Anup Malani Describes New System to Map Pollution in India's Second-Longest River

Sensor network to map and predict pollution, effluents in Godavari
Jacob Koshy
The Hindu
July 11, 2017

Using a mix of methods, including satellite-monitoring, traversing stretches of the river to collect water samples and using special sensors to measure bacterial and chemical pollution, the researchers are trying to develop a cost-effective forecast system.

The team’s long-term objective is to be able to inform State officials and citizens of a probable spike in, say, levels of dangerous microbes or effluents, similar to weather and air pollution forecasts. That apart, said Anup Malani, Professor of the University of Chicago Law School, it is to be able to access “raw data” that could be used to inform the efficacy of a proposed faecal sludge treatment plant and whether behavioural interventions — including incentives or punishments — to restrict activities that pollute the river could actually work. “We’ve had debates with town planners who told us that all the pollution gets washed away… Is that true? We need to find out,” Mr. Malani, who is also co-founder of the International Innovation Corps, told The Hindu. “That would help us know whether interventions are needed only up-river or along various stretches.”

The project started eight months ago and has so far identified two “hotspots” of pollution, which Mr. Malani declined to reveal, saying he would first inform the Andhra Pradesh government about them. The sampling exercise, being done along a portion of the 1,400-km river spanning Rajamundhry (East Godavari district) and Kovvur, Narsapur and Palakol (all in West Godavari), measures parameters such as total dissolved salts, nitrate, pH, temperature, turbidity and electrical conductivity. These are relayed to a website called Thoreau, a wireless sensing network maintained at the University of Chicago to map environmental parameters, for analysis. Some river attributes such as microbial levels require to be measured in laboratories, though the team hopes eventually to be able to use low-cost sensors that measure them, too, in real time.

Faculty: 
Anup Malani