easement-valuation-methods

This skill provides methodology compliant with:

• USPAP 2024 (Uniform Standards of Professional Appraisal Practice, USA)
• CUSPAP 2024 (Canadian Uniform Standards of Professional Appraisal Practice)
• Yellow Book (UASFLA - Uniform Appraisal Standards for Federal Land Acquisitions)
• IVS 2022 (International Valuation Standards - IVS 105 Valuation Approaches)

Key Principles

• Before-and-After Method: Preferred approach for partial takings and easements - value of entire property before easement minus value after easement
• Scope of Work: Each assignment requires appropriate scope development based on complexity, intended use, and jurisdictional requirements
• Highest and Best Use: Analyze both Before and After conditions to measure true impact of easement restrictions
• Reconciliation: Weight approaches based on data quality and reliability, not simple averaging
• Market Extraction: When possible, extract easement percentages empirically from paired sales rather than relying solely on published ranges

Technical valuation approaches for easements (subset of appraisal expertise). This skill provides deep, focused expertise on specific easement valuation methods - NOT general appraisal theory.

VERSION 2.1 (2025-11-17): All calculators updated to MARKET-ALIGNED values based on IRWA standards (25-50% range), professional research, and documented market evidence. Previous v2.0 values were conservative baseline estimates.

Methodology Change: Values now align with documented market ranges for permanent easements rather than conservative budget estimates.

When to Use Each Calculator

1. Hydro/Utility Transmission Easements → hydro_easement_calculator.py

• Voltage-based valuation (69kV - 500kV): 25-40% base range (market-aligned)

- 500kV: 37.5% base (35-40% range)

- 230kV: 35.0% base (32-38% range)

- 115kV: 32.0% base (28-36% range)

- 69kV: 28.0% base (25-31% range)

- <69kV: 25.0% base (minimum market range)

• Domain-specific adjustments (MARKET-ALIGNED):

- EMF concern: +4% (230kV), +5% (500kV) - research supports +3-5% for public perception

- Tower placement: +1% per tower (max +5%) - permanent structural impact

- Vegetation management: +2.5% - ongoing restrictions

- Access road: +2% - permanent land take

- Building proximity (<50m, ≥230kV): +4% - marketability impact

• Required parameter: voltage_kv
• Default weights: 50% percentage of fee / 30% income cap / 20% before-after
• Use for: Overhead transmission lines, hydro corridors, electrical utility easements
• Research basis: IRWA 25-50% permanent easement range, EMF perception studies

2. Rail/Transit Corridor Easements → rail_easement_calculator.py

• Rail type-based valuation: 28-40% base range (market-aligned)

- Heavy rail freight: 40.0% (38-45% range) - hazmat, vibration, safety

- Heavy rail passenger: 38.0% (35-42% range) - high frequency, noise

- Subway surface: 37.0% (35-40% range) - very frequent service

- Light rail: 35.0% (32-38% range) - moderate impact

- Bus rapid transit: 28.0% (25-32% range) - lower impact

• Domain-specific adjustments (MARKET-ALIGNED):

- Rail alignment: Elevated (+3%), at-grade (baseline), subway/tunnel (-8%), trench (-3%)

- Train frequency: +3% (20-50/day), +5% (>50/day) - "significantly negative impact" (research)

- Grade crossing safety: +1% per crossing (max +3%)

- Vibration: +5% (<30m heavy rail), +3% (<50m any rail) - "price depreciation" documented

- No noise barriers: +4% - 31% of projects exceed noise limits (research)

- Extended hours (≥20h/day): +2.5% - sleep disruption

• Required parameter: rail_type
• Optional parameter: rail_alignment (defaults to 'at_grade')
• Default weights: 50% percentage of fee / 20% income cap / 30% before-after
• Use for: Rail corridors, transit alignments, elevated guideways, subway tunnels
• Research basis: Rail vibration studies (44% exceed limits), noise impact analysis, subsurface market evidence

3. Pipeline Corridor Easements → pipeline_easement_calculator.py

• Pipeline type-based valuation: 25-40% base range (market-aligned)

- Crude oil transmission: 38.0% (35-42% range) - environmental risk

- Natural gas transmission: 35.0% (32-39% range) - explosion risk

- Natural gas distribution: 28.0% (25-32% range) - lower pressure

- Water transmission: 26.0% (25-29% range) - lower risk

- Sewer: 25.0% (minimum market range) - gravity flow

• Domain-specific adjustments (MARKET-ALIGNED):

- High pressure (>1000 psi): +4% - rupture risk

- Very large diameter (>1000mm): +5% - massive ROW impact

- Large diameter (750-1000mm): +3% - wider restrictions

- Burial depth: Shallow (<1m) +3%, Deep (>3m) -5% - subsurface allows surface use

- Access road: +2.5% - ongoing disruption

- Water proximity: Crude oil <100m +4%, Any <100m +2% - environmental stigma

- Aging (>40 years): +2.5% - liability concerns

- High consequence area (Class 3/4): +3% - property value impact

• Required parameter: pipeline_type
• Default weights: 45% percentage of fee / 30% income cap / 25% before-after
• Use for: Pipeline easements, subsurface corridors, utility ROW
• Research basis: IRWA 61.4% weighted impact for 16" pipeline, subsurface market evidence (-50% typical)

Hybrid Architecture Benefits

Shared Core (easement_calculator_base.py):

• TCE rate-of-return method
• Income capitalization (productivity loss basis)
• Before/after comparison
• Dynamic reconciliation
• Sensitivity analysis

Domain Specialization:

• Infrastructure-specific base percentages
• Unique adjustment factors per industry
• Tailored reconciliation weights
• Professional standards alignment

The percentage of fee method estimates easement value as a percentage of the underlying fee simple land value. Historical market analysis shows 5-35% range by easement type.

Utility Transmission Easements: 10-25%

Voltage and width correlation:

• 69kV transmission: 10-15% (20-30m width)
• 115kV transmission: 12-18% (30-40m width)
• 230kV transmission: 15-20% (45-60m width)
• 500kV transmission: 20-25% (80-100m width)

Adjustment factors:

• Tower density: Higher percentage for more towers per acre
• Access frequency: Increased value for regular maintenance access
• Agricultural impact: Higher percentage if irrigation/equipment circulation affected
• Safety buffer: Wider corridors command higher percentages

Pipeline Corridors: 15-30%

Product type and safety buffers:

• Natural gas (low pressure): 15-20% (10-15m width)
• Natural gas (high pressure): 20-25% (20-30m width)
• Petroleum products: 25-30% (30-40m width with safety setbacks)
• Hazardous materials: 30%+ (wider buffers, strict restrictions)

Adjustment factors:

• Depth of burial: Shallow pipelines more restrictive (higher %)
• Land use restrictions: Building prohibitions increase value impact
• Cathodic protection: Additional equipment sites increase impact
• Safety setbacks: Required building distances increase percentage

Access Easements: 5-15%

Frequency and exclusivity:

• Infrequent access (utility meter reading): 5-8%
• Regular access (shared driveway): 8-12%
• Exclusive access (right-of-way to landlocked parcel): 12-15%

Adjustment factors:

• Width and location: Wider easements or those bisecting property = higher %
• Exclusivity: Exclusive use commands higher percentage
• Perpetual vs. temporary: Perpetual easements valued higher
• Surface treatment: Paved access higher value than gravel/grass

Converting annual rental income to capital value using capitalization rates adjusted for easement permanence and risk.

Agricultural Rent Analysis

Per-acre rental by soil class and crop type:

Row crops (corn, soybeans):

• Class 1 soil (prime agricultural): $250-$350/acre/year → 4-5% cap rate = $5,000-$8,750/acre easement value
• Class 2 soil (good agricultural): $200-$280/acre/year → 4-5% cap rate = $4,000-$7,000/acre easement value
• Class 3 soil (fair agricultural): $150-$220/acre/year → 5-6% cap rate = $2,500-$4,400/acre easement value

Pasture/hay:

• Improved pasture: $100-$150/acre/year → 5-6% cap rate = $1,667-$3,000/acre easement value
• Native pasture: $50-$100/acre/year → 6-7% cap rate = $714-$1,667/acre easement value

Methodology:

1. Determine annual rent for comparable agricultural land without easement
2. Calculate percentage loss of agricultural productivity from easement (tower footprints, restricted areas, field division)
3. Apply loss percentage to annual rent to determine annual easement impact
4. Capitalize impact at risk-adjusted rate to determine easement value

Example calculation:

• Fee simple land value: $10,000/acre (Class 1 soil)
• Annual agricultural rent: $300/acre
• Easement causes 20% productivity loss (tower footprints + restricted planting zones)
• Annual rent loss: $300 × 20% = $60/acre/year
• Capitalization rate: 4.5% (perpetual easement, low risk)
• Easement value: $60 ÷ 0.045 = $1,333/acre (13.3% of fee)

Telecom Site Rental

Per square foot by location and coverage requirements:

Urban cell tower sites (high-demand areas):

• Rooftop sites: $2,000-$5,000/month ($24K-$60K/year) → 6% cap rate = $400K-$1M
• Ground lease sites (200-400 sq ft compound): $1,500-$3,000/month → 6-7% cap rate = $257K-$600K

Rural cell tower sites (coverage-driven):

• Greenfield sites: $500-$1,500/month → 7-8% cap rate = $75K-$257K
• Co-location sites (shared tower): $300-$800/month per carrier → 7-8% cap rate = $51K-$137K

Methodology:

1. Research market rates for comparable telecom sites (size, location, coverage importance)
2. Verify typical lease terms (20-25 year initial term, 3-5% annual escalations, renewal options)
3. Forecast cash flow including escalations
4. Select capitalization rate (6-8% depending on location stability and carrier creditworthiness)
5. Calculate NPV of perpetual income stream (assuming renewals)

Discount Rate Selection

Risk-adjusted rates by easement permanence:

Perpetual easements (no expiry, runs with land):

• Government/utility: 4-5% (low risk, creditworthy)
• Private party: 5-6% (higher risk of abandonment)

Long-term easements (50-99 years):

• Government/utility: 5-6%
• Private party: 6-7%

Medium-term easements (20-49 years):

• Government/utility: 6-7%
• Private party: 7-8%

Temporary easements (construction period, 1-5 years):

• Valued as lump-sum disturbance payment, not capitalized income

Rate adjustment factors:

• Add 0.5-1% for easements with uncertain renewal
• Add 1-2% for easements with risky operators
• Subtract 0.5% for easements with government guarantees
• Subtract 0.5-1% for indexed annual escalations

Market extraction from paired sales to derive empirical easement value percentages with statistical validation.

Before-and-After vs. Take-Plus-Damages Methods

Two conceptual frameworks for easement valuation, mathematically equivalent when properly applied:

Before-and-After Method (Federal Method, USPAP/CUSPAP Preferred):

• Value of entire property BEFORE easement imposition
• MINUS value of entire property AFTER easement imposition
• EQUALS easement compensation

Take-Plus-Damages Method (Itemized Method):

• Value of land directly taken/encumbered by easement
• PLUS severance damages to remainder parcel
• EQUALS easement compensation

Example Comparison - 230kV Transmission Easement Across 100-Acre Farm:

| Component | Before-and-After | Take-Plus-Damages |

|-----------|------------------|-------------------|

| Property value before easement | $1,200,000 | — |

| Property value after easement | -$1,020,000 | — |

| Land directly encumbered (15 acres) | — | $27,000 (15% of $12K/acre fee) |

| Severance damages (field division, access impairment) | — | $153,000 |

| Total compensation | $180,000 | $180,000 |

When to Use Each Method:

• Before-and-After: Preferred in federal acquisitions (Yellow Book), Ontario expropriations, most USPAP/CUSPAP assignments - provides holistic impact analysis
• Take-Plus-Damages: Useful for client communication (itemizes components clearly), some state jurisdictions require itemization, helpful when severance damages are complex and need separate quantification

Integration with Related Skills: For detailed severance damages quantification (access loss via time-distance modeling, shape irregularity via geometric ratios, farm operation disruption via equipment efficiency loss), see severance-damages-quantification skill.

Identifying Comparable Properties With/Without Easements

Ideal paired sales criteria:

• Same market area: Within 5-10 km radius
• Same highest and best use: Agricultural, industrial, residential subdivision potential
• Same size class: ±25% land area
• Similar physical characteristics: Topography, soil quality, access, services
• Sale timing: Within 12-18 months of each other
• Only difference: Presence/absence of easement

Example paired sales:

Sale 1 (no easement):

• 100 acres, Class 1 agricultural, highway frontage
• Sale date: June 2024
• Sale price: $1,200,000 ($12,000/acre)

Sale 2 (transmission easement):

• 105 acres, Class 1 agricultural, highway frontage, 230kV transmission easement crossing 15 acres
• Sale date: September 2024
• Sale price: $1,134,000 ($10,800/acre)

Analysis:

• Size adjustment: 105 acres vs. 100 acres (adjust Sale 2 down slightly for 5% larger)
• Time adjustment: 3 months later (adjust for market trend if applicable)
• After adjustments: Sale 2 adjusted to $10,600/acre
• Percentage difference: ($12,000 - $10,600) ÷ $12,000 = 11.7% impact

Easement-specific analysis:

• Easement covers 15 acres of 105-acre parcel (14.3% of total)
• If easement caused 100% loss of value for affected 15 acres: Impact = 14.3%
• Observed impact: 11.7%
• Implied percentage of fee: 11.7% ÷ 14.3% = 82% loss on affected acreage
• Or: Easement valued at approximately 82% of fee simple value for the 15 acres directly affected

Adjustment Methodology for Differences

Adjustment hierarchy (apply in sequence):

1. Property rights: Fee simple vs. leasehold vs. life estate
2. Financing terms: Cash equivalent adjustment for seller financing
3. Conditions of sale: Arm's length, market exposure time, motivation
4. Market conditions/time: Trend analysis, quarterly price indices
5. Location: Micro-market differences, accessibility, development potential
6. Physical characteristics: Size, shape, topography, soil class, drainage, services
7. Easement characteristics: Type, width, restrictions, permanence, operator

Quantification methods:

• Paired sales analysis: Isolation of single variable
• Regression analysis: Statistical modeling with multiple variables
• Market interviews: Surveying buyers/sellers on easement impact perception
• Professional judgment: When insufficient market data (document reasoning)

Example adjustment grid:

| Characteristic | Sale 1 (Subject) | Sale 2 (Comp) | Adjustment to Sale 2 |

|----------------|------------------|---------------|----------------------|

| Sale price | - | $1,134,000 | - |

| Property rights | Fee simple | Fee simple | $0 |

| Financing | Cash | Cash | $0 |

| Conditions | Arm's length | Arm's length | $0 |

| Date of sale | Current | 3 mo ago | +2% ($22,680) |

| Location | Highway frontage | Highway frontage | $0 |

| Size | 100 acres | 105 acres | -5% (-$57,890) |

| Soil quality | Class 1 | Class 1 | $0 |

| Easement | None | 230kV, 15 acres | TBD |

| Adjusted price | - | $1,098,790 | ($10,465/acre) |

Easement value extraction:

• Subject (no easement): $12,000/acre × 100 acres = $1,200,000
• Comparable adjusted: $10,465/acre × 105 acres = $1,098,790
• If comparable had no easement: $12,000/acre × 105 acres = $1,260,000
• Easement impact: $1,260,000 - $1,098,790 = $161,210
• Percentage of fee: $161,210 ÷ ($12,000 × 15 acres affected) = 89.6% of fee for affected acreage

Or simplified: 12.8% of total property value ($161,210 ÷ $1,260,000)

Statistical Validation of Percentage Extracted

Regression analysis approach:

When sufficient paired sales available (10+ transactions), use hedonic regression to isolate easement impact:

Model: Sale Price = β₀ + β₁(Acres) + β₂(Soil Class) + β₃(Frontage) + β₄(Easement Presence) + β₅(Easement Acres) + ε

Variables:

• Sale Price: Dependent variable (total transaction price)
• Acres: Total property size
• Soil Class: Agricultural productivity rating (1-7)
• Frontage: Linear feet of highway frontage
• Easement Presence: Dummy variable (1 if easement, 0 if not)
• Easement Acres: Acres affected by easement
• ε: Error term

Coefficient interpretation:

• β₄ (Easement Presence): Fixed discount for having any easement
• β₅ (Easement Acres): Per-acre discount for easement area

Example output:

• β₄ = -$15,000 (fixed discount for easement presence, regardless of size)
• β₅ = -$1,800/acre (each acre of easement reduces value by $1,800)
• Fee simple value: $12,000/acre
• Implied percentage: $1,800 ÷ $12,000 = 15% of fee

Statistical tests:

• R-squared: >0.70 (model explains 70%+ of price variation)
• Coefficient significance: p-value <0.05 (95% confidence that easement impact is real)
• Coefficient sign: Negative for easement variables (confirms value loss)
• Multicollinearity: VIF <10 (variables not overly correlated)

Validation steps:

1. Run regression on paired sales dataset
2. Check R-squared, coefficient significance, signs
3. Extract percentage from β₅ coefficient
4. Compare to percentage-of-fee ranges (10-25% for transmission easements)
5. Reconcile with income capitalization approach if applicable
6. Document methodology and confidence level

Temporary easements for construction access, staging, or equipment operation require different methodology than permanent easements. TCEs are not capitalized as perpetual income loss but valued based on rental value for duration plus restoration costs.

Fair Market Rental Method

Preferred approach: Determine fair market rental value for the duration of the easement.

Methodology:

1. Research comparable land rental rates (similar use, location, duration)
2. Apply rental rate to affected area
3. Prorate for actual duration (days, months, years)
4. Add compensation for physical damage and restoration

Example - Agricultural Land TCE:

• 5 acres affected for 180 days (6 months)
• Annual crop rent for comparable land: $300/acre/year
• Rental calculation: 5 acres × $300/acre × (180÷365 days) = $740
• Crop loss (spring seeding disrupted, full season lost): $1,500
• Restoration (topsoil replacement, re-leveling, re-seeding): $3,000
• Total TCE compensation: $740 + $1,500 + $3,000 = $5,240

Rate-of-Return Method

Used when rental market data unavailable: Apply annual rate of return to affected land's fee simple value.

Common rates by jurisdiction and risk:

• 6% annual return: Conservative, government agencies (Austin, TX municipal precedent)
• 10% annual return: Industry standard for private utility projects, most common
• 12%+ annual return: High-disruption sites, premium locations, lengthy duration

Formula:

```

TCE Value = (Affected Land Fee Simple Value × Annual Rate × Duration in Days ÷ 365)

+ Physical Damage Restoration Costs

+ Business/Operational Losses

```

Example - Industrial Land TCE:

• 2 acres affected for 90 days (pipeline construction staging area)
• Fee simple value: $200,000/acre = $400,000 for 2 acres
• Annual rate: 10% (industry standard)
• Rental value: $400,000 × 10% × (90÷365) = $9,863
• Site restoration (grading, asphalt repair, landscaping): $15,000
• Business interruption (forklift access to warehouse blocked): $8,000
• Total TCE compensation: $9,863 + $15,000 + $8,000 = $32,863

Additional Compensation Components

Physical Damage and Restoration:

• Soil compaction from heavy equipment (remediation required)
• Vegetation removal and restoration (trees, shrubs, turf)
• Drainage disruption repair (culverts, ditching, grading)
• Fencing replacement (temporary removal for access)
• Pavement/hardscape repair (asphalt, concrete, interlocking)

Business and Operational Losses:

• Lost production during construction period
• Equipment relocation costs (temporary moves)
• Alternative access costs (longer routes, detours)
• Customer/employee inconvenience (reduced accessibility)
• Inventory disruption (cannot receive/ship goods normally)

Construction Impact Integration: For detailed quantification of noise, dust, vibration, and traffic impacts during construction period (separate from land rental), see injurious-affection-assessment skill. These impacts may affect properties adjacent to the TCE area and are typically compensated separately as disturbance damages.

Duration-Based Rate Adjustments

Short-duration easements (<30 days):

• Daily rate may exceed prorated annual rate due to fixed setup/disruption costs
• Minimum compensation often applies regardless of duration
• Example: $500-$2,000/day for industrial site access (equipment marshalling)

Long-duration easements (1-3 years):

• May approach permanent easement value if restoration uncertain or land use fundamentally changed
• Consider option to convert to permanent easement with appropriate adjustment
• Apply annual escalation for multi-year duration (typically 2-4% per year)
• Example: 3-year TCE at 10% annual return with 3% escalation:

- Year 1: $400,000 × 10% = $40,000

- Year 2: $400,000 × 10% × 1.03 = $41,200

- Year 3: $400,000 × 10% × 1.03² = $42,436

- Total: $123,636 (vs. $120,000 without escalation)

Medium-duration easements (3-12 months):

• Standard prorated calculation using annual rate
• Most common for pipeline construction, transmission line installation, infrastructure projects
• Restoration typically feasible and expected

USPAP/CUSPAP Requirement: Appraisers must reconcile different approaches through reasoned analysis, NOT simple averaging. Reconciliation requires professional judgment to weight approaches based on data quality, reliability, and appropriateness to the specific easement.

Reconciliation Framework

Step 1: Review Each Approach

Evaluate each approach used:

• Data quality and quantity: How many comparables? How similar to subject? Arm's length transactions?
• Reliability of assumptions: Cap rates market-supported? Percentage ranges validated? Adjustments reasonable?
• Appropriateness to easement type: Income approach strong for telecom sites, weak for non-revenue easements
• Market participant behavior: Which approach would buyers/sellers actually use in negotiations?

Step 2: Assign Weights to Approaches

Weighting considerations:

• Percentage of Fee Method:

- Strong when: Comparable easement sales exist, market-extracted percentages validated by multiple transactions, voltage/product type well-supported

- Weak when: Limited easement sale data, wide range in published percentages, subject easement has unique characteristics

• Income Capitalization Approach:

- Strong when: Revenue-generating easements (telecom, agricultural rent loss clearly measurable), reliable cap rates, perpetual duration

- Weak when: Non-income easements (access rights don't generate revenue), speculative income assumptions, uncertain duration

• Before/After Comparison (Paired Sales):

- Strong when: Excellent paired sales available (truly comparable, only difference is easement), reliable adjustments, statistical validation

- Weak when: Limited paired sales, significant adjustments required (introduces uncertainty), wide variation in extracted percentages

Example Weighting - 230kV Transmission Easement Across Agricultural Land:

| Approach | Weight | Reasoning |

|----------|--------|-----------|

| Percentage of fee | 40% | Market-extracted percentage (15-20%) validated by 8 comparable transmission easement sales, voltage-specific data strong |

| Income capitalization | 30% | Agricultural rent analysis reasonable ($300/acre → 20% loss → $60/year → cap at 4.5% = $1,333/acre), perpetual easement supports capitalization |

| Before/after paired sales | 30% | One excellent paired sale available (extracted 17% impact), adjustments minor, but single data point limits weight |

Step 3: Consider Range and Test for Consistency

• All approaches should produce reasonably consistent results (within 20-25%)
• If wide divergence (>25%), revisit assumptions before proceeding
• Outliers may indicate:

- Data errors (incorrect sale price, easement area miscalculated)

- Methodology errors (wrong cap rate, improper adjustments)

- Subject easement has unique characteristics not captured in comparables

Step 4: Select Final Reconciled Value

Final value may be:

• Weighted average of approaches (most common when all approaches reliable)
• Within range but not average (if one approach clearly more reliable, favor that result)
• At one end of range (if market data strongly supports upper or lower end)

Document reasoning for final selection - explain why you selected that specific value within the range.

Step 5: Sensitivity Analysis

Test impact of key assumption changes on final value:

• Cap rate ±1%: If 4.5% cap → test 3.5% and 5.5%
• Percentage of fee ±5%: If 15% → test 10% and 20%
• Time adjustments ±2%: If 3% annual appreciation → test 1% and 5%

Assess impact: If ±1% cap rate changes value by ±22%, cap rate is highly sensitive - ensure rate is well-supported.

Document range of reasonable values based on sensitivity testing - provides confidence band around reconciled value.

Reconciliation Example - Transmission Easement 15 Acres of Class 1 Agricultural Land

Approaches Applied:

| Approach | Calculation | Indicated Value |

|----------|-------------|-----------------|

| Percentage of fee | 15 acres × $12,000/acre × 15% (market-extracted) | $27,000 |

| Income capitalization | 15 acres × $60/acre annual loss ÷ 4.5% cap | $20,000 |

| Before/after paired sales | One paired sale analysis (adjusted) | $24,000 |

Weighting:

• Percentage of fee: 40% weight → $27,000 × 0.40 = $10,800
• Income capitalization: 30% weight → $20,000 × 0.30 = $6,000
• Before/after: 30% weight → $24,000 × 0.30 = $7,200
• Weighted average: $10,800 + $6,000 + $7,200 = $24,000

Range: $20,000 (low) to $27,000 (high)

Final Reconciled Value: $24,000 - $27,000

Reasoning: Percentage of fee given highest weight due to strong market data (8 comparable easement sales). Income approach lower due to conservative cap rate assumption (4.5% may be too high for perpetual government easement - 4.0% more appropriate would yield $22,500). Before/after approach provides good support in mid-range. Final value favors upper end of range ($25,000-$27,000) due to market evidence supporting 15-18% percentage of fee for 230kV easements on prime agricultural land.

Sensitivity Check:

• Cap rate at 4.0%: Income approach → $22,500 (closer to consensus)
• Percentage at 18%: Percentage of fee → $32,400 (upper limit)
• Reasonable range accounting for sensitivity: $22,000 - $32,000
• Final reconciliation within validated range: $25,000

This skill focuses specifically on easement valuation methodology. For comprehensive infrastructure acquisition analysis, integrate with related skills covering adjacent components of total compensation:

Valuation Components and Technical Methodology

comparable-sales-adjustment-methodology - Before/After Market Extraction Technical Rigor

• When using before/after paired sales analysis, apply rigorous adjustment grid methodology for proper comparable sales adjustments
• Provides 6-stage adjustment hierarchy (property rights → financing → conditions → time → location → physical)
• Includes 49 physical characteristic adjustments with statistical validation
• Ensures USPAP/CUSPAP compliance for adjustment quantification
• Integration point: References in this skill to "adjustment methodology" should leverage that skill's calculator and validation framework

severance-damages-quantification - Damages to Remainder Parcel

• When easement causes access impairment, shape irregularity, or utility loss to remainder parcel
• Quantifies severance damages using detailed methodologies:

- Access loss: $/linear foot by road classification, time-distance modeling for circuitous access, landlocked parcel remedies

- Shape irregularity: Geometric efficiency ratios, buildable area reduction, development yield loss

- Farm operation disruption: Field division costs, equipment access inefficiency, irrigation impacts

• Integration point: Take-plus-damages method requires severance damages quantification - use that skill for "Plus Damages" component

injurious-affection-assessment - Construction and Proximity Impact Damages

• When construction period impacts (noise, dust, vibration, traffic) affect properties during easement installation or adjacent to permanent easement
• Provides technical depth on:

- Noise modeling (dBA levels, distance attenuation, receptor sensitivity, rent reduction percentages)

- Dust/air quality (PM2.5/PM10 thresholds, cleaning costs, health impacts)

- Vibration damage (structural vs. cosmetic thresholds, damage quantification)

- Traffic disruption (detour costs, business losses, time-distance modeling)

• Integration point: Add to TCE valuation for construction period, or separate claim for adjacent properties affected by permanent easement operations

Agricultural Land Context

agricultural-easement-negotiation-frameworks - Farm Operation Psychology and Negotiation

• When negotiating easements with farmers and agricultural landowners
• Provides expertise on:

- Farm operation impact assessment (crop production cycles, livestock movement, precision agriculture disruption)

- Multi-generational farm psychology (succession planning, emotional attachment, legacy concerns)

- Compensation structure design (one-time vs. recurring, mitigation works vs. cash, future crop loss provisions)

• Integration point: Valuation (this skill) determines "what it's worth"; negotiation framework determines "how to structure the deal" to achieve settlement

cropland-out-of-production-agreements - Annual Compensation Alternative

• When considering annual compensation vs. one-time lump-sum payment for agricultural easements
• Analyzes ongoing productivity impacts:

- Headlands loss from farming around transmission towers

- Precision agriculture disruption (GPS guidance systems, automated equipment)

- Field division efficiency losses

- Per-structure annual payment models (Ontario vs. Alberta approaches)

• Integration point: Income capitalization approach (this skill) converts annual loss to lump-sum; that skill analyzes whether annual payment structure preferred by landowner

Legal and Entitlement Framework

expropriation-compensation-entitlement-analysis - Legal Framework for Compensability

• Before valuing easement, confirm legal entitlement to compensation components under applicable statute
• Provides analysis of:

- Market value framework (valuation date, highest and best use, special purchaser exclusion rules)

- Disturbance damages legal tests (causation, reasonableness, foreseeability, but-for test)

- Injurious affection framework (Antrim four-part test for construction vs. permanent impacts)

- Business losses compensability (goodwill generally not compensable)

• Integration point: Ensures valuation methodology aligns with statutory entitlement - prevents valuing components that aren't legally compensable

Specialized Infrastructure Analysis

right-of-way-expert - Corridor-Specific Technical Specifications

• For transmission line, pipeline, and transit corridor easements requiring technical specifications
• Provides expertise on:

- ROW width calculations by voltage/product/mode

- Access road requirements (permanent vs. temporary, width standards)

- Tower/structure spacing and footprint requirements

- Maintenance access frequency and restrictions

• Integration point: Informs easement area quantification and access frequency assumptions used in valuation

cost-approach-expert and income-approach-expert - Detailed Valuation Methodology

• For utility infrastructure valuation from easement holder's perspective (value of benefit acquired)
• Cost approach: Reproduction/replacement cost of easement rights, installation costs, engineering estimates
• Income approach: Present value of avoided costs (vs. alternative routes), revenue generation capability
• Integration point: When easement value to holder exceeds loss to landowner, may inform negotiation range or allocation methodologies

Application Workflow Example

Comprehensive Transmission Line Easement Acquisition:

1. Legal entitlement (expropriation-compensation-entitlement-analysis) → Confirm statutory authority, compensable components
2. Technical specifications (right-of-way-expert) → Define easement area, access requirements, restrictions
3. Easement valuation (this skill) → Value permanent easement using percentage of fee, income capitalization, before/after methods
4. Severance damages (severance-damages-quantification) → Quantify access loss, field division impacts to remainder 85 acres
5. TCE valuation (this skill) → Value 6-month construction easement using rate-of-return method
6. Construction impacts (injurious-affection-assessment) → Quantify noise, dust, vibration during installation
7. Agricultural impacts (cropland-out-of-production-agreements) → Analyze annual compensation for ongoing tower impacts vs. lump-sum
8. Negotiation strategy (agricultural-easement-negotiation-frameworks) → Structure offer considering farm succession, compensation preferences
9. Reconciliation (this skill) → Final compensation package integrating all components

Total Compensation = Permanent Easement Value + Severance Damages + TCE Value + Construction Impacts ± Negotiated Adjustments

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This skill activates when you:

• Value permanent easements for utility transmission lines, pipelines, access rights, or telecom sites
• Value temporary construction easements (TCEs) for staging, access, or construction duration
• Need technical depth on easement valuation methodology beyond basic percentage ranges
• Apply percentage of fee method with voltage/product-specific adjustments (5-35% by easement type)
• Use income capitalization to convert agricultural rent loss or telecom rental to capital value
• Perform before/after paired sales analysis with statistical validation and adjustment methodology
• Apply take-plus-damages method (itemized: land taken + severance damages to remainder)
• Extract empirical easement percentages from market data using regression analysis
• Reconcile multiple valuation approaches using USPAP/CUSPAP-compliant weighting (NOT simple averaging)
• Calculate rate-of-return compensation for temporary easements (6-10% annual return)
• Integrate easement valuation with severance damages, injurious affection, and agricultural impacts
• Ensure USPAP 2024 / CUSPAP 2024 compliance for appraisal assignments