Iberia Water Works District 3 - Coteau

New Iberia, LA · serves 8,190 · GroundwaterLA1045002

All clear

All monitored contaminants within federal limits. Last updated from the most recent CCR and EPA monitoring data available.

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Violations

No action needed

Minor violations on record, all resolved

5 health violations in last 10 yrs

All clear

PFAS

No action needed

No PFAS detected in this water system

not detected

All clear

Lead

No action needed

Low lead service line risk

12% lead or unknown lines

All clear

Chromium-6

No action needed

Not detected in this water system

not detected

All clear

Lithium

Lithium not detected in this system

Not detected in this water system

not detected

All clear

Measured in your 2025 water report

From your utility's Consumer Confidence Report · 10 contaminants tested

Above limit

Approaching limit

Within limits

Regulated contaminants — legally enforceable limits

Nitrate + Nitrite (as N)▸

0.3 mg/L

No additional information available for this contaminant.

Disinfection byproducts

TCAA▸

2.6 µg/L

What is it?

A haloacetic acid formed during chlorine disinfection of source water containing organic matter. One of five HAAs regulated together as HAA5.

Why it matters

EPA sets the MCLG at 0.02 mg/L based on liver effects observed in animal studies. Classified as suggestive but not yet established as a human carcinogen. Regulated as part of the HAA5 group (60 µg/L).

What to do

Like other HAAs, TCAA is reduced by carbon-block filtration at point-of-use (NSF/ANSI 53 certified for VOCs). Reducing the parent organic load — through utility-side treatment changes — is the more effective approach at scale.

DBAA▸

1.2 µg/L

What is it?

A brominated haloacetic acid formed in chlorinated water with elevated bromide. One of five HAAs regulated together as HAA5.

Why it matters

EPA has not established an individual MCLG for DBAA — there isn't enough data yet to identify a no-effect level. Regulated as part of HAA5 (60 µg/L), since the group is associated with cancer and developmental concerns.

What to do

Reduced by point-of-use carbon-block filtration (NSF/ANSI 53). Source-water treatment is the more effective control.

DCAA▸

1.4 µg/L

What is it?

A haloacetic acid formed when chlorine reacts with natural organic matter during disinfection. One of five HAAs regulated together as HAA5 (limit: 60 µg/L).

Why it matters

EPA classifies DCAA as a likely human carcinogen and sets the MCLG at zero. Animal studies show liver, neurological, and reproductive effects, and developmental concerns have been raised at high prenatal exposures. The HAA5 group limit reflects feasibility, not the MCLG.

What to do

DCAA forms in your utility's treatment process. Point-of-use carbon-block filters certified for VOC reduction (NSF/ANSI 53) can reduce HAAs. Running cold tap water briefly before drinking helps clear water that has sat in pipes where DBPs continue to form.

HAA5▸

5.2 µg/L

What is it?

Another group of disinfection byproducts formed when chlorine reacts with natural organic matter. HAA5 measures the five most common species.

Why it matters

Long-term exposure above the MCL of 60 µg/L (0.060 mg/L) is associated with increased cancer risk. Like THMs, the MCL is based on a running annual average.

What to do

Activated carbon filters can reduce HAA5. If your system consistently approaches the limit, a reverse osmosis filter provides more complete removal.

DBCM▸

2 µg/L

What is it?

A brominated trihalomethane formed when chlorine reacts with bromide-containing organic matter. More common in source waters with higher bromide levels — often coastal or groundwater systems.

Why it matters

EPA sets the MCLG at 0.06 mg/L based on liver and kidney effects. Some evidence suggests DBCM may be carcinogenic, though the data is less clear than for BDCM and bromoform. Regulated together with the other three trihalomethanes under TTHM.

What to do

Like other THMs, DBCM forms in the distribution system as chlorine reacts over time. A point-of-use carbon-block filter (NSF/ANSI 53) reduces it along with related compounds.

Chloroform▸

1.7 µg/L

What is it?

A disinfection byproduct formed when chlorine reacts with naturally occurring organic matter in source water. The most common of the four trihalomethanes.

Why it matters

Long-term exposure has been associated with increased risk of bladder cancer and possibly colorectal cancer. EPA classifies it as a probable human carcinogen and sets an MCLG of 0.07 mg/L based on liver effects. Regulated together with three other trihalomethanes under the TTHM standard (80 µg/L).

What to do

Chloroform levels are largely a function of how your utility manages disinfection. If TTHM is approaching the limit, a carbon-block filter (NSF/ANSI 53 certified for VOCs or specifically for trihalomethanes) at point-of-use reduces it. Letting cold water run for 30 seconds before drinking can also help, since chloroform forms in the distribution system.

BDCM▸

2.5 µg/L

What is it?

A brominated trihalomethane formed when chlorine reacts with organic matter and bromide in source water. One of four trihalomethanes regulated together under TTHM.

Why it matters

EPA classifies BDCM as a probable human carcinogen and sets the MCLG at zero, meaning the agency identifies no safe lifetime exposure level. Studies link it to bladder and colon cancer, and to reproductive and developmental effects at high exposures. The enforceable limit (80 µg/L for total TTHM) reflects what's feasible to achieve, not what's safest.

What to do

BDCM is formed in your utility's system, so reducing it generally means reducing total disinfection byproducts there. At point-of-use, a carbon-block filter certified for VOCs or trihalomethanes (NSF/ANSI 53) reduces BDCM along with other THMs.

TTHM▸

6.2 µg/L

What is it?

Formed when chlorine used to disinfect water reacts with natural organic matter. Includes chloroform, bromoform, and related compounds. The trade-off: disinfection prevents waterborne disease, but creates these byproducts.

Why it matters

Long-term exposure above the MCL of 80 µg/L (0.080 mg/L) is associated with increased cancer risk and possible reproductive effects. The MCL is based on a running annual average, not a single sample.

What to do

If your system is near or above the limit, an activated carbon filter (including pitcher filters like Brita) can reduce THMs. Running water for a minute before drinking also helps, as THMs are volatile and dissipate.

% of limit

Other measurements

These describe characteristics of the water that aren’t health risks at typical levels — mineral content, taste, hardness, and similar.

Iron

▸

0.09 mg/L

(EPA secondary standard: 0.3 mg/L)

CCR data in early access — values are extracted from utility PDFs and may contain errors. Verify with your utility's 2025 CCR report.

Source: IBERIA WATER WORKS DISTRICT 3 - COTEAU Consumer Confidence Report 2025 · Extracted by WaterScore

Measured data

Private Well Risk

Do you have or use a private well? Measured concentrations from nearby private wells sampled within 5 miles.

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4 wells

Water Sources

New Iberia pumps water from four groundwater wells drawing from local groundwater.

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Spatial context

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