Amid unchecked pollution, Savar’s groundwater could become unusable in 10 years

Along the bank of the Karnatali River, a branch of the Dhaleswari cutting through Savar, a stretch of cropland lies beside the highway. Across the fields, a narrow muddy drain carries industrial wastewater toward the river. The water appears unnaturally blue, while the whitish sludge around it is laden with toxic chemicals and microorganisms, reportedly discharged from nearby textile factories before reaching farmland.

About half a kilometre southwest lies Karnapara, a densely populated textile industrial hub and residential neighbourhood. Wastewater flows into the only remaining 20-foot-wide Karnapara canal throughout the day — a steady stream of blackish liquid mixed with industrial discharge. 

Residents say the canal has remained clogged with industrial effluents and household waste for nearly two decades, turning what was once a functioning waterway into a stagnant channel of pollution.

The rivers surrounding Savar — including the Bongshi, Turag, Karnatali, and Dhaleswari — have long suffered from pollution as industrial clusters have expanded along their banks. Landfills and dumping sites have also grown into mound-like hills of waste. 

As a result, environmental pressures have intensified, placing natural resources under increasing strain and gradually rendering them hazardous to human use.

Savar, a rapidly urbanising and industrialising area within Dhaka district, now faces a mounting threat of groundwater contamination. According to the Water Supply and Sewerage Authority (WASA), about 85–86% of the area’s potable water comes from groundwater, making the region heavily dependent on underground aquifers. 

Experts warn this groundwater is particularly vulnerable due to its proximity to industrial zones, waste dumping sites, and poorly managed water systems. A study titled “Groundwater vulnerability assessment in Savar upazila of Dhaka district, Bangladesh — A GIS-based DRASTIC modeling” indicates that around 21% of Savar falls under high vulnerability to contamination, while about 45% is moderately vulnerable.

Home to nearly 23 lakh people, Savar relies largely on groundwater extracted through deep tube wells and submersible pumps. Residents often describe the water as “so clear it reflects like a mirror,” and most households consume it directly for drinking and cooking without filtration. Geologically, the region lies within the Madhupur Tract above the productive Dupi Tila aquifer, which has long provided a reliable source of clean groundwater.

“The aquifer enabled the development of a reliable groundwater-based water supply in this area,” said Mashura Shammi, associate professor at the Department of Environmental Sciences at Jahangirnagar University. 

She warns that if pollution continues unchecked, the groundwater beneath Savar could become heavily contaminated within the next 10–15 years. With most surface water already polluted by industrial chemicals, heavy metals, and other contaminants, groundwater remains the region’s primary source of drinking water.

Contamination occurs where pollution exists

Savar’s industrial growth has helped turn Bangladesh’s garments sector into a multi-billion-dollar success story. Yet as exports expanded, environmental pressure on land and water resources intensified. Experts say groundwater contamination is largely driven by unregulated industrial activity and poor waste management.

“The common cause of groundwater contamination is its connection with polluted surface water and industrial waste dumped in low-lying areas,” said Kazi Matin Uddin Ahmed, professor of geology at the University of Dhaka. “In many cases, contaminants from the surface seep through the soil and eventually reach groundwater.”

Pollutants pass through the vadose zone — the layer between the ground surface and the water table — before entering the aquifer. In some areas, a natural red clay layer near the surface slows contaminant movement, but beneath rivers, this layer is often thin or absent, allowing pollutants to reach groundwater more quickly.

Besides conventional contaminants such as arsenic, iron, and manganese, experts warn of a growing presence of emerging pollutants that do not occur naturally. “Water quality may appear acceptable under standard measurements, but the real concern lies with emerging pollutants such as heavy metals, microorganisms, and chemicals like PFAS,” said Professor Ahmed. These “forever chemicals” persist in the environment and do not break down easily.

Landfill sites are another major pathway of contamination. 

Rainwater percolates through accumulated waste, dissolving heavy metals and organic substances to produce leachate — a dark liquid that seeps into soil and groundwater. Across Savar’s industrial zones — including Hemayetpur, Ashulia, and Zirabo — such pollution has become common. Groundwater tests have already detected industrial pollutants such as chromium, lead, and manganese, indicating growing human influence on water quality.

An area defined by unplanned development

Wastewater from the Savar Tannery Industrial Estate (STIE) flows into the Dhaleswari River, while solid waste from the estate is dumped in a nearby yard, raising concerns about both surface and groundwater pollution. The central effluent treatment plant (CETP), built to process tannery waste, remains only partially operational despite more than Tk500 crore spent over 21 years.

According to the Bangladesh Tanners Association, 163 tanneries are registered at STIE, with 130 operational. During peak months, these factories generate around 45,000 cubic metres of wastewater daily, while the CETP can treat only 25,000 cubic metres. 

“Contamination can spread beyond the immediate discharge zone and potentially affect groundwater,” said Shammi. Over time, contaminants from disposed solid waste, particularly leather scraps, can leach into surrounding soil, increasing chromium pollution risk.

Contamination can spread beyond the immediate discharge zone and potentially affect groundwater.

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Contamination can spread beyond the immediate discharge zone and potentially affect groundwater.