Why do the roads turn white?
The white areas are often created by limewash or a similar light-colored agent applied to the roadway. In France, this method is used during heatwaves to protect road surfaces and reduce the effects of softened bitumen.
The light material serves several functions. It reflects sunlight better than dark asphalt, which means the surface heats up less. At the same time, it can partially bind or dry out the sticky, oily components on the surface. This is intended to prevent the asphalt from softening even more in the heat.
Put simply: the road gets a kind of protective layer against the heat. It should become more stable and less sticky.
The science behind it: Bitumen becomes a problem in heat
Bitumen is not a solid stone, but a viscous, black binder. At normal temperatures, it holds the aggregates in the asphalt together. At very high surface temperatures, however, it changes its behavior. It becomes softer, can migrate upward, and forms a thin, smooth layer on the surface.
That is exactly where the problem starts for cycling. A tire needs friction to grip safely in corners, during braking maneuvers, and with quick changes of direction. When the surface is altered by heat, bitumen, or dust, this friction can suddenly decrease.
This is particularly critical for a pro cyclist because the contact patch between tire and road is very small. While a car has four wide tires, a racing bike runs on two narrow tires with minimal contact area. Even small changes in the surface can therefore have major consequences.
Why the white areas can be tricky themselves
Treating the road does not completely solve the problem. It can even create a new uncertainty. Riders do not always know exactly how the white area will feel under the tire.
If it is dry and evenly distributed, it can help. But if the material lies on the surface as a dusty film, it can feel slippery. If it gets damp, its behavior can change again. Transitions between normal asphalt, softened bitumen, and treated sections can also be treacherous.
For the peloton, the unpredictability is especially dangerous. A rider may see only a light patch on a descent or before a corner. Whether that patch is grippy, dusty, greasy, or wet is often only felt at the moment the tire is already on it. Especially in corners, the asphalt can start to shine, causing riders to lose grip if they hit exactly such a half-melted strip.
At 60, 70, or 80 km/h, there is hardly any time to react.
Why the risk is even greater in the peloton
In the Tour de France, the pros rarely ride alone. They move in tight groups, often only a few centimeters apart. If one rider slips on a changed section of road, it can immediately trigger a mass crash.
Such spots are particularly dangerous in corners, roundabouts, town passages, and descents. Lateral forces act on the tires there. Those are precisely the moments when maximum grip is needed. If a changing surface is added, a small loss of grip is enough to make the bike break away.
In addition, modern racing bikes are extremely stiff, light, and fast. The tires have improved, but they cannot defy physics. If friction between rubber and road suddenly drops, even the best equipment can only help to a limited extent.
An inconspicuous detail with a big impact
The white spots on the roads of the Tour de France are therefore neither a coincidence nor a visual oddity. They are a sign that heat and asphalt are already an issue. Organizers and local authorities try to keep the route rideable, but a residual risk remains for the riders.
What hardly stands out to spectators can be decisive in the race. A light streak on the asphalt, a brief loss of grip in a corner, a small correction on the handlebars — and a stage can take a completely different turn.
In the Tour de France, people often talk about mountains, wind, crashes, and tactics. But sometimes something much smaller decides the outcome: the chemistry of a hot road beneath two narrow tires.