EX-96.1 10 ipi12312021exhibit961.htm EX-96.1 Document
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
i
TECHNICAL REPORT SUMMARY
OF
2021 ESTIMATED RESOURCES AND RESERVES AT INTREPID POTASH-NEW MEXICO
Prepared for:
Intrepid Potash–New Mexico, LLC
Report Date:
February 18, 2022
Effective Date:
December 31, 2021
Prepared by:
image_0.jpg
AGAPITO ASSOCIATES, INC.
715 Horizon Drive, Suite 340
Grand Junction, CO 81506
1536 Cole Blvd., Bldg. 4, Suite 320
Lakewood, CO 80401
a3.jpg
image_1.jpg
Agapito Associates, Inc.
CORPORATE SEAL

2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
i
TECHNICAL REPORT SUMMARY
OF
2021 ESTIMATED RESOURCES AND RESERVES AT INTREPID POTASH-NEW MEXICO
TABLE OF CONTENTS
Page
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
ii
7-3
9-1
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
iii
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
iv
LIST OF TABLES
Page
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
v
LIST OF FIGURES
Page
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
vi
LIST OF ABBREVIATIONS
°degree
%percent
AgapitoAgapito Associates, Inc.
AMAXAMAX/Horizon Mine
APRAnnual Percentage Rate
BLMUnited States Bureau of Land Management
BNSFBurlington Northern Santa Fe
CFRCode of Federal Regulations
CLCompetitive Lease
COGScost of goods sold
CPDCarlsbad Potash District
DMSdense media separation
DOIUnited States Department of Interior
EAEnvironmental Audit
EISEnvironmental Impact Statement
EOYend of year
FFahrenheit
FRFederal Register
ftfeet or foot
ft3
cubic foot
ft%feet-percent
ggrams
g/cm3
grams per cubic centimeter
gpmgallons per minute
GTgrade thickness
hphorsepower
ID2
inverse distance squared
IntrepidIntrepid Potash, Inc.
IPNMIntrepid Potash–New Mexico, LLC
K2O
potassium oxide
K2SO4 ·2MgSO4
langbeinite
KClsylvite or potassium chloride
KPLAKnown Potash Leasing Area
LOMLife-of-Mine
NMEDNew Mexico Environmental Department
Mmillion
MOPMuriate of Potash
MSHAMine Safety and Health Administration
mslmean sea level
mmmillimeter
Mtmillion tons
Mtpymillion tons per year
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
vii
NaClhalite
NCLNon-Competitive Lease
NPVNet Present Value
NADNorth American Datum
OSHAOccupational Safety and Health Administration
PFDprocess flow diagrams
PRLPreference Rights Lease
QPQualified Person
RCreflux classifier
RECRecognized Environmental Concerns
SECUnited States Securities Exchange Commission
SMESociety for Mining, Metallurgy & Exploration
SOEstatement of earnings
SOPstandard operating procedure
tton
TOCTotal Organic Carbon
tphtons per hour
tpytons per year
TSFTailings Storage Facility
USUnited States
USGSUnited States Geological Survey
WIPPWaste Isolation Pilot Plant
XRDX-ray Diffraction
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
1-1
1    EXECUTIVE SUMMARY
Agapito Associates, Inc. (Agapito) was commissioned by Intrepid Potash, Inc. (Intrepid) to estimate the end-of-year (EOY) 2021 potash resources and reserves for the Intrepid Potash–New Mexico, LLC (IPNM) property. Resources and reserves are estimated according to United States (US) Securities and Exchange Commission (SEC) S-K 1300 regulations.
1.1    Property Description and Ownership
The property includes two operating mines, the East Underground and HB Solution Mines, one idled mine, the West Mine and the North Mine which was shut down in the early 1980’s. The property is located in Eddy and Lea Counties, near Carlsbad, New Mexico.
The East Plant processes the underground langbeinite ore into Trio®. The HB Plant produces Muriate of Potash (MOP) from the solution mine brine. The long-term underground mining plan includes development and high-extraction, room-and-pillar mining in the 3rd, 4th, 5th, 7th, 8th, and 10th ore zones. Solution mining of the 1st and 3rd ore zones in previously mined-out areas of the property is planned to continue long term.
1.2    Geology and Mineralization
The geology of the potash-bearing beds of the Carlsbad area has been well documented. Overall, the potash-bearing beds may be described as bedded sedimentary rocks, deposited across the Delaware Basin and Northwest Shelf backreef from the Capitan Reef.
1.3    Status of Exploration, Development and Operations
The property has been in continuous operation by IPNM since 2004. Confirmation drilling, channel sampling, and mine development are an integral part of the mine operations.
1.4    Mineral Resource Estimates
The resource model created from the database of exploration and sampling data beginning in 2007 serves as the basis for this evaluation. The sampling data includes channel samples from the active mining horizon. The resources reported as mineralized rock in place, exclusive of mineral reserves effective December 31, 2021, are shown in Table 1-1.
1.5    Mineral Reserve Estimates
Using the mineral resource grids, applying a reserve cutoff, a 25-year detailed mine plan was developed. Table 1-2 shows the estimated reserve summaries in product tons effective December 31, 2021.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
1-2
Table 1-1.    Mineral Resource Estimate Summary effective December 31, 2021
IPNM—Summary of Mineral Resources in millions of tons of Sylvinite in Place effective December 31, 2021 based on 406 $/product ton mine site
Resources
Mechanical Mining Cutoff2
Processing Recovery
Sylvinite1
Grade
Contained K2O
(Mt)
(%K2O)
(Mt)
(ft-%K2O)
(%)
Measured Mineral Resources370155645–5975–85
Indicated Mineral Resources200142945–5975–85
Measured + Indicated Mineral Resources5701585
Inferred Mineral Resources
1Sylvinite is a mixed evaporite containing NaCl and KCl.
2Solution mining resource cutoff for flooded old workings is the mining extents boundary.
Mineral Resources were prepared by Agapito Associates, Inc., a qualified firm for the estimate and independent of Intrepid Potash.
Mineral Resources are reported exclusive of Mineral Reserves, on a 100% basis.
Mineral Resources are reported using Inverse Distance Squared (ID2) estimation methods.
Mt = million tons, % = percentage, K2O = potassium oxide, ft = feet
IPNM—Summary of Mineral Resources in millions of tons of Langbeinite Mineralized Rock in Place effective December 31, 2021 based on 425 $/product ton mine site
ResourcesMechanical Mining CutoffProcessing Recovery
Langbeinite Mineralized RockGrade
Contained K2O
(Mt)
(%K2O)
(Mt)
(ft-%K2O)
(%)
Measured Mineral Resources501053268
Indicated Mineral Resources601063268
Measured + Indicated Mineral Resources1101011

Inferred Mineral Resources
Mineral Resources were prepared by Agapito Associates, Inc., a qualified firm for the estimate and independent of Intrepid Potash.
Mineral Resources are reported exclusive of Mineral Reserves, on a 100% basis.
Mineral Resources are reported using Inverse Distance Squared (ID2) estimation methods.
Mt = million tons; % = percent; K2O = potassium oxide; ft = feet
1.6    Summary of Capital and Operating Cost Estimates
Operating cash cost per ton of product is estimated to average $200.
Capital investment necessary to complete the mine plans includes a system to remove concentrated magnesium brine from the evaporation pond network, pipeline upgrades, and well infrastructure to bring the AMAX/Horizon Mine (AMAX) into solution mining production. This investment is in addition to the sustaining capital requirements.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
1-3
Table 1-2.    Mineral Reserve Estimate Summary effective December 31, 2021
IPNM—Summary of Potash Mineral Reserves effective December 31, 2021 based on 325 $/Product Ton Mine Site
In-Place KCl
In-Situ Grade1
Product
Brine Cutoff Grade2
Processing Recovery
(Mt)
(%K2O)
(Mt)
(%K2O)
(%)
Proven Mineral Reserves5.520.84.12.085
Probable Mineral Reserves0.319.20.22.085
Total Mineral Reserves5.820.74.3
1In-situ grade is the amount of K2O in the contact area of the caverns.
2Brine cutoff grade is the amount of K2O in the extracted brine necessary to cover the cash costs of production.
Mineral Reserves were prepared by Agapito Associates, Inc., a qualified firm for the estimate and independent of Intrepid Potash.
Mineral Reserves are reported exclusive of Mineral Resources, on a 100% basis.
Mineral Reserves are reported based on a flood elevation mining plan, dissolution factor of 96%, areal recovery of 100%, geologic factor of 94.2%, plant recovery of 85%, product purity of 97%, and cavern losses of 2%.
Mt = million tons, % = percent, K2O = potassium oxide, ft = feet
IPNM—Summary of Langbeinite Mineral Reserves effective December 31, 2021 based on 340 $/Product Ton Mine Site
ROM Ore
In-Situ Grade1 (Diluted)
ProductCutoff
Grade		Processing Recovery
(Mt)
(%K2O)
(Mt)
(ft-%K2O)
(%)
Proven Mineral Reserves18.18.54.94368
Probable Mineral Reserves4.29.11.24368
Total Mineral Reserves22.38.66.1
1In-situ grade (diluted) is the amount of K2O in the ore body with consideration for dilution occurring during mining.
Mineral Reserves are reported exclusive of Mineral Resources, on a 100% basis.
Mineral Reserves were prepared by Agapito Associates, Inc., a qualified firm for the estimate and independent of Intrepid Potash.
Mineral Reserves are reported based on a detailed conventional mine plan, random impurities of 10%, plant recovery of 68%, and product purity of 95.6%.
Mt = million tons, % = percent, K2O = potassium oxide, ft = feet, ROM = Run-of-Mine
1.7    Economic Analysis
The Net Present Value (NPV) at 8% Annual Percentage Rate (APR) for the before- and after-tax estimated cash flow is positive. The sensitivity to product price and operating cost for an 8% APR was evaluated. Varying costs and sales price plus and minus 10% the NPV remains positive.
1.8    Permitting Requirements
The mines are in operation and necessary state and federal operating permits are in place.
1.9    Conclusions and Recommendations
Agapito recommends that IPNM continue planning for the challenges in solution mining with the presence of low levels of carnallite and plan for the expansion pipeline to the AMAX in the later years of the mine plan. The East mine could likely reduce costs by operating at increased capacities closer to the design capacity when product demand is realized. Overall, the property is operating successfully, and no additional exploration work is recommended beyond the ongoing confirmation drilling.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
2-1
2    INTRODUCTION
This document was prepared to report the IPNM mineral reserves in terms of saleable product at IPNM under the SEC S-K 1300 rules (2018). The Society for Mining, Metallurgy & Exploration (SME) Guide for Reporting Exploration Information, Mineral Resources and Mineral Reserves (SME 2017) (The SME Guide) supplements the modifying factors used to convert mineral resources to mineral reserves.
2.1    Terms of Reference
According to 17 Code of Federal Regulations (CFR) § 229.1301 (2021), the following definitions are included for reference:
An inferred mineral resource is that part of a mineral resource for which quantity and grade or quality are estimated on the basis of limited geological evidence and sampling. An inferred mineral resource has the lowest level of geological confidence of all mineral resources, which prevents the application of the modifying factors in a manner useful for evaluation of economic viability. An inferred mineral resource, therefore, may not be converted to a mineral reserve.
An indicated mineral resource is that part of a mineral resource for which quantity and grade or quality are estimated on the basis of adequate geological evidence and sampling. An indicated mineral resource has a lower level of confidence than the level of confidence of a measured mineral resource and may only be converted to a probable mineral reserve. As used in this subpart, the term adequate geological evidence means evidence that is sufficient to establish geological and grade or quality continuity with reasonable certainty.
A measured mineral resource is that part of a mineral resource for which quantity and grade or quality are estimated on the basis of conclusive geological evidence and sampling. As used in this subpart, the term conclusive geological evidence means evidence that is sufficient to test and confirm geological and grade or quality continuity.
Modifying factors are the factors that a qualified person must apply to indicated and measured mineral resources and then evaluate in order to establish the economic viability of mineral reserves. A qualified person must apply and evaluate modifying factors to convert measured and indicated mineral resources to proven and probable mineral reserves. These factors include but are not restricted to mining; processing; metallurgical; infrastructure; economic; marketing; legal; environmental compliance; plans, negotiations, or agreements with local individuals or groups; and governmental factors.
A probable mineral reserve is the economically mineable part of an indicated and, in some cases, a measured mineral resource.
A proven mineral reserve is the economically mineable part of a measured mineral resource. For a proven mineral reserve, the qualified person has a high degree of confidence in the results obtained from the application of the modifying factors and in
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
2-2
the estimates of tonnage and grade or quality. A proven mineral reserve can only result from conversion of a measured mineral resource.
Throughout this report, reserves are presented in tons of K2O and potassium chloride (KCl). Historically, assay data have been reported in terms of %K2O and reserves in equivalent tons of K2O. Sylvite is KCl and, in many historical reports, reserve tons or product tons are recorded in terms of tons of KCl. Pure KCl equates to 63.18% K2O by mass. To convert tonnages from K2O to KCl, multiply by 1.583.
2.2    Sources of Information
Agapito has previously completed reserve estimations under SEC Guide 7 (2008) rules for this property in New Mexico as shown in Table 2-1.
2.3    Personal Inspection
Personal inspection of the properties has occurred over the years by Agapito personnel. The most recent inspection of the property took place on November 6 and 7, 2019. The inspection included an underground and surface visit to the East, West, and HB Mines.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
2-3
Table 2-1.    Summary of Reserve Reports by Agapito
Effective
EOY		TitleNotesReference
2006Determination of Reserves for IPNM of the Carlsbad East and West MinesIncluded North Mine reserves hoisted through the West Mine Facilities.Agapito 2007
2007Determination of Estimated Proven and Probable Reserves for the Planned HB Solution Mine for Intrepid Mining, LLCAgapito 2008
2008Reserve Update for the Carlsbad HB, East and West Mines for Intrepid Potash, Inc.Agapito 2009
2009Determination of Estimated Proven and Probable Reserves at Intrepid Potash–New Mexico, LLCAgapito 2010
2010Determination of Estimated Proven and Probable Reserves at Intrepid Potash–New Mexico, LLCAAI updated the reserve estimate by adjusting for the mined-out areas of the LOMP.Agapito 2011
2011Determination of Estimated Proven and Probable Reserves at Intrepid Potash–New Mexico, LLCReserve estimate as of EOY 2011 based on depletion by extraction of the IPNM’s LOMP.Agapito 2012
2012Determination of Estimated Proven and Probable Reserves at Intrepid Potash–New Mexico, LLCNew deposit information, lease boundaries, and an updated LOMP were incorporated into the reserve estimate.Agapito 2013
2013Determination of Estimated Proven and Probable Reserves at Intrepid Potash–New Mexico, LLCEOY 2012 estimate was updated to account for depletion by extraction for the 2013.Agapito 2014
2014Determination of Estimated Proven and Probable Reserves at Intrepid Potash–New Mexico, LLCEOY 2012 estimate was updated to account for depletion by extraction for the 2013 and 2014 reserve estimate.Agapito 2015
2015End-of-Year 2015 Intrepid Potash, Inc. Reserve for the Carlsbad HB Solar Solution, East and West Mines Intrepid Potash–New Mexico, LLCUpdated lease maps, geologic database as of June 24, 2015, monthly lease reports, production maps, planning maps, and financial documents including sales and costs associated with the HB Solar Solution, West, and East Mines.Agapito 2016
2016End-of-Year 2016 Intrepid Potash, Inc. Reserve for the Carlsbad HB Solar Solution, East and West Mines Intrepid Potash–New Mexico, LLC
Depletion by extraction in the 1st, 3rd, 5th, and 7th ore zones from the 2015 EOY.
Agapito 2017
2017End-of-Year 2017 Intrepid Potash, Inc. Reserve for the Carlsbad HB Solar Solution, East and West Mines
Conventional extraction of langbeinite at the IPNM East Mine 5th ore zone and solution extraction in the 1st and 3rd ore zones at the IPNM HB Solar Solution Mine with updated economic cutoff grades and drill island impacts.
Agapito 2018
20182018 Determination of Estimated Proven and Probable Reserves for the Carlsbad HB Solar Solution, East and West MinesUpdated lease maps, geologic database as of July 7, 2018, monthly lease reports, production maps, planning maps, and financial documents including sales and costs associated with the IPNM HB Solar Solution, West, and East Mines.Agapito 2019
20192019 Determination of Estimated Proven and Probable Reserves for the Carlsbad HB Solar Solution, East and West MinesExtraction, cutoff changes due to economic parameters, new exploration and channel sample data, drill islands, and financial data.Agapito 2020
20212020 Determination of Estimated Proven and Probable Reserves for the Carlsbad HB Solar Solution, East and West MinesDepletion by extraction in the 1st, 3rd, 5th, and 7th ore zones 2020 EOY.Agapito 2021
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
3-1
3    PROPERTY DESCRIPTION
3.1    Location and Area of the Property
The IPNM Carlsbad HB Solar Solution, East, West, and North Mines are located in southeastern New Mexico in Eddy and Lea Counties in the Carlsbad Potash District (CPD), as shown in Figure 3-1. The location is further defined by the boundary of the Known Potash Leasing Area (KPLA) as shown in Figure 3-2. This United States Bureau of Land Management (BLM) managed area consists of that part of the district where the co-development guidelines for oil and gas and potash are in effect for federal lands under the Secretary’s Order 3324 dated December 4, 2012 (Federal Register [FR] 2012-29393). This order revises and supersedes the Order of the Secretary of the Interior, dated October 28, 1986 (51 FR 39425), and corrected on August 26, 1987 (52 FR 32171). The 2012 Secretary’s Order does not alter the boundaries of the area. The area also contains state lands that are managed by the state under the New Mexico Oil Conservation Division Order R-111-P (State of New Mexico Energy, Mineral, and Natural Resources 1988). In general, the stated objective of the Secretary’s Order and R-111-P is to prevent waste of petroleum and mineral resources and maximize the economic recovery of oil, gas, and potash minerals in the area.
3.2    Mineral Rights
IPNM controls the right to mine approximately 143,000 acres in New Mexico. Of that acreage, 32,000 acres are leased from the State of New Mexico, 106,000 acres are leased from the United States government through the BLM, and 240 acres of mineral rights are leased from private owners. IPNM owns 4,700 surface acres near the mine site, adjacent to the federal and state mining leases. Most mining operations are on properties leased from the state or the federal government. These leases generally contain stipulations that require IPNM to commence mining operations within a specified term and continue mining to retain the lease. The stipulations on IPNM leases are subject to periodic readjustment by the applicable state government and the federal government. Federal leases are for indefinite terms subject to readjustment of the lease stipulations, including the royalty payable to the federal government, every 20 years. Leases with the State of New Mexico are issued for terms of 10 years and for as long thereafter as potash is produced in commercial quantities and are subject to readjustment of the lease stipulations, including the royalty payable to the state. As of December 31, 2019, approximately 22% of IPNM’s state, federal, and private lease acres at their New Mexico facilities will be up for renewal within the next 5 years. Table 3-1 lists the leases and the terms.
3.3    Significant Encumbrances
There are no significant encumbrances on the property. A reclamation bond is currently in place for $3.764M and is expected to be adjusted to $4.475M with agency approval over time.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
3-2
a123a.jpg
Figure 3-1.    Location Map for the IPNM HB, East, and West Mines near Carlsbad, New Mexico
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
3-3
a1234.jpg
Figure 3-2.    Location Map Depicting the Secretary’s Order for the Potash Area
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
3-4
Table 3-1. Property Lease Details
Federal Land Lease NumberLease TypeMineDateRoyalty RateAcres
(BLM)		Readjustment DueAmount
Paid		Date
Paid
NMNM 029268401Potassium PRLEast19662,546 12/1/2026$19,092.90 7/8/2019
NMNM 012181001Potassium PRLHB19645% Leased Deposits640 1/1/2025$19,092.90 7/8/2019
NMNM 005728701Potassium PRLEast19632,461 1/1/2024$19,092.90 7/8/2019
NMNM 002362301Potassium PRLHB19615% Leased Deposits400 2/1/2022$19,092.90 7/8/2019
NMNM 001654001Potassium PRLWest1960120 4/1/2050$19,092.90 7/8/2019
NMNM 001474201Potassium PRLEast1963640 8/1/2023$19,092.90 7/8/2019
NMNM 000685901Potassium PRLEast19532,554 10/26/2033$19,092.90 7/8/2019
NMNM 000610101Potassium PRLWest19571,200 2/1/2038$19,092.90 7/8/2019
NMNM 0554864Potassium PRLEast19531,250 2/24/2033$19,092.90 7/8/2019
NMNM 0554863Potassium PRLEast1953200 2/24/2033$19,092.90 7/8/2019
NMNM 0554862Pot Fringe Acre NCLEast1953480 2/24/2033$19,092.90 7/8/2019
NMNM 0220116Potassium CLHB19615% Leased Deposits2,552 12/1/2021$19,092.90 7/8/2019
NMNM 0184150Potassium PRLWest1949240 11/30/2029$19,092.90 7/8/2019
NMNM 0184149Potassium PRLWest195480 1/1/2035$19,092.90 7/8/2019
NMNM 0135065Pot Fringe Acre NCLHB19615%+1cent mrt200 6/1/2021$19,092.90 7/8/2019
NMNM 131012Pot Fringe Acre NCLEast20161,320 3/1/2036$19,092.90 7/8/2019
NMNM 131011Pot Fringe Acre NCLEast20162,000 3/1/2036$19,092.90 7/8/2019
NMNM 131010Pot Fringe Acre NCLEast20161,280 3/1/2036$19,092.90 7/8/2019
NMNM 120103Pot Fringe Acre NCLEast20121,920 10/1/2032$19,092.90 7/8/2019
NMNM 120102Pot Fringe Acre NCLWest20121,560 10/1/2032$19,092.90 7/8/2019
NMNM 120101Pot Fringe Acre NCLEast20122,240 10/1/2032$19,092.90 7/8/2019
NMNM 118970Potassium CLEast2006320 1/1/2028$19,092.90 7/8/2019
NMNM 118969Potassium CLEast2006320 1/1/2028$19,092.90 7/8/2019
NMNM 113457Pot Fringe Acre NCLHB20125% Leased Deposits560 10/1/2032$19,092.90 7/8/2019
NMNM 113456Pot Fringe Acre NCLHB20125% Leased Deposits2,480 10/1/2032$19,092.90 7/8/2019
NMNM 113455Pot Fringe Acre NCLHB20125% Leased Deposits2,401 10/1/2032$19,092.90 7/8/2019
NMNM 112199Pot Fringe Acre NCLHB2007Sliding Scale (POT); 5% Lang434 2/1/2027$19,092.90 7/8/2019
NMNM 110949Pot Fringe Acre NCLEast20041,918 12/1/2024$19,092.90 7/8/2019
NMNM 0088285Pot Fringe Acre NCLHB19605%+1cent mrt120 8/1/2040$19,092.90 7/8/2019
NMNM 080707Pot Fringe Acre NCLEast19632,520 8/1/2023$19,092.90 7/8/2019
NMNM 0070607Pot Fringe Acre NCLWest1960552 2/1/2050$19,092.90 7/8/2019
NMNM 0063880Pot Fringe Acre NCLWest1959120 7/1/2039$19,092.90 7/8/2019
NMNM 054619Pot Fringe Acre NCLEast19832,092 3/1/2023$19,092.90 7/8/2019
NMNM 0050249APotassium PRLHB1963Sliding Scale (POT)920 9/1/2023$19,092.90 7/8/2019
NMNM 047021Pot Fringe Acre NCLEast19821,105 7/1/2022$19,092.90 7/8/2019
NMNM 0045410Potassium PRLEast19582,438 6/1/2038$19,092.90 7/8/2019
NMNM 041639Pot Fringe Acre NCLEast1981120 7/1/2021$19,092.90 7/8/2019
NMNM 040362Pot Fringe Acre NCLEast1980280 12/1/2040$19,092.90 7/8/2019
NMNM 040071Potassium CLNorth19802,080 5/1/2020$19,092.90 7/8/2019
NMNM 0036791Potassium CLHB19575% Leased Deposits1,840 
10/1/1037
$19,092.90 7/8/2019
NMNM 0035383Potassium CLEast19572,400 1/1/2038$19,092.90 7/8/2019
NMNM 0033696APotassium PRLEast19571,241 3/1/2038$19,092.90 7/8/2019
NMNM 0033696Potassium PRLWest1957960 3/1/2038$19,092.90 7/8/2019
NMNM 028916Pot Fringe Acre NCLWest1963880 8/1/2023$19,092.90 7/8/2019
NMNM 028915Potassium PRLEast1958118 6/1/2038$19,092.90 7/8/2019
NMNM 025234Potassium PRLWest194980 11/30/2029$19,092.90 7/8/2019
NMNM 025233Potassium PRLWest19511,600 1/2/2032$19,092.90 7/8/2019
NMNM 025232Potassium PRLWest19511,600 7/6/2031$19,092.90 7/8/2019
NMNM 024522Pot Fringe Acre NCLWest1976800 3/1/2022$19,092.90 7/8/2019
NMNM 018417Pot Fringe Acre NCLEast1952160 1/9/2032$19,092.90 7/8/2019
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
3-5
Table 3-1. Property Lease Details (continued)
Federal Land Lease NumberLease TypeMineDateRoyalty RateAcres
(BLM)		Readjustment DueAmount
Paid		Date
Paid
NMNM 0015064CPotassium PRLEast19531,049 10/25/2033$19,092.90 7/8/2019
NMNM 0015064BPotassium PRLEast19531,280 10/26/2033$19,092.90 7/8/2019
NMNM 0015064APotassium PRLEast19531,600 10/26/2033$19,092.90 7/8/2019
NMNM 013933Pot Fringe Acre NCLHB19715% Leased Deposits80 10/1/2031$19,092.90 7/8/2019
NMNM 013932Pot Fringe Acre NCLWest1974640 11/1/2034$19,092.90 7/8/2019
NMNM 012763Pot Fringe Acre NCLHB19715% Leased Deposits160 6/1/2031$19,092.90 7/8/2019
NMNM 0011777Pot Fringe Acre NCLNorth19521% ORRI1,118 1/9/2032$19,092.90 7/8/2019
NMNM 0011776Pot Fringe Acre NCLNorth19521% ORRI2,559 1/9/2032$19,092.90 7/8/2019
NMNM 0007005Potassium PRLWest19522,073 1/2/2032$19,092.90 7/8/2019
NMNM 0003468Pot Fringe Acre NCLWest1958960 7/1/2038$19,092.90 7/8/2019
NMLC 007186801Potassium PRLEast19551,938 9/1/2035$19,092.90 7/8/2019
NMLC 007014101Potassium PRLHB19535%+1cent mrt439 1/1/2039$19,092.90 7/8/2019
NMLC 006839701Potassium PRLNorth19481% ORRI1,920 1/9/2032$19,092.90 7/8/2019
NMLC 006602601Potassium PRLHB19515% + 1cent mrt200 9/1/2035$19,092.90 7/8/2019
NMLC 006569301Potassium PRLWest1956560 2/1/2038$19,092.90 7/8/2019
NMLC 006556601Potassium PRLHB19515% Leased Deposits; 1.0987% ORRI720 9/28/2031$19,092.90 7/8/2019
NMLC 006528601Potassium PRLNorth19521% ORRI2,554 1/9/2032$19,092.90 7/8/2019
NMLC 006527501Potassium PRLNorth19521% ORRI2,551 1/9/2032$19,092.90 7/8/2019
NMLC 006508101Potassium PRLHB1950Sliding Scale (POT); 1.0987% ORRI560 12/6/2030$19,092.90 7/8/2019
NMLC 006184701Potassium PRLWest19511.0987% ORRI1,275 7/6/2031$19,092.90 7/8/2019
NMLC 0050063FPotassium PRLHB19385% Leased Deposits; 1.0987% ORRI2,358 4/15/2039$19,092.90 7/8/2019
NMLC 0050063BPotassium PRLHB19345% Leased Deposits; 1.0987% ORRI2,560 4/15/2039$19,092.90 7/8/2019
NMLC 0046729DPot Fringe Acre NCLHB19335% Leased Deposits; 1.0987% ORRI2,560 1/18/2033$19,092.90 7/8/2019
NMLC 0046729CPot Fringe Acre NCLHB19335% Leased Deposits; 1.0987% ORRI2,280 1/18/2033$19,092.90 7/8/2019
NMLC 0046729APot Fringe Acre NCLHB19335% Leased Deposits; 1.0987% ORRI2,559 1/18/2033$19,092.90 7/8/2019
NMLC 0044752Pot Fringe Acre NCLHB19565% Lang240 9/1/2036$19,092.90 7/8/2019
NMLC 0043636CPot Fringe Acre NCLWest1932920 6/20/2032$19,092.90 7/8/2019
NMLC 0043636BPot Fringe Acre NCLWest19312,312 6/20/2032$19,092.90 7/8/2019
NMLC 0043636APot Fringe Acre NCLWest19311,044 6/20/2032$19,092.90 7/8/2019
NMLC 0036092CPot Fringe Acre NCLWest19272,559 11/21/2029$19,092.90 7/8/2019
NMLC 0036092BPot Fringe Acre NCLWest19272,026 11/21/2029$19,092.90 7/8/2019
NMLC 0036092APot Fringe Acre NCLWest1927 2,437 11/21/2029$19,092.90 7/8/2019
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
3-6
State of New
Mexico Land Lease
Number		Lease TypeIssue
Date		Acres
(State)		Amount PaidDate Paid
HP00050001Potash20053,200 $3,200 5/7/2020
HP00250000Potash2012640 $640 9/3/2020
HP00260000Potash2012640 $640 9/3/2020
HP00270000Potash20121,680 $1,680 9/3/2020
HP00280000Potash201080 $80 7/2/2020
HP00290000Potash2009640 $640 11/19/2020
HP00480000Potash20121,200 $1,200 9/24/2020
HP00490000Potash20121,450 $1,450 9/3/2020
HP00500000Potash20122,280 $2,280 9/24/2020
HP00510000Potash2012960 $961 9/3/2020
HP00520000Potash20121,435 $1,436 10/1/2020
M006510011Potash193617,486 $1,749 11/19/2020
NOTE—Coordinate System: Shifted from North American Datum (NAD) 27 New Mexico State Plane North to Local Mine Grid
PRL = Preference Rights Lease; CL = Competitive Lease; NCL = Non-Competitive Lease
3.4    Significant Factors
There are no significant factors or risks that may affect access, title, or the right or ability to perform work on the property.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
4-1
4    ACCESSIBILITY
4.1    Topography, Elevation, and Vegetation
The topography is explained in the HB Mine Environmental Impact Statement (EIS) (United States Department of Interior [DOI] 2012) as a karst topography with sinkholes, caves, and enclosed depressions. The topography is the result of the dissolution of evaporite deposits in the subsurface. The vegetation cover in the permit area is typical of the Pecos Valley on the eastern edge of the Guadalupe Mountains. The area is dominated by desert scrub, mesquite upland scrub, and grasslands (DOI 2012). The mines are located at an approximate surface elevation of 3,500-ft mean sea level (msl).
4.2    Property Access
The mining facilities are accessible by both road and rail as shown in Figure 4-1. Adequate infrastructure is in place to meet production requirements. In fact, excess water conditioned with salt is currently being sold to other industrial users. Shipment of product is by truck and rail via paved United States Highway 180-W and the Burlington Northern Santa Fe (BNSF) rail link. The area is served by small air carriers at the Cavern City Terminal located in Carlsbad, New Mexico. The closest international airport is in El Paso, Texas, 160 miles away.
4.3    Climate
The climate is generally mild with an average temperature of 62.4 degrees Fahrenheit (°F). The precipitation, as rainfall during the monsoon season from May to September, averages 13.4 inches. Average annual snowfall is 3 inches (US Climate Data 2020). The weather is favorable to conducting solar evaporation. Operations continue throughout the year without significant weather disruption.
4.4    Infrastructure Availability
IPNM has sufficient water rights, reliable electric power, and a robust supply chain. As noted in the annual report to the SEC (Intrepid 2019a), the mines compete with other industries for qualified labor. Layoffs in market downturns may make it more difficult to re-hire personnel after the turndown.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
4-2
a123.jpg
Figure 4-1.    Mine Locations showing Property Access
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
5-1
5    HISTORY
Potash was first discovered in southwest New Mexico in 1925 in Eddy County, New Mexico, in Snowden McSweeney Well No. I on a V. H. McNutt permit near the center of the portion of what is now the KPLA. Commercial shipments began in 1931. The ownership history is listed in Table 5-1.
Table 5-1.    Mine Ownership History
PropertyOwnerDate
East MineKerr-McGee Chemical Corporation1961–1985
New Mexico Potash Corporation (Trans Resources, Inc.)1985–1996
Mississippi Potash Inc.1996–2004
Intrepid Mining- NM, LLC2004–Present
West MineU. S. Potash Company1929–1956
U.S. Borax and Chemical Corporation1956–1968
U.S. Potash and Chemical1968–1970
Continental American Royalty Corporation1970–1972
Teledyne1972–1974
Mississippi Chemical Company (MCC)1974–1996
Mississippi Potash, Inc. (MPI) (a subsidiary of MCC)1996–2004
Intrepid Mining - NM, LLC2004–Present
North MineNational Potash Company (Freeport Sulphur Company)1957–1982
New Mexico Potash Corporation (Trans Resources Inc.)1982
Mississippi Chemical Corporation1985–1988
Mississippi Chemical Corporation1992–1996
Mississippi Potash Inc.1996–2004
Intrepid Mining- NM, LLC2004–Present
AMAX MineSouthwest Potash Corporation1948
AMAX Potash1986–1992
Horizon Gold (Horizon Potash)1992–1995
Intrepid Mining - NM, LLC2012–Present
HB MinePotash Corp of America1934–1967
Ideal Basic1967–1985
Lundberg Industries1985–1987
Trans-Resource (Eddy Potash)1987–1996
Mississippi Potash, Inc.1996–2004
Intrepid Mining NM, LLC2004–Present
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
6-1
6    GEOLOGIC SETTING
The term “potash” is a generic term describing potassium in combination with chloride, sulfates, or nitrates. Potassium is one of the key nutrients for plants in fertilizer with nitrogen and phosphorus. Potash-bearing evaporites are typically formed as the result of evaporation of brine in basins with restricted outlets. Potash zones are found near the top of halite beds because potash is precipitated from the concentrated brines found at the end of the evaporation sequence. Important natural and commercial soluble potassium salts are sylvite (KCl) and langbeinite, a potassium magnesium double salt (K2SO4 ·2MgSO4) (Barker and Austin 1999).
6.1    Deposit Type
The geology of the potash-bearing beds of the Carlsbad area has been well documented. Overall, the potash-bearing beds may be described as bedded sedimentary rocks, deposited across the Delaware Basin and Northwest Shelf backreef from the Capitan Reef. The depositional sequences that developed in the Salado Formation consist of repetitive cycles that can be recognized by changes in mineralogy, sedimentary textures, and structures. Two types of cycles are differentiated Type I and Type II. A complete Type I cycle ranges in thickness from 3 ft to 33 ft and consists of (in ascending order):
A basal, mixed siliciclastic and carbonate mudstone
Laminated to massive anhydrite-polyhalite
Halite
Halite with mud (argillaceous halite)
Type II is a thinner, less complete sequence and consists of halite that grades upward into argillaceous halite (Lowenstein 1988). The anhydrite-polyhalite beds are laterally continuous over large distances and are used as marker beds for correlation. Potash beds are not included in these sequences because potash is secondary and formed later than the basic depositional sequence.
6.2    Regional Geology
The Carlsbad area falls within the Delaware Basin of Permian Age. The Delaware Basin has a maximum width of approximately 100 miles and a length of approximately 150 miles, extending from north of Carlsbad, New Mexico, to Pecos County, Texas.
The Permian Age sequence comprises the Ochoan, Guadalupe, Leonard, and Wolfcamp series in order of increasing age (Linn and Adams 1966). Laterally extensive, evaporite beds containing deposits of halite, sylvite, langbeinite, kainite, carnallite, and other evaporite minerals are found within the Ochoan Series, whose top ranges from a depth of 2,000 ft near the Texas State line to approximately 200 ft below surface north of Carlsbad.
The Ochoan Series is divided into four formations as follows, in order of increasing depth (Vine 1963):
Dewey Lake Red Beds, which consist of 200 to 250 ft of fine-grained sandstone, siltstone, and shale of low permeability that is absent west of the Pecos River.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
6-2
Rustler Formation, which consists of approximately 350 ft of dolomite and anhydrite beds that outcrop along the Pecos River west of the potash area.
Salado Formation, which was originally called the Upper Castile Formation and was separated from the underlying Castile based on a potash content of more than 1% K2O (Kroenlein 1939). The Salado Formation contains 12 potash zones, of which 6 have been or are currently being mined.
Castile Formation, which is laterally bounded by the Guadalupian Age Capitan Reef limestones that define the Delaware Basin and consists of calcite-banded anhydrite and halite formed in a deep-water environment (Cheeseman 1978).
The Salado Formation thickness ranges from 1,200 ft to 2,300 ft and consists of an unnamed Upper Member, the McNutt Potash Member, and an unnamed Lower Member. Much of the variation in thickness is due to removal of halite by dissolution. It is an evaporite sequence dominated by 650 to 1,300 ft of halite and argillaceous halite and contains over 42 informally named or numbered marker beds in addition to 11 numbered potash zones within the McNutt Potash Member (Table 6-1).
Table 6-1.    The Potash Zones in the McNutt Potash Member
Marker BedThickness
(ft)		Approximate Depth
from Top of Salado (ft)		Lithology
MB10320180Anhydrite
MB10920320Anhydrite, finely crystalline, interbedded with stringers of halite, polyhalite and mudstone
Vaca Triste10540Siltstone and silty mudstone interbedded with halite
MB117Polyhalite
MB119Polyhalite
MB120Anhydrite
MB121Polyhalite
MB122Polyhalite
Union Anhydrite15-20760Anhydrite, finely crystalline with stringers of halite
MB1235-10845Halite and polyhalite
MB1245-10870Anhydrite, finely crystalline laminated. May have stringers of mudstone
MB125Polyhalite
MB126Polyhalite
MB13410-151,260Anhydrite
MB13610-151,340Anhydrite. May have interbeds of halite or polyhalite
MB142151,550Anhydrite with interbeds of halite and stringers of mudstone
Cowden Anhydrite201,700Anhydrite, finely crystalline, laminated. May have thin interbeds of magnesite and mudstone. Divided into two beds by intervening halite in SE Eddy County
Source: Backman (1984); Griswold (1982)
6.3    Property Geology
Sylvinite is currently being mined using solution methods in the 1st and 3rd ore zone. Historically, sylvinite has been conventionally underground mined in the 1st, 3rd, 5th, 7th, and 10th ore zones. Mechanical mining of langbeinite is currently occurring in the 3rd and 5th ore zones at the East
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
6-3
Mine. Langbeinite is prevalent in the 3rd and 4th ore zones in the southern part of the Delaware Basin, part of the Permian Basin, and occurs mixed with sylvite in the 5th ore zone.
6.3.1    East Mine
Historically, the East Mine primarily mined sylvinite in the 10th ore zone. Current mining is predominantly taking place on the 5th mixed and 3rd langbeinite ore zones. The 5th ore zone is a mixed ore consisting of variable amounts of K2O as langbeinite and sylvite. The 5th ore zone, predominant in langbeinite, is mined and blended with the 3rd langbeinite ore. The common minerals found at the mine are halite, sylvite, clay (montmorillonite), sulfate minerals, and carnallite. The eastern sections of the mine have large deposits of carnallite and kieserite. The 10th ore zone is also characterized by isolated pods of barren clays. These clay pods range in size from a few square feet to several hundred thousand square feet. The location of these pods is random, and there is no known practical method of predicting their location.
6.3.2    West Mine
The potash deposits at the West Mine consist of mixed sylvite (KCl) and halite (NaCl) in two distinct zones within one of the flat-lying halite beds. This bed is located near the middle of the Salado Formation. Thin zones of enriched potash-bearing minerals are located within the 150-ft deposit.
Mining activities most recently took place in the 5th, 7th, and 10th ore zones. In most parts of the deposit, the vertical change from ore to barren salt is abrupt, while the lateral transition at the edges of the ore body is gradual. Barren masses of halite, known as “salt horses,” are scattered irregularly throughout the ore body. The ore is an intimate intergrowth of crystalline NaCl and KCl in various proportions, with sylvite typically less than 35%. Sylvite is milky or faintly bluish gray but is often stained red by iron oxide around the crystals. Halite commonly is clear, grayish, or orange/yellow with occasional red staining. Blue halite is occasionally found associated with the sylvite.
6.3.3    North Mine
In the vicinity of the North Mine, the 10th ore zone is encountered at depths of between approximately 1,400 and 1,900 ft below ground surface. The 10th ore zone consists of two sylvinite beds separated by a halite unit. The lower member, or zone 10C, is the target ore bed for the North Mine and may vary in thickness from 3 to 8 ft.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
6-4
a1.jpg
Figure 6-1.    Carlsbad Potash District Regional Cross Section (Lewis 2007)
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
6-5
a2.jpg
Figure 6-2.    Typical Stratigraphic Column of the Ochoan (Warren 2018)
6.3.4    HB Solar Solution Mine
The HB Mine, which was formerly owned by the Eddy Potash, Co., and mined on the 1st and 3rd ore zones (Barker and Austin 1999), has been flooded and is currently being solution mined with brines to obtain potash from the remaining pillars.
6.4    Mineralization
In the Carlsbad Area, the potassium minerals, in order of decreasing abundance, are polyhalite, sylvite, carnallite, langbeinite, kainite, and leonite. Other potassium minerals occur only in minor amounts in association with the principal potassium minerals listed previously. The K2O contents, chemical compositions, and elemental contents of the minerals found in the Carlsbad Area are given in Table 6-2.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
6-6
Table 6-2.    Carlsbad Area Minerals and Their Compositions
Ore ZoneClosest Marker BedApproximate
Bed Depth
(ft-bgs)		Bed
Thickness
(ft)		Clay
Content
(%)		MineralogyMinability and Status
Above Ore
Zone		Below
Ore
Zone
EleventhVaca TristeMB117Mostly carnallite, minor silvite and leoniteNot commercial
TenthMB119MB1207005–125–7SylviteSecond best in District; in production
NinthMB120MB121Carnallite, kieserite, minor sylviteNot commercial
EighthMB122Union6–7SylviteModerate size; unmined
SeventhUnion5–93–4SylviteFormerly mined; standby
SixthUnionCarnallite, kieserite, etc.Not commercial
FifthUnionMB1238004.7–51Sylvite and langbeiniteIn production
FourthMB 1248504Langbeinite and sylvitePrincipal source of langbeinite; in production
ThirdMB 124865SylviteIn production for solution mining
SecondMB 124MB125Carnallite, kieserite, etc.Not commercial
FirstMB125MB1269008–142SylviteLong-time producer; currently flooded with brine for solution mining
Source: Barker and Austin (1993); Swales (1966); Pierce (1936); Haworth (1949); Bruhn and Miller (1954); Jones et al. (1954); Kirby (1974); Herne and McGuire (2001)
The minerals listed above can be described as follows (Schaller and Henderson 1932):
Polyhalite is the most abundant potassium mineral in the Carlsbad Area. Beds of nearly pure polyhalite have thicknesses up to 8 ft and beds a foot or more thick are numerous.
Sylvite often has a dark red or reddish-brown color due to hematite inclusions. Sylvite without the inclusions is a milky white color. Sylvite is typically mixed with halite and where clay is present in the mixture, it is in bands distinct from the sylvite.
Carnallite is massive and compact showing no crystal faces. Crystals where seen are typically less than 1 millimeter (mm) in diameter. It occurs in small blebs with halite and sylvite.
Langbeinite is found in distinct tetrahedral crystals that reach sizes up to ¾ inch. It is typically associated with halite and sylvite and often some kieserite. It has a distinct pink color in most samples and has a higher compressive strength than sylvite.
Kainite is massive with poorly developed fibrous fracture surfaces and has a characteristic honey-yellow color. It is found in narrow bands between sylvite and langbeinite and is apparently a result of a reaction between the two.
Leonite is typically found in small quantities in mixtures of other minerals, notably kainite and sylvite. Its color ranges from colorless to pale yellow. It is also found with polyhalite and anhydrite, but the relationship is unclear. It has also been found as a secondary replacement for kieserite.
6.5    Geologic Structure
The potash-bearing beds in the Carlsbad Area may be affected by several types of anomalies:
“Salt horses” (Gunn and Hills 1978)
“Mud horses” (Simmons 2013)
Dissolution and collapse anomalies (“breccia chimneys”)
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
6-7
Igneous dykes
The presence of high concentrations of non-economic evaporite minerals, insolubles, or geologic disturbances that influence the normal character of the potash-bearing beds is considered an “anomaly” and may be unsuitable for mining. These anomalies range from localized features significantly less than a square kilometer to disturbances that are regional (i.e., several square kilometers in extent).
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
7-1
7    EXPLORATION
7.1    Exploration Other than Drilling
No exploration other than confirmation drilling has been performed.
7.2    Drilling Exploration
Intrepid partakes in ongoing exploration as a part of operational long-term planning. Core holes are drilled from the surface and underground, and channel samples are collected as mining advances. Intrepid provided Agapito their dataset beginning in 2007. Since that time, multiple data points have been added and several drillholes were reassessed. Potash is also identified from gamma ray geophysical logs in oil and gas wells. Bed thickness and potash grade are estimated and quantified with input from 2,928 sample points. Extensive work was completed with geophysical tools in collaboration with the United States Geologic Survey (USGS) (Nelson 2007) to determine and verify potash grades from gamma logs (Lewis 2006). The sample database for this exploration work is shown in Table 7-1. The dataset is from oil and gas wells, surface core holes, underground core holes, channel samples, shaft samples, and roof bolt holes. The key sample types include 7,209 drillholes and channel samples and are broken down by mining zone. Figure 7-1 shows the exploration drillhole and channel sample locations and regional topography. The dataset used for this reserve evaluation is shown in Table 7-2.
Table 7-1.    Data Sample Sets—All Available Holes
Ore ZoneOil/Gas
Wells		Surface
Core Holes		Underground
Core Holes		Channel
Samples		ShaftRoof BoltTotal
Samples
Zone 2— — — — — 
Zone 3478 560 57 73 — 1,171 
Zone 3A— — — — — 
Zone 4480 544 62 — 1,094 
Zone 4A— — — — — 
Zone 5488 572 114 2,014 42 3,234 
Zone 7484 611 89 805 2,000 
Zone 8492 613 53 — — 1,161 
Zone 9— — — — — 
Zone 10C506 843 181 — 1,540 
Total2,928 3,749 382 3,078 20 49 10,206 
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
7-2
a4.jpg
Figure 7-1.    Base Map, Lease Lines and Drillholes
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
7-3
Table 7-2.    Data Sample Sets—Resource Evaluation Dataset
Ore ZoneOil/Gas WellsCore HolesChannel SamplesTotal Samples
Zone 346354273 1,078
Zone 446961912 1,100
Zone 54826511,979 3,112
Zone 7480609831 1,920
Zone 84765761,054
Zone 10486729183 1,398
7.3    Characterization of Hydrogeology Data
The characterization of the hydrogeology was completed for the HB In-situ Solution Mine by AECCOM in 2011 and is included as part of the publicly available EIS (DOI 2012). The study confirmed the availability of water for the initial flooding of the solution mines at a pumping rate ranging from 177 to 1,440 gallons per minute (gpm).
7.4    Characterization of Geotechnical Data
Not applicable.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
8-1
8    SAMPLE PREPARATION
IPNM has standard operating procedures (SOP) in place for logging and sampling core from underground anpaged surface core drilling. According to the SOP’s, the geologist uses gamma ray to initially select the sample interval prior to prepping the sample for analysis. The samples are assayed at the on-site laboratory. The site laboratory has the capability to conduct X-ray Diffraction (XRD), Total Organic Carbon (TOC), and flame photometry laboratory techniques.
The mineral analysis for all core and channel samples is analyzed with the XRD. A sample of approximately 300–500 grams (g) is collected. The sample is split down to around 100 g and run though a grinding mill to reduce the size down to approximately –100 mesh. A sample is weighed out to 5 g and put into a micronizing mill that reduces the particle size to ~10 microns and pressed into a sample holder. The sample is inserted into the instrument and a diffraction pattern is retrieved. The diffraction pattern is then analyzed using the Rietveld refinement software, reporting weight percent of solid mineral in the sample.
The sample preparation, security, and laboratory analytical procedures are conventional industry practice and are adequate for the reporting of resources and reserves.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
9-1
9    DATA VERIFICATION
Due to the proximity of the location to the DOI Waste Isolation Pilot Plant (WIPP) site, and the intensive oil and gas drilling in the Permian Basin, there is geologic data publicly available for comparison. Data was also verified for beds with an extraction history by reconciling actual mining with the planned mining based on geologic modeling from the exploration database.
9.1    Data Verification Procedure
The site has been producing for many years. Mining and processing of the ore to successfully marketed products is verification of the exploration data.
9.2    Limitations on Verification
There are no limitations on the verification.
9.3    Adequacy of the Data
It is the opinion of the Qualified Person (QP) that the data is adequate for the determination of resources and reserves. The deposit has historically and continues to be mined with plans based on the data.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
10-1
10    MINERAL PROCESSING AND METALLURGICAL TESTING
IPNM has a long history of processing ores on-site. Recovery estimates are based on past plant performance, current performance, and anticipated future performance based on laboratory or metallurgical testing of the anticipated plant feed. Over time, the appropriate capital modifications to the plants have been made to accommodate changes in ore feed and market requirements.
10.1    Adequacy of the Data
It is the opinion of the QP that the data is adequate for the determination of resources and reserves. The deposit has historically and continues to be processed successfully.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
11-1
11    MINERAL RESOURCE ESTIMATES
According to 17 CFR § 229.1301 (2021), the following definitions of mineral resource categories are included for reference:
An inferred mineral resource is that part of a mineral resource for which quantity and grade or quality are estimated on the basis of limited geological evidence and sampling. An inferred mineral resource has the lowest level of geological confidence of all mineral resources, which prevents the application of the modifying factors in a manner useful for evaluation of economic viability. An inferred mineral resource, therefore, may not be converted to a mineral reserve.
An indicated mineral resource is that part of a mineral resource for which quantity and grade or quality are estimated on the basis of adequate geological evidence and sampling. An indicated mineral resource has a lower level of confidence than the level of confidence of a measured mineral resource and may only be converted to a probable mineral reserve. As used in this subpart, the term adequate geological evidence means evidence that is sufficient to establish geological and grade or quality continuity with reasonable certainty.
A measured mineral resource is that part of a mineral resource for which quantity and grade or quality are estimated on the basis of conclusive geological evidence and sampling. As used in this subpart, the term conclusive geological evidence means evidence that is sufficient to test and confirm geological and grade or quality continuity.
11.1    Key Assumptions, Parameters and Methods
The exploration drillhole and channel sample data were compiled to form the database that serves as the basis for estimating the resources. The geologic setting was evaluated, and bed assignments reviewed. Of the data within the lease boundary, all data points contribute bed thickness, and several have assay information.
The geology was modeled using Carlson Software (2020). A basic inverse distance-squared (ID2) algorithm was used with a search radius of ¾ mile to prepare the 100-ft x 100-ft grids for bed thickness and grade. The search radius was applied for Measured and Indicated Resources of ¼ mile and ¾ mile, respectively. Where data is dense, the nearest 25 data points were used to assign values for the grid block. The grids were multiplied by each other to compile a grade-thickness (GT) grid within the lease boundaries held by IPNM. The base grid was adjusted for each ore type cutoff. Key assumptions and parameters for resource estimation are listed in Table 11-1.
The classification of cutoff in terms of GT in units of ft% was defined in the Secretaries Order dated October 21, 1986 (51 FR 39425) for mechanically mined potash deposits. The criteria
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
11-2
Table 11-1.    Parameter Assumptions
Resources
MeasuredIndicated
Proximity to sample point1,320 ft (1/4 mile)3,960 ft (3/4 mile)
GT for sylvinite mechanical mining
40.0 ft% K2O
GT for high-insoluble sylvinite mechanical mining*
59.0 ft% K2O
GT for langbeinite mechanical mining
32.0 ft% K2O
Flood elevation HB South2,525 ft
Flood Elevation HB North2,325 ft
Flood Elevation HB Eddy2,675 ft
Flood Elevation HB AMAX2,500 ft
Carnallite content mechanical miningLess than 6%
MineabilityReasonably expected to be feasible to mine
*High-insoluble sylvinite zones 8 and 10
are not dependent on thickness or grade, but on the product of the thickness and grade. To evaluate the viability of mining the IPNM mechanically mined resources, a cutoff GT was established. Inputs to the estimation of the cutoff analysis are cost of goods sold, product sale price, mill recovery, and nominal grade. The cutoff for solution mining in flooded abandoned underground potash mines is a function of the grade of the brine being extracted which results in enough product tons to just cover the cost of production.
The estimated cost of goods sold (COGS) and sales price used in the cutoff evaluation are outlined in Table 11-2.
Intrepid has a long history of sales and marketing of their products. Sales are managed for all properties through the corporate office. Intrepid provided the historical demand and sales pricing through the statements of earnings (SOE) from 2012 to 2021. Forward-looking pricing was provided by Intrepid marketing and the sales price outlook was reviewed in The World Bank Report Pink Sheets (The World Bank 2021). The product sale prices selected for analysis of cutoff grade are shown in Table 11-2. These values are 25% greater than the product sales price for the reserve estimate.
Table 11-2.    Cost of Goods Sold and Sales Price Assumptions
ProductSale PriceFreightNet Sales PriceCost of Goods Sold
Langbeinite$425$90$335$200/t
Sylvite$406$30$376$200/t
Economic modeling indicates cutoff grades at the IPNM East Mine of 32 ft %K2O for langbeinite resource. Modeling also indicates a cutoff of 59 ft% K2O for the high-insoluble sylvinite resources in the 8th and 10th zones, which requires the capital investment of a new plant and refurbishment of shafts. A cutoff of 45 ft% K2O is indicated for the West sylvinite resources which requires the processing plant, mine equipment, and associated infrastructure to be rehabilitated. Cutoff grades are listed in Table 11-3.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
11-3
Table 11-3.    Cutoff Grade Analysis for Mechanical Mining
Ore MineralPure
Mineral
(%)
Nominal
Grade
Cutoffs
(% K2O)
Nominal Grade
Cutoffs
(% KCl or Lang)		Mill
Recovery
(%)
Grade-
Thickness
Cutoff1
(ft%)
Applicable Ore
Zones
Carlsbad East MineEast–3, 4 and 5, West–4
Langbeinite2
22.70%6.4%28.2%68%32
Carlsbad West/North Mine


High-Insolubles Sylvite with CAPEX Burden
63.18%13.2%20.9%75%598 and 10
Carlsbad West MineWest–3, 4, 5, 7 North–3 and 4
Sylvinite with CAPEX Burden
63.18%10.1%15.9%80%45
1Equivalent to 5.0-ft-thick ore at nominal grades in the East Mine and 4.5-ft-thick ore at nominal grades in the West and North Mines.
2All langbeinite is processed at the East Plant.
CAPEX = capital expenditure
By definition, the cutoff grade is the grade that determines the destination of the material during mining. The cutoff grade for resources of abandoned underground sylvinite is not a parameter for use in the estimation of solution mining resources but does establish an operational minimum limit for the brine grade reserves. The solution mining resources are the pillars remaining after mining and the fringe boundary of the mine. Resources could also be unmined sylvinite left behind to provide geotechnical support. An operational limit of the flood elevation establishes the cutoff between resource and reserve for this deposit. When mining using solution methods in proximity to other mines, or other underground mines not within the control of IPNM, the critical factor in establishing a flood elevation is to keep adjoining properties dry or to protect structures such as shafts.
Resource maps for sylvinite by zones 10, 8, 7, 5, 4, 3, and 1 are included in Figures 11-1 through 11-7, respectively. The langbeinite mineral resource maps for zones 5, 4, and 3 are included in Figures 11-8 through 11-10.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
11-4
image_9.jpg
Figure 11-1.    10th Ore Zone Mineral Resources, Sylvinite Ore
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
11-5
image_10.jpg
Figure 11-2.    8th Ore Zone Mineral Resources, Sylvinite Ore
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
11-6
image_11.jpg
Figure 11-3.    7th Ore Zone Mineral Resources, Sylvinite Ore
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
11-7
image_12.jpg
Figure 11-4.    5th Ore Zone Mineral Resources, Sylvinite Ore
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
11-8
image_13.jpg
Figure 11-5.    4th Ore Zone Mineral Resources, Sylvinite Ore
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
11-9
image_14.jpg
Figure 11-6.    3rd Ore Zone Mineral Resources, Sylvinite Ore
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
11-10
image_15.jpg
Figure 11-7.    1st Ore Zone Mineral Resources, Sylvinite Ore
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
11-11
image_16.jpg
Figure 11-8.    5th Ore Zone Mineral Resources, Langbeinite Ore
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
11-12
image_17.jpg
Figure 11-9.    4th Ore Zone Mineral Resources, Langbeinite Ore
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
11-13
image_18.jpg
Figure 11-10.    3rd Ore Zone Mineral Resources, Langbeinite Ore
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
11-14
11.2    Mineral Resource Estimate
The estimate of measured and indicated mineral resources effective December 31, 2021 extracted from the application of the resource cutoffs to the geologic model is listed in Table 11-4.
Table 11-4.    Mineral Resource Estimate Summary effective December 31, 2021
IPNM—Summary of Mineral Resources in millions of tons of Sylvinite effective December 31, 2021 based on 406 $/product ton mine site
Resources
Mechanical
Mining Cutoff2
(ft-%K2O)
Processing
Recovery
(%)
Sylvinite1
(Mt)
Grade
(%K2O)
Contained K2O
(Mt)
Measured Mineral Resources370155645–5975–85
Indicated Mineral Resources200142945–5975–85
Measured + Indicated Mineral Resources5701585
Inferred Mineral Resources
1Sylvinite is a mixed evaporite containing NaCl and KCl.
2Solution mining resource cutoff for flooded old workings is the mining extents boundary.
Mineral Resources were prepared by Agapito Associates, Inc., a qualified firm for the estimate and independent of Intrepid Potash.
Mineral Resources are reported exclusive of Mineral Reserves, on a 100% basis.
Mineral Resources are reported using Inverse Distance Squared (ID2) estimation methods.
Mt = million tons, % = percentage, K2O = potassium oxide, ft = feet
IPNM—Summary of Mineral Resource in millions of tons of Langbeinite Mineralized Rock in Place effective December 31, 2021 based on 425 $/product ton mine site
Resources
Mechanical
Mining Cutoff
(ft-%K2O)
Processing
Recovery
(%)
Langbeinite
Mineralized
Rock
(Mt)
Grade
(%K2O)
Contained K2O
(Mt)
Measured Mineral Resources501053268
Indicated Mineral Resources601063268
Measured + Indicated Mineral Resources1101011
Inferred Mineral Resources
Mineral Resources were prepared by Agapito Associates, Inc., a qualified firm for the estimate and independent of Intrepid Potash.
Mineral Resources are reported exclusive of Mineral Reserves, on a 100% basis.
Mineral Resources are reported using Inverse Distance Squared (ID2) estimation methods.
Mt = million tons; % = percent; K2O = potassium oxide; ft = feet
  
Discussion of Future Work
IPNM has historically and is currently producing from this property. There are no relevant technical or economic factors that need to be resolved.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
12-1
12    MINERAL RESERVE ESTIMATES
Mineral reserves that are to be mined using mechanical methods are estimated by the application of a detailed mine plan for the measured and indicated resources within the boundaries of the cutoff GT for reserves. The plan sets the basis for the estimation of annual production of product. The income from product sales and the operating and capital costs to mine the resource is fundamental to the cash flow used to establish economic viability.
Mineral reserves that are mined using solution mining methods are not subject to the traditional application of a cutoff grade but instead of operational limitations. An operational limit of the flood elevation establishes the cutoff between resource and reserve for this deposit.
According to 17 CFR § 229.1301 (2021), the following definitions are included for reference:
A probable mineral reserve is the economically mineable part of an indicated and, in some cases, a measured mineral resource.
A proven mineral reserve is the economically mineable part of a measured mineral resource. For a proven mineral reserve, the qualified person has a high degree of confidence in the results obtained from the application of the modifying factors and in the estimates of tonnage and grade or quality. A proven mineral reserve can only result from conversion of a measured mineral resource.
12.1    Key Assumptions, Parameters, and Methods
By definition, modifying factors are the factors applied to indicated and measured mineral resources and then evaluated in order to establish the economic viability of mineral reserves. These factors for IPNM include mechanical and solution mining parameters; mineral processing; oil and gas drill islands and well locations; economic cutoff GT; deleterious minerology; and lease boundaries.
Intrepid has a long history of sales and marketing of their products. Sales are managed for all properties through the corporate office. Intrepid provided the historical demand and sales pricing through their SOEs from 2012 to 2020. Forward-looking pricing was provided by Intrepid marketing and the sales price outlook was reviewed in The World Bank Report Pink Sheets (2021). The product sale prices selected for analysis of cutoff grade for mechanically mined reserves is shown in Table 12-1.
Table 12-1.    Product Sales Price (Reserves)
ProductSale PriceFreightNet Sales PriceCost of Goods Sold
Langbeinite$340$90$250$200/t
Sylvite$325$30$295$200/t
Economic modeling indicates cutoff grades for reserves at the IPNM East Mine of 43 ft% K2O for langbeinite resource (Table 12-2). Cutoff grade for brine production is listed in Table 12-3.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
12-2
12.2    Mineral Reserves Estimate
The resource grids remaining after adjusting for cutoff grade, oil-and-gas pillars, drill islands, mined-out areas, and carnallite were used to create the detailed mechanical mine plan within the leased parcels. The mine plan boundary determines the technical feasibility of mining the reserves for zones. The modifying factors applied to the reserve are listed in Table 12-4. The detailed mechanical mine plan is shown in Figures 12-1, 12-2, and 12-3 for ore zones 5, 4, and 3, respectively. The mine plan layout for the solution mining is a flood elevation indicating the limit of the fluid injection boundary. The proven and probable reserves are included in Table 12-5 and are shown on Figures 12-4 through 12-7 for ore zones 5, 4, 3, and 1, respectively.
Table 12-2.    Cutoff for Mechanically Mined Reserves
Ore MineralPure
Mineral
(%)
Nominal
Grade
Cutoffs
(%K2O)
Mill
Recovery
(%)
Final
Product
Net Sale
Value1
($)
Sale
Value per
Ore Ton
at Cutoff
Grade
($)
Mining
Cost2
($)
Grade-
Thickness
Cutoff3
(ft%K2O)
Applicable Ore Zones
Carlsbad East Mine
Langbeinite4
22.70%8.7 %68%$250.00$48.00$48.0043East–3, 4, 5 and West–4
1 Sale value at long term reserve price less shipping with a nominal pre-tax profit.
2 Estimated costs of goods sold per ton of ore not including interest, depreciation, depletion or taxes.
3 Equivalent to 5.0-ft-thick ore at nominal grade.
4 All langbeinite is processed at the East plant.
Table 12-3.    Cutoff for Solution Mined Reserves
Cost
Total production costs ($)
$31,500,000 
Net revenue from salt ($)
$4,680,000 
Total Cost (less revenue from salt)$26,820,000 
Potash
Tons sold
180,000 
Net potash sales ($)
$44,100,000 
Cutoff Analysis
Net concentration of production brine (% KCl)
5.6 %
Cutoff net concentration (% KCl)
3.4 %
Cutoff net concentration (% K2O)
2.2 %
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
12-3
Table 12-4.    Modifying Factors for Reserves
Reserves
Oil and gas mechanical mining offsets200–2,640 ft radius
Drill islands sterilization200 ft radius
GT for sylvinite mechanical mining
57.0 ft% K2O
GT for high-insoluble sylvinite mechanical mining*
75.0 ft% K2O
GT for langbeinite mechanical mining
43.0 ft% K2O
Minimum mechanical mining height East Mine6.5 ft
Extraction factor0.84
Random impurities factor0.9
Flood elevation HB South2,525 ft
Flood elevation HB North2,325 ft
Flood Elevation HB Eddy2,675 ft
Flood Elevation HB AMAX2,500 ft
Solution mining dissolution0.96
Solution mining areal recovery factor1
Solution mining geologic factor0.93-0.99
Solution mining cavern losses0.02
Carnallite content mechanical miningLess than 6%
MineabilityDefined in a detailed mine plan
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
12-4
Table 12-5.    Mineral Reserve Estimate effective December 31, 2021
IPNM—Summary of Potash Mineral Reserves effective December 31, 2021 based on 325 $/Product Ton Mine Site
In-Place KCl
In-Situ Grade1
Product
Brine Cutoff Grade2
Processing Recovery
(Mt)
(%K2O)
(Mt)
(%K2O)
(%)
Proven Mineral Reserves5.520.84.12.085
Probable Mineral Reserves0.319.20.22.085
Total Mineral Reserves5.820.74.3
1In-situ grade is the amount of K2O in the contact area of the caverns.
2Brine cutoff grade is the amount of K2O in the extracted brine necessary to cover the cash costs of production.
Mineral Reserves were prepared by Agapito Associates, Inc., a qualified firm for the estimate and independent of Intrepid Potash.
Mineral Reserves are reported exclusive of Mineral Resources, on a 100% basis.
Mineral Reserves are reported based on a flood elevation mining plan, dissolution factor of 96%, areal recovery of 100%, geologic factor of 94.2%, plant recovery of 85%, product purity of 97%, and cavern losses of 2%.
Mt = million tons, % = percent, K2O = potassium oxide, ft = feet
IPNM—Summary of Langbeinite Mineral Reserves effective December 31, 2021 based on 340 $/Product Ton Mine Site
ROM OreIn-Situ Grade (Diluted)ProductCutoff
Grade		Processing Recovery
(Mt)
(%K2O)
(Mt)
(ft-%K2O)
(%)
Proven Mineral Reserves
18.1
8.54.94368
Probable Mineral Reserves
4.2
9.11.24368
Total Mineral Reserves22.38.66.1
1In-situ grade (diluted) is the amount of K2O in the ore body with consideration for dilution occurring during mining.
Mineral Reserves are reported exclusive of Mineral Resources, on a 100% basis.
Mineral Reserves were prepared by Agapito Associates, Inc., a qualified firm for the estimate and independent of Intrepid Potash.
Mineral Reserves are reported based on a detailed conventional mine plan, random impurities of 10%, plant recovery of 68%, and product purity of 95.6%.
Mt = million tons, % = percent, K2O = potassium oxide, ft = feet, ROM = Run-of-Mine
12.3    Risk Factors
Mineral reserves are an estimate from sparse data sampling points in a geologic setting that can be highly variable. The risk of material changes to the geologic interpretation is tempered by the application of the anomaly factor and the long history of mining in this deposit. Costs are subject to impact by the broader economy and can be impacted by the weather and other natural forces. A change in rules or regulations can result in unanticipated cost increases.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
12-1
image_19.jpg
Figure 12-1.    Detailed Mechanical Mine Plan—East Mine Langbeinite Zone 5
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
12-2
image_20.jpg
Figure 12-2.    Detailed Mechanical Mine Plan—East Mine Langbeinite Zone 4
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
12-3
image_21.jpg
Figure 12-3.    Detailed Mechanical Mine Plan—East Mine Langbeinite Zone
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
12-4
picture1.jpg
Figure 12-4.    5th Ore Zone Mineral Reserves, Langbeinite Ore
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
12-5
picture1.jpg
Figure 12-5.4th     Ore Zone Reserves, Langbeinite Ore
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
12-6
picture3.jpg
Figure 12-6.3rd     Ore Zone Mineral Reserves, Langbeinite Ore
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
12-7
picture4.jpg
Figure 12-7.    1st Ore Zone Mineral Reserves, Sylvinite Ore
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
13-1
13    MINING METHODS
The two mining methods currently in practice at IPNM are high-extraction mechanical underground room-and-pillar mining and solution mining. Mechanical mining is well suited to bedded deposits. All MOP production at IPNM comes from the HB Solar Solution Mine in the 1st and 3rd ore zones. Trio® production is from langbeinite mined using room-and-pillar mechanical mining methods at the East Mine in the 3rd, 4th, and 5th ore zones. Historically, MOP was sourced from the West Mine 5th, 7th, and 10th ore zones. Approximately 285 people are employed at the property.
The East Mine is a high-extraction, mechanical room-and-pillar mine. Potash was the primary product until mining progressed to the mixed langbeinite and potash ore in the 5th ore zone. The mixed ore was processed into two products: MOP sourced from the sylvinite portion of the mixed ore, and Trio® sourced from the langbeinite portion of the mixed ore. The East Mine plant was converted to a langbeinite-only operation in April 2016 and potash is no longer produced from the East Mine. The maximum productive capacity of the plant is 400,000 t of Trio® concentrate annually.
There are five active sections with a miner and a shuttle car loading onto a belt conveyor. Each mining section produces approximately 240,000 t of run-of-mine ore each year. The long-range production balanced with sales projections results in a long-term annual production of 1.2 Mt of ore for 250,000 t of Trio® annually.
Historical room-and pillar-mining operations at the HB complex recovered about 70% of the ore, leaving approximately 30% of the ore available for secondary recovery in pillars plus what can be recovered beyond the limits of the conventional mine works. Mining at the HB Solar Solution Mine recovers potash by injecting saturated saline NaCl brine into the old mine works to create underground leach lakes. Over time, the solution enriched with potash is pumped to the surface to solar evaporation ponds. Selective solar evaporation leaves behind a potash-enriched salt that is collected using scrapers, pumped, and processed at the HB Plant. The solution mine comprises six injection wells, five extraction wells, and three monitoring wells.
The North Mine operated from 1957 to 1982 when it was idled, mainly due to low potash prices and a change in the mineralogy of the readily accessible remaining reserves which negatively impacted mineral processing. Although the mining and processing equipment has been removed, the mine shafts remain open. The compaction facility at the North Mine is where the HB potash product is granulated, stored, and shipped. The North Facility receives compactor feed from the HB Solar Solution Mine via truck and converts the compactor feed to finished granular-sized product and standard-sized product.
The extents of the mine plans shown for this reserve estimate are shown in Figure 13-1. The life of the resources and reserves at IPNM exceeds 25 years.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
13-2
picture5.jpg
Figure 13-1.    Underground and Solution Mining Extents
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
14-1
14    PROCESSING AND RECOVERY METHODS
All IPNM ores are processed on-site. There are two active processing plants: the East Plant and HB Solar Solution Plant. The West Plant was idled in 2016. The North Compactor was completed in early 2013 and is used to granulate, store, and ship product from the HB Plant.
Declining ore grades coupled with market conditions have resulted in IPNM shuttering much of it sylvite capacity in the past 5 years. Historically, the East Plant produced white sylvite by evaporative crystallization and langbeinite (K2SO4·2MgSO4) by dense media separation of the coarse fraction (+20 mesh) of ore mined from the 3rd, 4th, and 5th ore zones. In 2016, sylvite production permanently ceased and the East Plant became a langbeinite-only producer. Langbeinite recoveries have since improved to as high as 72%.
14.1    HB Processing Facility
In 2012, IPNM commenced filling the HB solar evaporation ponds (Figure 14-1). The extraction brine sourced from the mined-out areas of the 1st ore zones of the former underground workings of portions of HB Eddy, HB South, HB North, and the HB Crescent, collectively referred to as the HB Mine, contains approximately 21.7% NaCl and 7.0% KCl. The brine is collected and crystallized in 18 solar evaporation ponds. The HB flotation mill processes the harvested potash and salts from the solar evaporation ponds.
Conditioned injectate, made with NaCl-saturated brine, is injected to create underground leach lakes in the lower portions of abandoned subsurface mine workings. The solution mine comprises six injection wells, five extraction wells, and three monitoring/extraction wells.
As mining progresses, the brine strength is expected to decline and production is projected to fall from current levels of 180,000 tons per year (tpy) to less than 150,000 tpy by 2045. Following the separation of KCl, the HB Solar Solution Mine also recovers significant quantities of NaCl.
The simplified process flow diagram (PFD) is shown in Figure 14-2. NaCl-saturated brine is injected into the mines producing about 400 million gallons of brine at an estimated grade of 7.0% KCl and 21% NaCl. The evaporation ponds concentrate and crystallize the brine to produce about 680,000 tpy of crystal at 16–18% K2O (26–30% KCl) with the remainder being largely halite. The crystals are mechanically harvested, re-pulped in double-saturated brine and pumped to the HB processing facility.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
14-2
image_27.jpg
Figure 14-1.    HB Evaporation Ponds
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
14-3
image_29.jpg
Figure 14-2.    HB Process Flow Diagram
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
14-4
The crystals are statically screened with the oversize processed through a crusher and recycled. The screened crystal is combined with reagents and fed to flotation cells. The rougher flotation concentrate is forwarded to the agitated leach tank.
The leached solids are at a product grade of >95.5% KCl with 60.5% K2O. The solids are dried, sampled, and conveyed to storage bins prior to transfer to the North Plant for compaction and shipment to sales.
14.2    Langbeinite Processing Facility
The East Plant was modified in 2003–2004 to allow dual processing to recover the K2O value from both the sylvite and langbeinite fractions of the ore. In 2016, the sylvite circuit was permanently closed. Langbeinite, marketed as the organic fertilizer Trio® brand of products, is recovered using dense media separation and a fine langbeinite recovery circuit. A simplified process flow diagram is included as Figure 14-3.
Currently about 1 million tpy (Mtpy) of ore is processed at a rate of 300 tph. The ore is crushed, screened, pulped, and rescreened. Coarse material is forwarded to the dense media separation (DMS) circuit. The DMS concentrate is water leached, debrined, and dried. The coarse product is separated into the three Trio® products. Fine material from the screening process is recovered using gravity separation, leaching, debrining, and drying. Fine material is upgraded to premium product using pelletization.
14.3    North Compaction Plant
The North Plant provides classification, compaction, quality control, and load-out services for production from the HB Solar Solution Mine. A simplified flow diagram for the North Compaction Plant is presented in Figure 14-4.
Belly dump trucks unload HB product into a dump pocket. The material is then sent to surge bins. The product is screened, preheated, weighed, and sent to a compactor feed bin.
Material is fed to the roll compactor, and resulting flakes are further reduced in size with the subsequent flake breaker and crusher. Product is then screened and sent to the curing dryer and screened once again before being sent to final product storage.
The product is shipped to market in trucks or rail cars.
14.4    Tailings Facilities
There are three tailings storage facilities (TSF) at IPNM: East, West, and North.
The East TSF is shown in Figure 14-5. The New Mexico State Engineer in the Dam Safety Bureau required IPNM to evaluate as-built conditions and stability of the East TSF due to the lack
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
14-5
image_30.jpg
Figure 14-3.    East Plant Process Simplified Flow Diagram
of original construction calculations and drawings. IPNM completed the required geotechnical evaluation assessment in 2018. Based on that evaluation, a conceptual improvement plan was developed to buttress slopes greater than 26 ft in height and to add a 3-ft lift to the crest of the facility to achieve minimum compliance requirements.
The West TSF, in Figure 14-6, is permitted for tailings disposal from the West Plant. The plant is currently not in operation. NaCl from the facility is used to condition the injectate stream for the HB Solution Mine.
The North TSF in Figure 14-7 is only used to handle excess brine/water and has ample capacity.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
14-6
image_31.jpg
Figure 14-4.    North Plant Simplified Process Flow Diagram
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
14-7
image_32.jpg
Figure 14-5.    East Tailings Storage Facility
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
14-8
image_33.jpg
Figure 14-6.    West Tailings Storage Facility (HB Brine Recirculation)
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
14-9
image_34.jpg
Figure 14-7.    North Tailings Storage Facility (inactive)
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
15-1
15    INFRASTRUCTURE
The IPNM mines have a robust infrastructure in place. IPNM has adequate water rights at each of the mine properties. All of the mining operations are accessible by paved state or county highways and are accessible by rail. All of the operations obtain electric power from local utilities fed to recently upgraded substations. The infrastructure layout is shown on Figure 15-1.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
15-2
image_35.jpg
Figure 15-1.    Layout of the Infrastructure
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
16-1
16    MARKET STUDIES
Future pricing is difficult to predict and can fluctuate dramatically depending on the world market. IPNM does not conduct market studies to set the sales price.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
17-1
17    ENVIRONMENTAL STUDIES, PERMITTING, AND PLANS
IPNM holds numerous environmental, mining, safety, and other permits and governmental approvals authorizing the operations at each of the facilities. Operations are subject to permits for, among other things, extraction of salt and brine, discharges of process materials and waste to air and surface water, and injection of brine. IPNM is obligated to reclaim and remediate disturbed lands when they cease operations.
17.1    Environmental Studies
IPNM has all necessary operating permits and is in production, both underground and solution mining, and through the permit reporting maintains environmental compliance. Environmental studies are conducted for major project expansions. The most recent Environmental Audit (EA) was completed in 2015 for the expansion of the HB In-situ Solution Mining project to include the solution mining of the abandoned AMAX potash mine. The work referenced the initial EIS for the HB In-Situ Solar Solution Mining Project EIS (DOI 2012).
17.2    Waste and Tailings Disposal, Site Monitoring, and Water Management During and After Mine Closure
The property has three tailings’ impoundments, one of which is in current operation, that were described in Section 14. Tailings brine water is recycled for use in processing plants and solution wells. At closure, the tailings piles will dry and form a very hard, stable crust. No recontouring or revegetation of tailings piles are anticipated because the hard crust will provide adequate slope stability. The perimeter dikes will be stabilized for long-term integrity. Precipitation on the pile will dissolve some of the salt as it moves down into the brine pond, but is not anticipated to be saturated when it exits the pile. The tailings areas will be fenced off to minimize public access. No additional reclamation of the tailings piles is necessary at closure.
17.3    Permitting Status and Reclamation Bonds
The permitting status of each of the major permits is listed in Table 17-1. Bonds for mine closure and groundwater discharge are currently at a value of $3.764 million. The most recent update to the permits, currently awaiting BLM and New Mexico Environmental Department (NMED) approval, will increase the bond amount to $4.475 million.
17.4    Agreements with Local Individuals
There are no specific agreements with local individuals or groups.
17.5    Closure Plans
Closure plans include the repurposing, demolition, and removal of surface infrastructure and safely securing shafts for public safety. Mine operations and closure plans are periodically filed with the BLM. The proposed methods of abandonment are designed to protect unmined
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
17-2
Table 17-1.    Permitting Status
Common NameIssuing AgencyPermit IDEffective DateExpiration DateBond ValueNote
Air PermitNew Mexico Environment Department (NMED) Air Quality BureauNew Source Review Permit 4332-M1R34-Apr-21NoneNone
Air PermitNew Mexico Environment Department Air Quality BureauTitle V Air Operating Permit P261-R16-Nov-191-Nov-24NoneTitle V operating permits have a 5 year permit term; renewal is required to be submitted 12 months prior to expiration.
Groundwater Discharge PermitNew Mexico Environment Department Ground Water Bureau (Water Quality Control Commission Regulations)Discharge Permit No.: DP-168110-Jul-1510-Jul-20$3,349,000 Application for renewal submitted January 2020--still awaiting new permit. Existing permit remains in effect until agency issues the renewed permit. Current bond amount is shown. Intrepid provided an updated Mine Reclamation and Closure Plan and Closure Cost Estimate to NMED GWB in June 2021 for the amount of $4.475MM. Awaiting NMED acceptance before updating bond.
Liquid Waste PermitNMED Health BureauWest/HB Plant: 004446, 004447, 004448, 004449, 004450, 004451, 004452, 004453, and 0086099-Jan-18NoneNone
Liquid Waste PermitNMED Health BureauHB Slurry Pit Septic 00860925-Sep-18NoneNone
Radioactive devicesNMED Radiation Control BureauNone7-Oct-1930-Nov-24None
Waterfowl Hazing Plan and ReportingBureau of Land Management – Carlsbad Field OfficeHB Project Solar Evaporation Ponds, Stepped Avian Monitoring and Mitigation Plan1-Jan-12NoneNone
Storm Water Pollution Prevention PlanN/A
SPCC PlanN/A
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
17-3
Good Housekeeping Practices PlanNMED AQBGood Housekeeping Practices Plan required by NSR Air Permit 4332- M111-Aug-17NoneNone
CAM PlanNMED AQBCompliance Assurance Monitoring Plan required by Title V Air Operating Permit P261-R1Same as Title V permitSame as Title V permitNone
Federal Explosives LicenseBureau of Alcohol Tobacco and FirearmsPermit # 5-NM-015-33-9J-00293NoneLicense covers shell crackers for shotguns. Used to control or scare away waterfowl from the ponds at all sites. This license is for all of Intrepid NM, not just HB Solar.
Solid and Hazardous Waste Management PlanSelf written[Not a permit, HB Solar is a Very Small Quantity Generator]N/AN/ANoneUpdated plan internally January 2021
Mine Operations and Closure PlanBureau of Land Management – Carlsbad Field OfficeHB Solar Mine Operations and Closure Plan1-Mar-12None$415,000Intrepid provided an updated Mine Reclamation and Closure Plan and Closure Cost Estimate to NMED GWB and concurrently with BLM in June 2021 for the amount of $4.475MM. It is our understanding that NMED and BLM has a MOU that will allow Intrepid to have 1 bond jointly. Awaiting NMED and BLM acceptance before updating the bond.
Well permitsNM Office of State EngineerInjection, Extraction and Rustler Wells1-Mar-12NonePermit status is undetermined at this time.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
17-4
recoverable reserves and other resources. While each mine area has specific detailed closure requirements, the major closure steps include closure of shafts and relief wells, tailings stabilization, asbestos removal, building demolition, reclamation of building footprints; reclamation of other areas, dispose of any contaminated soils, reclamation of landfills, reclamation of roads, and remediation of Recognized Environmental Concerns (REC).
Upon completion of solution mining operations at the HB Mine, all structures, wells, pipelines, and ancillary equipment located on Federal, State, and Intrepid fee land will be abandoned, demolished, razed, and hauled to an appropriately permitted local landfill for proper disposal.
17.6    Adequacy of Current Plans and Compliance
It is the QP’s opinion that the current plans are adequate to address any issues related to environmental compliance, permitting, and local individuals or groups.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
18-1
18    CAPITAL AND OPERATING COSTS
Intrepid has provided the mining costs history and sales data since 2007 and budgeted capital costs dated January 6, 2020. The East mine is operating at approximately 60% of capacity and is anticipated to continue operating at the current rate. At reduced capacity, three sets of mining units are running at any given time and five units are available. With the West Mine taken offline, many of the capital items were recovered from the West Mine for use in the East Mine, reducing the amount of new capital required to sustain East Mine operations from 2016-2021. East Mine sustaining capital requirements are expected to increase beginning in 2022 as the availability of West Mine assets repurposed for use at East has diminished.
18.1    Operating Cost Estimate
Intrepid provided the mining costs history and sales data since 2007. The cash production cost by mine including warehouse handling and royalties are provided in Table 18-1. These costs are subject to vary with changes in production. Cash production costs do not include interest, depreciation, depletion, or income taxes.
Table 18-1.    Unit Mining Cost
Cost Category
Cost
($/product ton)
Labor$91
Maintenance Supplies$25
Operating Supplies Including Reagents$20
Natural Gas, Electricity and Fuel$15
Leases, Property Tax, Insurance, etc.$25
Subtotal$176
Warehouse$11
Royalties$13
Cost of Goods Sold$200
18.2    Capital Cost Estimate
Capital items necessary to complete the mine plan include the treatment extension for the management of bitterns from the HB Solution Plant and the pipeline and injection/extraction wells for the AMAX extension of the HB Solar Solution Mines. The sustaining capital is outlined in the budget and includes major equipment replacement. No development in the conventional underground mine is planned beyond the ongoing mine extension. Mine advancement is included in the operating cost.
18.3    Accuracy Discussion
The cost estimates are based on actual costs from the producing mines. These cost estimates are considered highly accurate based on the current and anticipated operating conditions.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
19-1
19    ECONOMIC ANALYSIS
To evaluate the viability of mining the IPNM mines’ reserves, an economic analysis was conducted. Annual revenue and production cost schedules were used to build a projected cash flow to accompany the mine plan. The costs and sales price parameters were assumed to be in constant US dollars.
19.1    Key Assumptions, Parameters, and Methods
The property has a long history of operation at this location. The assumption list for the economic analysis is shown in Table 19-1.
Table 19-1.    Economic Analysis Assumptions
ParameterAssumption
Trio® Sale Price (mine site)$340/t
Potash Sale Price (mine site)$325/t
Shipping Trio®$90/t
Shipping Potash$30/t
Trio® Production Target250,000 tpy
Potash Production Target180,000 tpy
Interest Rate0–12% APR
Income Taxes (State and Federal)40%
Resource Tax1.25%
19.2    Economic Analysis
For a property in operation, the economic viability has been established. The cash flow was developed using the mine plan and is listed in Table 19-2 and shown graphically in Figure 19-1. The NPV over the period of the detailed mine plan was calculated for an array of interest rates. This NPV analysis is included in Table 19-3. For a property in operation, the Internal Rate of Return and payback period are only necessary for major capital expansions.
19.3    Sensitivity Analysis
NPV sensitivity analyses were run using variants in commodity price and operating costs for the pre-tax cash flow. The results of the sensitivity analysis are shown in Table 19-4 and graphically in Figure 19-3.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
19-2
Table 19-2.    Estimated Pre-Tax Cash Flow
2022–
2026		2027–
2031		2032–
2036		2037–
2041		2042–
2046
Langbeinite
Ore Production (-million tons/year)1.201.201.201.201.20
Ore Grade (%K2O/year)8.698.628.788.167.86
Tons of K2O (-000/year)
57.9457.5458.5654.3652.42
Product (Langbeinite) (-000 tons/year)265.78263.96268.62249.34240.46
Handling Losses (-000 tons/year)10.6210.5810.769.969.62
Tons (Langbeinite) (-000 tons/year)255.16253.38257.86239.38230.84
Sale Price Langbeinite ($/product ton)$340$340$340$340$340
Shipping ($/ton)$90$90$90$90$90
Net Sale Price/year$250$250$250$250$250
MOPProduction (MOP) (-000 tons/year)180.00180.00180.00180.00180.00
Sale Price MOP ($/product tons/year)$325$325$325$325$325
Shipping ($/product tons/year)$30$30$30$30$30
Net Sale Price$295$295$295$295$295
Salt Sales ($-million/year)$2.50$2.50$2.50$2.50$3.00
REVENUE ($-million/year)$119.39$118.95$120.07$115.45$113.81
EXPENSES
Major Capital ($-million/year)$5.20$1.00$0.00$3.00$0.00
Cost of Goods Sold
Expenses ($-million/year)$84.83$84.83$84.80$84.77$79.38
Income before Taxes ($-million/year)$34.56$34.11$35.26$30.67$34.43
Pre-tax Cash Flow ($-million/year)$29.36$33.11$35.26$27.67$34.43
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
19-3
chart-e2d4db0ddebe4313887.jpg
Figure 19-1.    Estimated Annual Pre-Tax Cash Flow
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
19-4
Table 19-3.    Estimated After-Tax Cash Flow
2022–
2026		2027–
2031		2032–
2036		2037–
2041		2042–
2046
Langbeinite
Ore Production (-million tons/year)1.201.201.201.201.20
Ore Grade (%K2O/year)8.698.628.788.167.86
Tons of K2O (-000/year)
57.9457.5458.5654.3652.42
Product (Langbeinite) (-000 tons/year)265.78263.96268.62249.34240.46
Handling Losses (-000 tons/year)10.6210.5810.769.969.62
Tons (Langbeinite) (-000 tons/year)255.16253.38257.86239.38230.84
Sale Price Langbeinite ($/product ton)$340$340$340$340$340
Shipping ($/ton)$90$90$90$90$90
Net Sale Price/year$250$250$250$250$250
MOPProduction (MOP) (-000 tons/year)180180180180156
Sale Price MOP ($/product tons/year)$325$325$325$325$325
Shipping ($/product tons/year)$30$30$30$30$30
Net Sale Price$295$295$295$295$295
Salt Sales ($-million/year)$2.50$2.50$2.50$2.50$3.00
REVENUE ($-million/year)$119.39$118.95$120.07$115.45$106.73
EXPENSES
Major Capital ($-million/year)$5.20$1.00$0.00$3.00$0.00
Cost of Goods Sold
Expenses$84.83$84.83$84.80$84.77$81.18
Income before Taxes$34.56$34.11$35.26$30.67$25.55
Depreciation$1.21$1.87$2.07$1.15$1.20
Depletion$16.04$16.56$16.81$14.98$12.77
Taxable Income$17.30$15.69$16.39$14.54$11.57
Fed and State$6.92$6.28$6.56$5.82$4.63
Resource Excise Tax$0.15$0.15$0.15$0.14$0.13
Cash Flow (After-Tax)$22.29 $26.69 $28.56 $21.71 $20.78 
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
19-5
chart-7b6d7ce727644e588e0.jpg
Figure 19-2.    Estimated Annual After-Tax Cash Flow
Table 19-4.    NPV Pre-Tax Estimate
Interest Rate
(% APR)		NPV
($M)
0$755
5$456
8$358
10$311
12$275
Table 19-5.    NPV After-Tax Estimate
Interest Rate
(% APR)		NPV
($M)
0$600
5$361
8$282
10$244
12$215
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
19-6
chart-275b894ea3bd4b0e9a4.jpg
Figure 19-3.    Pre-Tax NPV Sensitivity to Price and Costs
chart-e167e5111b434e2fb5a.jpg
Figure 19-4.    After-Tax NPV Sensitivity to Price and Costs
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
20-1
20    ADJACENT PROPERTIES
Not Applicable.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
21-1
21    OTHER RELEVANT DATA AND INFORMATION
The Mine Safety and Health Administration (MSHA) is the governing agency for IPNM’s underground mines and related surface facilities in New Mexico. As required, these operations are regularly inspected by MSHA personnel. The HB Plant is governed by the Occupational Safety and Health Administration (OSHA).
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
22-1
22    INTERPRETATION AND CONCLUSIONS
Agapito’s review and resource and reserve estimations were performed to obtain a reasonable assurance of the estimates from the data provided by Intrepid and IPNM. Based on the foregoing, Agapito believes its findings are reasonable and realistic and have been developed using accepted engineering practices.
As with all geologic estimations, there is a level of risk and uncertainty because of sparse data. These estimates are considered reliable based on the historical success of mining operations recovering langbeinite and potash from this deposit. There is more uncertainty in future mining of the ore zones that have not been historically mined.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
23-1
23    RECOMMENDATIONS
Agapito recommends that IPNM continue planning for the challenges in solution mining with the presence of low levels of carnallite and plan for the expansion pipeline to the AMAX. The property is in operation, and no additional work is recommended.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
24-1
24    REFERENCES
Agapito (2007), “Determination of Estimated Proven and Probable Reserves at Intrepid Potash—New Mexico, LLC,” report prepared for Intrepid Potash, December 12, 19 pp.
Agapito (2008), “Determination of Estimated Proven and Probable Reserves for the Planned HB Solution Mine for Intrepid Mining, LLC,” report prepared for Intrepid Potash, March 14, 25 pp.
Agapito (2009), “Reserve Update for the Carlsbad HB, East and West Mines for Intrepid Potash, Inc.,” report prepared for Intrepid Potash, Inc., February 27, 29 pp.
Agapito (2010), “Determination of Estimated Proven and Probable Reserves at Intrepid Potash—New Mexico, LLC,” report prepared for Intrepid Potash, Inc., February 4, 34 pp.
Agapito (2011), “Determination of Estimated Proven and Probable Reserves at Intrepid Potash—New Mexico, LLC,” report prepared for Intrepid Potash, Inc., February 1, 34 pp.
Agapito (2012), “Determination of Estimated Proven and Probable Reserves at Intrepid Potash—New Mexico, LLC,” report prepared for Intrepid Potash, Inc., January 27, 32 pp.
Agapito (2013), “Determination of Estimated Proven and Probable Reserves at Intrepid Potash—New Mexico, LLC,” report prepared for Intrepid Potash, Inc., February 11, 38 pp.
Agapito (2014), “Determination of Estimated Proven and Probable Reserves at Intrepid Potash—New Mexico, LLC,” report prepared for Intrepid Potash, Inc., January 28, 42 pp.
Agapito (2015), “Determination of Estimated Proven and Probable Reserves at Intrepid Potash—New Mexico, LLC,” report prepared for Intrepid Potash, Inc., January 22, 43 pp.
Agapito (2016), “End-of-Year 2015 Intrepid Potash, Inc. Reserve for the Carlsbad HB Solar Solution, East and West Mines Intrepid Potash—New Mexico, LLC,” report prepared for Intrepid Potash, Inc., January 25, 35 pp.
Agapito (2017), “End-of-Year 2016 Intrepid Potash, Inc. Reserve for the Carlsbad HB Solar Solution, East and West Mines Intrepid Potash—New Mexico, LLC,” report prepared for Intrepid Potash, Inc., February 1, 44 pp.
Agapito (2018), “End-of-Year 2017 Intrepid Potash, Inc. Reserve for the Carlsbad HB Solar Solution, East and West Mines,” report prepared for Intrepid Potash, Inc., January 21, 43 pp.
Agapito (2019), “2018 Determination of Estimated Proven and Probable Reserves for the Carlsbad HB Solar Solution, East and West Mines,” report prepared for Intrepid Potash Inc., February 14, 36 pp,
Agapito (2020), “2019 Determination of Estimated Proven and Probable Reserves for the Carlsbad HB Solar Solution, East and West Mines,” report prepared for Intrepid Potash Inc., January 24, 2020, 67 pp.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
24-2
Agapito (2021), “Determination of Estimated Proven and Probable Reserves for the Carlsbad HB Solar Solution, East and West Mines,” report prepared for Intrepid Potash Inc., January 24, 2021, 67 pp.
Backman, G. O. (1984), “Regional Geology of Ochoan Evaporites, Northern Part of Delaware Basin,” Circular 184, Socorro, NM: New Mexico Bureau of Mines and Mineral Resources, 25 pp.
Barker, J. M. and G. S. Austin (1993), “Economic Geology of the Carlsbad Potash District, New Mexico,” Guidebook 44th Field Conference, Carlsbad Region, New Mexico and West Texas, New Mexico Geological Society, pp. 283–291.
Barker, J and G. Austin (1999), “Overview of the Carlsbad potash district, New Mexico,” New Mexico Bureau of Mines & Mineral Resources, Circular 207, pp. 7–16.
Bruhn, H. H. and E. H. Miller (1954), “Potash Mining Methods,” Mining Engineering, June, pp. 608–612.
Carlson Software (2020), “Carlson Geology,” available at Carlson Software website.
Cheeseman, R. J. (1978), "Geology and Oil/Potash Resources of Delaware Basin, Eddy and Lea Counties, New Mexico," Circular 159, Socorro, NM: New Mexico Bureau of Mines and Mineral Resources (NMBMMR), pp. 7–14.
CFR (2021), “Disclosure by Registrants Engaged in Mining Operations,” § 229.1301, last amended September 1, .
Federal Register (2012), “Oil, Gas, and Potash Leasing and Development Within the Designated Potash Area of Eddy and Lea Counties, NM,” 77 FR 71814, December 4, 5 pp.
Federal Register (1986), “Appendix A, Guidance for Managing the Secretary’s Potash Area,” 51 FR 39425, October 28, 48 pp.
Griswold, G. G. (1982), “Geologic Overview of the Carlsbad Potash-Mining District,” Circular 182, Socorro, NM: New Mexico Bureau of Mines and Mineral Resources, pp. 17–22.
Gunn, R. C. M. and J. M. Hills (1978), “Geology of the Tenth Potash Ore Zone: Permian Salado Formation, Carlsbad District, New Mexico,” Open File Report 146, Socorro, NM: New Mexico Bureau of Mines and Mineral Resources (NMBMMR), 43 pp.
Haworth, R. G. (1949), “Mining Potash Ores in Carlsbad Area,” American Institute of Mining and Metallurgical Engineers, Mining Transactions, 184:381–382.
Herne, V. and T. McGuire (2001), “Mississippi Potash, Inc.’s Underground Operations,” Underground Mining Methods, (Hustrulid, W. A. and R. L. Bullock, eds.), Littleton, CO: SME, pp. 137–141.
Intrepid Potash, Inc. (2019a), “Intrepid Potash, Inc. Form 10-K,” US Securities and Exchange Commission, 91 pp.
Jones, C. L., C. G. Bowles and A. E. Disbrow (2001), “Generalized Columnar Section and Radioactivity Log, Carlsbad District,” Open File Map, USGS, 1 sheet.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
24-3
Kirby, R. E. (1974), “Mine Modernization at AMAX’s Carlsbad Property,” Preprint 74-AU-302, Salt Lake City: Society of Mining Engineers of AIME, 22 pp.
Kroenlein, G. A., (1939), "Salt, Potash and Anhydrite in Castile Formation of Southeast New Mexico," Bull. American Association of Petroleum Geologists, 25(11):1682–1693.
Lewis, J. P. (2006), “Evaluation of Potash Content in the Conoco Phillips Peakview II Well,” Eddy County, New Mexico: Intrepid Mining LLC, Denver, Colorado, 10 pp.
Lewis, J. P. (2007), “Carlsbad Xsec.jpg,” retrieved from FTP Site, accessed November 15.
Linn and Adams (1966),"Barren Halite Zones in Potash Deposits Carlsbad, New Mexico," Second Symposium on Salt, Cleveland, OH: Northern Ohio Geological Society, Inc., pp. 59–69.
Lowenstein, T. K. (1988), "Origin of Depositional Cycles in a Permian 'Saline Giant': The Salado (McNutt Zone) Evaporites of New Mexico and Texas," 100:592–608.
Nelson, Philip H. (2007), “Evaluation of Potash Grade with Gamma-ray Logs,” USGS OFR 2007-1292, 14 pp.
Pierce, C. A. (1936), “Drilling and Blasting Practice of the United States Potash Company at Carlsbad, New Mexico,” Technical Publication No. 672, New York: American Institute of Mining and Metallurgical Engineers, Inc., 10 pp.
Schaller, W. T. and E. P. Henderson (1932), “Mineralogy of Drill Cores from the Potash Field of New Mexico and Texas,” Geological Survey Bull. 833, Washington, DC: US Government Printing Office, 124 pp.
SEC (2008), “Industry Guides,” OMB Number 3235-0069, 33 pp.
SEC (2018), 17 CFR parts 229, 230, 239, and 249; Release Nos. 33-10570, 34-84509; File No. S7-10-16; RIN 3235-AL81; Modernization of Property Disclosures for Mining Registrants, October 31, 453 pp.
Simmons, P. (2013), "The Carlsbad Potash Basin, Carlsbad, New Mexico," The Mineralogical Record, 44:13–49.
SME (2017), “A Guide for Reporting Exploration Information, Minerals Resources, and Mineral Reserves,” July 17, 97 pp.
State of New Mexico Energy, Mineral, and Natural Resources (1988), New Mexico Oil and Gas Division Case No. 9316, Order No. R-111-P.
Swales, J. M. (1966)” Shaft Sinking and Underground Development at the Kermac Potash Mine,” Mining Engineering, December, pp. 69–72.
Tetra Tech, Inc. (2009), “Intrepid Potash North Mine Feasibility Study Draft Phase I Report Intrepid Potash—New Mexico, LLC,” report prepared for Intrepid Potash, Inc., August 31, 108 pp.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
24-4
The World Bank (2021), “Commodity Markets,” available from the Worldbank website (accessed 8/6/2021).
US Climate Data (2020), https://www.usclimatedata.com/climate/carlsbad/new-mexico/united-states/usnm0046 (accessed December 11, 2019).
United States Department of Interior (2012), “HB In-Situ Solution Mine Project Final Environmental Impact Statement,” DOI-BLM-NM-P020-2011-498-EIS.
Vine, J. D. (1963), “Surface Geology of the Nash Draw Quadrangle Eddy County New Mexico,” Geological Survey Bulletin 1141-B, Washington, DC; US Government Printing Office, 46 pp.
Warren, J. (2018), “Polyhalite: Geology of an Alternate Low-Chloride Potash Fertilizer,” Salty Matters, July 31, https://www.saltworkconsultants.com/downloads/39%20 Poly halite.pdf (accessed October 2, 2019).
Williams-Stroud, S., J. P. Searls, and R. J. Hite (1994), “Potash Resources, Industrial Minerals and Rocks,” 6th Edition, SME, pp. 783–802.
Agapito Associates, Inc.
2021 Estimated Resources and Reserves at Intrepid Potash-New Mexico
Prepared for Intrepid Potash, Inc.
February 18, 2022
25-1
25    RELIANCE ON INFORMATION
Agapito relied on information provided by Intrepid and IPNM for this reserve evaluation.
Agapito Associates, Inc.