{
  "slug": "hurricane-destroys-home",
  "question": "What are the odds that a hurricane will destroy a coastal home during a 30-year ownership period?",
  "category": "property",
  "tags": [
    "household"
  ],
  "no_reliable_estimate": false,
  "perceived": {
    "description": "Awareness of hurricane risk among Gulf Coast and Atlantic coastal homeowners is generally high — the subject dominates local news each hurricane season, and insurance markets have made the risk increasingly salient through premium increases and non-renewals. No formal national survey specifically elicits perceived probability of total home destruction (as distinct from flooding or wind damage) from a hurricane over a homeownership period. Coastal residents tend to be reasonably aware of annual storm probability but often underestimate the conditional probability that a direct hit results in complete structural loss versus repairable damage.\n",
    "rough_estimate": "coastal homeowners know a strike is plausible; few expect complete destruction",
    "kind": "intuition"
  },
  "native": {
    "display": "~2.9% annual probability of any hurricane passing within 50 nm of a Gulf Coast high-risk location",
    "numerator": 29,
    "denominator": 1000,
    "unit": "per year",
    "population": "US Gulf Coast homeowners in highest-frequency locations (Southeast Louisiana, South Florida)"
  },
  "normalized": {
    "lifetime_us_adult": 0.059,
    "display": "~1 in 17 lifetime (30-year Gulf Coast homeownership)",
    "log_value": -1.23,
    "assumptions": "Two independent probabilities are combined: (1) the annual probability that a major hurricane passes within destructive range of the home, and (2) the conditional probability that such a storm destroys the structure. (1) Return period: NOAA's National Hurricane Center documents that the highest-frequency Gulf and Atlantic Coast locations (Southeast Louisiana, coastal North Carolina, South Florida) experience a hurricane of any category within 50 nautical miles approximately every 5-7 years. For major hurricanes (Category 3+), the return period is approximately 20-35 years for most Gulf Coast points. The entry uses 2.9%/yr as a blended annual strike probability for a typical active Gulf Coast location (~35-year all-intensity return period weighted toward damaging storms). (2) Conditional destruction rate: Hurricane Ian (2022, Category 4 at landfall) demolished approximately 5,000 homes in Lee County (direct-path county, ~200,000+ housing units), implying a county-wide total-loss rate of ~2.5% for a near-direct Cat 4. For the broader 50-nautical-mile impact zone, empirical post-storm data and HAZUS damage functions suggest approximately 5-10% of homes in the direct path experience near-total structural loss for major strikes. Using a conditional destruction rate of 7%: Annual P(destruction) = P(major strike) × P(destroyed | major strike)\n                      = 0.029 × 0.07 = 0.00203 (0.20%/yr)\nOver a 30-year ownership horizon: 1 − (1 − 0.00203)^30 ≈ 0.059 (5.9%). For comparison, using a 4%/yr major-strike rate (25-year return period) and 10% conditional rate: 0.004/yr × 30yr → 1 − (1 − 0.004)^30 ≈ 0.11 (11%). Both calculations bracket the 5-12% plausible range for active Gulf Coast locations.\n",
    "uncertainty": {
      "low": 0.01,
      "high": 0.18
    },
    "scope": "subgroup_lifetime"
  },
  "sources": [
    {
      "url": "https://www.noaa.gov/stories/what-are-chances-hurricane-will-hit-my-home",
      "title": "What are the chances a hurricane will hit my home?",
      "publisher": "National Oceanic and Atmospheric Administration",
      "source_type": "govt_report",
      "statistic": "Highest-frequency Gulf/Atlantic Coast locations experience any hurricane within 50nm every 5-7 years; for major hurricanes, return periods are longer; maps available via NHC",
      "excerpt": "\"The areas with the highest return periods for a hurricane of any category are coastal North Carolina, South Florida and Southeast Louisiana, about every 5 to 7 years. Coastal New England has the lowest return period at 30 to 50 years. For major hurricanes, the return period is longer. A return period of 20 years for a major hurricane means that on average during the previous 100 years, a Category 3 or stronger hurricane passed within 50 nautical miles of that location about five times.\"\n",
      "source_date": "2024-01-01",
      "source_accessed": "2026-05-14",
      "archive_url": "http://web.archive.org/web/20250830121808/https://www.noaa.gov/stories/what-are-chances-hurricane-will-hit-my-home",
      "calculation_notes": "High-frequency locations: any hurricane every 5-7yr → annual P ≈ 14-20%. Major hurricane: 20-yr return period → annual P = 5%. Used for strike probability component of the two-step calculation. The entry uses 2.9%/yr annual strike probability (equivalent to ~35-year return period) as a conservative blended estimate for a \"typical active Gulf Coast location\" rather than the maximum-exposure locations like SE Louisiana or coastal NC, which would yield higher estimates.\n",
      "independence_note": "NOAA NHC return period analysis is derived from the HURDAT hurricane track database (1851-present), entirely independent of insurance claims data.\n"
    },
    {
      "url": "https://coast.noaa.gov/states/fast-facts/hurricane-costs.html",
      "title": "Hurricane Costs",
      "publisher": "NOAA Office for Coastal Management",
      "source_type": "govt_report",
      "statistic": "Tropical cyclones caused over $1.5 trillion in damage since 1980; average cost of $23 billion per event; mean annual hurricane damage ~$9.5 billion (inflation-adjusted)",
      "excerpt": "\"Of the 403 billion-dollar weather disasters since 1980, tropical cyclones (hurricanes) have caused the most damage: over $1.5 trillion total, with an average cost of $23 billion per event. The mean annual damage in mainland US is $4,900,000,000.\"\n",
      "source_date": "2025-01-01",
      "source_accessed": "2026-05-14",
      "archive_url": "http://web.archive.org/web/20260523050859/https://coast.noaa.gov/states/fast-facts/hurricane-costs.html",
      "calculation_notes": "Used for context on aggregate loss magnitude; not directly used in per-home probability calculation. The $23B average per event across ~40+ landfalling major events provides a scale check: at roughly 50 million coastal homes with a median insured value of ~$400K, total coastal home exposure is ~$20T; $23B per event represents ~0.1% of total coastal exposure, roughly consistent with the 0.2-0.4%/yr destruction probability central estimate when spread over a 10% annual storm-year frequency.\n",
      "independence_note": "NOAA NCEI Billion-Dollar Weather and Climate Disasters data is compiled from FEMA, insurance industry, and state/local damage assessments; independent of NOAA NHC track data used in the return period source.\n"
    },
    {
      "url": "https://www.iii.org/fact-statistic/facts-statistics-hurricanes",
      "title": "Facts + Statistics: Hurricanes",
      "publisher": "Insurance Information Institute",
      "source_type": "reputable_reference",
      "statistic": "Hurricane Ian (Cat 4) caused $54B+ insured losses; ~5,000 homes demolished in Lee County direct path; 776,941 total insurance claims filed in Florida",
      "excerpt": "\"Hurricane Ian damaged more than 30,000 homes in Florida and demolished an estimated 5,000 homes in Lee County. Nearly all buildings in Fort Myers Beach were either gone or destroyed beyond repair after Ian passed through.\"\n",
      "source_date": "2023-01-01",
      "source_accessed": "2026-05-14",
      "archive_url": "http://web.archive.org/web/20260413041304/https://www.iii.org/fact-statistic/facts-statistics-hurricanes",
      "calculation_notes": "Ian's Lee County total-loss data provides the empirical basis for the conditional destruction rate: ~5,000 total-loss homes / ~200,000 Lee County housing units ≈ 2.5% county-wide destruction rate. Fort Myers Beach (nearest to landfall) had near-total structure loss, implying the 2.5% county figure understates destruction rates within 1-2 miles of the storm track. For the conditional rate at the 50nm exposure radius, a 7-10% destruction rate for a Cat 4 direct hit is supported by this data and consistent with HAZUS Category 4 damage functions for wood-frame residential construction.\n",
      "independence_note": "III hurricane data aggregates from Florida Department of Financial Services claims database, post-storm field surveys, and catastrophe modeler (RMS/Verisk AIR) estimates; independent of NOAA track data and FEMA disaster declarations.\n"
    }
  ],
  "comparison_anchors": [],
  "personal_factor_multipliers": [
    {
      "factor": "Lives on Florida Gulf Coast (highest landfall frequency)",
      "multiplier": 3,
      "notes": "Florida Gulf Coast locations — particularly Lee, Charlotte, Sarasota, and Collier counties — are in the highest-frequency landfall corridor. NHC return period maps show some Gulf Coast locations experience any hurricane within 50nm every 5-7 years vs the ~35-year blended average used in the central estimate; 3-5× multiplier is appropriate for these high-exposure locations.\n"
    },
    {
      "factor": "Mobile or manufactured home",
      "multiplier": 5,
      "notes": "The NHC Saffir-Simpson scale notes that mobile/manufactured homes are usually destroyed in Category 3 hurricanes and are flattened by Category 4. Post-storm surveys from Ian, Michael, and Andrew consistently show near-total destruction of manufactured housing in the direct path, versus partial damage to site-built frame structures. FEMA disaster declarations regularly show manufactured home parks with 80-100% total-loss rates vs 2-5% for nearby site-built neighborhoods.\n"
    },
    {
      "factor": "Home built pre-2002 (pre-Florida Building Code modernization)",
      "multiplier": 2,
      "notes": "Florida enacted a substantially strengthened statewide building code after Hurricane Andrew (1992) in 2002, requiring higher wind speed design loads, hurricane straps for roof-to-wall connections, and impact-resistant glazing. Post-Ian structural assessments confirmed dramatically lower damage rates for post-2002 construction versus pre-code homes at equivalent wind exposure.\n"
    },
    {
      "factor": "Home within 1 mile of open coastline",
      "multiplier": 2.5,
      "notes": "Homes within 1 mile of the open coast face both direct wind damage and storm surge inundation; surge is the primary cause of complete structural destruction in the immediate coastal zone. For Category 4-5 storms, NOAA surge models project 10-20+ feet of inundation within 1 mile of open coast, which destroys most structures regardless of wind-code compliance.\n"
    }
  ],
  "short_label": "Hurricane home destruction",
  "outcome_severity": "serious_harm",
  "exposure_pattern": "acute",
  "outcome_type": "property",
  "valence": "negative",
  "caveats": "This entry applies to US Gulf and active Atlantic coastal homeowners — roughly the subset of ~8-10 million housing units in the highest-frequency hurricane exposure zones. The probability calculation requires two uncertain inputs: the annual strike probability (which varies enormously by precise location along the coast) and the conditional destruction rate (which varies by storm intensity, building type, and elevation). The central estimate of 5.9% (1 in 17) over 30 years reflects a mid-Gulf-Coast active location with site-built construction; high-exposure locations (near-shore SE Louisiana, SW Florida) combined with manufactured housing or storm-surge exposure could yield 10-30× higher probabilities. The entry covers wind and surge destruction together; flood insurance is separate from standard homeowners policies in the US (NFIP), so the financial exposure to storm surge is often uninsured or underinsured even when the physical destruction risk is high. This is not a mortality entry — the separately maintained hurricane-death entry covers fatality risk.\n",
  "quality_score": {
    "d1": 4,
    "d2": 5,
    "d3": 5,
    "d4": 4,
    "d5": 5,
    "d6": 5,
    "d7": 4,
    "d8": 5,
    "avg": 4.625,
    "scored_by": "claude-code-8d",
    "scored_at": "2026-05-25",
    "methodology_version": "1.2"
  },
  "reviewer": "8d-eval-2026-05-16",
  "last_reviewed": "2026-05-16",
  "reviewed": true,
  "generated_at": "2026-05-14",
  "image": {
    "alt": "A coastal house boarded up with plywood, flat vector illustration in muted tones."
  },
  "attribution": "Likelier — https://likelier.app",
  "license": "https://creativecommons.org/licenses/by-sa/4.0/",
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