Banana AnalyticsBANANAANALYTICS

County profile

Apache County, Arizona Community Health Profile

Environmental risk, disease burden, provider access, and SDOH scores for community health needs assessment and service line planning. Fused from EPA, CDC, CMS, and Census data into a single free view.

Opportunity Score

60Elevatedout of 100

Env

40

−10 vs U.S. mean

Disease

74

+24 vs U.S. mean

Provider

37

−13 vs U.S. mean

SDOH

89

+39 vs U.S. mean

FIPS: 04001Population: 65,036Risk overview: 2 of 4 major risks elevated

Specific health risk patterns

Apache County, AZ: 5 specific risk patterns triggered

Each pattern below combines a specific environmental exposure with a population that is more vulnerable to that exposure. When both are present at meaningful levels in Apache County, the pattern triggers. These are the most concrete data points for documenting a significant health need in a Community Health Needs Assessment and for planning where services or community investment would land hardest.

Internally, we call these “Compound Signals.” Each is a versioned, weighted composite scored against the national distribution. The full formula and citations live on the methodology page.

Field Burden· 96Very Highlow confidence

Pesticide intensity at 0.9 kg per sq mi, summer max temperatures averaging 95.7°F.

Pesticide + heat exposure × Farmworker population

→ Signal Brief→ Compare to peer counties→ Tract drill-down
Defend this finding — full lineage to source data3 sources cited
Field Burdenneeds review

Apache County: 96/100 (elevated above the 70th-percentile threshold)

Pesticide intensity × summer heat × farmworker population proxy. Surfaces counties where outdoor agricultural workers face simultaneous heat-illness and pesticide-exposure risk.

Weighted composite of pesticide_density_pct_high + summer_max_temp + farmworker_proxy (component weights documented in the gold pipeline manifest, ticket #90)

Methodology. Demographic identifies the population HRSA 330(g) migrant/seasonal worker centers were created to serve. v1 weights are pending finalization — see ticket #90 — and the score is published with medium confidence pending the curation pass.

Threshold. Elevated when score ≥ 70th national percentile across all US counties evaluated for this signal

Peer set. All US counties evaluated for the signal (~3,222, less coverage gaps)

Components (3)

Pesticide density rank (kg per square mile, EPest_HIGH)weighted leg

3th percentile

National percentile rank of pesticide application intensity per square mile, conservative-against-undercounting (EPest_HIGH) basis.

USGSPesticide National Synthesis Project (PNSP)

Vintage: PNSP 2019 (preliminary) · Refresh: Annual when published · Lag: 2–3 years

Source page →

How it's measured. Total kg / county land area in sq mi, then rank-percentile against all PNSP-covered US counties. EPest_HIGH is the regional-pool imputation that errs against undercounting.

Caveat. PNSP is on medium-low update reliability — see pesticide_total_kg caveat.

Coverage. 3,054 of 3,222 US counties

Average summer maximum temperatureweighted leg

95.7 °F

Mean of the daily maximum temperature across the meteorological summer (June–August).

NOAAApplied Climate Information System (ACIS) — RCC-ACIS

Vintage: Multi-year mean (2018–2023 typical) · Refresh: Monthly · Lag: Current year

Source page →

How it's measured. NOAA ACIS aggregates GHCN-Daily station observations to county-level summer (JJA) daily-max means using inverse-distance weighting. Smooths year-to-year noise; captures the structural heat profile.

Coverage. All 3,222 US counties

Farmworker exposure proxy (USDA NASS livestock + crop area)weighted legneeds review

Composite proxy for outdoor agricultural worker exposure, derived from USDA NASS livestock counts and crop acreage indicators.

USDANASS — National Agricultural Statistics Service

Vintage: NASS Quick Stats current vintage · Refresh: Annual · Lag: 1–2 years

Source page →

How it's measured. Weighted blend of farmworker-intensive crop acreage and livestock operations, used as a proxy for the population that HRSA 330(g) migrant/seasonal worker centers were created to serve. Direct farmworker counts are unreliable below state level; this proxy is the structural-pattern stand-in.

Coverage. Counties with non-zero ag activity

Heat Vulnerability· 93Very Highhigh confidence

Summer max temperatures averaging 95.7°F against a heart-disease + diabetes prevalence of 9.3% + 17.5%.

Extreme heat exposure × Heat-vulnerable population

→ Signal Brief→ Compare to peer counties→ Tract drill-down
Defend this finding — full lineage to source data5 sources cited
Heat Vulnerability

Apache County: 93/100 (elevated above the 70th-percentile threshold)

Extreme heat exposure × cardiometabolic comorbidity × cardiology access deficit. Surfaces counties where a hot-day mortality event would land hardest.

0.40 × percentile(summer_max_temp) + 0.30 × percentile(chd_diabetes_blend) + 0.30 × percentile(cardiology_access_deficit)

Methodology. Heat-related cardiovascular mortality is the canonical climate-health linkage. The cardiometabolic blend identifies populations with the comorbidity profile that most amplifies heat-event mortality; the cardiology access leg captures whether the local system can absorb a heat-event surge.

Threshold. Elevated when score ≥ 70th national percentile across all US counties evaluated for this signal

Peer set. All US counties evaluated for the signal (~3,222, less coverage gaps)

Evidence base

  • · Bobb JF et al. 'Heat-related mortality and adaptation to heat in the United States.' Environmental Health Perspectives 2014.
  • · Khatana SAM et al. 'Association of extreme heat with all-cause mortality in the contiguous US.' JAMA Network Open 2022.

Components (3)

Average summer maximum temperature40%

95.7 °F

Mean of the daily maximum temperature across the meteorological summer (June–August).

NOAAApplied Climate Information System (ACIS) — RCC-ACIS

Vintage: Multi-year mean (2018–2023 typical) · Refresh: Monthly · Lag: Current year

Source page →

How it's measured. NOAA ACIS aggregates GHCN-Daily station observations to county-level summer (JJA) daily-max means using inverse-distance weighting. Smooths year-to-year noise; captures the structural heat profile.

Coverage. All 3,222 US counties

Coronary heart disease + diabetes blend30%

60/40 dominant/secondary percentile blend of CHD and diabetes prevalence.

0.6 × max(percentile(chd), percentile(diabetes)) + 0.4 × min(percentile(chd), percentile(diabetes))

Methodology. Heat-vulnerability cardiometabolic cluster — counties with both conditions elevated face compounding heat-event mortality risk. Same dominant/secondary rule as the asthma+COPD blend.

Components (2)

Coronary heart disease prevalenceweighted leg

9.3%

Percent of adults age 18+ self-reporting coronary heart disease diagnosis.

CDCPLACES — Local Data for Better Health

Vintage: PLACES 2022–2023 · Refresh: Monthly · Lag: 1–2 years

Source page →

How it's measured. PLACES small-area estimation from BRFSS self-report. Self-reported CHD undercounts asymptomatic disease.

Coverage. All 3,222 US counties

Diabetes prevalenceweighted leg

17.5%

Percent of adults age 18+ self-reporting diabetes diagnosis (excludes gestational).

CDCPLACES — Local Data for Better Health

Vintage: PLACES 2022–2023 · Refresh: Monthly · Lag: 1–2 years

Source page →

How it's measured. PLACES small-area estimation from BRFSS self-report. Excludes gestational diabetes per the BRFSS question framing.

Coverage. All 3,222 US counties

Cardiology access deficit30%

Inverted national percentile rank of cardiologists per 100K, with a 50/50 in-county/neighbor-county adjacency adjustment.

100 − [0.5 × percentile(cardiology_per_100k, this county) + 0.5 × percentile(cardiology_per_100k, neighbor counties weighted by population)]

Methodology. Same adjacency-adjusted inversion as pulmonology deficit. Reduces false positives near major cardiac centers.

Components (2)

Cardiologists per 100,000 population50%

13.7 providers / 100K

Active cardiology specialists practicing in the county, normalized to population.

CMSNPPES — National Plan and Provider Enumeration System

Vintage: Current month · Refresh: Monthly · Lag: Same month

Source page →

How it's measured. NPPES registry filtered to active cardiology taxonomy codes, geocoded to practice address, summed per county, divided by Census population estimate.

Caveat. NPPES is registration-time data, not practice attestation. The 50/50 adjacency adjustment helps but does not eliminate location noise.

Coverage. All 3,222 US counties

Cardiologists per 100,000 populationneighbor adjusted

13.7 providers / 100K

Active cardiology specialists practicing in the county, normalized to population.

CMSNPPES — National Plan and Provider Enumeration System

Vintage: Current month · Refresh: Monthly · Lag: Same month

Source page →

How it's measured. NPPES registry filtered to active cardiology taxonomy codes, geocoded to practice address, summed per county, divided by Census population estimate.

Caveat. NPPES is registration-time data, not practice attestation. The 50/50 adjacency adjustment helps but does not eliminate location noise.

Coverage. All 3,222 US counties

Heat-Dialysis Vulnerability· 92Very Highmedium confidence

110 dialysis-dependent Medicare beneficiaries (7.37 per 1k).

Extreme heat exposure × Dialysis-dependent population

→ Signal Brief→ Compare to peer counties→ Tract drill-down
Defend this finding — full lineage to source data3 sources cited
Heat-Dialysis Vulnerability

Apache County: 92/100 (elevated above the 70th-percentile threshold)

Extreme heat × dialysis-dependent Medicare beneficiaries × chronic kidney disease prevalence. Anchored on Taiwan NHIRD findings of 5.3× CKD heat-hospitalization rate, 9× ESRD heat-stroke mortality.

0.40 × percentile(summer_max_temp) + 0.35 × percentile(dialysis_per_1k_medicare) + 0.25 × percentile(kidney_prevalence)

Methodology. Dialysis patients are uniquely heat-vulnerable: missed dialysis sessions during heat-related power loss or transport disruption cause electrolyte cascades within hours. The Taiwan NHIRD analysis (NHIRD = National Health Insurance Research Database) is the strongest population-level evidence we have for the magnitude of the effect.

Threshold. Elevated when score ≥ 70th national percentile across all US counties evaluated for this signal

Peer set. All US counties evaluated for the signal (~3,222, less coverage gaps)

Evidence base

  • · Lin Y-K et al. 'Extreme heat and ESRD heat-stroke mortality.' Taiwan NHIRD analysis.
  • · Remigio RV et al. 'Association of extreme heat events with hospital admission or mortality among patients with end-stage renal disease.' JAMA Network Open 2019.

Components (3)

Average summer maximum temperature40%

95.7 °F

Mean of the daily maximum temperature across the meteorological summer (June–August).

NOAAApplied Climate Information System (ACIS) — RCC-ACIS

Vintage: Multi-year mean (2018–2023 typical) · Refresh: Monthly · Lag: Current year

Source page →

How it's measured. NOAA ACIS aggregates GHCN-Daily station observations to county-level summer (JJA) daily-max means using inverse-distance weighting. Smooths year-to-year noise; captures the structural heat profile.

Coverage. All 3,222 US counties

Dialysis-dependent Medicare beneficiaries per 1,00035%

7.4 per 1,000 Medicare benes

Rate of Medicare beneficiaries on at-home or in-center dialysis per 1,000 county Medicare beneficiaries.

HHS / ASPRemPOWER Map — Medicare beneficiary DME data

Vintage: Current month · Refresh: Monthly · Lag: Same month

Source page →

How it's measured. HHS ASPR derives dialysis-dependent counts from Medicare claims for ESRD-related at-home or in-center service codes, aggregated to county. Reported per 1,000 county Medicare beneficiaries to normalize for size.

Caveat. emPOWER masks counts of 1–10 to the literal value 11 for beneficiary privacy. Per-1k rates derived from masked counts respect the same floor — a small county showing exactly 11 beneficiaries may have anywhere from 1 to 11 actual.

Coverage. All 3,222 US counties (subject to the 1–10 mask)

Chronic kidney disease prevalence25%

Percent of adults age 18+ self-reporting chronic kidney disease diagnosis.

CDCPLACES — Local Data for Better Health

Vintage: PLACES 2022–2023 · Refresh: Monthly · Lag: 1–2 years

Source page →

How it's measured. PLACES small-area estimation from BRFSS self-report. CKD self-report substantially undercounts true prevalence (most CKD is asymptomatic until late stages).

Coverage. All 3,222 US counties

Smoke Burden· 80Highmedium confidence

Wildfire-attributable PM2.5 averaged 1.0 µg/m³ with 0 days above 55 µg/m³ in a county where 14.3% of adults have asthma and 11.9% have COPD.

Wildfire smoke exposure × Respiratory-vulnerable population

→ Signal Brief→ Compare to peer counties→ Tract drill-down
Defend this finding — full lineage to source data8 sources cited
Smoke Burden

Apache County: 80/100 (elevated above the 70th-percentile threshold)

Wildfire smoke exposure (acute + chronic) × respiratory-vulnerable population × pulmonology access deficit. The merged successor (methodology v1.8.0) to the legacy Wildfire Smoke Vulnerability + Wildfire-Attributable Burden signals.

0.125 × percentile(active_fires_within_200km) + 0.125 × percentile(aqi_max_30day) + 0.15 × percentile(wildfire_pm25_annual_mean) + 0.15 × percentile(smoke_days_above_55) + 0.25 × percentile(asthma_copd_blend) + 0.20 × percentile(pulmonology_access_deficit)

Methodology. Six-component blend captures both acute exposure (active fires, recent AQI peak) and chronic exposure (wildfire-attributable PM2.5 annual mean and smoke-day count from Stanford Childs/Burke). Merging the two legacy signals avoids the cannibalization problem where they shared 2 of 4 components and both fired in the same fire-exposed counties. Saved cohort URLs that reference the legacy signals soft-redirect to this merged signal.

Threshold. Elevated when score ≥ 70th national percentile across all US counties evaluated for this signal

Peer set. CONUS counties only — Alaska, Hawaii, Puerto Rico, Virgin Islands, and Guam fall back to acute legs only

Evidence base

  • · Childs ML et al. 'Daily local-level estimates of ambient wildfire smoke PM2.5 for the contiguous US.' Environmental Science & Technology 2022.
  • · Burke M et al. 'The contribution of wildfire to PM2.5 trends in the USA.' Nature 2023.
  • · Ma Y et al. 'Mortality attributable to PM2.5 from wildland fires in California from 2008 to 2018.' PNAS 2024 (~11,415 attributable deaths/year nationally).

Components (6)

Active fire incidents within 200 km13%needs review

Count of active wildfire incidents reported within a 200-kilometer radius of the county centroid.

NIFCWFIGS — Wildland Fire Interagency Geospatial Services

Vintage: Live (refreshed during fire season) · Refresh: Sub-daily during fire season

Source page →

How it's measured. Geospatial proximity count of WFIGS incident points to the county geometric centroid. Captures the acute exposure window in the smoke burden composite.

Coverage. All 3,222 US counties

30-day maximum AQI13%needs review

Highest daily Air Quality Index value recorded in the trailing 30-day window.

EPAAir Quality System (AQS) — daily AQI

Vintage: Trailing 30 days · Refresh: Daily

Source page →

How it's measured. Maximum of the daily AQI values reported by AQS monitors in the county over the trailing 30-day window. A single bad day pushes this above 100; sustained smoke episodes push it above 150.

Coverage. Counties hosting an AQS monitor; ~2,400 of 3,222 US counties have at least one.

Wildfire-attributable PM2.5 annual mean15%

1.0 µg/m³

Annual mean concentration of PM2.5 specifically attributable to wildfire smoke, isolated from background and other anthropogenic sources.

Stanford / HarvardChilds/Burke wildfire smoke PM2.5 — daily local-level estimates

Vintage: Annual rollup (most recent: see WildfireAttributable.year) · Refresh: Annual · Lag: 3–4 years

Source page →DOI: 10.7910/DVN/DJVMTV

How it's measured. Daily 10-km grid estimates of wildfire-attributable PM2.5 derived in Childs et al (Environmental Science & Technology 2022) using satellite smoke plumes, monitor data, and atmospheric chemistry models. Aggregated to county-year annual means by population-weighted overlay. Validated in Burke et al (Nature 2023).

Caveat. CONUS only — Alaska, Hawaii, Puerto Rico, Virgin Islands, and Guam have no Childs/Burke coverage and fall back to the acute legs of the smoke burden signal.

Coverage. CONUS counties only (~3,108 of 3,222)

Smoke days above 55 µg/m³15%

0 days/year

Count of days in the year where wildfire-attributable PM2.5 exceeded 55 micrograms per cubic meter (the EPA AQI 'unhealthy for sensitive groups' threshold).

Stanford / HarvardChilds/Burke wildfire smoke PM2.5 — daily local-level

Vintage: Annual rollup (most recent: see WildfireAttributable.year) · Refresh: Annual · Lag: 3–4 years

Source page →DOI: 10.7910/DVN/DJVMTV

How it's measured. Day count of the same Childs/Burke daily 10-km grid where the population-weighted county-day exceeds 55 µg/m³. Captures sustained smoke exposure that the annual mean smooths over.

Coverage. CONUS counties only (~3,108 of 3,222)

Asthma + COPD prevalence blend25%

60/40 dominant/secondary percentile blend of asthma and COPD prevalence — the higher-percentile condition gets 60%, the lower gets 40%.

0.6 × max(percentile(casthma), percentile(copd)) + 0.4 × min(percentile(casthma), percentile(copd))

Methodology. The dominant/secondary blend ensures counties with both conditions elevated score higher than those with only one — a cardiometabolic-style cluster signal that a max() or simple average would miss. Introduced in methodology v1.1.0 to replace the original max() rule across all multi-condition disease components.

Components (2)

Current asthma prevalenceweighted leg

14.3%

Percent of adults age 18+ self-reporting current asthma diagnosis.

CDCPLACES — Local Data for Better Health

Vintage: PLACES 2022–2023 (BRFSS source year ≈ 2 years prior) · Refresh: Monthly (PLACES release cadence) · Lag: 1–2 years

Source page →

How it's measured. PLACES applies multilevel small-area estimation to BRFSS adult survey responses, producing county-level prevalence estimates with model-based uncertainty intervals. Self-reported, not provider-confirmed.

Coverage. All 3,222 US counties

COPD prevalenceweighted leg

11.9%

Percent of adults age 18+ self-reporting chronic obstructive pulmonary disease diagnosis.

CDCPLACES — Local Data for Better Health

Vintage: PLACES 2022–2023 · Refresh: Monthly · Lag: 1–2 years

Source page →

How it's measured. PLACES small-area estimation from BRFSS self-report. Underestimates true prevalence by an unknown factor since many cases go undiagnosed in low-access areas.

Coverage. All 3,222 US counties

Pulmonology access deficit20%

Inverted national percentile rank of pulmonologists per 100K, with a 50/50 in-county/neighbor-county adjacency adjustment.

100 − [0.5 × percentile(pulmonology_per_100k, this county) + 0.5 × percentile(pulmonology_per_100k, neighbor counties weighted by population)]

Methodology. Inversion turns 'fewer providers' into a higher deficit score (so the signal weights point the same direction as exposure). The 50/50 adjacency adjustment uses Census Bureau county-adjacency files to reduce false positives where a county borders a major medical center: a small county next to Houston shouldn't read as 'no pulmonology' just because the practice happens to sit across the county line.

Components (2)

Pulmonologists per 100,000 population50%

6.1 providers / 100K

Active pulmonology specialists practicing in the county, normalized to population.

CMSNPPES — National Plan and Provider Enumeration System

Vintage: Current month (NPPES is registration-time data) · Refresh: Monthly · Lag: Same month

Source page →

How it's measured. NPPES registry filtered to active pulmonology taxonomy codes, geocoded to practice address, summed per county, divided by Census population estimate.

Caveat. NPPES is registration-time data, not practice attestation — providers may have moved or retired without updating their record. The 50/50 adjacency adjustment in the access deficit derivation reduces but does not eliminate this noise.

Coverage. All 3,222 US counties

Pulmonologists per 100,000 populationneighbor adjusted

6.1 providers / 100K

Active pulmonology specialists practicing in the county, normalized to population.

CMSNPPES — National Plan and Provider Enumeration System

Vintage: Current month (NPPES is registration-time data) · Refresh: Monthly · Lag: Same month

Source page →

How it's measured. NPPES registry filtered to active pulmonology taxonomy codes, geocoded to practice address, summed per county, divided by Census population estimate.

Caveat. NPPES is registration-time data, not practice attestation — providers may have moved or retired without updating their record. The 50/50 adjacency adjustment in the access deficit derivation reduces but does not eliminate this noise.

Coverage. All 3,222 US counties

Industrial Burden· 75Highlow confidence

121,370,116 lbs of TRI-reported industrial releases (4,115,623 lbs of carcinogens).

Industrial emissions exposure × Surrounding population

→ Signal Brief→ Compare to peer counties→ Tract drill-down
Defend this finding — full lineage to source data5 sources cited
Industrial Burden

Apache County: 75/100 (elevated above the 70th-percentile threshold)

TRI facility density × PFAS contamination × pesticide use × total provider access deficit. Captures cumulative industrial environmental load on the surrounding population.

0.35 × percentile(tri_facility_count) + 0.25 × percentile(pfas_severity_score) + 0.20 × percentile(pesticide_total_kg) + 0.20 × percentile(total_provider_access_deficit)

Methodology. Combines three distinct industrial exposure modes (point-source releases, drinking-water contamination, pesticide use) with a generalist provider-access leg since industrial pollution health effects span multiple specialties. Methodology v1.8.0.

Threshold. Elevated when score ≥ 70th national percentile across all US counties evaluated for this signal

Peer set. All US counties evaluated for the signal (~3,222, less coverage gaps)

Components (4)

TRI facility count35%needs review

Number of EPA Toxics Release Inventory (TRI) reporting facilities in the county.

EPAToxics Release Inventory (TRI) via Envirofacts

Vintage: TRI 2023 reporting year · Refresh: Annual · Lag: 18 months

Source page →

How it's measured. Count of facilities reporting any TRI-listed chemical release in the most recent reporting year. TRI thresholds (10K-25K lb manufacturing; 500 lb persistent-bioaccumulative) mean smaller polluters are excluded from this count.

Caveat. TRI is industrial self-report. Underreporting is documented for some sectors and chemicals; the count is a floor, not a ceiling.

Coverage. All 3,222 US counties (zero-inflated; many rural counties = 0)

PFAS contamination severity score25%

Composite 0–100 severity score for per- and polyfluoroalkyl substance (PFAS) contamination in the county's drinking water and environment.

EPAUCMR5 (Unregulated Contaminant Monitoring Rule) + ECHO

Vintage: UCMR5 sampling 2023–2025 · Refresh: Quarterly · Lag: 3–6 months

Source page →

How it's measured. Composite score combining detection frequency, peak concentration relative to EPA Health Advisory Levels, and number of PFAS species detected from UCMR5 public water system sampling and ECHO enforcement records.

Caveat. UCMR5 only samples public water systems serving 3,300+ people; private well users in small or rural communities are not represented.

Coverage. Counties with at least one UCMR5-eligible PWS

Total pesticide use (kg/year)20%

10.4K kg/year

Total estimated agricultural pesticide use in the county for the year, in kilograms (EPest_HIGH conservative estimate).

USGSPesticide National Synthesis Project (PNSP)

Vintage: PNSP 2019 (preliminary; 2018 unavailable; 2020+ unreleased) · Refresh: Annual when published · Lag: 2–3 years (and the program is on medium-low update reliability)

Source page →

How it's measured. USGS PNSP estimates county-level pesticide application from USDA Census of Agriculture acreage by crop, multiplied by crop-specific application rates from proprietary surveys. EPest_HIGH is the regional-pool imputation that's conservative against undercounting.

Caveat. PNSP funding was nearly cut in 2023 and the program now publishes irregularly. 2018 has no data; 2020+ is unreleased as of methodology v1.8.0. Use with the data-quality note shown on the platform.

Coverage. 3,054 of 3,222 US counties

Total provider access deficit20%

Inverted national percentile rank of total healthcare specialists per 100K, with a 50/50 adjacency adjustment.

100 − [0.5 × percentile(total_specialists_per_100k, this county) + 0.5 × percentile(total_specialists_per_100k, neighbor counties weighted by population)]

Methodology. Same shape as the specialty-specific deficits. Used by Industrial Burden where the relevant access dimension isn't a single specialty (industrial pollution health effects span pulmonary, cardiovascular, oncologic, and developmental medicine).

Components (2)

Total healthcare specialists per 100,000 population50%needs review

All active healthcare specialists in the county, normalized to population.

CMSNPPES — National Plan and Provider Enumeration System

Vintage: Current month · Refresh: Monthly · Lag: Same month

Source page →

How it's measured. NPPES registry — all specialty taxonomy codes — geocoded to practice address, summed per county, divided by Census population estimate.

Caveat. NPPES is registration-time data, not practice attestation.

Coverage. All 3,222 US counties

Total healthcare specialists per 100,000 populationneighbor adjustedneeds review

All active healthcare specialists in the county, normalized to population.

CMSNPPES — National Plan and Provider Enumeration System

Vintage: Current month · Refresh: Monthly · Lag: Same month

Source page →

How it's measured. NPPES registry — all specialty taxonomy codes — geocoded to practice address, summed per county, divided by Census population estimate.

Caveat. NPPES is registration-time data, not practice attestation.

Coverage. All 3,222 US counties

1 signal near threshold: Outage Vulnerability (69)

8 signals evaluated. See all signal methodologies →

Where Apache County stands

2 of 4 major health-risk areas are worse than national averages

In Apache County, Arizona, two major health-risk areas stand out as worse than the national average: chronic disease rates (worse than 74% of U.S. counties) and social and economic challenges (worse than 89% of U.S. counties). Chronic disease rates and the economic conditions that drive them — poverty, food insecurity, housing instability — tend to reinforce each other. Addressing one without the other is hard. Effective response usually combines clinical care with upstream community investment.

Methodology: when three or more of the four major health-risk areas (pollution, chronic disease, doctor access, social and economic conditions) score above the 70th national percentile, we call the pattern “multi-pillar convergence.” The scoring approach and citations live on the methodology page.

Risk profile

Apache County compared to Arizona and the U.S. average

Four health-risk scores on a 0-100 scale, where 50 is the U.S. average. A higher score means that area is a stronger contributor to community health risk.

Apache County four-pillar profile20406080100Disease BurdenEnv RiskSDOH StressProvider Gap

Disease Burden (74) and SDOH Stress (89) are worse than at least 70% of U.S. counties, the largest contributors to community health risk here.

Environmental Risk (40) and Provider Gap (37) are at or better than the U.S. average.

  • Apache County
  • Arizona state mean
  • U.S. mean (50)
  • Signal threshold (70)

Current Conditions

Today's air quality, fires, and weather alerts

Live operational data for Apache County: real-time AQI from EPA AirNow, active fires from NIFC, and any National Weather Service advisories. Updated daily.

Current Air Quality
24Good
PM2.5: 4.3 µg/m³ · 2026-05-29
Source: EPA AirNow
Nearest Active Wildfire
Hummingbird
238 km away · 0 acres
0 fires within 100 km · 0 within 200 km
Source: NIFC active fire perimeters
Active Weather Alerts
Red Flag Warning
Red Flag Warning issued May 28 at 10:37AM MST until May 28 at 8:00PM MST by NWS Flagstaff AZ
Red Flag Warning
Red Flag Warning issued May 28 at 10:37AM MST until May 29 at 8:00PM MST by NWS Flagstaff AZ
Red Flag Warning
Red Flag Warning issued May 28 at 10:37AM MST until May 29 at 8:00PM MST by NWS Flagstaff AZ
Source: National Weather Service

Environmental Factors

Air, water, and exposure indicators

Top environmental indicators for Apache County with state and national benchmarks. Full profile covers 40+ metrics on the platform.

IndicatorApache CountyAZ avgUS avg
EPA AQS / EJSCREEN
4.4
µg/m³
-26% vs AZ
5.97.4
EPA AQS / EJSCREEN
62.9
ppb
-3.9% vs AZ
65.557.1
Traffic Proximity
EJSCREEN
14,140
index
-97% vs AZ
419,668291,320
Superfund Proximity
EPA EJSCREEN
0.01
score
-91% vs AZ
0.110.16
EPA EJSCREEN
1.04
score
-46% vs AZ
1.933.39

Wildfire-Attributable Air Quality

Smoke PM2.5 the EPA doesn't count

Stanford peer-reviewed wildfire-attributable PM2.5 for Apache County. The EPA classifies wildfire smoke as "exceptional events" and excludes it from official AQS monitoring; Childs/Burke fills that gap with daily county-level data.

Annual mean wildfire PM2.5
0.96 µg/m³
11% of the 9 µg/m³ federal annual standard, on top of background air
Smoke days > 55 µg/m³
0
EPA “unhealthy for sensitive groups” threshold · Negligible
Smoke days > 100 µg/m³
0
EPA “unhealthy” threshold · acute exposure days

Source: Childs et al, Environmental Science & Technology 2022 (Harvard Dataverse 10.7910/DVN/DJVMTV). Latest year shipped: 2020. Burke et al, Nature 2023 estimate that the EPA AQS network undercounts wildfire-attributable PM2.5 by 10–30% in fire-affected counties. Coverage is CONUS only. Full methodology →

Outage Burden

When the grid goes dark

DOE/ORNL EAGLE-I customer-hours-out for Apache County in 2024. The fraction is population-normalized via the Maximum Customer Count denominator (Brelsford et al, Sci Data 2024) so it's directly comparable across counties of any size.

Customer-hours-out, 2024
0.02%
of all customer-hours in the year · Routine
Peak customers out
2,108
in a single 15-minute interval · the year's worst quarter-hour
Intervals > 10,000 out
0
count of 15-minute slots with 10k+ customers out · surge events

Source: DOE/ORNL EAGLE-I (figshare 10.6084/m9.figshare.24237376). Latest year shipped: 2024. Coverage: 3,050 of 3,222 US counties; AK and some sparsely-served rural counties may have no data. Full methodology →

Severe Weather History

Recorded storm events and damages

NOAA NCEI Storm Events Database for Apache County, 2010–2026. Cumulative + last 5 years of recorded weather events with deaths, injuries, and damages.

Total events (20102026)
147
27 in the last 5 years
Deaths · injuries
2· 0
cumulative across all event types
Property + crop damage
$271.5K
cumulative reported damages
Events by type
Flood79
Other29
Thunderstorm22
Tornado17

Source: NOAA NCEI Storm Events Database (full history rollup). NOAA buckets ~50 raw event_type strings into 8 health-relevant categories. Coverage: 3,107 of 3,222 US counties; the absent are typically Alaska boroughs and territories where NOAA codes events as forecast zones rather than counties. Full methodology →

Concentrated Animal Feeding Operations

Livestock density and federal-permit confidence

USDA Census of Agriculture (vintage 2022) animal-unit totals for Apache County, normalized to land area and ranked nationally. Animal Units (AU) follow the EPA federal definition under 40 CFR §122.23.

CAFO density rank
18thpercentile · Low
National rank of animal units per square mile.
Animal units per sq mi
7.9
Federal CAFO thresholds: 300 AU = “Medium”, 1,000 AU = “Large.” Total AU: 88,264 across 11198 sq mi.
Dominant species
Cattle (beef)
Top contributor to the AU total. Other species may also be present.
Low federal coverage. Likely <20% of large CAFOs federally NPDES-permitted in this state (EPA-IG ~32% national average is heavily skewed toward delegated states).

Source: USDA Census of Agriculture 2022 (head counts) + EPA 40 CFR §122.23 (animal-unit conversion). The CAFO composite deliberately omits NPDES facility counts because federal coverage averages ~32% nationally per EPA-IG and is heavily state-skewed — adding it as a numerator would systematically bias the index toward delegated states. Full methodology →

Pesticide Use

USGS Pesticide National Synthesis

Annual pesticide application rollup for Apache County from the USGS Pesticide National Synthesis Project. Most recent year on file: 2019. Mass figures use the EPest_HIGH estimate (the conservative-against-undercounting framing); EPest_LOW is also retained on the underlying data.

Density rank (2019)
3thpercentile · Low
National rank of kilograms applied per square mile.
Total mass applied
10.4K kg
0.9 kg/sq mi across 46 distinct compounds.
Top compounds by mass
  1. 1.GLYPHOSATE2.4K kg
  2. 2.ACEPHATE1.6K kg
  3. 3.METHOMYL1.4K kg
  4. 4.IMIDACLOPRID1.1K kg
  5. 5.PERMETHRIN835 kg

Source: USGS Pesticide National Synthesis Project (2019). USGS PNSP nationally; year 2019 is preliminary; 2018 unavailable; 2020+ not released. Update reliability medium-low. Full methodology →

Health Outcomes

Chronic disease prevalence

CDC PLACES model-based prevalence estimates for adults in Apache County. Full profile covers 15+ health outcomes plus mortality on the platform.

Apache County chronic disease prevalence vs. CDC PLACES national benchmarksFrequent mental distress (14+ days)14.521.2Diabetes11.417.5COPD6.611.9Current asthma (adults)9.814.3Coronary heart disease6.09.3Stroke3.26.0Depression21.120.4Cancer (any, excl. skin)7.17.8510152025Prevalence (%)
Apache County adult disease prevalence vs. CDC PLACES national benchmarks, ranked by absolute divergence. Green connectors mark conditions where Apache County is below the benchmark; terracotta where above.National benchmarkApache County
ConditionApache CountyAZ avgUS avg
Current Asthma
% of adults with current asthma
14.3%
+30% vs AZ
11.0%10.6%
COPD
% of adults with diagnosed COPD
11.9%
+39% vs AZ
8.5%8.6%
Diabetes
% of adults with diagnosed diabetes
17.5%
+31% vs AZ
13.4%13.7%
Coronary Heart Disease
% of adults with CHD
9.3%
+16% vs AZ
8.0%7.9%
Depression
% of adults ever diagnosed with depression
20.4%
+3.1% vs AZ
19.8%23.1%
Frequent Mental Distress
% of adults with 14+ poor mental health days/month
21.2%
+31% vs AZ
16.2%17.2%

Vulnerable Medicare Population

Who needs the grid to stay alive

Medicare beneficiaries in Apache County who depend on electricity for dialysis, oxygen, or other powered medical equipment. From the HHS emPOWER program, which CMS publishes monthly so emergency managers know who to find first when the power goes out.

PopulationCountPer 1,000 Medicare
Total Medicare beneficiaries
Denominator
14,927
Electricity-dependent (any DME)
Ventilators, oxygen concentrators, IV pumps, motorized wheelchairs
1,156
77.4
+38% vs AZ
Dialysis-dependent
ESRD beneficiaries needing in-center or home dialysis
110
7.37
+109% vs AZ
Oxygen-dependent
Home oxygen concentrators (outage-vulnerable)
463
31.0
+56% vs AZ

Source: HHS emPOWER Map (ArcGIS county layer), May 2026. Counts of 1–10 are masked as “≤10” per HHS privacy rules; per-1,000 rates are derived and still respect the privacy floor. Full methodology →

Provider Supply

Specialty physician density per 100,000 residents

Active providers in Apache County from the CMS National Plan and Provider Enumeration System (NPPES). Compared to the U.S. average for each specialty. Adjacency adjustment is applied separately in the Provider Gap pillar score.

SpecialtyApache CountyUS avg
Primary Care
Family medicine, internal medicine, general practice, pediatrics.
127.9
per 100k
-1.9% vs US
130.4
Cardiology
Cardiovascular disease, electrophysiology, interventional cardiology.
13.7
per 100k
+13% vs US
12.1
Pulmonology
Respiratory disease specialists — relevant to PM2.5 and wildfire smoke exposure.
6.1
per 100k
+1.0% vs US
6.0
Psychiatry
Mental health prescribers; complements behavioral health access.
16.8
per 100k
-10% vs US
18.7
Oncology / Hematology
Cancer specialists.
6.1
per 100k
-5.0% vs US
6.4
Neurology
Neurological disease specialists.
9.1
per 100k
+16% vs US
7.9

Source: CMS National Plan and Provider Enumeration System (NPPES). Counts reflect providers with a primary practice address in Apache County; specialty is taken from the provider's primary NUCC taxonomy code.

Pro analytical view

What drives this county's scores

The flagged signals and service-line opportunities for Apache County, plus the methodology decomposition behind each score. Visible to Pro, Consultant Studio, and Enterprise tiers.

Where to focus

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See how each signal's components blend into its final score, and which signals + service lines this county should prioritize. Available on Professional, Consultant Studio, and Enterprise.

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Score decomposition

Each named signal's component breakdown with weights. The bar length is the component's percentile rank; the parenthetical is its weight in the final blend.

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Score decomposition is a Pro feature

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Tract drill-down

Census tracts inside Apache County

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On the full platform

What else is available for Apache County

The page above is a subset. The free Community account unlocks the full single-county profile: every indicator, every data source, demographics, historical trends, and mortality data. Professional unlocks multi-county comparison, compound signal analysis, service line rankings, and consultant-ready PDF reports.

Full Environmental Profile

All 40+ environmental metrics including toxic releases, hazardous site proximity, PFAS detection, pesticide exposure, and climate stress indicators.

Service Line Opportunities

See how Apache County ranks for respiratory, oncology, cardiovascular, renal, endocrine, and behavioral health service line opportunity.

Multi-County Comparison

Compare Apache County side-by-side with neighboring counties across every dimension.

Trend Analysis

5-year sparklines for health outcomes, SDOH measures, and mortality rates so you can see where the county is heading, not just where it is today.

PDF Report Export

Generate a consultant-ready environmental health briefing for Apache County with methodology citations. Drops straight into a CHNA or grant application.

See pricing →

Nearby Counties

Counties bordering Apache County

Adjacent county profiles with their own scores and environmental health data. Source: Census Bureau County Adjacency File.

Catron County

New Mexico

75

High

Env 75Disease 78Provider 58SDOH 75

San Juan County

Utah

71

High

Env 69Disease 66Provider 63SDOH 74

Navajo County

Arizona

59

Elevated

Env 35Disease 76Provider 37SDOH 81

McKinley County

New Mexico

58

Elevated

Env 31Disease 73Provider 40SDOH 85

San Juan County

New Mexico

57

Elevated

Env 52Disease 61Provider 37SDOH 69

Cibola County

New Mexico

53

Moderate

Env 31Disease 58Provider 43SDOH 72

Data sources: EPA AQS, EPA EJSCREEN, EPA TRI, CDC PLACES, CDC WONDER, CMS NPPES, Census ACS, County Health Rankings, NOAA ACIS, NCI State Cancer Profiles. Every score on this page is derived from publicly available federal data, fused by the Banana Analytics pipeline.

Methodology: See the full scoring methodology (v1.2.0) for weights, sensitivity analysis, and validation against county-level mortality data.

Last refreshed: May 28, 2026