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Statistical "Loop-hole" Gives False Impression of Water Abundance

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Bad wells tend to get excluded from studies on groundwater levels, a problem that could skew results everywhere monitoring is used to decide government policies and spending.

Researchers at the University of Waterloo uncovered the problem while examining a discrepancy between scientific data and anecdotal evidence in southern India.


Reports on thousands of wells and satellite images taken between 1996 and 2016 suggested groundwater levels were rising, good news in an area where it is vitally important for agriculture.


At the same time, however, fieldworkers were hearing more stories from farmers about wells running dry, suggesting levels were actually declining.


Researchers solved the apparent paradox by first obtaining census data that backed up the anecdotal evidence. It showed, for example, that more farmers were digging expensive deep wells in the hard-rock aquifer.


“If indeed groundwater levels are going up, why would farmers choose to pay more and dig deeper wells?” asked Nandita Basu, a civil and environmental engineering professor. “It didn’t make sense.”


Researchers then examined the well data and found that those with missing water level data were often excluded from analysis because they were considered unreliable.


When the excluded wells were added back into the mix, the results confirmed the evidence from farmers that groundwater levels were decreasing, not increasing.


“They were systematically picking the wells with a lot of data and potentially ignoring the wells that were going dry because they had incomplete data,” said Tejasvi Hora, an engineering PhD student who led the research.


The culprit was identified as something called ‘survivor bias,’ a statistical phenomenon that results in the exclusion of negative data.


When wells ran dry, there were no water levels to report. That created gaps in reports for those wells, and their incomplete data was then discarded as inferior to the complete data from good wells that hadn’t run dry.


Basu, also a professor of earth and environmental sciences and a member of the Water Institute at Waterloo, said the lesson from southern India is applicable anywhere in the world that groundwater levels are monitored and analyzed.


“Our main point is that bad data is good data,” she said. “When you have wells with a lot of missing data points, that is telling you something important. Take notice of it.”


“Whenever you’re focusing only on complete data, you should take a step back and ask if there is a reason for the incomplete data, a systematic bias in your data source,” Hora said.

Reference
The Groundwater Recovery Paradox in South India. Tejasvi Hora, Veena Srinivasan, Nandita B. Basu. Geophysical Research Letters,  https://doi.org/10.1029/2019GL083525.

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