from market research and industry analysis and on assumptions based on data and knowledge of this industry which the Company believes to be reasonable. However, this data is inherently imprecise, although generally indicative of relative market positions, market shares and performance characteristics. While the Company is not aware of any misstatements regarding any mining industry data presented herein, the industry involves risks and uncertainties and is subject to change based on various factors.
Certain historical and forward-looking information contained in this Annual Report on Form 20-F has been provided by, or derived from information provided by, certain persons other than the Company. Although the Company does not have any knowledge that would indicate that any such information is untrue or incomplete, the Company assumes no responsibility for the accuracy and completeness of such information or the failure by such other persons to disclose events which may have occurred or may affect the completeness or accuracy of such information, but which is unknown to the Company.
Please consult the Company'sCompany’s public filings at www.sec.gov for further, more detailed information concerning these matters.
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PART I
Not applicable
Not applicable
The following selected financial data of the Company for Fiscal 2017, Fiscal 2016 and Fiscal 2015 and Fiscal 2014 ended December 31st was derived from the consolidated financial statements of the Company included elsewhere in this 20-F Annual Report. The selected financial data set forth for Fiscal 20132014 and Fiscal 20122013 ended December 31st are derived from the Company's audited consolidated financial statements, not included herein. The selected financial data should be read in conjunction with the consolidated financial statements and other information included immediately following the text of this Annual Report.
The consolidated financial statements of the Company have been prepared in accordance and compliance with International Financial Reporting Standards as issued by the International Accounting Standards Board ("IFRS"(“IFRS”).
The basis of preparation is described in Note 23 of the consolidated financial statements.
Table No. 1 | ||||||||||
Selected Financial Data | ||||||||||
International Financial Reporting Standards ("IFRS") | ||||||||||
(expressed in thousands of Canadian dollars, except share and per share data) | ||||||||||
Year | Year | Year | Year | Year | ||||||
Ended | Ended | Ended | Ended | Ended | ||||||
12/31/2016 | 12/31/2015 | 12/31/2014 | 12/31/2013 | 12/31/2012 | ||||||
Revenues | $ - | $ - | $ - | $220 | $299 | |||||
Other Income (loss) | 444 | 2,711 | (9,496) | - | - | |||||
Net loss and comprehensive loss | (4,024) | (1,145) | (14,701) | (6,357) | (10,238) | |||||
Basic net (loss) income per common share | (0) | (0) | (0) | (0) | (0) | |||||
Diluted net (loss) income per common share | (0) | (0) | (0) | (0) | (0) | |||||
Weighted average shares (000) | 82,323 | 73,249 | 66,331 | 62,055 | 59,350 | |||||
Working capital | 9,293 | 5,808 | 9,172 | 12,676 | 19,475 | |||||
Exploration and evaluation assets | 36,962 | 30,538 | 28,645 | 24,447 | 16,609 | |||||
Net assets | 45,221 | 35,983 | 39,637 | 47,891 | 48,071 | |||||
Total assets | 47,514 | 38,215 | 42,019 | 48,988 | 49,132 | |||||
Capital stock | 95,290 | 83,758 | 87,084 | 81,151 | 75,238 | |||||
Dividends declared per share | - | - | - | - | - | |||||
Table No. 1
Selected Financial Data
International Financial Reporting Standards (“IFRS”)
(expressed in thousands of Canadian dollars, except share and per share data)
Year | Year | Year | Year | Year | ||||||||||||||||
Ended | Ended | Ended | Ended | Ended | ||||||||||||||||
12/31/2017 | 12/31/2016 | 12/31/2015 | 12/31/2014 | 12/31/2013 | ||||||||||||||||
Revenues | $ | - | $ | - | $ | - | $ | - | $ | 220 | ||||||||||
Other Income (loss) | 468 | 444 | 2,711 | (9,496 | ) | - | ||||||||||||||
Net loss and comprehensive loss | (5,231 | ) | (4,024 | ) | (1,145 | ) | (14,701 | ) | (6,357 | ) | ||||||||||
Basic net (loss) income per common share | (0.05 | ) | (0.05 | ) | (0.02 | ) | (0.23 | ) | (0.10 | ) | ||||||||||
Diluted net (loss) income per common share | (0.05 | ) | (0.05 | ) | (0.02 | ) | (0.23 | ) | (0.10 | ) | ||||||||||
Weighted average shares (000) | 95,873 | 82,323 | 73,249 | 66,331 | 62,055 | |||||||||||||||
Working capital | 16,065 | 9,293 | 5,808 | 9,172 | 12,676 | |||||||||||||||
Exploration and evaluation assets | 44,804 | 35,985 | 30,538 | 28,645 | 24,447 | |||||||||||||||
Net assets | 64,730 | 45,221 | 35,983 | 39,637 | 47,891 | |||||||||||||||
Total assets | 66,803 | 47,514 | 38,215 | 42,019 | 48,988 | |||||||||||||||
Capital stock | 118,054 | 95,290 | 83,758 | 87,084 | 81,151 | |||||||||||||||
Dividends declared per share | - | - | - | - | - |
Canadian/U.S. Dollar Exchange Rates
In this Annual Report, unless otherwise specified, all dollar amounts are expressed in Canadian dollars (CDN$).
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Table No. 2 sets forth the exchange rate for the Canadian dollars at the end of the five most recent fiscal periods ended at December 31st, the average rates for the period, the range of high and low rates and the close for the period. Table No. 3 sets forth the range of high and low rates for each month during the previous six months. For purposes of this table, the rate of exchange means the noon buying rate in New York City for cable transfers in foreign currencies as certified for customs purposes by the Federal Reserve Bank of New York. The table sets forth the number of Canadian Dollars required under that formula to buy one U.S. Dollar. The average rate means the average of the exchange rates on the last day of each month during the period.
Table No. 2
Canadian Dollar/U.S. Dollar Exchange Rates for Five Most Recent Financial Years
Average | High | Low | Close | |||||
Fiscal Year Ended 12/31/2016 | $1.32 | $1.46 | $1.25 | $1.34 | ||||
Fiscal Year Ended 12/31/2015 | 1.28 | 1.40 | 1.17 | 1.38 | ||||
Fiscal Year Ended 12/31/2014 | 1.10 | 1.16 | 1.06 | 1.16 | ||||
Fiscal Year Ended 12/31/2013 | 1.03 | 1.07 | 0.98 | 1.06 | ||||
Fiscal Year Ended 12/31/2012 | 1.00 | 1.04 | 0.97 | 1.00 |
Average | High | Low | Close | |||||||||||||
Fiscal Year Ended 12/31/2017 | $ | 1.30 | $ | 1.37 | $ | 1.21 | $ | 1.25 | ||||||||
Fiscal Year Ended 12/31/2016 | 1.32 | 1.46 | 1.25 | 1.34 | ||||||||||||
Fiscal Year Ended 12/31/2015 | 1.28 | 1.40 | 1.17 | 1.38 | ||||||||||||
Fiscal Year Ended 12/31/2014 | 1.10 | 1.16 | 1.06 | 1.16 | ||||||||||||
Fiscal Year Ended 12/31/2013 | 1.03 | 1.07 | 0.98 | 1.06 |
Table No. 3
Canadian Dollar/U.S. Dollar Exchange Rates for Previous Six Months
September 2016 | October 2016 | November 2016 | December 2016 | January 2017 | February 2017 | |||||||
High | $1.32 | $1.34 | $1.36 | $1.36 | $1.34 | $1.32 | ||||||
Low | 1.28 | 1.31 | 1.33 | 1.31 | 1.30 | 1.30 |
September 2017 | October 2017 | November 2017 | December 2017 | January 2018 | February 2018 | |||||||||||||||||||
High | $ | 1.25 | $ | 1.29 | $ | 1.29 | $ | 1.29 | $ | 1.25 | $ | 1.28 | ||||||||||||
Low | 1.21 | 1.25 | 1.27 | 1.25 | 1.23 | 1.23 |
The exchange rate was $1.34CDN$1.29/US$1.00 on March 28, 2017.
Risk Factors
General Risk Factors Attendant to Resource Exploration and Development
Resource exploration and development is a speculative business, characterized by a number of significant risks including, among other things, unprofitable efforts resulting not only from the failure to discover mineral deposits but from finding mineral deposits which, though present, are insufficient in quantity and quality to return a profit from production. The marketability of minerals acquired or discovered by the Company may be affected by numerous factors which are beyond the control of the Company and which cannot be accurately predicted, such as market fluctuations, the proximity and capacity of milling facilities, mineral markets and processing equipment, and such other factors as government regulations, including regulations relating to royalties, allowable production, importing and exporting of minerals, and environment protection, the combination of which factors may result in the Company not receiving an adequate return on investment capital.
Presently, the Company is in the exploration and development stage and there is no assurance that a commercially viable ore deposit (a reserve) exists in any of its properties or prospects until further work is done and a comprehensive economic evaluation based upon that work is concluded. The Company has financed its operations principally through the sale of equity securities, entering into joint venture arrangements and the sale of its inventory of gold. The recoverability of mineral properties is dependent on the establishment of economically recoverable reserves, the ability of the Company to obtain the necessary financing to complete development and ultimately upon future profitable production or the realization of proceeds from the disposition of the properties.
Uncertainty in Discovering Commercially Mineable Ore Deposits
There is no certainty that the expenditures to be made by the Company in the exploration of its properties as described herein will result in discoveries of mineralized material in commercial quantities. Most exploration projects do not result in the discovery of commercially mineable ore deposits and no assurance can be given that any particular level of recovery of ore reserves will in fact be realized or that any identified mineral deposit will ever qualify as a commercially mineable (or viable) ore body which can be legally and economically exploited. Estimates of reserves, mineral deposits and production costs can also be affected by such factors as environmental permitting regulations and requirements, weather, environmental factors, unforeseen technical difficulties, unusual or unexpected geological formations and work interruptions. In addition, the grade of ore ultimately mined may differ from that indicated by drilling results. Short term factors relating to ore reserves, such as the need for orderly development of ore bodies or the processing of new or different grades, may also have an adverse effect on mining operations and on the results of operations. There can be no assurance that minerals recovered in small-scale tests will be duplicated in large-scale tests under on-site conditions or in production scale. Material changes in ore reserves, grades, stripping ratios or recovery rates may affect the economic viability of any project.
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History of Net Losses, Lack of Cash Flow and Assurance of Profitability
The Company had net losses in a number of years since its date of incorporation. Due to the nature of the Company'sCompany’s business, there can be no assurance that the Company will be profitable. The Company had net losses of $5,231,295 in Fiscal 2017, $4,023,504 in Fiscal 2016, and $1,144,525 in Fiscal 2015, and $14,982,667 in Fiscal 2014.
The Company currently has no revenues from operations as all of its properties and prospects are in the exploration stage. There is no assurance that the Company will receive revenues from operations at any time in the near future. During Fiscal 2017, 2016 and Fiscal 2015, the Company earned interest income and other income from Administrative service fees charged to Almadex Minerals Limited ("Almadex"(“Almadex”). During Fiscal 2014, the Company earned interest and other income from office rental, a royalty payment from Gold Mountain Mining Corporation ("Gold Mountain") from the Elk property and contract exploration services provided to third parties.
The Company has not paid dividends on its shares since incorporation and the Company does not anticipate doing so in the foreseeable future.
Uncertainty of Obtaining Additional Funding Requirements
If the Company'sCompany’s exploration and development programs are successful, additional capital will be required for the further development of an economic ore body and to place it in commercial production. The only material sources of future funds presently available to the Company are the sale of its equity capital, the incurring of debt, or the offering by the Company of an interest in its properties and prospects to be earned by another party or parties carrying out further development thereof.
Failure to obtain additional financing on a timely basis could cause the Company to forfeit its interest in such properties, dilute its interests in the properties and/or reduce or terminate its operations.
Possible Dilution to Present and Prospective Shareholders
The Company'sCompany’s plan of operation, in part, contemplates the financing of the conduct of its business by the issuance, for cash, of equity securities of the Company or incurring debt, or a combination of the two. Any transaction involving the issuance of previously authorized but unissued shares of common stock, or securities convertible into common stock, would result in dilution, possibly substantial, to present and prospective holders of common stock. The Company could also seek joint venture partners or funding sources such as royalties or streaming transactions. These approaches would dilute the Company'sCompany’s interest in properties it has acquired.
Mineral Prices May Not Support Corporate Profit
The mining industry in general is intensely competitive and there is no assurance that, even if commercial quantities of mineral resources are developed, a profitable market will exist for the sale of same. Factors beyond the control of the Company may affect the marketability of any substances discovered. The price of minerals is volatile over short periods of time, and is affected by numerous factors beyond the control of the Company, including international economic and political trends, expectations of inflation, currency exchange fluctuations, interest rates and global or regional consumption patterns, speculative activities and increased production due to improved mining techniques. Material changes in mineral prices may affect the economic viability of any project.
Environmental Regulations
The current and anticipated future operations of the Company, including development activities and commencement of production on its properties, require permits from various federal, territorial and local governmental authorities and such operations are and will be governed by laws and regulations governing prospecting, development, mining, production, exports, taxes, labor standards, occupational health, waste disposal, toxic substances, land use, environmental protection, mine safety and other matters. Companies engaged in the development and operation of mines and related facilities generally experience increased costs, and delays in production and other schedules as a result of the need to comply with applicable laws, regulations and permits. Such operations and exploration activities are also subject to substantial regulation under these laws by governmental agencies and may require that the Company obtain permits from various governmental agencies. The Company believes it is in substantial compliance with all material laws and regulations which currently apply to its activities. There can be no assurance, however, that all permits which the Company may require for construction of mining facilities and conduct of mining operations will be obtainable on reasonable terms or that such laws and regulations, or that new legislation or modifications to existing legislation, would not have an adverse effect on any exploration or mining project which the Company might undertake.
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Failure to comply with applicable laws, regulations and permitting requirements may result in enforcement actions thereunder, including orders issued by regulatory or judicial authorities causing operations to cease or be curtailed, and may include corrective measures requiring capital expenditures, installation of additional equipment or remedial actions. Parties engaged in exploration and mining operations may be required to compensate those suffering loss or damage by reason of the mining activities and may have civil or criminal fines or penalties imposed for violation of applicable laws or regulations.
The enactment of new laws or amendments to current laws, regulations and permits governing operations and activities of mining companies, or more stringent implementation thereof, could have a material adverse impact on the Company and cause increases in capital expenditures or production costs or reduction in levels of production at producing properties or require abandonment or delays in development of new mining properties.
Environmental
The Company’s exploration and development activities are subject to extensive laws and regulations governing environment protection. The Company is also subject to various reclamation-related conditions. Although the Company closely follows and believes it is operating in compliance with all applicable environmental regulations, there can be no assurance that all future requirements will be obtainable on reasonable terms. Failure to comply may result in enforcement actions causing operations to cease or be curtailed and may include corrective measures requiring capital expenditures. Intense lobbying over environmental concerns by NGOs opposed to mining has caused some governments to cancel or restrict development of mining projects. Current publicized concern over climate change may lead to carbon taxes, requirements for carbon offset purchases or new regulation. The costs or likelihood of such potential issues to the Company cannot be estimated at this time.
No Guarantee of Title to Mineral Properties
While the Company has investigated title to all of its mineral properties and prospects, and, to the best of its knowledge, title to all of its properties and prospects in which it has the right to acquire or earn an interest are in good standing as of the date of this Annual Report, this should not be construed as a guarantee of title. The properties and prospects may be subject to prior unregistered agreements or transfers unknown to the Company and title may be affected by undetected defects, e.g. defects in staking or acquisition process.
If title is disputed, the Company will have to defend its ownership through the courts, which would likely be an expensive and protracted process and have a negative effect on the Company'sCompany’s operations and financial condition. In the event of an adverse judgment, the Company could lose its property rights.
Volatility of Share Price
Market prices for shares of early stage companies are often volatile. Factors such as announcements of mineral discoveries, exploration and financial results, and other factors could have a significant effect on the price of the Company'sCompany’s shares.
Material Risk of Dilution Presented by Large Number of Outstanding Share Purchase Options and Warrants
As of March 28, 20172018, there were share purchase options outstanding allowing the holders of these options to purchase 8,055,0009,590,000 shares of common stock and warrants allowing the holders of these warrants to purchase 4,874,7678,132,262 shares of common stock. Directors and officers of the Company hold 6,687,0008,112,000 of these share purchase options and 300,00050,000 of these warrants. An additional 1,368,0001,478,000 share purchase options are held by employees and consultants of the Company. Given the fact that as of March 28, 20172018 there were 89,805,481102,199,625 shares of common stock outstanding, the exercise of all of the existing share purchase options and warrants would result in dilution to the existing shareholders and could depress the price of the Company'sCompany’s shares. The exercise of all outstanding share purchase options and warrants would cause the number of issued and outstanding common shares to rise 14.4%15%.
20 |
No Proven Reserves
The properties and prospects in which the Company has an interest or the properties in which the Company has the right to earn an interest are in the exploration and development stage only, are without a known body of economically viable ore and are not in commercial production. If the Company does not ultimately find a body of economically recoverable ore, it would either have to acquire additional exploration projects, or terminate isits operations.
Uncertainty of Reserves and Mineralization Estimates
There are numerous uncertainties inherent in estimating proven and probable reserves and mineralization, including many factors beyond the control of the Company. The estimation of reserves and mineralization is a subjective process and the accuracy of any such estimates is a function of the quality of available data and of engineering and geological interpretation and judgment. Results of drilling, metallurgical testing and production and the evaluation of mine plans subsequent to the date of any estimate may justify revision of such estimates. No assurances can be given that the volume and grade of reserves recovered and rates of production will not be less than anticipated. Assumptions about prices are subject to greater uncertainty and metals prices have fluctuated widely in the past. Declines in the market price of base or precious metals also may render reserves or mineralization containing relatively lower grades of ore uneconomic to exploit. Changes in operating and capital costs and other factors including, but not limited to, short-term operating factors such as the need for sequential development of ore bodies and the processing of new or different ore grades, may materially and adversely affect reserves.
Changes to Mexican Mining Taxes
In October 2013, the Mexican Congress approved a package of tax reforms which included significant changes to the country'scountry’s mining royalties and tax structure. These new laws had an effective date of January 1, 2014. The changes include a 7.5% special mining royalty on earnings before interest, taxes, depreciation and amortization ("EBITDA"(“EBITDA”) and an additional 0.5% royalty on gross revenues from precious metal production. The new law also increases annual taxes on certain inactive exploration concessions by 50% to 100%. These changes may result in increased holding costs to the Company for its existing mineral concessions. The new taxes and royalties may also materially and adversely affect the potential to define economic reserves on any Mexican properties and result in the Company'sCompany’s Mexican properties being less attractive to potential optionees or joint-venture partners.
Foreign Incorporation and Civil Liabilities
The Company was created under amalgamation under the laws of the Province of British Columbia, Canada. All of the Company'sCompany’s directors and officers are residents of Canada and all of the Company'sCompany’s assets and its subsidiaries are located outside the U.S. Consequently, it may be difficult for U.S. investors to affect service of process in the U.S. upon those directors and officers who are not residents of the U.S., or to realize in the U.S. upon judgments of U.S. courts predicated upon civil liabilities under applicable U.S. laws.
Conflict of Interest
Some of the Company'sCompany’s directors and officers are directors and officers of other natural resource or mining-related companies. Duane Poliquin, Morgan Poliquin, John McCleary, Mark Brown, William Worrall, Douglas McDonald, and Korm Trieu also serve as directors and/or officers of Almadex Minerals Limited. Gerald Carlson also serves a director and as the President and CEO of Pacific Ridge Exploration Ltd. and director of New Point Exploration Corp. Mark Brown also serves as a director of Galileo Petroleum Ltd, and as the President, CEO and a director of Big Sky Petroleum Corporation.Corporation, and Mountain Boy Minerals Ltd. He also serves as Executive Chairman of Alianza Minerals Ltd., and director and/or officer of Avrupa Minerals Ltd., Strategem Capital Corp., Paget Minerals Corp, Sutter Gold Mining Ltd., Affinor Growers Ltd., Redstar Gold Corp., Orestone Mining Corp. and Adamera Minerals Corp. David Strang also serves as a director, CEO and President of Ero Copper Corporation. Elaine Ellingham also serves as a director of Aurania Resources Ltd. And Wallbridge Mining Company Ltd. These associations may give rise from time to time to conflicts of interest, as a result of which, the Company may miss the opportunity to participate in certain transactions.
Foreign Operations
The Company currently has exploration projects located in Mexico. The Company'sCompany’s foreign activities are subject to the risk normally associated with conducting business in foreign countries, including exchange controls and currency fluctuations, foreign taxation, laws or policies of particular countries, labor practices and disputes, and uncertain political and economic environments, as well as risks of war and civil disturbances, or other risk that could cause exploration or development difficulties or stoppages, restrict the movement of funds or result in the deprivation or loss of contract rights or the taking of property by nationalization or expropriation without fair compensation. Foreign operations could also be adversely impacted by laws and policies of the U.S. affecting foreign trade, investment and taxation.
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Foreign Currency Fluctuations
At the present time, some of the Company'sCompany’s activities are carried on outside of Canada. Accordingly, it is subject to risks associated with fluctuations of the rate of exchange between the Canadian dollar and foreign currencies.
The Company is currently not engaged in currency hedging to offset any risk of exchange rate fluctuation and currently has no plans to engage in currency hedging.
Operating Hazards and Risks Associated with the Mining Industry
Mining operations generally involve a high degree of risk, which even a combination of experience, knowledge and careful evaluation may not be able to overcome. Hazards such as unusual or unexpected geological formations and other conditions are involved. Operations in which the Company has a direct or indirect interest will be subject to all the hazards and risks normally incidental to exploration, development and production of minerals, any of which could result in work stoppages, damage to or destruction of mines and other producing facilities, damage to or loss of life and property, environmental damage and possible legal liability for any or all damage or loss. The Company may become subject to liability for cave-ins and other hazards for which it cannot insure or against which it may elect not to insure where premium costs are disproportionate to the Company'sCompany’s perception of the relevant risks. The payment of such insurance premiums and the incurring of such liabilities would reduce the funds available for exploration activities.
The Ability to Manage Growth
Should the Company be successful in its efforts to develop its mineral properties or to raise capital for such development or for the development of other mining ventures it will experience significant growth in operations. If this occurs management anticipates that additional expansion will be required in order to continue development. Any expansion of the Company'sCompany’s business would place further demands on its management, operational capacity and financial resources. The Company anticipates that it will need to recruit qualified personnel in all areas of its operations. There can be no assurance that the Company will be effective in retaining its current personnel or attracting and retaining additional qualified personnel, expanding its operational capacity or otherwise managing growth. The failure to manage growth effectively could have a material adverse effect on the Company's business, financial condition and results of operations.
Lack of a Dividend Policy
The Company does not intend to pay cash dividends in the foreseeable future, as any earnings are expected to be retained for use in developing and expanding its business. However, the actual amount of dividends which the Company may pay will remain subject to the discretion of the Company'sCompany’s Board of Directors and will depend on results of operations, cash requirements and future prospects of the Company and other factors.
Competition
There is competition from other mining exploration companies with operations similar to those of the Company's. Many of the mining companies with which the Company competes have operations and financial strength many times greater than that of the Company. Such competitors could outbid the Company for such projects, equipment or personnel, or produce minerals at a lower cost which would have a negative effect on the Company'sCompany’s operations and financial condition.
Dependence on Key Personnel
The Company depends highly on the business and technical expertise of its management and key personnel, in particular, Duane Poliquin and Morgan Poliquin. There is little possibility that this dependence will decrease in the near term. As the Company'sCompany’s operations expand, additional general management resources may be required. The Company maintains no "Key Man"“Key Man” insurance coverage, and the loss or unavailability of any of its key personnel could have a negative effect on the Company'sCompany’s ability to operate effectively.
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Cybersecurity Risks
As is typical of modern businesses, the Company is reliant on the continuous and uninterrupted operation of its information technology (“IT”) systems. User access and security of all Company sites and IT systems can be critical elements to its operations, as is cloud security, security of all of the Company’s IT systems, and protection against cyber security incidents. Any IT failure pertaining to availability, access or system security could potentially result in disruption of the activities of the Company and its personnel, and could adversely affect the reputation, operations or financial performance of the Company.
Potential risks to the Company’s IT systems could include unauthorized attempts to extract business sensitive, confidential or personal information, denial of access extortion, corruption of information or disruption of business processes, or by inadvertent or intentional actions by the Company’s employees or vendors. A cybersecurity incident resulting in a security breach or failure to identify a security threat could disrupt business and could result in the loss of sensitive, confidential or personal information or other assets, as well as litigation, regulatory enforcement, violation of privacy or securities laws and regulations, and remediation costs, all of which could materially impact the Company’s business or reputation.
The Company could be deemed a passive foreign investment company which could have negative consequences for U.S. investors.
The Company could be classified as a Passive Foreign Investment Company (“PFIC”) under the United States tax code. If the Company is declared a PFIC, then owners of the Company’s shares who are U.S. taxpayers generally will be required to treat any so-called "excess distribution" received on its shares, or any gain realized upon a disposition of shares, as ordinary income and to pay an interest charge on a portion of such distribution or gain, unless the taxpayer makes a qualified electing fund ("QEF") election or a mark-to-market election with respect to the Company’s shares. A U.S. taxpayer who makes a QEF election generally must report on a current basis its share of the Company’s net capital gain and ordinary earnings for any year in which the Company is classified as a PFIC, whether or not the Company distributes any amounts to its shareholders.
History and Development of the Company
The head office of the Registrant (sometimes referred to in this Annual Report on Form 20-F as "Almaden"“Almaden” or the "Company"“Company”) is located at 1333 Johnston Street, Suite 210, Vancouver, British Columbia, Canada, V6H 3R9. The registered and records office of the Company is 1177 West Hastings Street, Suite 1710, Vancouver, British Columbia, Canada, V6E 2L3.
The contact persons are Duane Poliquin, Chairman and Morgan Poliquin, President. The telephone number is (604) 689-7644. The fax number is (604) 689-7645. The email address is info@almadenminerals.com.info@almadenminerals.com. The web-site address is www.almadenminerals.com.
The Company was formed by amalgamation under the laws of the Province of British Columbia of its predecessor companies, Almaden Resources Corporation and Fairfield Minerals Ltd. on February 1, 2002. The Company operates under the Business Corporations Act (British Columbia).
Effective July 31, 2015, the Company effected a corporate reorganization pursuant to a statutory plan of arrangement ("(“Plan of Arrangement"Arrangement”) involving the Company'sCompany’s then wholly owned subsidiary, Almadex Minerals Limited ("Almadex"(“Almadex”), as described below.
The Company'sCompany’s common shares began trading on The Toronto Stock Exchange ("TSX"(“TSX”) under the symbol "AMM"“AMM” on February 11, 2002 and on the NYSE MKT, under the symbol "AAU"“AAU” on December 19, 2005. Almaden Resources Corporation'sCorporation’s initial public offering on the Vancouver Stock Exchange was pursuant to a prospectus dated October 10, 1986. The shares of Fairfield Minerals Ltd. began trading on the Vancouver Stock Exchange on July 18, 1986 and on The Toronto Stock Exchange on May 21, 1990.
There have been no public takeover offers by third parties in respect of the Company'sCompany’s shares and the Company has made no public takeover offers in respect of any other company'scompany’s shares.
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Organizational Structure
The Company currently has two wholly-owned subsidiaries that were formed to hold properties in their respective jurisdictions. These subsidiaries are:
Subsidiaries | Jurisdiction | Nature of operations | |
Puebla Holdings Inc. | Canada | holding company | |
Minera Gorrion, S.A. de C.V. | Mexico | exploration company |
The Company formerly had an additional eight wholly-owned subsidiaries. However, during Fiscal 2015, these subsidiaries were spun out to Almadex as part of the Plan of Arrangement as described below. The eight formerly wholly-owned subsidiaries are:
Former Subsidiaries | Jurisdiction | Nature of operations | |
Almaden America Inc. | USA | exploration company | |
Republic Resources Ltd. | Canada | service company | |
Ixtaca Precious Metals Inc. | Canada | holding company | |
Pangeon Holdings Ltd. | Canada | holding company | |
Almaden de Mexico, S.A. de C.V. | Mexico | exploration company | |
Minera Gavilan, S.A. de C.V. | Mexico | exploration company | |
Compania Minera Zapata, S.A. de C.V. | Mexico | exploration company | |
Minera Alondra, S.A. de C.V. | Mexico | holding company |
Business of the Company
The Company is engaged in the business of the acquisition, exploration and when warranted, development of mineral properties. The Company currently has material property interests in Mexico. The Company's property interests are at the exploration and development stage. Presently there is no assurance that any of the Company's mining properties or prospects contains a commercially viable ore body (reserve) until further work is done and at a minimum, a pre-feasibility study based upon such work is concluded. The Company has not generated any revenues from operations.
Corporate Reorganization
The Company entered into an Arrangement Agreement dated May 11, 2015 involving the spinout, pursuant to a statutory Plan of Arrangement, of Almaden'sAlmaden’s early stage exploration projects, royalty interests and other non-core assets into a new public Company called Almadex, which trades on the TSX Venture Exchange under the symbol "AMZ"“AMZ” and the OTCQBOTCQX marketplace under the symbol "AXDDF"“AXDDF”. Almadex would hold the following key assets:
a 100% interest in the El Cobre copper-gold porphyry exploration project in Mexico and the Willow copper-gold porphyry exploration project in Nevada, in addition to a portfolio of 20 other exploration projects, many of which are located in eastern Mexico in geological environments similar to the |
a 2% NSR on the |
a 1.5% NSR on the Caballo Blanco gold deposit in Mexico, a development project operated by Timmins Gold Corp.; |
a 2% NSR on the Elk gold deposit in Canada, an advanced exploration project operated by JDL Gold Corp. (formerly Gold Mountain Mining Corp.); |
a portfolio of 21 additional NSRs on exploration projects in Mexico, Canada and the United States identified through the |
equity holdings in several publicly-listed companies; |
1,597 ounces of gold bullion; and |
approximately $3 million in cash. | ||
On July 31, 2015, all conditions to the statutory Plan of Arrangement regarding the spinout were satisfied or waived and the spinout was effective. Almaden'sAlmaden’s shareholders approved the Plan of Arrangement and exchanged their existing common shares of Almaden for one "new"“new” Almaden common share and 0.6 common share of Almadex.
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The Company has also entered into an Administrative Services Agreement with Almadex dated May 15, 2015, as amended by First Amending Agreement dated December 16, 2015 (the "Agreement"“Agreement”). Under the Agreement, the Company is the sole and exclusive manager of Almadex, and provides Almadex with general management services and day-to-day operation of Almadex. These services include:
Office space; |
Executive personnel and human resources; |
Geological technical support; and |
Accounting and financial services. | ||
Almadex compensates the Company 30% of the Company'sCompany’s actual monthly cost of rent for any shared facilities, and 30% of any shared personnel'spersonnel’s fees and/or wages. Almadex pays the Company any reasonable fees or costs incurred on behalf of Almadex by the Company which were approved by Almadex.
The Agreement has an initial 5-year term, with subsequent automatic 1 year1-year renewals unless terminated pursuant to the terms permitted under the Agreement. The Agreement includes
Business Overview
Maintaining properties
The following is a general statement about government requirements for holding mineral properties in the jurisdictions where the Company currently holds material mineral property interests.
In Mexico, mining law is a federal matter. The government requires annual assessment work and expenditures per hectare which increase with the size and age of the claim. Under the tax reforms effective January 1, 2014, if a concession holder has not conducted exploration or exploitation activities during a two-year period, the concession holder would have to pay an additional 50% of the taxes payable per hectare if within the last 11 years, and an additional 100% of the taxes payable if after year 12. Land taxes per hectare also have to be paid by January 31 and July 31 each year. Both amounts are subject to inflation accounting and the inflation adjustment number for each fiscal period is published in the official gazette. Under the Mexican Constitution and the mining and environmental laws of Mexico, all mining projects are subject to Federal legal control. This control is exercised from the exploration phase through the closure phase of a mining project. Prior to the initiation of exploration activities, concession owners are required to file a notice of commencement of exploration activities in conformity with Mexican Official Norm 120 (NOM-120); prior to initiation of construction activities (and also in some more intrusive exploration activities), mining projects are required to apply for and obtain an environmental impact authorization and a land use permit from the Mexican Federal environmental agency SEMARNAT (Secretaria de Medio Ambiente y Recursos Naturales). This requires the presentation of an environmental impact manifest and a technical study which deals with the impacts, the environmental mitigation, and habitat compensation to the satisfaction of the authorities having environmental jurisdiction.
Competition
The mineral property exploration and development business, in general, is intensively competitive and there is not any assurance that even if commercial quantities of ore are discovered, a ready market will exist for sale of same. Numerous factors beyond ourthe Company’s control may affect the marketability of any substances discovered. These factors include market fluctuations; the proximity and capacity of natural resource markets and processing equipment; and government regulations, including regulations relating to prices, taxes, royalties, land tenure, land use, importing and exporting of mineral and environmental protection. The exact effect of these factors cannot be accurately predicted, but the combination of these factors may make it difficult for usthe Company to receive an adequate return on investment.
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The Company competes with many companies possessing greater financial resources and technical facilities for the acquisition of mineral concessions, claims, leases and other mineral interests as well as for the recruitment and retention of qualified employees.
Seasonality
The Company'sCompany’s principal project is in central Mexico. In Mexico, the climate in the project area is marked by dry, cold winters and a distinct rainy season. The rainy season typically begins in May or June and continues until late September to October. In most years roads remain passable and exploration can be done throughout the rainy season. Seasonal changes do not have a material impact on ourthe Company’s exploration expenditures.
Exploration Program Protocols
General Sample Handling and Quality Control Program for Exploration Programs
The Company employs a strict quality control program for samples taken during its exploration programs. For drilling programs a quality control program is in place which includes the insertion of blanks, field duplicates and certified standards into the sample stream.
Chain of Custody
Samples of rock and drill core and cuttings are sealed by the sampler and kept under control of a qualified person until they are shipped to a laboratory.
Sample Handling
Sample handling for drilling programs is described more fully below. Soil and stream sediment samplers have been trained to industry standard levels of sampling methodology. In general, the Company sieves stream sediment samples to -20 mesh in the field during preparation. Samplers are required to not wear any jewellery or clothing or use equipment which may contaminate the sample. All sample locations are geographically located at the time of sampling using the Global Positioning System. The Company has prepared standardized sample information cards for samplers to record information concerning the sample location, type and medium. Outcrop, float and dump rock samples are collected by geologists who record similarly ordered geologic information relating to the sample taken.
Blanks
Blank material, a sample of crushed and pulverized rock, known to contain very low or non-detectable concentration of gold and silver, is inserted as a pulp into the sample stream on an interval of every 20 samples. Blanks are intended to detect possible contamination.
Duplicates
During drill programs the Company routinely includes a field duplicate into the sample stream, spaced at 20 sample intervals. Field duplicate samples are splits of drill core or reverse circulation cuttings from the sample interval. The resulting two field duplicate samples are submitted with separate sample numbers "blind"“blind” to the assay lab and separately treated as normal samples. The samples are taken randomly with no regard to rock type, geographic position or degree of alteration or mineralization. These field duplicates are then used to detect the cumulative uncertainties associated with the entire sampling and analytical process.
Standards
During drill programs the Company routinely includes a field duplicatecertified standard into the sample stream, spaced at 20 sample intervals. Certified standards are purchased from CDN Resource LabsLaboratories of VancouverLangley, BC and are prepared by this professional third party lab according to industry standard and accepted methodologies. Standards are utilized to monitor the accuracy of the laboratory work.
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Sample Handling for Drill Programs
Core Box Preparation
Plastic core boxes are used for the storage of core. Each box is labelled by the drillers at the rig with the drill-hole number, a box number and an arrow to mark the start of the tray and the down-hole direction. Wooden core blocks, with the meterage in black marker pen, are inserted by the drillers at the end of each core run (usually 3 m or less). These core run intervals are checked and recorded by the geologist during mark up (see below). When filled with core the boxes are sealed with a plastic lid by the drillers and transported to the core logging facility.
Sample and Corebox Markup
Once at the core logging facility, the core boxes are marked up with the starting and ending meterage, written at the ends of the trays with a marker. An aluminum tag with the hole number, box number and meterage is then stapled to the front of each tray. The core blocks are then covered with an aluminum permi-tag with the depth inscribed and written over in black marker pen for clarity in core tray photographs. The start and end of each selected sample interval is marked with a red wax pencil mark across the core and sample numbers are written on the edge of the core box channels at the start and end of each sample interval. Intervals denoting the position in the sample tag sequence of field duplicate, blank and analytical standards are also marked on the core box. Different colored tape was stapled to the boxes to indicate the position and type of duplicate sample. A permanent aluminum tag with the sample number inscribed on them was stapled to the inside of the core box channel at the start of each sample interval. A cut line was marked on the core as a guide for sawing of half-core samples for assay. The cut line position is marked by fitting the ends of the core together, to align them as they came out of the hole, and using a ruler to draw a line down the core axis with a red wax pencil. This mark-up is done after the trays are photographed. Cut line positions are selected by the logging geologist to produce two halves with equal proportions of mineralization. Typically this is done by marking the cut line down the long axis of the ellipses described by the intersection of the veins with the core circumference. Each tray is digitally photographed before core cutting and sampling.
Core Logging
Before cutting and sampling the core, the following tables of data are recorded on paper and then entered into the Company drill hole database system:
Geotechnical Logging
1. Core box record sheet: Beginning and end from/to intervals for each core box.
2. For each core run (from and to) a record of the core size, meters of core recovered for the interval, RQD (the total length of pieces of core in the interval that are twice the width of the core divided by the length of the interval, times 100) and hardness (on a scale from 1 to 5,10, from softesthardest to hardest)softest).
3. A drilling daily control sheet showing the progress of the rig for each shift.
Geological Logging
1. Geology Log: Intervals selected by the geologist recording a detailed description of the lithology, texture, alteration, mineral assemblage and intensity and level of oxidation/weathering. Structural measurements (i.e. the angle of structures to the core axis) are also recorded. The cover sheet includes details such as surveyed collar co-ordinates, downhole survey data, core size depths, drilling dates and sample number series. A graphic log column with a sketch of the geology is also included.
2. Veining and Mineralization: (Intervals on this form are the same as the sample intervals). Estimates of the percent veining and the percentage of different minerals represented in either vein, breccia or disseminated form, i.e. quartz, carbonates, pyrite etc. (sometimes completed after sampling).
3. Sample Sheet: A record of the sample intervals, sample numbers and duplicate, blank and analytical standard numbers as well as magnetic susceptibility measurements taken on each sample (using a handheld magnetic susceptibility meter pushed against the core).
4. Hole Summary: An abbreviated hole log that summarizes the important features of a drill hole. A summary drill hole trace giving the geologist the opportunity to summarize the hole and sketch in structural orientations in a form easily transferred to sections. All logs are saved on the server along with the core photos and other data from each hole.
Sample Interval Selection
All strongly altered or mineralized intervals of core were sampled. Sampling always began at least 5 samples above the start of mineralization. Sample intervals were selected using the following criteria.
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- | Maximum sample length of 2 m in unmineralized lithologies. |
- | Maximum sample length of 1 m in mineralized lithologies. |
- | Minimum sample length of 50 cm. Geological changes in the core such as major mineralization/alteration intensity and lithology changes were used as sample breaks. |
- | Core size changes and any zones of core loss were used as sample breaks. |
- | Large discrete veins that might possibly be modeled or mined as separate structures were sampled separately. |
The begin/end marks were placed so that the entire vein ended up in the sample(s) and the vein is not smeared into samples on either side.
Sampling Procedure
All samples were originally cut in half using custom-made, gasoline engine-powered diamond core saws. All were recently changed to electric powered saws. Each saw has sliding trays and customized "core cradles"“core cradles” sized for each core diameter in order to ensure a straight cut down the cut line and to minimize the loss of friable core during cutting. Areas of very soft rock (e.g. fault gouge), are cut with a machete, using the side of the core channel to ensure a straight cut. Areas of very broken core (pieces <1 cm) were sampled using spoons. The following standard sampling procedures were employed:
The right hand side of the core (looking down the hole) was always sampled. After cutting, half the core was placed in a new plastic sample bag and half was placed back in the core box. Between each sample, the core saw and sampling table areas were washed to ensure no contamination between samples. Field duplicate, blank and analytical standards were added into the sample sequence as they were being cut. After cutting of samples containing visible gold, a piece of abrasive quartz sandstone was cut to clean the diamond blade. This was done to prevent contamination of the following sample with gold that may have become smeared onto the blade.
Sample numbers were written on the outside of the sample bags twice and the tag from the sample book was placed inside the bag with the half core. The bags were sealed using single-use plastic cable ties.
Sample numbers on the bags were checked against the numbers on the core box and the sample book.
The core cutting area is within the core logging shed and the logging geologists regularly checked the precision of the core cutting and sampling. The sealed plastic sample bags were placed in large plastic twine (rice) sacks (usually between 8 and 10 samples per sack) and sealed using single-use plastic cable ties. The sacks were weighed and the sack number, sample numbers, sack weight and date written on the outside of the sacks.
Company’s Principal Properties
The Tuligtic Project, which hosts the Company'sCompany’s Ixtaca discovery, is the only project material to the Company. The Tuligtic Project is located in Puebla State, Mexico.
PRINCIPAL PROPERTY INTERESTS
The Tuligtic Property/Project – Mexico
Location and Access
The Ixtaca deposit, the epithermal gold-silver target within the Tuligtic Property, is located 8 km northwest of the town of San Francisco Ixtacamaxtitlán, the county seat of the municipality of Ixtacamaxtitlán, Puebla State.
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The Topography on the Tuligtic Project is generally moderate to steep hills with incised stream drainages. Elevation ranges from 2,300 meters (m) above sea level in the south to 2,800 m in the north. Vegetation is dominantly cactus and pines and the general area is also somewhat cultivated with subsistence vegetables, bean and corn crops. The Ixtaca Zone exploration area has been previously cleared and logged. The region has a temperate climate with average temperatures ranging from 19°C in June to 10°C in December. The area experiences about 600 mm of precipitation annually with the majority falling during the rainy season, between June and September. Exploration can be conducted year round within the Property. Electricity is available on the Property as the national electricity grid services nearby towns such as Santa Maria and Zacatepec. Water for exploration is available from year-round natural springs located at higher elevations above and upstream of the Ixtaca deposit. The surface rights locally are privately owned and where Almaden is exploring the Company has negotiated surface land use agreements with surface rights landowners.
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Claims and Title
The Tuligtic property was staked by the Company in 2001, following the identification of surficial clay deposits that were interpreted to represent high-level epithermal alteration. The property originally consisted of approximately 14,000 hectares, but during 2015 Almaden filed an application to reduce the aggregate claim size at Tuligtic to those areas still considered prospective. The property is held 100% by Minera Gorrion S.A. de C.V., a subsidiary of Almaden Minerals Ltd. through the holding company, Puebla Holdings Inc. Claim details are summarized below.
Claim Name | Claim Number | Area (hectares) | Valid Until Date |
Cerro Grande R1 | 245486 | 2,773.00 | March 5, 2053 |
Cerro Grande R3 | 245488 | 824.06 | March 5, 2053 |
Cerro Grande R4 | 245489 | 540.00 | March 5, 2053 |
Cerro Grande R5 | 245490 | 784.97 | March 5, 2053 |
Cerro Grande R6 | 245491 | 937.79 | March 5, 2053 |
Cerro Grande 2 R2 | 245493 | 652.00 | February 23, 2059 |
Cerro Grande 2 R3 | 245494 | 708.00 | February 23, 2059 |
Total | 7,219.82 |
To maintain a claim in good standing, the holder is required to meet annual exploration or exploitation expenditure requirements. Currently, the property is subject to expenditure requirements of C$1.3 million per year. However, the Company has substantial historic expenditures which can be used to offset the annual requirements.
Geological Setting of the Tuligtic Project and Ixtaca Zone
Within the Tuligtic Project, argillaceous limestone of the Late Jurassic to Early Cretaceous Upper Tamaulipas formation is underlain by transitional calcareous clastic rocks including siltstone, grainstone, mudstone, and calcareous shale. During the Laramide orogeny the carbonate package was intensely deformed into a series of thrust-related east verging anticlines. Calcareous shale units appear to occupy the cores of the anticlines while the thick bedded limestone/mudstone units occupy the cores of major synclines at the Ixtaca Zone. These carbonate basement units are crosscut by intensely altered intermediate composition dykes in the Tertiary. The deformed Mesozoic sedimentary sequence is discordantly overlain by epithermal altered Cenozoic bedded crystal tuff of the upper Coyoltepec subunit. The Coyoltepec volcanics are locally oxidized and weathered near surface and along structures.
Two styles of alteration and mineralization have been identified in the area: (1) copper-molybdenum porphyry style alteration and mineralization hosted by diorite and quartz-diorite intrusions; (2) silver-gold low-sulphidation epithermal quartz-bladed calcite veins hosted primarily by carbonate rocks and spatially associated with overlying volcanic hosted texturally destructive clay alteration and replacement silicification.
Outcropping porphyry-style alteration and mineralization is observed in the bottoms of several drainages where the altered intrusive complex is exposed in erosional windows beneath post mineral unconsolidated ash deposits. Multiple late and post mineral intrusive phases have been identified crossing an early intensely altered and quartz-veined medium-grained feldspar phyric diorite named the Principal Porphyry. Other intrusive types include late and post mineral mafic dykes and an inter-mineral feldspar-quartz phyric diorite. Late mineral mafic dykes are fine grained and altered to chlorite with accessory pyrite. Calc-silicate (garnet-clinopyroxene) altered limestone occurs in proximity to the intrusive contacts and is crosscut by late quartz-pyrite veins. Early biotite alteration of the principal porphyry consists of biotite-orthoclase flooding of the groundmass. Quartz veins associated with early alteration have irregular boundaries and are interpreted to be representative of A-style porphyry veins. These are followed by molybdenite veins which are associated with the same wall rock alteration. Chalcopyrite appears late in the early alteration sequence. Late alteration is characterized by intense zones of muscovite-illite-pyrite overprinting earlier quartz-K-feldspar-pyrite ± chalcopyrite veining and replacing earlier hydrothermal orthoclase and biotite. Stockwork quartz-pyrite crosscuts the A-style veins and is associated with muscovite-illite alteration of biotite. The quartz-sericite alteration can be texturally destructive resulting in white friable quartz veined and pyrite rich rock. Pyrite is observed replacing chalcopyrite and in some instances chalcopyrite remains only as inclusions within late stage pyrite grains.
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Epithermal mineralization on the Tuligtic property is considered to have no genetic relationship to the porphyry alteration and mineralization described above. The epithermal system is unoxidised and well preserved, and there is evidence of a paleosurface as steam heated kaolinite and replacement silica alteration occur at higher elevations where the upper part of the Coyoltepec pyroclastic deposit is preserved. The veining of Ixtaca epithermal system displays characteristics representative of intermediate and low sulphidation deposits. These include typical ore and gangue mineralogy (electrum, sphalerite, galena, adularia, carbonates), mineralization dominantly in open space veins (colloform banding, cavity filling).
Mineralized hydrothermal breccias showing multiphase development are commonly encountered within the main veins. Hydrothermal silicic/carbonate breccia zones occur within the limestone and dip steeply. These breccias are dominantly controlled by the main faults.
The Upper Tamaulipas formation, the dykes that crosscut it and the upper Coyoltepec volcanic subunit are the main host rocks to the epithermal vein system at Ixtaca. In the Main and Ixtaca North zones veining strikes dominantly ENE-WNW (060 degrees) parallel to a major dyke trend and at a very high angle to the N to NNW bedding and fold structures within the limestones. The veins of the Chemalaco Zone are hosted by the shaley carbonate units and strike to the NNW, dipping to the SSW. In the footwall to Chemalaco Zone a parallel dyke has been identified which is altered and mineralized. The Chemalaco Zone and the dyke are interpreted to strike parallel to bedding and to core an antiform comprised of calcareous shale.
Studies of mineral assemblages in hand specimen, transmitted and reflected light microscopy and SEM analyses were carried out in order to construct a paragenetic sequence of mineral formation. This work revealed that veining occurred in three main stages. The first stage is barren calcite veining. This is followed by buff brown and pink colloform carbonate and silicate veins containing abundant silver minerals and lower gold. The third stage of veining contains both gold and silver mineralization. The dominant gold-bearing mineral is electrum, with varying Au:Ag ratios. The majority of grains contain 40-60 wt (weight) % gold but a few have down to 20 wt% (Staffurth, 2012). Gold content occasionally varies within electrum grains, and some larger grains seem to be composed of aggregates of several smaller grains of differing composition (Staffurth, 2012). Electrum often appears to have been deposited with late galena-clausthalite both of which are found as inclusions or in fractures in pyrite. It is also closely associated with silver minerals such as uytenbogaardtite (Ag3AuS2). This mineral is associated with electrum, chalcopyrite, galena, alabandite, silver minerals and quartz in stage three mineralization. Apart from electrum, the dominant silver bearing minerals are polybasite (-pearceite) and argentian tetrahedrite plus minor acanthite-naumannite, pyrargyrite and stephanite. They are associated with sulphides or are isolated in gangue minerals.
The vein-related mineralization at Ixtaca does not have hard geologic boundaries. The mineralized zones are essentially vein zones, the outer boundaries of which are grade boundaries associated with decreased vein density.
History of Past Work
To the Company'sCompany’s knowledge, no modern exploration was carried out on the project prior to Almaden'sAlmaden’s acquisition of the property area by staking in 2001. Evidence of historic mining of clay (kaolinite) deposits from surface is evident throughout the property area. Almaden acquired the initial claims of the Tuligtic Project in 2001 following the identification of surficial clay deposits that were interpreted to represent high-level epithermal alteration. Subsequent geologic mapping, rock, stream silt, soil sampling and induced polarization (IP) geophysical surveys identified porphyry copper and epithermal gold targets within an approximately 5 x 5 km area of intensely altered rock.
On May 9, 2002 Almaden entered into a joint venture agreement with BHP Billiton World Exploration Inc. (BHP) to undertake exploration in eastern Mexico. Initial helicopter-borne reconnaissance programs were completed in May 2003 and March 2004 on select targets within the joint venture area of interest. The work resulted in the acquisition of five (5) separate properties, in addition to the previously acquired Cerro Grande of the present day Tuligtic Property. Following a review of the initial exploration data, effective January 20, 2005, BHP relinquished its interest in the six properties to Almaden. The joint venture was terminated in 2006.
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Later in 2006, the Tuligtic project was optioned to Pinnacle Mines Ltd. In 2007 this option agreement was terminated. In 2009 the property was optioned to Antofagasta Minerals S.A. under terms whereby it could earn a 75% interest in the property. In 2009 and 2010 Antofagasta Minerals S.A., under Almaden operation, conducted a geophysical and exploration drilling program on the copper porphyry area of the project. The program consisted of three lines of IP geophysics and 2,522 meters of diamond drilling in six holes. The IP chargeability results, along with that of previous programs carried out by Almaden, defined a 2 by 2.5 kilometer chargeability high the limits of which are currently only defined to the west and south. The drilling intersected skarn and porphyry copper-molybdenum mineralization in an intrusive complex. Four of the six drill holes were oriented within thirty degrees of north south and located within a 200 by 300 meter area roughly in the central portion of the IP chargeability anomaly. These holes were selected based on intensely altered and quartz-veined porphyry exposed in the drainages in the central portion of the chargeability anomaly. The drilling program encountered sub economic porphyry mineralization. The mineralized intersections, despite being largely in skarn and uneconomic, are considered by the Company to be encouraging for the greater porphyry potential of the system. Antofagasta Minerals S.A. terminated its option on the project in March 2010.
In July 2010 Almaden initiated a diamond drilling program on the gold-silver epithermal vein target area of the project located roughly 1 kilometer to the south of the porphyry prospect on the project. The first hole in this program (results announced in August 2010) intersected a zone of banded carbonate-quartz epithermal veining with gold and silver values. This hole constitutes the discovery of the Ixtaca Zone of veining. The entire hole cut through a vein zone of varying intensity of veining and intersected 302.41m of 1.01 g/t Au & 48 g/t Ag. Within this broad zone of veining several higher grade veins were intersected including 44.35 meters of 2.77 g/t Au and 117.7 g/t Ag. Immediately after this discovery the Company initiated a follow-up drill program. Between 2010 and 2013, Almaden'sAlmaden’s exploration at the Ixtaca Zone of the Tuligtic Property included geologic mapping and prospecting, alteration mineralogic characterization, rock and soil geochemical sampling, ground magnetics, IP and resistivity, Controlled Source Audio-frequency Magnetotelluric (CSAMT), and Controlled Source Induced Polarization (CSIP) geophysical surveys resulting in the identification of several anomalous zones. Since 2010, a total of 453 exploration diamond drill holes have been drilled at the Tuligtic Gold-Silver Project, totaling 147,892 m.
Present Condition of Project
Geology and Mineral Resources
The Tuligtic Property covers a roughly 5 by 5 kilometre area of high level epithermal alteration characterised by intense kaolinite-alunite alteration and silicification in volcanic rocks. This alteration is interpreted to represent the upper portion of a well preserved epithermal system. The epithermal system is hosted by both volcanic rocks and older carbonate units. Minor disseminated and vein mineralisation is hosted by the volcanic rocks (referred to as tuff, ash and volcanics). The bulk of the deposit is hosted by the carbonate units as vein swarms.
The Ixtaca deposit is ana low sulphidation epithermal gold-silver deposit, mostlyvein system. Most of the gold silver mineralisation occurs as zones of high grade vein and veinlets (vein swarms) in the carbonate basement units. A small portion of the gold silver mineralisation occurs above the unconformity as disseminated mineralisation in the altered volcanic rocks. The mineralisation is not oxidised and is hosted by veinsclassic banded and colloform low-sulphidation style carbonate-quartz veining. To date two main vein orientations have been identified in carbonate units (calcareous clastic rocks) and crosscutting pre-mineral altered dykes ("basement rocks") with a minor component of disseminated mineralisation hosted in overlying volcanic rocks. Wireframes constraining mineralised domains were constructed based on geologic boundaries defined by mineralisation intensity and host rock type. Higher grade zones occur where there is a greater density of epithermal veining. These higher grade domains have good continuity and are cohesive in nature.
• | 060 degrees trending sheeted veins hosted by limestone; | |
• | 330 degrees trending veins hosted by shale; | |
On January 31, 2013, the Company announced a maiden resource on the Ixtaca Zone. Since that timeSubsequent drilling has been focused on expanding and infilling the known resource base for the PEAPreliminary Economic Assessment (PEA) which utilised the NI 43-101 Compliant Updated Mineral Resource Estimate released January 22, 2014, performed by Gary Giroux, P.Eng., qualified person under the meaning of NI 43-101, and summarised in Table 1 below.2014. The data available for the maiden resource estimation consisted of 423 drill holes assayed for gold and silver. The estimate was constrained by three dimensional solids representing different lithologic and mineralized domains. Of the total drill holes 400 intersected the mineralized solids and were used to make the resource estimate. Capping was completed to reduce the effect of outliers within each domain.
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Amended Preliminary Economic Assessment
On January 22, 2016, Almaden filed a NI 43-101 Technical Report titled "Preliminary Economic Assessment of the Ixtaca Project”, which provided further detail to its December 9, 2015 press release summarizing the results of integrating the optioned Rock Creek Mill and a smaller, higher grade, payback focused pit on potential mine economics. Almaden subsequently filed an amended technical report on SEDAR on April 13, 2016 (the “Amended PEA”), however the amendments were not material changes and the Report’s data, inputs, interpretation, conclusions and results all remained unchanged.
The Amended PEA followed the historical PEAs released in 2014 and 2015 (“Historical PEAs”) which evaluated larger throughput development alternatives. The primary reasons for providing an update to the Historical PEAs were to show the impact of significantly reduced initial capital cost on project economics and, given the significant decrease in precious metals prices, to demonstrate the viability of a mine plan which focused on the near surface high grade limestone hosted portions of the Ixtaca Zone deposit.
This mine plan was a smaller higher grade scenario than those described in Almaden’s Historical PEA studies. In addition, the Amended PEA incorporated the optioned Rock Creek mill as well as results from various engineering studies related to the project which had been conducted since the Historical PEAs were completed. The Amended PEA incorporated:
• | The same resource model as the Historical PEAs; | |
• | The Rock Creek Mill, which was optioned by the Company in October 2015, with average throughput of 7,500 tonnes per day; | |
• | A smaller, near surface and payback focussed pit; | |
• | A mine production schedule which targets higher grades earlier; | |
• | Optimised waste placement and tailings management facilities; | |
• | A 2% NSR held by Almadex Minerals Limited. | |
Rock Creek Mill
Subsequent to the issuance of the Updated Mineral Resource Estimate, Almaden entered into an option agreement to acquire the Rock Creek Mill in October 2015. Rock Creek is a completed mill located outside of Nome, Alaska which only operated for several months before its owner suspended its mining operation in 2008. The mill has been kept in excellent condition on care on maintenance.
The mill was built to process 7,000 tonnes per day. It includes a three-stage crushing plant, gravity circuit, ball mill, floatation cells and leaching facilities. Also included in the option agreement are conveyors, metallurgical and chemical fire assay laboratories, a water treatment plant, full electrical circuitry and generators, and spare parts.
Under the option agreement, Almaden has the exclusive right and option to purchase the Mill and related assets for a total of US$6,500,000, subject to adjustment under certain circumstances, under the following terms:
On execution of agreement | US$250,000 | Paid |
On or before December 31, 2015 | US$250,000 | Paid |
On or before March 31, 2016 | US$250,000 | Paid |
On or before June 15, 2017 | US$2,000,000 | Paid |
On or before June 15, 2018 | US$3,750,000 |
In addition to the cash payments, Almaden also issued to the optionor 407,997 Almaden common shares valued at $273,358 upon receipt of regulatory approval, which were issued on November 25, 2016.
The Rock Creek Mill purchase price was substantially less than the estimated cost of new equipment included in the original PEA and is incorporated into the new costs estimates for the Ixtaca Preliminary Feasibility Study.
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Pre-Feasibility Study (“PFS”)
Upon completion of the Amended PEA, Almaden began the work required for a Pre-Feasibility Study on the Ixtaca Project. During 2016, Almaden completed the necessary geotechnical, geomechanical, and hydrologic field programs, and also optimized site layout through updated waste placement and facilities locations. A new metallurgical program was also completed on the limestone domain, which represents approximately 82% of the total gold equivalent ounces produced over the life of the mine in the PFS.
The completed PFS was filed on SEDAR on May 17, 2017 and includes an updated resource model. The mine production schedule includes the optioned Rock Creek Mill while targeting higher grades earlier, and uses smaller, payback focused starter pits.
HIGHLIGHTS
(base case uses US$1250/oz gold and US$18/oz silver prices):
• | Pre-tax NPV(5%) of US$484 million and internal rate of return of 54%; | |
• | After-tax NPV(5%) of US$310 million and internal rate of return of 41%; | |
• | Initial Capital of US$117 million; | |
• | After-tax payback of initial capital in 2.2 years; | |
• | Total Life of Mine production of 1.04 million ounces of gold and 70.9 million ounces of silver doré produced on site (2.07 million gold equivalent ounces, or 143 million silver-equivalent ounces at a 69:1 silver to gold ratio); | |
• | Average annual production over the first 9 years of 88,780 ounces gold and 5.47 million ounces silver (168,100 gold equivalent ounces, or 11.6 million silver equivalent ounces); | |
• | Operating cost US$706 per gold equivalent ounce, or US$10.20 per silver equivalent ounce; | |
• | All-in Sustaining Costs (“AISC”), including operating costs, sustaining capital, expansion capital, private and public royalties, refining and transport of US$862 per gold equivalent ounce, or US$12.50 per silver equivalent ounce; | |
• | Proven and Probable Mineral Reserves of 65 million tonnes averaging 0.62 g/t gold and 37.8 g/t silver (average head grade of 1.16 g/t gold equivalent using a 69:1 silver to gold ratio). | |
Mineral Resource Estimate
The mineral resource estimate at the Ixtaca Zone encompasses the Ixtaca Main, North, and Chemalaco Zones. On January 31, 2013 the Company announced a maiden resource on the Ixtaca Zone, which was followed by a resource update on January 22, 2014. Between that time and publication of the PFS, 33,618 metres of drilling were completed in 122 holes, and this data was also included in the current Mineral Resource Estimate. A total of 472 drill holes intersected the mineralized solids and were used to make the resource estimate. Capping was completed to reduce the effect of outliers within each domain. Uniform down hole 3 meter composites were produced for each domain and used to produce semi-variograms for each variable. Grades were interpolated into blocks 10 x 10 x 56 meters in dimension by ordinary kriging. Specific gravities were determined for each domain from drill core. Estimated blocks were classified as either Measured, Indicated or Inferred based on drill hole density and grade continuity.
The Base Case uses a 0.3g/t gold equivalent (“AuEq”) Cut-off, with 0.5, 0.7 and 1.0 g/t results included. The AuEq calculation is based upon average prices of US$1250/oz gold and US$18/oz silver.
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Cautionary Note to U.S. Investors concerning estimates of Measured and Indicated Resources
This section uses the terms "measured resources"“measured resources” and "indicated resources"“indicated resources”. We advise U.S. investors that while these terms are recognized and required by Canadian regulations, the U.S. Securities and Exchange Commission does not recognize them. U.S. Investors are cautioned not to assume that any part or all of mineral deposits in these categories will ever be converted into reserves.
MEASURED RESOURCE | ||||||||||
AuEq Cut-off | Tonnes > Cut-off | Grade>Cut-off | Contained Metal x 1,000 | |||||||
(g/t) | (tonnes) | Au (g/t) | Ag (g/t) | AuEq (g/t) | Au (ozs) | Ag (ozs) | AuEq (ozs) | |||
0.30 | 42,450,000 | 0.57 | 35.74 | 1.09 | 779 | 48,780 | 1,482 | |||
0.50 | 30,940,000 | 0.71 | 44.39 | 1.34 | 701 | 44,160 | 1,337 | |||
0.70 | 23,310,000 | 0.83 | 52.47 | 1.59 | 625 | 39,320 | 1,192 | |||
1.00 | 16,430,000 | 1.01 | 62.28 | 1.91 | 533 | 32,900 | 1,006 | |||
INDICATED RESOURCE | ||||||||||
AuEq Cut-off | Tonnes > Cut-off | Grade>Cut-off | Contained Metal x 1,000 | |||||||
(g/t) | (tonnes) | Au (g/t) | Ag (g/t) | AuEq (g/t) | Au (ozs) | Ag (ozs) | AuEq (ozs) | |||
0.30 | 83,370,000 | 0.45 | 22.54 | 0.77 | 1,195 | 60,410 | 2,064 | |||
0.50 | 50,220,000 | 0.60 | 29.56 | 1.02 | 964 | 47,730 | 1,650 | |||
0.70 | 32,280,000 | 0.75 | 35.72 | 1.26 | 776 | 37,070 | 1,311 | |||
1.00 | 18,260,000 | 0.97 | 43.47 | 1.59 | 568 | 25,520 | 936 |
Cautionary Note to U.S. Investors concerning estimates of Inferred
Resources
This section uses the term "inferred resources"“inferred resources”. We advise U.S. investors that while this term is recognized and required by Canadian regulations, the U.S. Securities and Exchange Commission does not recognize it. "Inferred resources"“Inferred resources” have a great amount of uncertainty as to their existence, and great uncertainty as to their economic and legal feasibility. It cannot be assumed that all or any part of an Inferred Mineral Resource will ever be upgraded to a higher category. Under Canadian rules, estimates of Inferred Mineral Resources may not form the basis of feasibility or other economic studies. U.S. investors are cautioned not to assume that part or all of an inferred resource exists, or is economically or legally mineable.
INFERRED RESOURCE | |||||||
AuEq Cut-off | Tonnes > Cut-off | Grade>Cut-off | Contained Metal x 1,000 | ||||
(g/t) | (tonnes) | Au (g/t) | Ag (g/t) | AuEq (g/t) | Au (ozs) | Ag (ozs) | AuEq (ozs) |
0.30 | 47,050,000 | 0.30 | 19.15 | 0.58 | 457 | 28,970 | 874 |
0.50 | 19,860,000 | 0.45 | 27.31 | 0.85 | 288 | 17,440 | 540 |
0.70 | 10,260,000 | 0.61 | 32.98 | 1.09 | 202 | 10,880 | 359 |
1.00 | 4,430,000 | 0.88 | 38.50 | 1.43 | 125 | 5,480 | 204 |
A mining design, cost model and production schedule have been developed for the Ixtaca Zone, NI 43-101 Measured, Indicated and Inferred Mineral Resource Statement with the Base Case 0.5 g/t AuEq Cut-Off highlighted. Also shown are the 0.3, 0.7, 1.0 and 2.0 g/t AuEq cut-off results. AuEq calculation based on three year trailing average prices of $1540/oz gold and $30/oz silver.
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Mining will utilize a contractor mining. owned an operated fleet. A series of pit optimizations have been completed using the resource block model, applying a range of metal prices and recoveries, estimated costs for mining, processing, and pit slopes. The operational pits are designed based on the optimized shell, and the potentially mineable portion of the resource is estimated within those pits. The ultimate pit contains a total of 65.1 million tonnes of mill feed at strip ratio of 5.01:1. The mill feed tonnages include a mining loss dilution. Mineral Reserves are shown in the below table assuming an NSR cut-off grade of $15.40/t and are stated as Run of Mine (ROM) which represents tonnes of ore delivered to the mill. Mining recovery is 95% for all rock-types. All Inferred Resource Class material is treated as waste in calculating economic pit limits and in subsequent reserves reporting, scheduling and economics. The total mineable reserves from the Pre-Feasibility Study are given below:
Recovered In-pit Resources and Diluted Grade | |||||
Run of Mine Tonnes |
Diluted Average Grades |
Contained Metal | |||
(millions) | Au (g/t) | Ag (g/t) | Au – ‘000 ozs | Ag – ‘000 ozs | |
Proven | 28.4 | 0.68 | 45.0 | 623 | 41,032 |
Probable | 36.8 | 0.57 | 32.0 | 669 | 37,793 |
TOTAL | 65.1 | 0.62 | 37.7 | 1,292 | 78,825 |
Notes:
1. | Mineral Reserves have an effective date of March 30, 2017. All Mineral Reserves are Proven and Probable, and are not in addition to Mineral Resources, but are a subset thereof. All Mineral Reserves account for mining loss and dilution. |
2. | Reserves are converted from resources through the process of pit optimization, pit design, production schedule and supported by a positive cash flow model. |
3. | Reserves are based on a gold price of US$1,250/oz and silver price of US$18.00, and an exchange rate of US$1.00 to MXP20.00. |
4. | Associated metallurgical recoveries of gold and silver, respectively, have been estimated at 90% and 90% for limestone, 50% and 90% for volcanic, and 50% and 90% for black shale. |
Estimated mining inventory is comprised of 179326 million tonnes of rock and 3665 million tonnes of mill feed with an average mill feed grade of 0.760.62 grams per tonne gold and 4737.7 grams per tonne silver. A total of 724 thousand1.04 million ounces of gold and 48.870.9 million ounces of silver would be produced over the 1314 year mine life.
The Amended PEA includesultimate open pit is separated into seven mining phases. The mine plan consists of one year of pre-stripping (prior to ore processing start-up), and fourteen years of open pit mining. Stockpile reclaim will be fed to the processing facility throughout the mine life. All open pit ore and reclaimed stockpile material will be fed to a primary crusher near the pit rim and transported to the processing facility on an overland conveyor.
Processing will use the Rock Creek processMill which was optioned by the Company in October 2015. The plant will operate initially at an average throughput of 7,650 tpd and expanding to produce15,300 tpd by year 5, producing gold and silver doré on site. The process plant includes conventional crushing, grinding, gravity, flotation, and concentrate leaching. Process reagents will be removed from process plant tailings prior to placement in a tailings management facility ("TMF"). the following key design criteria:
• | Three-stage crushing followed by grinding to P80 passing 75 microns; | |
• | Gravity concentration with intensive leaching of gravity concentrate; | |
• | Flotation of gravity concentration tails; | |
• | Carbon-in-Pulp (CIP) to recover gold and silver from flotation concentrate and gravity leach tails; | |
• | An elution circuit to strip loaded carbon, electrowinning and smelting to produce a precious metal doré; | |
• | Cyanide destruction; | |
• | Final tailings are thickened, then delivered to the tailings management facility. | |
The following table summarizes the production and processing parameters:
Projected Production and Processing Summary | ||
Ore Reserves | 65 million tonnes | |
Average Processing Rate | 7,650 tpd Year 1 to 4, 15,300 tpd Year 5 onwards | |
Life of Mine (LOM) Strip Ratio | 5 : 1 | |
Gold | Silver | |
Average Mill Feed Grade | 0.62 g/t | 37.7 g/t |
Average Process Recoveries | 81% | 90% |
Average Annual Production LOM (ounces) | 78,100 | 5,290,000 |
Total Production (ounces) | 1,043,000 | 70,932,000 |
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Total Mill Feed Material* | 35.5 Million tonnes** | |
Processing Rate | 7,500 tonnes per day | |
Life of Mine (LOM) Strip Ratio | 5 : 1*** | |
Gold | Silver | |
Average Mill Feed Grade | 0.76 g/t | 47.5 g/t |
Average Process Recoveries | 84% | 90% |
Average Annual Production LOM (ounces) | 55,660 | 3,754,000 |
Total Production (ounces) | 723,580 | 48,806,000 |
The total estimated initial capital cost for the Ixtaca gold-silver project is US$100.2 million and sustaining116.9 million. Sustaining capital is $24estimated at US$119.7 million over the life of the mine life ("LOM")(LOM). The estimated LOMcapital and operating costs estimates have a level of accuracy of +/-20% within the PFS.
The initial capital costs are US$26.99 per tonne mill feed.
Base Case | |
Mining | $12.1 |
Process | $35.6 |
Tailings Management Facility (TMF) | $11.7 |
Water Management | $5.4 |
Onsite Infrastructure | $ |
Offsite Infrastructure | $7.8 |
Environmental | $1.8 |
Indirects, EPCM, Contingency and Owner’s Costs | $34.9 |
Total | $116.9 |
* Numbers may not add due to rounding
The sustaining capital includes expansion capital of US$72 million which would be funded from cash flow. The expansion capital costs are summarized below:
Expansion Capital Costs (US$ millions) | |
Mining | $1.3 |
Process | $35.4 |
Infrastructure | $12.2 |
TMF and Water Management | $ |
Indirects, EPCM, Contingency and | $ |
Total | $ |
The total LOM operating costs are US$22.5/tonne mill feed. This estimate includes contractor mining, processing, general & administrative, general mine expense, re-handle, reclamation, Tailings Management Facility and water management operating costs during the period of operations. Initial capital costs are not included in the LOM operating costs.
The LOM average costs are summarized below:
Summary of Average LOM Operating Costs (US$/tonne mill feed) | ||
Base Case | ||
Mining | $ | $/tonne mined |
Mining | $ | $/tonne milled |
Processing | $ | $/tonne milled |
G&A | $ | |
$/tonne milled | ||
Total | $ | $/tonne milled |
* Numbers may not add due to rounding
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The PFS project economics are based on a gold price of US$1250/oz and Sensitivities
Summary All-in sustaining cost (exclusive of initial capital) | |||
Total US$ million | US$/ Oz AuEq | US$/ Oz AgEq | |
Cash operating Cost | 1,463 | 706 | 10.2 |
Sustaining Capital Cost | 119 | 58 | 0.8 |
Almadex Royalty | 50 | 24 | 0.4 |
Mexican royalty taxes | 74 | 36 | 0.5 |
Refining + Transport | 79 | 38 | 0.6 |
Total | 1,785 | 862 | 12.5 |
A summary of financial outcomes comparing base case metal prices to two alternative metal price situations is presented below. The Amended PEAPFS base case prices are derived from a combination of spot prices and current common peer usage. The Alternate Caseusage, while the alternate cases consider the project’s economic outcomes at varying prices represent a discountwitnessed at some point over the three years prior to the lowest sustaineddate of the PFS.
Summary of Economic Results and Sensitivities to Metals Price (US$ Million) | ||||||||
Lower Case | Base Case | Upper Case | ||||||
Pre-Tax | After-Tax | Pre-Tax | After-Tax | Pre-Tax | After-Tax | |||
Gold Price (US$/oz) | $1150 | $1250 | $1350 | |||||
Silver Price (US$/oz) | $15 | $18 | $21 | |||||
NPV (5% discount rate) | $275 | $175 | $484 | $310 | $693 | $443 | ||
Internal Rate of Return (%) | 38% | 28% | 54% | 41% | 70% | 52% | ||
Payback (years) | 2.4 | 2.6 | 2.0 | 2.2 | 1.6 | 1.9 |
The operating costs (“Opex”) are projected to be US$22.5 per tonne milled. The following table shows the sensitivity of project economics to a 10% change in the operating costs, assuming base case metals prices.
Summary of Economic Results and Sensitivities to Operating Costs (US$ Million) | ||||||
Lower Case | Base Case | Upper Case | ||||
Pre-Tax | After-Tax | Pre-Tax | After-Tax | Pre-Tax | After-Tax | |
Opex (US$/t milled) | -10% | $22.5/t | +10% | |||
NPV (5% discount rate) | $581 | $372 | $484 | $310 | $386 | $248 |
Internal Rate of Return (%) | 61% | 46% | 54% | 41% | 48% | 35% |
Payback (years) | 1.9 | 2.1 | 2.0 | 2.2 | 2.1 | 2.3 |
The Initial Capital cost is estimated to be US$116.9 million. The following table shows the sensitivity of project economics to a 10% change in the initial capital costs, assuming base case metals prices.
Summary of Economic Results and Sensitivities to Capital Cost (US$ Million) | ||||||
Lower Case | Base Case | Upper Case | ||||
Pre-Tax | After-Tax | Pre-Tax | After-Tax | Pre-Tax | After-Tax | |
Initial Capital (US$m) | -10% | 116.9 | +10% | |||
NPV (5% discount rate) | $495 | $318 | $484 | $310 | $473 | $302 |
Internal Rate of Return (%) | 60% | 45% | 54% | 41% | 50% | 37% |
Payback (years) | 1.9 | 2.1 | 2.0 | 2.2 | 2.1 | 2.3 |
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The Ixtaca Project is also sensitive to the exchange rate between U.S. dollars and Mexican Pesos (“MXN”). The PFS assumes an exchange rate of 20 MXN per U.S. dollar, and the following table shows the sensitivity of project economics to different exchange rates assuming base case metals prices.
Summary of Economic Results and Sensitivities to Exchange Rate (US$ Million) | ||||||
Lower Case | Base Case | Upper Case | ||||
Pre-Tax | After-Tax | Pre-Tax | After-Tax | Pre-Tax | After-Tax | |
Exchange Rate (MXN:USD) | 18 | 20 | 22 | |||
NPV (5% discount rate) | $380 | $243 | $484 | $310 | $569 | $364 |
Internal Rate of Return (%) | 47% | 35% | 54% | 41% | 60% | 45% |
Payback (years) | 2.1 | 2.3 | 2.0 | 2.2 | 1.9 | 2.1 |
Almaden has secured through purchase agreements from numerous independent owners approximately 1,018 hectares which represents the majority of land required for the proposed production plan. This was completed through friendly land purchase agreements with locals, considering fair market value. There are no communities that require relocation as part of the Project development. Mineral Claim owners have the right to obtain the temporary occupancy, or creation of land easements required to carry out exploration and mining operations, under the Federal Mining Law.
Sample Preparation, Analyses and Security
All strongly altered or epithermal-mineralized intervals of core have been sampled. Almaden employs a maximum sample length of 2 to 3m in unmineralized lithologies, and a maximum sample length of 1m in mineralized lithologies. During the years 2010 and 2011 Almaden employed a minimum sample length of 20cm. The minimum sample length was increased to 50cm from 2012 onwards to ensure the availability of sufficient material for replicate analysis. Drill core is half-sawn using industry standard diamond core saws. After cutting, half the core is placed in a new plastic sample bag and half are placed back in the core box. Sample numbers are written on the outside of the sample bags and a numbered tag placed inside the bag. Sample bags are sealed using a plastic cable tie. Sample numbers are checked against the numbers on the core box and the sample book.
ALS Minerals (ALS) sends its own trucks to the Project to take custody of the samples at the Santa Maria core facility and transports them to its sample preparation facility in Guadalajara or Zacatecas, Mexico. Prepared sample pulps are then forwarded by ALS personnel to the ALS North Vancouver, British Columbia laboratory for analysis.
Drill core samples have been subject to gold determination via a 50 gram (g) Atomic Absortion (AA) finish Fire Assay (FA) fusion with a lower detection limit of 0.005ppm Au (5ppb) and upper limit of 10ppm Au (ALS method Au-AA24). Over limit gold values (>10ppm Au) are subject to gravimetric analysis (ALS method Au-GRA22). Silver, base metal prices overand pathfinder elements for drill core samples are analyzed by ICP-AES, with a 4-acid digestion, a lower detection limit of 0.5ppm Ag and upper detection limit of 100ppm Ag (ALS method ME-ICP61). Over limit silver values (>100ppm Ag) are subject to 4-acid digestion ICP-AES analysis with an upper limit of 1,500ppm Ag (ALS method ME-OG62). Ultra-high grade silver values (>1,500ppm Ag) are subject to gravimetric analysis with an upper detection limit of 10,000ppm Ag (Ag-GRA22).
Quality Assurance/Quality Control (QA/QC)
For the previous three years. The 3 year trailing average prices representTuligtic rock grab sample and soil geochemical programs, the upside potential should metal prices regain their previous strength.Company utilizes external quality assurance and quality control (QA/QC) measures employed by ALS. QA/QC measures at ALS include routine screen tests to verify crushing efficiency, sample preparation duplicates (every 50 samples), and analytical quality controls (blanks, standards, and duplicates). QC samples are inserted with each analytical run, with the minimum number of QC samples dependent on the rack size specific to the chosen analytical method. Results for quality control samples that fall beyond the established limits are automatically red-flagged for serious failures and yellow-flagged for borderline results. Every batch of samples is subject to a dual approval and review process, both by the individual analyst and the Department Manager, before final approval and certification.
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Drill core samples are subject to Almaden’s internal QA/QC program that includes the insertion of Ixtaca Gold-Silver Economic Resultsanalytical standard, blank and Sensitivities (US$ Million)
Alternate Case | Base Case | 3 Year trailing Average | ||||
Pre-Tax | After-Tax | Pre-Tax | After-Tax | Pre-Tax | After-Tax | |
Gold Price ($/oz) | $1000 | $1150 | $1300 | |||
Silver Price ($/oz) | $14 | $16 | $20 | |||
Net Cash Flow | $235 | $149 | $435 | $280 | $731 | $470 |
NPV (5% discount rate) | $132 | $78 | $266 | $166 | $464 | $293 |
Internal Rate of Return (%) | 24% | 18% | 39% | 30% | 57% | 44% |
Payback (years) | 3.3 | 3.9 | 2.3 | 2.6 | 1.6 | 2.0 |
QA/QC sample results are based on the mill feed tonnages in the selected ultimate pit. The mill feed tonnages include Inferred Resources. The reader is cautioned that Inferred Resourcesreviewed following receipt of each analytical batch. QA/QC samples falling outside established limits are considered too speculative geologicallyflagged and subject to have the economic considerations applied to them that would enable them to be categorized as Mineral Reserves. There is no certainty that Inferred Resources will ever be upgraded to Reserves. Mineral Resources that are not Mineral Reserves do not have demonstrated economic viability.
Current Work
Since the coursecompletion of the Company's exploration and development program. The Company invites all interested parties to visit www.almadenminerals.com to find out more about our community development, education and outreach programs.
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Additional geotechnical evaluations in areas of infrastructure and | |||
Continued monitoring of water quality and | |||
The Company has completed the continuing expansionrequired studies and prepared the initial draft Environmental Impact Assessment (MIA), which has been submitted to a third-party for review before the final document is submitted.
A Social Impact Assessment of the newly discovered high grade veinsIxtaca project has been completed by Mexico City based consulting group which concluded that Almaden has consulted widely with the Focus Area communities, the project was well understood, and the SIA was successful in providing people with an opportunity to clearly express their views on the impacts of the project development.
Exploration drilling has continued both within the PFS pit area and in zones outside the PFS pit and resource area, with the focus of the drilling to add additional resources which could potentially be mined either by open pit or underground methods for inclusion in future engineering studies. Recent holes have intersected significant mineralisation and veining inside the PFS pit, including within material that had been previously designated as waste material in the PFS. Other holes have expanded the Main Ixtaca North Zone to depth and demonstrates additional resource potential both laterallyintersected mineralization immediately outside the PFS pit.
Results of this drilling included:
Hole TU-17-532 SECTION 50025 NORTH Az. 070, Dip -80 (BENEATH PFS PIT)
101.45 meters @ 1.94 g/t Au and at depth. The Company intends to continue its exploration drilling in 2017.
Including 46.20 meters @ 3.87 g/t Au and 15.1 g/t Ag
And 28.95 meters @ 5.61 g/t Au and 19.7 g/t Ag
And 13.10 meters @ 9.35 g/t Au and 25.5 g/t Ag
Hole GMET-17-13 SECTION 49950 NORTH Az. 070, Dip -35 (WITHIN PFS PIT)
53.90 meters @ 0.48 g/t Au and 37.8 g/t Ag
Including 7.00 meters @ 1.11 g/t Au and 95.3 g/t Ag
Hole GMET-17-14 SECTION 49950 NORTH Az. 070, Dip -60 (WITHIN AND BENEATH PFS PIT)
24.00 meters @ 1.90 g/t Au and 16.3 g/t Ag
Including 12.00m @ 3.66 g/t Au and 26.6 g/t Ag
And 5.00 m @ 7.91 g/t Au and 33.8 g/t Ag
57.55 meters @ 1.29 g/t Au and 23.5 g/t Ag
Including 3.00 meters @ 16.87 g/t Au and 37.7 g/t
Beyond the Ixtaca deposit, is one of severalother exploration targets exist on the wholly owned Tuligtic property. The Tuligtic claim covers an area of high level epithermal clay alteration. The project area is partially covered by volcanic ash deposits which mask underlying alteration, potential vein zones and associated soil responses. In areas devoid of this covering ash, soil sampling has defined several distinct zones of elevated gold and silver values and trace elements typically associated with epithermal vein systems. The Ixtaca zone is one of the largest areas of gold/silver soil response but it is also one of the areas with the least ash cover on the project. Management believes that the other altered and geochemically anomalous areas could represent additional zones of underlying quartz-carbonate epithermal veining like the Ixtaca zone.
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Several recent holes have been insufficient exploration and/or study to define these exploration targets as a Mineral Resource. It is uncertain if additional exploration will result in these exploration targets being delineated as a Mineral Resource. The potential quantity and grade of these exploration targets has not been useddrilled in the PEA.
Hole TU-17-530 Az. 270, Dip -50
46.00 meters @ 0.57 g/t Au and 2.2 g/t Ag
Including 26.00 meters @ 0.71 g/t Au and 2.3 g/t Ag
And 6.00 meters @ 1.06 g/t Au and 2.3 g/t Ag
Hole TU-17-531 Az. 000, Dip -50
10.00 meters @ 2.11 g/t Au and 1.6 g/t Ag
Including 6.00 meters @ 3.38 g/t Au and 2.0 g/t Ag
And 2.00 meters @ 8.17 g/t Au and 3.8 g/t Ag
Hole TU-17-533 Az. 185, Dip -55
10.50 meters @ 0.83 g/t Au and 2.4 g/t Ag
Including 3.00m @ 1.26 g/t Au and 1.5 g/t Ag
There is no drilling between these holes and the PFS pit area, along the 060 Azimuth trend of the Main Ixtaca Zone, and this gap is considered highly prospective. Further drilling in the Tano Zone area is currently underway.
Upcoming / Outlook
Almaden has sufficient cash on hand to conduct its development plansanticipated work program for the next fiscal year at Ixtaca. Advanced engineering studies related to the Feasibility Study will continue to be the emphasis of this year'syear’s work program, as well as preparations necessary to advance permitting activities for the Ixtaca project.project, which includes the filing of the Environmental Impact Assessment. The Company will also continue the exploration drill program to test for additional high grade vein structures immediately adjacent to known mineralisation within and around the Amended PEAPFS pit.
Operating Results
The following discussion and analysis of the results of operations and the Company'sCompany’s financial position should be read in conjunction with the consolidated financial statements and related notes for the years ended December 31, 2017, 2016, 2015, and 20142015 appearing under Item 18 – Financial Statements and listed under Item 19 – Exhibits.
The Company'sCompany’s consolidated financial statements are stated in Canadian Dollars and have been prepared in accordance and compliance with International Financial Reporting Standards as issued by the International Accounting Standards Board ("IFRS"(“IFRS”).
The Company is in the business of exploring its principal mineral property in Mexico with the aim of developing it to a stage where it can be exploited at a profit or to arrange joint ventures or other business transactions whereby other companies provide, in whole or in part, funding for development and exploitation. At that stage, the Company'sCompany’s operations would, to some extent, be dependent on the world market prices of any minerals mined. The Company does not have producing properties and operations on its properties.
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The Company receives other income from an Administrative Services Agreement with Almadex Minerals Limited. Under the Agreement, the Company is the sole and exclusive manager of Almadex. Almadex compensates the Company 30% of the Company'sCompany’s actual monthly cost of rent for any shared facilities, and 30% of any shared personnel'spersonnel’s fees and/or wages. Almadex also pays the Company any reasonable fees or costs incurred on behalf of Almadex by the Company which were approved by Almadex. The Administrative Services Agreement has an initial 5-year term, with subsequent automatic 1 year renewals unless terminated pursuant to the terms permitted under the Agreement. The Agreement includes
Fiscal 2017 compared to Fiscal 2016
For the year ended December 31, 2017, the Company recorded a net loss and comprehensive loss of $5,231,295 or $0.05 per share compared to a net loss of $4,023,504 or $0.05 per share for the year ended December 31, 2016. The increase in net loss of $1,207,791 was primarily a result of increased operating expenses, in particularly in compensation, share-based payments and professional fees.
Because the Company is an exploration company, it has no revenue from mining operations. Other income of $468,448 (2016 - $443,560) during the year ended December 31, 2017, consisted of mainly interest income and other income from administrative services fees earned from Almadex partially offset by foreign exchange loss.
Operating expenses were $5,699,743 during the year ended December 31, 2017 (December 31, 2016 - $4,467,064). Certain operating expenses were reported on a gross basis and recovered through interest and other income at approximately 30% from the administrative services agreement with Almadex. The increase in operating expenses of $1,232,679 was mainly the result of increased professional fees related to corporate legal services performed in Mexico. Salaries and benefits, stock exchange fees, and directors’ fees were increased compared to the same time last year as a result of normal course of operating a public company. Share-based payments increased by $824,060 due to stock option grants during the period.
Fiscal 2016 compared to Fiscal 2015
For the year ended December 31, 2016, the Company recorded a net loss and comprehensive loss of $4,023,504 or $0.05 per share compared to a net loss of $1,477,977 or $0.02 per share for the year ended December 31, 2015. The increase in net loss of $2,545,527 was primarily a result of the gain recognized in the transfer of spin-out assets to Almadex of $3,115,422 offset by the other comprehensive loss of $333,452 in 2015.
The Company has no revenues from mining operations as it only conducted exploration and development work. Other income (loss) of $443,504 (2015 – $2,710,588) during the year ended December 31, 2016 consisted mainly of interest income and administrative service fees whereas in 2015, assets spun-out to Almadex generated other sources of income. Interest income during the year ended December 31, 2016 increased by $246,868 as a result of higher cash balances available for investment. The administrative service fees in 2016 also increased by $238,374 compared to 2015 as a result of a full year charge whereas in 2015, the Company only earned 5 months of services fees from August 1, 2015 to December 31, 2015.
Operating expenses were $4,467,064 during the year ended December 31, 2016 (2015 - $4,259,713). The increase operating expenses of $207,351 iswas mainly the result of higher salaries of $574,494 offset by decreases in professional fees, stock exchange fees, and depreciation as a result of the corporate reorganization completed in 2015. The increase in salaries was due to the Chairman and the CEO'sCEO’s salaries recorded in salaries and benefits to reflect their functions related to operating a public company rather than general exploration services performed in 2015. The spin-out transactions in 2015 produced higher operating expenses in professional fees and stock exchange fees.
Liquidity and Capital Resources
As at December 31, 2016,2017, the Company'sCompany’s working capital position was $9,293,081.$16,065,496. Management estimates that the current cash position and expected future cash flows from the exercise of outstanding stock options and warrants and equity financing will be sufficient for the Company to carry out its anticipated exploration and operating plans for fiscal 20172018 that includes further development of the Ixtaca property.
Management believes that the Company’s cash resources are sufficient to meet its working capital and mineral exploration requirements for its next fiscal year.
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Fiscal 2017
At December 31, 2017, the Company had working capital of $16,065,496 including cash and cash equivalents of $16,334,534 compared to working capital of $9,293,081 including cash and cash equivalents of $9,770,006 at December 31, 2016. The increase in working capital of $6,772,415 is mainly due to increase in cash flow from financing raised through two private placements completed during the year.
The Company has a proven track recorddeferred income tax liability in the amount of $1,434,882. The deferred income tax liability relates to bethe Mexican income tax and Special Mining Duty associated with the Ixtaca Project.
Management believes that the Company’s cash resources are sufficient to meet its working capital and mineral exploration requirements for its next fiscal year. On February 7, 2017, the Company closed a non-brokered private placement for gross proceeds of $3,401,199 and on June 1, 2017, the Company closed a bought deal private placement for gross proceeds of $17,251,150. As a result of both financings, the Company has been able to raise money even in a very challenging financial marketplacemarketplace.
Net cash used in operating activities during the year ended December 31, 2017, was $2,674,767 (2016 - $2,321,136), after adjusting for non-cash activities.
Net cash used in investing activities during the year ended December 31, 2017, was $12,808,053 (2016 - $5,524,623). Significant items include expenditures on exploration and evaluation assets of $8,860,153 (2016 - $5,177,485), and deposit on mill equipment of $3,642,826 (2016 - $324,600).
Net cash from financing activities during the year December 31, 2017, was $22,047,348 (2016 - $11,392,987) as demonstrated by raising $3.4 million ina result of a non-brokered private placement that closed on February 7, 2017,.
Management estimates that the current cash position and potential future cash flows from in the money stock options and warrants will be sufficient for the Company to carry out its anticipated exploration and operating plans for the foreseeable future. There may be circumstances where, for sound business reasons, a reallocation of funds may be necessary in order for the Company to achieve its stated business objectives.
Fiscal 2016
At the end of Fiscal 2016, the Company had working capital of $9,293,081 including cash and cash equivalents of $9,770,006 compared to working capital of $5,808,473 including cash and cash equivalents of $6,222,778 at the end of Fiscal 2015. The increase in working capital of $3,484,608 iswas mainly due to a non-brokered private placement in May 2016 and the exercise of warrants in July 2016.
Cash used in operations during Fiscal 2016 was $2,321,136 (Fiscal 2015 - $3,015,966) after adjusting for non-cash activities.
Cash used in investing activities during Fiscal 2016 was $5,524,623 (Fiscal 2015 - $4,362,807). Significant items include expenditures on mineral property interests of $5,177,485 (Fiscal 2015 - $3,668,974) primarily on land acquisition of $1,578,436 (Fiscal 2015 - $831,455) and exploration costs on the Tuligtic property of $3,868,910 (Fiscal 2015 - $3,048,151). The Company also invested $324,600 (Fiscal 2015 - $692,000) pursuant to the terms of an Asset Purchase Option Agreement dated October 16, 2015 with Alaska Gold Company, LLC and Bering Straits Native Corporation (the "Asset“Asset Purchase Option Agreement"Agreement”) in respect of an option on certain mining equipment referred to as the "Rock“Rock Creek mill"mill”.
On May 25, 2016, the Company closed a non-brokered private placement by the issuance of 3,229,082 units at a price of $1.35 per unit for gross proceeds to the Company of $4,359,260. Each unit consists of one common share and one-half of one non-transferable common share purchase warrant. Each whole warrant allows the holder to purchase one common share of the Company at a price of $2.00 per share until November 25, 2018. Share issue costs included a finder'sfinder’s fee of $147,925 in cash, and finders'finders’ warrants to purchase up to 45,944 common shares at a price of $1.44 per common share until November 25, 2018. The fair value of the finders'finders’ warrants was $17,918. In connection with the private placement, the Company also incurred $119,689 in share issue costs. These amounts were recorded as reduction to share capital. The proceeds of the private placement were allocated entirely to share capital.
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Fiscal 2015
At the end of Fiscal 2015, the Company had a working capital of $5,808,473 including cash and cash equivalents of $6,222,778 compared to working capital of $9,171,791 including cash and cash equivalents of $8,172,598 at the end of Fiscal 2014. The decline in working capital of $3,363,318 iswas mainly due to current assets spun out to Almadex including Marketable Securities and Gold Inventory. During Fiscal 2015, the Company closed two non-brokered private placements for gross proceeds of $8,905,000 to continue the Ixtaca exploration and development program.
Cash used in operations during Fiscal 2015 was $3,015,966 (Fiscal 2014 - $2,910,414) after adjusting for non-cash activities.
Cash used in investing activities during Fiscal 2015 was $4,362,807 (Fiscal 2014 - $6,792,511). Significant items include expenditures on mineral property interests of $3,668,974 (Fiscal 2014 - $6,946,559) primarily on land acquisition of $831,455 (Fiscal 2014 - $1,137,914) and exploration costs on the Tuligtic property of $3,048,151 (Fiscal 2014 - $5,155,990). The Company also invested $692,000 (Fiscal 2014 - $Nil) pursuant to the terms of an Asset Purchase Option Agreement dated October 16, 2015 with Alaska Gold Company, LLC and Bering Straits Native Corporation (the "Asset“Asset Purchase Option Agreement"Agreement”) in respect of an option on certain mining equipment referred to as the "Rock“Rock Creek mill"mill”.
On February 11, 2015, the Company closed on a non-brokered private placement by the issuance of 4,420,000 units at a price of $1.25 per unit for gross proceeds to the Company of $5,525,000 less share issue costs of $372,763. Each unit consisted of one common share and one-half of one non-transferrable common share purchase warrant. Each whole warrant allows the holder to purchase one common share at a price of $2.00 per common share until February 11, 2016. A finder'sfinder’s fee of $212,626 in cash and finder'sfinder’s warrants to purchase up to 49,410 common shares at a price of $1.28 per common share until February 11, 2016 was paid on a portion of the placement. The fair value of the finder'sfinder’s warrants of $13,341 was estimated using the Black-Scholes option pricing model.
On November 17, 2015, the Company closed on a non-brokered private placement by the issuance of 4,506,666 units at a price of $0.75 per unit for gross proceeds to the Company of $3,380,000 less share issue costs of $122,609. Each unit consisted of one common share and one-half of one non-transferrable common share purchase warrant. Each whole warrant allows the holder to purchase one common share at a price of $1.00 per common share until November 17, 2017. A finder'sfinder’s fee of $73,550 in cash and finder'sfinder’s warrants to purchase up to 35,200 common shares at a price of $0.77 per common share until November 17, 2017 was paid on a portion of the placement. The fair value of the finder'sfinder’s warrants of $5,984 was estimated using the Black-Scholes option pricing model.
Research and Development, Patents and Licenses
The Company conducts no Research and Development activities, nor is it dependent upon any patents or licenses.
Trend information
During 2016,2017, prices of precious metals werecontinued to be quite volatile, with the gold price trading at a low of about US$1,060/1160/ounce in January 20162017 and a high of over US$1,360/1350/ounce in July, before finishing the year at US$1,152/1300/ounce. The price of silver followed a similar volatile trajectory, trading at a low of about US$13.8015.30 in January 20162017 and a high of over US$20.6018.00 in August, before finishing the year at about US$15.90/16.90/ounce. While theThe volatility of the gold and silver prices contributed to an uncertain environment for mine planning and design itand for the capital markets, which was not conducive to a welcome departure from the prolonged period of declining prices witnessed in the prior 3 years and created more favourablevibrant financing opportunitiesenvironment for mining and mineral exploration companies.
It remains unclear how long the significant volatility in metals prices will continue.continue, and whether or when the financing climate for mining and mineral exploration companies will improve. In prior years, significant selling on Comex and redemptions from gold and silver funds contributed to the steep reduction in metal prices. These lower prices in turn resulted in large producers selling non-core or high cost assets, suspending or shelving new mine construction, and initiating severe cost control measures, including sharply reducing exploration expenditures. The lower price environment also led to large write-downs of assets and recent acquisitions by many companies, and resulted in significant reductions to mineable reserves worldwide. Lower prices also resultresulted in miners selectively mining higher grade portions of a deposit, which may effectively sterilize lower grade portions from ever being mined even with higher prices at a later date. Reserves are also declining due to mining operations, yet generally speaking these depleted reserves are not being replaced because of reduced exploration efforts over the past several years.
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One of the easiest areas to cut costs is by cutting or eliminating exploration and acquisition activity. With the recovery in the precious metals markets and relatedrelatively improved financing climate starting in 2016, we saw many large miners return to exploration after a prolonged reduction in activity. However, in the wake of the difficult operating environment up until mid-2016, most of these companies are still quite risk-averse and as a result, what exploration is taking place is focused near their own mine operations in an attempt to replace the depleted reserves, and very little early-stage, regional exploration is being supported by them. For the same reason, M&A activity has been muted as a number of miners are still working through acquisitions which were predicated on higher metal prices, while others are fully occupied optimizingwith balance sheet issues or optimization of their existing mine plans in a highly volatile environment.
Much of the volatility in precious metals prices is caused by uncertainties regarding economic growth of the major economies and the policy response of central bankers to the economic environment. Geopolitical uncertainty has also increased recently with new leadershipcontinued in the United States questioning2017 as the utility of long-established internationaltraditional global political and economic unions.trade alliances as been openly questioned at the highest levels. Currency markets are respondinghave responded with increased volatility, as witnessed by the 17% decrease in the Mexican peso versus the United States dollar in 2016.volatility. Given that varying proportions of the costs of production in mining operations are valued in the local currencies, whereas the metals themselves are generally sold in U.S. dollars, currency exchange rates can have a significant impact on operating conditions.
The uncertain times have led to some cash strapped governments to seek or threaten higher tax and royalty policies while others consider lowering them to attract investment. Globalization of trade and markets has been more important to the mineral industry than many other industries, and because of current conditions these concepts are under question by many vested interest groups. At the same time, environmental groups have successfully lobbied for more wilderness areas and parks where exploration and mining activities are prohibited. NativeIndigenous groups are actively pursuing land claims and there is a rise of militant national and religious groups in many parts of the world. Pressure from such groups can lead to increased regulation and this must be monitored closely to recognize a point where it becomes excessive. Many governments are pursuing regulations and taxes on emissions of so called "greenhouse gases"“greenhouse gases” that could raise costs for many industries including metal mining. As more and more stakeholders become interested in mining ventures there is an increasing need to maintain cooperation with valid concerned groups, particularly among the local community where the project is located. Some of these issues tend to restrict the areas where mineral exploration and development of new mines can occur. This should make areas permissive to exploration more attractive and a previously discerned need for new, quality exploration projects based on sound geological work continues.
The world may be slow to find direction within the current climate, and a further deterioration of these conditions remains a serious threat. If such deterioration occurs, and depending on the policy response of domestic governments, lower industrial activity may be the result and this could lower the demand for base metals, although management believes that precious metals will continue to be in demand as a store of value.
The Company plans to continue its work programs on the Ixtaca project with the aim of it developing into one of the more attractive advanced projects in the world in the expectation that the markets for gold and silver projects will improve.
Off-balance Sheet Arrangements
The Company has no off-balance sheet arrangements other than the lease related to its office premises as disclosed below.
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Contractual Obligations
The Company is obligated under an operating lease for its office premises with the following aggregate minimum lease payments to the expiration of the lease on August 30, 2017. On January 2017, the Company signed a newCompany’s office lease effective April 1, 2017 through to March 31, 2022. The Company does have government requirements in work and/or taxes to maintain other claims held. The decision to keep or abandon such claims is not contractual but at the discretion of the Company. All other property option payments on the Company'sCompany’s projects have been assumed by third parties who are earning their interests in the projects.
On January 29, 2013, the Company entered into contracts with its Chairman and President for an annual remuneration of $240,000 and $265,000 respectively effective January 1, 2013, for two years, renewable for two additional successive terms of 24 months each. Effective December 31, 2015, the Chairman'sChairman’s contract was mutually terminated and effective January 1, 2016, the Company and the Chairman entered into a new contract for an annual remuneration of $240,000 for two years, renewable for two additional successive terms of 24 months each. The Chairman'sChairman’s contract and the President'sPresident’s contract were amended April 1, 2016. Effective May 24, 2011, as amended April 1, 2016, the Company and the Chief Financial Officer ("CFO"(“CFO”) entered into an Employment Agreement for an indefinite term and, effective September 22, 2014, as amended April 1, 2016, the Company and the Vice President, Corporate Development ("VP"(“VP”) entered into an Employment Agreement for an indefinite term. Effective January 1, 2016, the Chairman'sChairman’s and President'sPresident’s base salaries ("(“Base Salary"Salary”) were $240,000 and $265,000, respectively, and the CFO'sCFO’s and VP'sVP’s Base Salaries were $185,000 and $175,000, respectively. Effective January 1, 2017, the Chairman’s, President’s, CFO’s and VP’s Base Salaries were $240,000, $305,000, $203,500 and $192,500, respectively. Table No. 4 lists the total contractual obligations as at December 31, 20162017 for each period. Under an Administrative Services Agreement between the Company and Almadex Minerals Limited, the Company provides management services to Almadex. Almadex compensates the Company 30% of any shared personnel remuneration and office overhead expenses. Therefore, Almaden currently recovers 30% of the contractual compensation amounts for the Chairman, Chief Executive Officer, Chief Financial Officer and Vice President, Corporate Development.
Table No. 4
Contractual Obligations of the Company
Payments due by period | ||||||||||
Total | Less than 1 year | 1 – 3 years | 3 – 5 years | More than 5 years | ||||||
Operating lease | $ 830,124 | $182,890 | $299,294 | $309,188 | $38,752 | |||||
Executive contracts(1) | $1,810,000 | $545,000 | $785,000 | $480,000 | - |
Payments due by period | ||||||||||||||||||||
Total | Less than 1 year | 1 – 3 years | 3 – 5 years | More than 5 years | ||||||||||||||||
Operating lease | $ | 647,234 | $ | 148,410 | $ | 305,066 | $ | 193,758 | - | |||||||||||
Executive contracts(1) | $ | 1,295,000 | $ | 575,000 | $ | 480,000 | $ | 240,000 | - |
(1) Pursuant to the terms of the Administrative Services Agreement between the Company and Almadex Minerals Limited, the Company currently recovers 30% of the contractual compensation amounts for the Chairman and Chief Executive Officer, as the executive contracts for the CFO and VP are not considered long term contractual obligations of the Company.
Contractual obligations of the Company in the above table exclude future option payments required to maintain the Company'sCompany’s interest in certain mineral properties and option payments under the Asset Purchase Option Agreement in respect to the Rock Creek mill.
Significant accounting judgments and estimates
Significant assumptions about the future and other sources of judgments and estimates that management has made at the statement of financial position date,dates, that could result in a material adjustment to the carrying amounts of assets and liabilities, in the event that actual results differ from assumptions made, relate to, but are not limited to, the following:
Critical Judgments
o | The analysis of the functional currency for each entity of the Company determined by conducting an analysis of the consideration factors identified in IAS 21, |
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o | The determination that the carrying amount of the Tuligtic Project will be recovered through use rather than sale. |
Estimates
o | The recoverability of |
o | The estimated annual gains or losses from income and dilution on the former investment in associate; |
o | The estimated useful lives of property, plant and equipment which are included in the consolidated statements of financial position and the related depreciation included in the profit or loss; |
o | The recoverability of the value of the exploration and evaluation assets which is recorded in the consolidated statements of financial position; |
o | The Company uses the Black-Scholes option pricing model to determine the fair value of options and warrants in order to calculate share-based payments expense and the fair value of |
o | The provision for income taxes which is included in |
o | The assessment of indications of impairment of each exploration and evaluation asset and related determination of the net realizable value and write-down of those assets where applicable; |
Table No. 5 lists the directors and senior management of the Company as of March 28, 2017.2018. The directors have served in their respective capacities since their election and/or appointment and will serve until the next annual general meeting of the Company or until a successor is duly elected, unless the office is vacated in accordance with the Articles of the Company. All directors are residents and citizens of Canada.
Table No. 5
Directors of the Company
Name | Age | Date First Elected or Appointed | ||||
James Duane Poliquin | 77 | February 1, 2002(4) | ||||
John D. McCleary(2)(3) | 77 | February 1, 2002(4) | ||||
Morgan Poliquin | 46 | February 1, 2002(4) | ||||
Gerald G. Carlson(1)(2)(3) | 72 | February 1, 2002(4) | ||||
Mark T. Brown(1)(3) | 49 | 30-May-11 | ||||
William J. Worrall(1)(2)(3) | 85 | 7-May-13 | ||||
David Strang(5) | 49 | 8-Aug-16 | ||||
Elaine Ellingham(6) | 59 | 27-Feb-18 |
(1) Member of Audit Committee
(2) Member of Nominating and Corporate Governance Committee
(3) Member of Compensation Committee
(4) Date of issue of the Certificate of Amalgamation
(5) David Strang was appointed a Director of the Company on August 8, 2016 following the resignation of Joseph Montgomery
(6) Elaine Ellingham was appointed an additional Director of the Company on February 27, 2018
Duane Poliquin was a director of Almaden Resources Corporation since September 1980, Jack McCleary since June 1991 and Morgan Poliquin since June 1999.
Duane Poliquin was a director of Fairfield Minerals Ltd. since June 1996, Joseph Montgomery since July 2000 and Gerald G. Carlson since July 1998.
47 |
Table No.6 lists the Executive Officers of the Company as of March 28, 2017.2018. The Executive Officers serve at the pleasure of the Board of Directors, subject to the terms of executive compensation agreements hereinafter described. All Executive Officers are residents and citizens of Canada.
Table No. 6
Executive Officers of the Company
Name | Position | Age | Date First Appointed |
James Duane Poliquin | Chairman of the Board | February 1, 2002 (4) | |
Morgan Poliquin | President and Chief Executive Officer | ||
Korm Trieu | Chief Financial Officer | ||
Douglas McDonald | Vice-President, Corporate Development |
Duane Poliquin was appointed an Officer of Almaden Resources Corporation in September 1980 and of Fairfield Minerals Ltd. in June 1996.
Duane Poliquin
is a registered professional geological engineer with over 50 years of experience in mineral exploration and he is the founding shareholder of Almaden Resources Corporation. He gained international experience working with major mining companies where he participated in the discovery of several important mineral deposits. Mr. Poliquin has held executive positions and directorships with several junior resource companies over his career. He was founder and President of Westley Mines Ltd. when that company discovered the Santa Fe gold deposit in Nevada. Mr. Poliquin spends virtually all of his time on the affairs of the Company and Almadex Minerals Limited of which he also serves as Chairman of the Board and a director.John D. (Jack) McCleary
is a registered professional geologist with over 40Morgan Poliquin
is a registered professional geological engineer with over 20Gerald G. Carlson
has been involved in mineral exploration and junior exploration company management for over 40 years. Mr. Carlson has a B.A.Sc. from the University of Toronto, a M.Sc. from Michigan Technological University and a Ph.D. from Dartmouth College. He is President, CEO and a director of Pacific Ridge Exploration Ltd., a gold and zinc exploration company listed on the48 |