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Walking Training Load Management

Scientific approach to balancing training stimulus, adaptation, and recovery

What is Training Load?

Training load quantifies the cumulative physiological stress your body experiences from walking workouts. It integrates three key dimensions:

  1. Duration: How long you walk
  2. Intensity: How hard you walk (cadence, heart rate, speed)
  3. Frequency: How often you walk

Proper training load management enables consistent improvement while minimizing injury risk and overtraining. Unlike casual walking for transportation, training-oriented walking requires systematic progression and recovery planning.

Research Insight: The relationship between training load and adaptation follows an inverted U-curve: too little load produces no adaptation, optimal load drives improvement, and excessive load leads to overtraining and injury (Soligard et al., 2016).

Peak-30 Cadence: A Breakthrough Metric

Recent research has identified Peak-30 cadence as a powerful predictor of health outcomes and mortality risk, independent of total daily steps.

What is Peak-30 Cadence?

Peak-30 cadence is the average cadence (steps per minute) during your best 30 consecutive minutes of walking in a day. This metric captures your ability to sustain purposeful, brisk walking.

Breakthrough Study: Del Pozo-Cruz et al. (2022) analyzed 78,500 UK Biobank participants and found that Peak-30 cadence independently predicted all-cause mortality and cardiovascular disease risk, even after controlling for total daily steps.

Peak-30 Cadence Thresholds and Health Outcomes

Peak-30 Cadence Classification Mortality Risk Health Status
<60 spm Very low Reference (highest) Sedentary pattern
60-79 spm Low ~15% lower risk Casual walking
80-99 spm Moderate ~30% lower risk Regular walking
100-109 spm Brisk ~40% lower risk Fitness-oriented
≥110 spm Very brisk ~50% lower risk High fitness

Key Insight: Peak-30 cadence of ≥100 spm corresponds to moderate-to-vigorous physical activity (MVPA) and represents the threshold for substantial health benefits.

Training Implications

Peak-30 cadence provides actionable training guidance:

  • Goal setting: Target Peak-30 cadence of 100+ spm at least 5 days per week
  • Workout design: Include at least one 30-minute brisk bout in daily walks
  • Progress tracking: Monitor increases in Peak-30 cadence as fitness improves
  • Intensity prescription: Use cadence zones rather than HR for more practical training

Brisk Bouts: Quality Over Quantity

A brisk bout is a continuous period of walking at ≥100 steps per minute (moderate intensity threshold) lasting at least 10 minutes without dropping below the cadence threshold for more than 1-2 minutes.

Scientific Rationale

The 2018 U.S. Physical Activity Guidelines eliminated the previous requirement that aerobic activity occur in bouts of at least 10 minutes. However, research shows that sustained brisk bouts provide unique benefits:

  • Cardiovascular adaptation: Sustained elevated HR drives aerobic improvements
  • Metabolic efficiency: 10+ minutes allows metabolic pathways to fully engage
  • Skill development: Sustained higher cadence improves walking mechanics
  • Psychological benefit: Intentional "workout" mindset vs. incidental movement

Weekly Brisk Bout Targets

Fitness Level Weekly Brisk Minutes Number of Bouts Example Schedule
Beginner 75-100 min 3-4 bouts of 20-30 min Mon/Wed/Fri: 25 min each
Intermediate 150-200 min 5-6 bouts of 25-40 min Daily 30 min + 1 long weekend walk
Advanced 200-300+ min 5-7 bouts of 30-60 min Daily 40 min + intervals + long walk

Meeting Public Health Guidelines: 150 minutes/week of moderate-intensity activity (100+ spm cadence) meets WHO and CDC recommendations for health benefits.

Brisk Bout Quality Metrics

Not all brisk bouts are equal. Quality can be assessed by:

  1. Cadence stability: Minimal fluctuation around target cadence (±5 spm)
  2. Duration: Longer sustained bouts (30-45 min) > multiple short bouts
  3. Intensity: Higher average cadence within the bout (110 spm > 100 spm)
  4. Consistency: Frequency of brisk bout days per week (5-7 days > 3 days)

Walking Stress Score (WSS)

Walking Stress Score (WSS) is a proprietary metric that quantifies the training load of individual workouts. It adapts concepts from Training Stress Score (TSS) used in cycling and running.

WSS Calculation Methods

WSS can be calculated using either heart rate or cadence as the intensity metric:

Method 1: Heart Rate-Based WSS

Time-weighted by heart rate zone:

WSS = Σ (Minutes in Zone × Zone Multiplier)

Zone Multipliers:
  Zone 1 (50-60% HRmax): 1.0
  Zone 2 (60-70% HRmax): 2.0
  Zone 3 (70-80% HRmax): 3.0
  Zone 4 (80-90% HRmax): 4.0
  Zone 5 (90-100% HRmax): 5.0

Example: 60-minute walk with:

  • 10 min warmup in Zone 1 = 10 × 1.0 = 10
  • 40 min steady in Zone 2 = 40 × 2.0 = 80
  • 10 min cooldown in Zone 1 = 10 × 1.0 = 10
  • Total WSS = 100

Method 2: Cadence-Based WSS

Time-weighted by cadence intensity:

WSS = Σ (Minutes at Cadence × Cadence Multiplier)

Cadence Multipliers:
  60-99 spm (light): 1.0
  100-109 spm (moderate): 2.5
  110-119 spm (mod-vigorous): 3.5
  120-129 spm (vigorous): 4.5
  ≥130 spm (very vigorous): 6.0

Advantage: Cadence-based WSS doesn't require HR monitor and is more practical for most walkers.

Typical WSS Values by Workout Type

Workout Type Duration Average Intensity Typical WSS
Recovery walk 20-30 min Zone 1, <100 spm 20-30
Easy aerobic walk 30-45 min Zone 2, 100-105 spm 60-90
Brisk steady walk 45-60 min Zone 2, 105-110 spm 90-150
Tempo walk 30-40 min Zone 3, 110-120 spm 90-140
Interval workout 40-50 min Mixed zones, peaks 120+ spm 120-200
Long endurance walk 90-120 min Zone 2, 100-110 spm 180-300
Race walk training 60-90 min Zone 3-4, 120-140 spm 200-400

Weekly Training Load Guidelines

Weekly training load should be individualized based on fitness level, goals, and available time. Guidelines are provided in both WSS and brisk minutes for flexibility.

Beginner (0-6 months training experience)

  • Weekly WSS: 150-300
  • Brisk minutes (≥100 spm): 75-120 min/week
  • Total walking time: 120-200 min/week
  • Peak-30 target: 90-100 spm
  • Sessions per week: 4-5
  • Focus: Consistency, habit formation, technique development
  • Progression: Increase by 5-10% per week

Sample week (Total WSS: 250):

  • Mon: 30 min easy walk, 100 spm (WSS 50)
  • Tue: Rest or gentle 20 min stroll
  • Wed: 35 min brisk walk, 105 spm (WSS 70)
  • Thu: 25 min easy walk, 95 spm (WSS 40)
  • Fri: Rest
  • Sat: 45 min steady walk, 102 spm (WSS 90)
  • Sun: Easy 20-30 min

Intermediate (6-18 months training experience)

  • Weekly WSS: 300-550
  • Brisk minutes (≥100 spm): 150-250 min/week
  • Total walking time: 250-400 min/week
  • Peak-30 target: 105-115 spm
  • Sessions per week: 5-6
  • Focus: Building aerobic capacity, speed endurance, interval introduction
  • Progression: Increase by 10% per week, with recovery weeks

Sample week (Total WSS: 420):

  • Mon: 40 min steady walk, 108 spm (WSS 100)
  • Tue: 30 min easy recovery, 95 spm (WSS 45)
  • Wed: 45 min intervals (5×4 min @ 120 spm / 3 min easy) (WSS 130)
  • Thu: 35 min easy walk, 100 spm (WSS 60)
  • Fri: Rest or 20 min gentle walk
  • Sat: 75 min long walk, 105 spm (WSS 150)
  • Sun: 30 min easy recovery (WSS 40)

Advanced (18+ months training experience)

  • Weekly WSS: 500-900+
  • Brisk minutes (≥100 spm): 250-400+ min/week
  • Total walking time: 400-700+ min/week
  • Peak-30 target: 115-130+ spm
  • Sessions per week: 6-7
  • Focus: Performance, competition, race walking technique
  • Progression: Periodized with distinct training phases

Sample week (Total WSS: 720):

  • Mon: 50 min steady walk, 110 spm (WSS 120)
  • Tue: 40 min easy walk, 100 spm (WSS 70)
  • Wed: 60 min tempo (40 min @ 115-120 spm) (WSS 180)
  • Thu: 35 min recovery walk, 95 spm (WSS 50)
  • Fri: 50 min intervals (10×2 min @ 130+ spm / 2 min easy) (WSS 180)
  • Sat: 90 min long walk, 108 spm (WSS 200)
  • Sun: 40 min easy walk (WSS 60)

Acute:Chronic Workload Ratio (ACWR)

The Acute:Chronic Workload Ratio is a powerful tool for managing injury risk by comparing recent training load (acute) to longer-term training load (chronic).

Calculation

ACWR = Acute Load (7 days) / Chronic Load (28 days average)

Example:
  Last 7 days WSS: 450
  Average of previous 28 days: 380
  ACWR = 450 / 380 = 1.18

Interpreting ACWR

ACWR Range Injury Risk Training Status Action
<0.80 Low-Moderate Detraining possible Consider increasing load if healthy
0.80-1.00 Low Stable training Maintain current load
1.00-1.30 Low Optimal progression Sweet spot for adaptation
1.30-1.50 Moderate Rapid increase Monitor for fatigue signs
>1.50 High Dangerous spike Reduce load, prioritize recovery
Research Finding: Athletes with ACWR >1.50 have 2-4 times higher injury risk compared to those in the 0.80-1.30 range (Gabbett, 2016). This principle applies across sports, including walking training.

Practical Application

Scenario 1: Returning after illness

  • Week before illness: 400 WSS
  • Missed 10 days (28-day average drops to 285)
  • Don't jump back to 400 (ACWR = 1.40)
  • Instead: Resume at 250-300 WSS (ACWR = 0.88-1.05)

Scenario 2: Ambitious progression

  • Current 4-week average: 350 WSS/week
  • Planning next week: Want to do 500 WSS
  • ACWR would be 1.43 (moderate-high risk)
  • Better approach: 420-450 WSS (ACWR 1.20-1.29)

Training Load Progression Strategies

The 10% Rule (with nuance)

The traditional 10% rule suggests increasing weekly training volume by no more than 10% per week. While useful as a guideline, modern research suggests more nuanced approaches:

  • For beginners: 5-10% weekly increases are appropriate
  • For experienced walkers: 10-15% increases can be tolerated if ACWR stays <1.30
  • After breaks: Slower progression (5%) is safer
  • During high load: Maintain or reduce rather than continuing to increase

Periodization: The 3:1 Model

The most evidence-based progression model alternates 3 weeks of increasing load with 1 recovery week:

Example 8-week block (starting at 300 WSS):

Week Weekly WSS Change Phase
1 300 Baseline Build
2 330 +10% Build
3 365 +11% Build
4 220 -40% Recovery
5 400 +10% Build
6 440 +10% Build
7 485 +10% Build
8 290 -40% Recovery

Benefits of recovery weeks:

  • Allows physiological adaptation (supercompensation)
  • Replenishes glycogen stores
  • Repairs micro-damage to tissues
  • Reduces accumulated fatigue
  • Refreshes motivation and mental energy
  • Prepares body for next training block

Block Periodization

For advanced walkers training for performance or events, organize training into distinct mesocycles (4-8 week blocks):

Annual periodization example:

  1. Base Phase (8-12 weeks):
    • Focus: Build aerobic base with Zone 2 volume
    • Weekly WSS: 400-550
    • 80% of time at 100-110 spm
    • Long walks increase from 60 to 120 minutes
  2. Build Phase (6-8 weeks):
    • Focus: Add Zone 3 tempo work and short intervals
    • Weekly WSS: 500-650
    • 70% Zone 2, 20% Zone 3, 10% Zone 4
    • 2 quality sessions per week
  3. Peak Phase (4-6 weeks):
    • Focus: High intensity, race-specific work
    • Weekly WSS: 550-750
    • Include race-pace intervals and simulations
    • Maintain some easy volume
  4. Taper (1-2 weeks):
    • Focus: Reduce volume, maintain intensity
    • Weekly WSS: 200-350 (50% reduction)
    • Keep 1-2 short, sharp sessions
    • Prioritize rest and readiness
  5. Recovery/Transition (2-4 weeks):
    • Focus: Active recovery, cross-training
    • Weekly WSS: 150-300
    • All easy walking, no structure
    • Mental and physical regeneration

Monitoring and Adjusting Training Load

Objective Metrics

Track these daily/weekly:

  1. Resting Heart Rate (RHR):
    • Measure upon waking, before getting out of bed
    • Track 7-day rolling average
    • Elevation of 5-10 bpm suggests incomplete recovery
    • Sustained elevation (>1 week) indicates overtraining risk
  2. Heart Rate Variability (HRV):
    • Higher HRV = better recovery and readiness
    • Decrease of >10% from baseline = reduced readiness
    • Use app like Elite HRV, HRV4Training, or Oura Ring
  3. Peak-30 Cadence:
    • Track daily to assess ability to sustain intensity
    • Declining trend may indicate accumulated fatigue
    • Use as workout readiness indicator
  4. Walking Speed at Standard Effort:
    • Monthly test: 20-30 min at consistent perceived effort
    • Improving speed at same effort = positive adaptation
    • Declining speed = inadequate recovery or overtraining

Subjective Metrics

Daily wellness questionnaire (score 1-5 each):

  1. Sleep quality: 1 = terrible, 5 = excellent
  2. Fatigue level: 1 = exhausted, 5 = energized
  3. Muscle soreness: 1 = very sore, 5 = no soreness
  4. Mood/motivation: 1 = poor, 5 = great
  5. Stress level: 1 = very high, 5 = very low

Total wellness score interpretation:

  • 20-25: Excellent readiness, proceed with planned training
  • 15-19: Good readiness, training as planned or slightly reduced
  • 10-14: Moderate concerns, consider easier day or shorter session
  • 5-9: Poor readiness, make day very easy or take rest day

Signs of Appropriate Training Load

  • Feeling energized and motivated for most walks
  • Gradual performance improvements over weeks/months
  • Consistent sleep quality (7-9 hours, feeling rested)
  • Stable or improving resting heart rate
  • Minimal muscle soreness beyond 24-48 hours post-workout
  • Maintaining enthusiasm for walking
  • Able to hit target paces/cadences consistently

Warning Signs of Excessive Training Load

  • Performance: Declining speed, inability to reach target cadences, increased perceived effort
  • Physiological: Elevated RHR (5-10+ bpm above baseline), decreased HRV, persistent fatigue despite rest
  • Musculoskeletal: Persistent muscle soreness, multiple minor aches and pains, increased injury occurrence
  • Psychological: Loss of motivation, irritability, mood disturbances, difficulty concentrating
  • Sleep: Difficulty falling asleep, waking frequently, not feeling rested despite adequate hours
  • Immune: Frequent colds or infections, slow healing from minor injuries

Action plan if warning signs appear:

  1. Immediately reduce training load by 30-50%
  2. Focus on easy, enjoyable walks only
  3. Prioritize sleep (aim for 8-9 hours)
  4. Review nutrition and hydration
  5. Consider non-walking stress (work, life) and address if possible
  6. If symptoms persist >1 week, consult healthcare provider

Intensity Distribution Models

How you distribute training intensity across the week significantly impacts adaptation and performance. Two primary models are used:

Polarized Training (80/20 Model)

The 80/20 model divides training time between low and high intensity with minimal moderate intensity:

  • 80% easy (Zone 1-2): 95-105 spm, conversational pace
  • 0-5% moderate (Zone 3): Minimal time at 110-120 spm
  • 15-20% hard (Zone 4-5): 120+ spm intervals and tempo

Rationale: Maximizes aerobic development (easy volume) while providing high-intensity stimulus for performance without accumulating fatigue from excessive moderate work.

Best for: Advanced walkers, race walkers, performance-oriented training

Sample weekly schedule (300 min total):

  • 240 min easy (80%): Daily 30-40 min easy walks + long weekend walk
  • 60 min hard (20%): 2× interval/tempo sessions per week

Pyramidal Training (60/30/10 Model)

The pyramidal model distributes intensity across all zones:

  • 60-70% easy (Zone 1-2): Base aerobic development
  • 20-30% moderate (Zone 3): Tempo and brisk sustained work
  • 10% hard (Zone 4-5): High-intensity intervals

Rationale: More gradual intensity progression, better for developing moderate-intensity capacity, easier to recover from.

Best for: Beginner to intermediate walkers, health-focused training, those prone to injury

Sample weekly schedule (300 min total):

  • 180-210 min easy (60-70%): Most daily walks at comfortable pace
  • 60-90 min moderate (20-30%): 2-3× brisk walks per week
  • 30 min hard (10%): 1× interval session per week
Research Insight: Elite endurance athletes across sports consistently use polarized training. However, for health and fitness outcomes, pyramidal models produce excellent results with lower injury risk (Stöggl & Sperlich, 2014).

Recovery and Adaptation Strategies

Training stimulus creates adaptation only when paired with adequate recovery. Without recovery, training load becomes training stress without benefit.

Active Recovery Techniques

  1. Easy walks (60-90 spm):
    • 20-30 minutes at very low intensity
    • Promotes blood flow without additional stress
    • Psychological benefit of movement
  2. Cross-training:
    • Swimming, cycling, yoga, tai chi
    • Different movement patterns reduce repetitive stress
    • Maintains fitness with variety
  3. Dynamic stretching and mobility:
    • 15-20 minutes daily
    • Focus on hips, ankles, calves, hamstrings
    • Maintains range of motion for efficient gait

Passive Recovery Techniques

  1. Sleep optimization:
    • 7-9 hours per night (adults)
    • Consistent sleep/wake schedule
    • Cool, dark room (60-67°F / 16-19°C)
    • Limit screens 1 hour before bed
  2. Nutrition for recovery:
    • Protein: 1.2-1.6 g/kg body weight daily
    • Carbohydrates: Adequate to replenish glycogen (3-5 g/kg)
    • Hydration: Monitor urine color (pale yellow)
    • Anti-inflammatory foods: Berries, fatty fish, leafy greens
  3. Massage and myofascial release:
    • Foam rolling 10-15 minutes post-walk
    • Focus on calves, IT band, hip flexors, glutes
    • Professional massage every 2-4 weeks if budget allows
  4. Cold water immersion (optional):
    • 10-15 minutes in 50-59°F (10-15°C) water
    • Within 1 hour post-hard workout
    • May reduce muscle soreness and inflammation
    • Not recommended more than 2× per week

Mental Recovery

  • Variety: Mix up routes, terrains, and scenery to maintain engagement
  • Social walks: Walk with friends or groups for enjoyment
  • Mindfulness: Practice present-moment awareness during easy walks
  • Deload weeks: Mental break from structured training every 3-4 weeks
  • Off-season: 2-4 weeks annually of minimal structured walking

Advanced Training Load Concepts

Training Impulse (TRIMP)

TRIMP (Training Impulse) quantifies training load using heart rate data with exponential weighting for higher intensities.

TRIMP = Duration (min) × ΔHR ratio × 0.64e^(1.92 × ΔHR ratio)

Where:
  ΔHR ratio = (Average HR - Resting HR) / (Max HR - Resting HR)

Example:

  • Duration: 60 minutes
  • Average HR: 130 bpm
  • Resting HR: 60 bpm
  • Max HR: 180 bpm
  • ΔHR ratio = (130-60)/(180-60) = 70/120 = 0.583
  • TRIMP = 60 × 0.583 × 0.64e^(1.92×0.583) = 60 × 0.583 × 1.94 = 67.9

Note: TRIMP values are not directly comparable to WSS, but both quantify training load.

Fitness-Fatigue Model

Training produces two opposing effects:

  • Fitness: Slow-building, slow-decaying positive adaptation (42-day time constant)
  • Fatigue: Fast-building, fast-decaying negative effect (7-day time constant)

Performance = Fitness - Fatigue

This model explains:

  • Why rest days can lead to better performance (fatigue dissipates faster than fitness)
  • Why tapers work (reduce fatigue while maintaining fitness)
  • Why recovery weeks are essential (manage accumulated fatigue)

Chronic Training Load (CTL) and Form

Advanced metrics tracked by platforms like Walk Analytics:

  • CTL (Chronic Training Load): 42-day exponentially weighted average of daily WSS — represents fitness
  • ATL (Acute Training Load): 7-day exponentially weighted average of daily WSS — represents fatigue
  • TSB (Training Stress Balance): CTL - ATL — represents form/freshness

TSB Interpretation:

  • TSB < -30: High fatigue, overreaching risk
  • TSB -30 to -10: Productive training zone, normal fatigue
  • TSB -10 to +10: Neutral form
  • TSB +10 to +25: Fresh, good race readiness
  • TSB > +25: Very fresh, but detraining if sustained

Practical Training Load Management

Weekly Planning Template

Structure each week with:

  1. 1-2 quality sessions: Intervals, tempo, or race-pace work
  2. 1 long walk: 60-120 minutes at easy-moderate pace
  3. 3-4 easy walks: Recovery and volume accumulation
  4. 1 rest day: Complete rest or very gentle activity

Example intermediate week (Target: 420 WSS):

Day Workout Duration Intensity WSS
Monday Steady walk 45 min 105 spm (Zone 2) 90
Tuesday Easy recovery 30 min 95 spm (Zone 1) 40
Wednesday Intervals 50 min total 5×5 min @ 120 spm 140
Thursday Easy walk 35 min 100 spm (Zone 2) 55
Friday Rest day 0
Saturday Long walk 75 min 105 spm (Zone 2) 150
Sunday Easy recovery 30 min 95 spm (Zone 1) 40
Weekly Total 515 WSS

Adjusting Based on Feedback

Scenario 1: Feeling fatigued mid-week

  • Check RHR (elevated?) and wellness score (low?)
  • Replace hard workout with easy walk
  • Add rest day if needed
  • Resume planned training when recovered

Scenario 2: Feeling great and progressing well

  • Continue current plan (don't add extra load impulsively)
  • Increase load by 5-10% next week
  • Consider quality over quantity (increase intensity slightly)

Scenario 3: Persistent underperformance

  • Review non-training stress (work, sleep, life events)
  • Reduce training load by 30-40% for 1-2 weeks
  • Focus on sleep, nutrition, and stress management
  • Gradually rebuild after recovery confirmed

Summary: Key Training Load Principles

The Five Pillars of Training Load Management:
  1. Quantify Load: Use WSS, brisk minutes, or TRIMP to track training stimulus
  2. Progress Gradually: 5-10% weekly increases, with 3:1 build:recovery ratio
  3. Monitor ACWR: Keep acute:chronic ratio between 0.80-1.30 to minimize injury risk
  4. Prioritize Recovery: Training + Recovery = Adaptation (missing either prevents progress)
  5. Individualize: Adjust based on objective metrics (RHR, HRV, performance) and subjective feel

Action steps:

  1. Calculate your current weekly WSS using the calculator below
  2. Set realistic target based on your experience level
  3. Plan progressive weekly increases (5-10%)
  4. Schedule recovery weeks every 3-4 weeks
  5. Track Peak-30 cadence and resting heart rate daily
  6. Use wellness questionnaire to guide daily adjustments
  7. Review ACWR weekly to catch dangerous spikes early
  8. Prioritize sleep (7-9 hours) and nutrition for recovery

Calculate Your Training Load

Use our free calculators to determine your training load:

Scientific References

This guide synthesizes research from exercise physiology, sports science, and walking-specific studies:

  • Del Pozo-Cruz B, et al. (2022). "Association of Daily Step Count and Intensity With Incident Cardiovascular Disease." JAMA Network Open 5(12):e2248107. [Peak-30 cadence research]
  • Gabbett TJ. (2016). "The training-injury prevention paradox." British Journal of Sports Medicine 50:273-280. [ACWR and injury risk]
  • Soligard T, et al. (2016). "How much is too much? (Part 1) International Olympic Committee consensus statement on load in sport and risk of injury." British Journal of Sports Medicine 50:1030-1041.
  • Stöggl TL, Sperlich B. (2014). "Polarized training has greater impact on key endurance variables than threshold, high intensity, or high volume training." Frontiers in Physiology 5:33. [Intensity distribution]
  • Banister EW. (1991). "Modeling elite athletic performance." In: MacDougall JD, et al., eds. Physiological Testing of Elite Athletes. Human Kinetics. [Fitness-fatigue model, TRIMP]
  • Tudor-Locke C, et al. (2019). "Walking cadence (steps/min) and intensity in 21-40 year olds: CADENCE-adults." Int J Behav Nutr Phys Act 16:8. [Cadence thresholds]

For more research:

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