West Virginia's climate shapes which moulds actually have the conditions to grow indoors. Here's the state-specific species profile -- what they look like, where they grow, and what they mean for your health.
Which moulds actually grow in West Virginia homes
West Virginia's humid subtropical climate and high annual humidity (60-80% NOAA normals) define which moulds actually find conditions to grow indoors. Mountain humidity, frequent flooding in low-lying valleys, and a historic housing stock all drive mold remediation demand.
The four moulds most commonly found in West Virginia homes, in rough order of prevalence:
The most commonly reported indoor mould in U.S. homes. Typically appears as dark green, brown, or black spots on surfaces. Relatively tolerant of lower humidity compared to other moulds, which is why it shows up essentially everywhere.
- Where it grows: Damp window sills, painted walls in humid rooms, fabric and upholstery, HVAC ductwork.
- Health notes: Common allergen. Associated with asthma exacerbation and rhinitis in sensitised individuals. Generally not considered a systemic health threat to healthy occupants.
A large genus with hundreds of species. Visually variable -- can appear green, yellow, brown, or black. Grows well in warmer indoor temperatures and moderate humidity.
- Where it grows: Dust, HVAC filters, food-storage areas, areas with prior water damage. Some species produce mycotoxins under specific conditions.
- Health notes: Most concerning for immunocompromised individuals, who can develop invasive aspergillosis. Common asthma trigger. Aspergillus fumigatus is particularly associated with respiratory disease.
Commonly appears as blue-green or white furry patches. Fast-growing at moderate humidity and room temperature. Often one of the first moulds to appear after a water event.
- Where it grows: Wallpaper, carpet, insulation, upholstery, food-storage areas, under sinks.
- Health notes: Common allergen. Some species produce mycotoxins. Rarely causes systemic illness in healthy occupants but is a significant asthma and allergy trigger.
The 'black mould' that drives most headline health concerns. Greenish-black, often slimy when wet. Grows on cellulose-rich materials (drywall paper, ceiling tiles, wood) under sustained moisture conditions.
- Where it grows: Areas of long-term water damage: behind drywall after plumbing leaks, in flood-soaked subfloors, in chronically damp basements.
- Health notes: Associated with upper respiratory symptoms and asthma exacerbation. Popular claims of severe systemic illness from residential exposure are not well-supported by rigorous evidence -- but sensitive individuals (asthma, immune compromise) face real risk.
Why humidity is the dominant driver here
West Virginia's humid subtropical climate means outdoor humidity routinely exceeds 70% for months at a time. Air conditioning strips moisture from the air but also creates condensate pathways -- improperly draining AC systems, sweating ductwork, and poorly insulated crawl spaces are the single largest source of indoor mould in humid-subtropical states. Keeping indoor relative humidity under 60% year-round is the single most effective control.
What you can and can't tell by looking
A common misconception is that you can identify which mould you have by colour or texture. You can't -- reliably. Many indoor moulds look black or dark green (including Cladosporium, Alternaria, Stachybotrys, some Aspergillus species), and appearance varies dramatically within a single genus depending on moisture, substrate, and age.
The practical implication: don't spend effort trying to ID the species yourself. EPA's guidance is that visible mould should be cleaned regardless of species, because the cleanup approach is similar. Laboratory identification is useful in specific scenarios (post-remediation verification, insurance documentation, investigating hidden contamination) but rarely changes the near-term action plan.
Tip: The most useful diagnostic signals are SMELL (musty / earthy odour indicates active microbial growth) and MOISTURE MAPPING (a moisture meter shows where materials are wet, which is where mould is growing regardless of species).
When species identification actually matters
A handful of scenarios justify sending samples to a lab:
- Hidden mould suspected (musty smell + symptoms, no visible source). Air sampling can help characterise what's airborne.
- Post-remediation verification -- clearance testing to confirm cleanup succeeded.
- Formal documentation for insurance, real-estate transactions, or legal proceedings.
- Immunocompromised occupants where a physician has specifically recommended species identification.
- Diagnosing whether HVAC contamination is localised or distributed.
Outside these scenarios, species identification is usually a waste of money. The cleanup rules are the same regardless.
Frequently asked questions
Sources & references
- EPA: A Brief Guide to Mold, Moisture, and Your Home — U.S. Environmental Protection Agency
- CDC: Mold and Your Health — U.S. Centers for Disease Control
- NOAA NCEI Climate Normals (1991-2020) — NOAA National Centers for Environmental Information
Browse our directory of mold inspection professionals, or submit a single request and let up to 8 qualified pros in your area respond. No phone-spam, no upsells.
Continue reading
Stachybotrys chartarum — 'black mold' — gets a lot of attention online and in the news. Here's what's actually true, what's myth, when professional remediation is genuinely warranted, and how to make decisions that don't leave you paying thousands for a problem that wasn't really there.
What the medical evidence actually says about mold exposure symptoms, how to tell if your home is making you sick, and when to see a doctor versus an inspector.
Inspection and testing solve different problems. Here's exactly when each is the right call -- and why doing both 'just to be safe' often wastes money.