LEADWATERWATCH
Lead can enter drinking water primarily through the corrosion of plumbing materials that contain lead. When water travels through old service lines, household pipes, or fixtures made with lead or lead-based solder, the metal can slowly dissolve or break off into the water supply. This happens most often in homes built before 1986, when the use of lead materials in plumbing was still widespread.
Corrosion occurs when the water’s chemistry reacts with metal surfaces. Factors such as pH level, temperature, mineral content, and the presence of disinfectants all influence how aggressively water corrodes pipes. For instance, soft or acidic water tends to dissolve metals more easily, allowing lead particles to leach into the water. Even minor changes in a community’s water source or treatment method can dramatically alter corrosion rates a key lesson learned from the Flint, Michigan crisis.
Lead does not typically enter water from the treatment plant itself. Instead, it’s the last stretch of the distribution system the private plumbing between the water main and the household faucet where contamination happens. This makes lead a localized issue that can vary block by block, even among neighboring homes.
Because lead is colorless, tasteless, and odorless, contamination often goes undetected without proper testing. The only reliable solution is identifying and replacing the lead-containing materials altogether, a process that requires coordination between homeowners, municipalities, and public utilities.
Both lead solder and lead service lines are major sources of contamination, but they differ in where they’re located and how much risk they pose. Lead solder is a metallic compound once used to join sections of copper pipe. Common in homes built before 1986, it’s typically found inside the walls, near joints, and around water heaters. Over time, as water sits stagnant, lead from solder can dissolve and enter the household supply often in small but harmful quantities.
Lead service lines, by contrast, are full-length pipes that connect a home’s internal plumbing to the municipal water main under the street. Because they are made entirely of lead, these pipes can contribute far more contamination than solder joints. Many cities still rely on tens of thousands of such lines, some installed more than a century ago.
Replacing lead solder is relatively simple homeowners can re-pipe sections or update fixtures with modern, lead-free materials. However, replacing service lines is a much larger challenge. It often requires excavation, coordination with the water utility, and thousands of dollars per connection.
Partial replacements, where only part of the lead line is replaced, can actually make contamination worse by disturbing the remaining lead and releasing particles into the water. For that reason, full-service line removal is now considered the only safe and permanent fix.
Schools and homes share a similar vulnerability to lead exposure, but their risk patterns differ. In schools, the issue often arises from aging plumbing systems and prolonged water stagnation. When water sits unused overnight, on weekends, or during long breaks, it has more time to react with lead pipes, solder, and fixtures. Drinking fountains and kitchen taps, frequently connected through long branch lines, are especially prone to contamination.
Testing in schools across the U.S. has revealed that even relatively new buildings can show elevated lead levels due to “lead-free” components that still contain trace amounts. Because children are particularly sensitive to lead’s effects, regular testing and fixture replacement are essential.
In homes, exposure depends on plumbing age, water chemistry, and usage habits. Older neighborhoods, especially those with original service lines, face the greatest risk. Lead can accumulate in stagnant water, especially in low-use taps like guest bathrooms or basements.
Mitigation measures include routine flushing, certified point-of-use filters, and, where possible, replacing suspect lines entirely. Families with infants or pregnant women should be especially cautious, as lead passes easily through the placenta and affects brain development.
LeadWaterWatch encourages both homeowners and school administrators to take a proactive approach testing, tracking results, and sharing data to protect every student and household from invisible yet lasting harm.