How Farmers Outsmart Satellite Tracking with the 5 PM Burning Trick

Every winter, Delhi-NCR battles a thick, suffocating layer of smog that refuses to lift for weeks. Governments claim the number of farm fires in Punjab and Haryana has dropped, yet the pollution levels in the national capital remain stubbornly severe. This contradiction has puzzled citizens, raised questions about data reliability, and sparked debates about the true extent of stubble-burning across North India.

Recent insights from Indian space scientists and international aerosol researchers reveal a surprising, even clever, explanation: farmers have learned exactly when satellites scan their fields — and they have shifted their burning schedule to avoid detection. The result? Official numbers appear lower, but the pollution on the ground remains just as bad, if not worse.

The Satellite Timing Loophole

India uses satellites from ISRO, NASA, and other agencies to detect biomass burning across agricultural regions. These satellites pass over the northern plains at predictable times every day. According to researchers, the peak scanning window often falls in the late morning to early afternoon, typically between 10 am and 3 pm.

Over the years, farmers have become aware — through agricultural networks, local discussions, and sheer pattern recognition — that fires during these hours attract monitoring, warnings, or penalties. To avoid being caught, they now delay burning until after the satellites complete their pass for the day.

This loophole has become widely known as the “5 pm trick.” Farmers light their fields in the early evening, after the satellites have moved out of range, ensuring the smoke is released but the fire does not show up in official satellite counts. The smoke rises into the atmosphere, travels toward Delhi with evening winds and temperature inversion, and contributes heavily to the night-time pollution spike — but the burning itself may go completely unrecorded.

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Why Official Numbers Do Not Match Pollution Levels

Government agencies repeatedly state that the number of recorded stubble-burning cases has gone down over the years. On paper, this is partly true: detected fires are lower. But the contradiction arises because data capture is incomplete.

If satellite tracking misses a large number of fires due to timing, the official record will naturally suggest improvement. Yet the pollution — which does not lie — tells a different story. This explains why, despite lower “official fires,” Delhi continues to experience hazardous air quality in November every year.

Meteorological patterns offer additional context. Even a few thousand fires can significantly affect Delhi’s air when combined with:

• low wind speed

• temperature inversion

• high moisture content

• trapping of pollutants close to the surface

This environmental setup intensifies the impact of whatever burning does occur — whether detected or undetected.

Evidence That Farmers Are Exploiting the Timing Gap

Space-based fire detection relies heavily on thermal signatures. If fires occur outside scanning windows, they simply vanish from the day’s records. Researchers studying the pattern noticed that the peak burning time has steadily shifted in recent years. Instead of happening in the afternoon, more fires now appear during late evening — long after satellites have passed.

This change is not accidental. Farmers seeking to avoid fines or enforcement actions have found a workaround. They do not see themselves as defying the law, but rather protecting their livelihood under pressure. The lack of affordable, timely alternatives to crop-residue disposal pushes them toward burning — a method that is fast, cheap and effective, even though it is harmful.

2025: Potentially One of the Worst Years in Over a Decade

While official fire numbers may show decline, atmospheric indicators tell another story. Aerosol experts analyzing pollution trends have warned that 2025 could be among the worst years for farm-fire contribution in the past 15 years. The reasons include:

• a prolonged dry spell after the monsoon

• faster harvesting cycles

• increased area under paddy

• more residue generated due to crop hybrid varieties

• persistent lack of residue-management equipment

• and the emerging trend of fire timing manipulation

Aerosol measurements — unlike satellite fire-point counts — capture the real amount of pollution in the air. When these readings remain high, they reveal the true scale of burning regardless of what official numbers indicate.

Why Farmers Continue to Burn Despite Restrictions

Farmers across Punjab and Haryana argue that they remain stuck between environmental laws and economic realities:

• Machines like Happy Seeders are expensive.

• Government subsidies often come late or do not reach all farmers.

• Labour shortages worsen the pressure after harvest season.

• Burning remains the quickest, cheapest method to prepare fields for the next crop.

In many rural communities, enforcement is inconsistent. Some farmers get fined, while others do not. Over time, this inconsistency has encouraged smarter evasion tactics — including the shift to the 5 pm window.

The Monitoring Gap in India’s Tracking System

India’s fire detection relies mainly on:

• twice-daily polar-orbiting satellites

• thermal hotspot identification

• limited night-time coverage

• cloud-cover interruptions

This system has two major weaknesses:

1. Fires that burn for a short time can be missed if not occurring when the satellite is overhead.

2. Evening fires usually escape detection due to fewer passes and weaker thermal signatures after sunset.

Farmers have adapted to these limitations, while the tracking system has not kept pace. More frequent scans or a network of low-altitude monitoring platforms could improve accuracy, but such upgrades require substantial investment.

Why Pollution Still Feels the Same in Delhi

Even if detected fires decrease, real on-ground burning may not. Smoke from evening fires travels quickly toward Delhi due to prevailing northwesterly winds. Coupled with winter weather conditions, this leads to:

• smog trapped overnight

• sharp AQI spikes early morning

• slow dispersion due to lack of sunlight and cold air

Thus, the pollution Delhi experiences is a direct consequence of real fires, not reported fires.

What Needs to Change

To address the gap effectively, India may need:

• More satellite passes per day with evening coverage

• Stronger ground-based monitoring networks

• Cheaper, accessible residue management equipment

• Incentives rather than penalties

• Faster rollout of alternative cropping patterns

• Better forecasting tools to identify pollution spikes

Unless the detection system improves, the gap between official claims and real pollution levels will persist.

Conclusion: A New Challenge in an Old Problem

The “5 pm loophole” shows how closely linked farmer behavior is with technology — and how quickly systems can be adapted to bypass controls. While governments highlight lower fire numbers, scientific data suggests 2025 may be among the worst years for fire-origin pollution.

The solution lies not just in stricter monitoring but also in understanding farmers’ needs, modernizing tools, and closing the loopholes in India’s tracking systems. Otherwise, Delhi-NCR will continue to struggle with the same suffocating smog every winter, regardless of what official numbers claim.