Hallet mine entrance breach

San Jacinto West Fork Reroutes Itself Through Giant Hallett Mine

Correction: This sand pit in this post was sold by Hallett to Riverwalk Porter LLC on January 23, 2024.

The San Jacinto West Fork has become totally blocked by sediment at the Hallett Mine in Porter and rerouted itself through the giant sand mine.

The old river channel has been sealed off by sediment. And the river now enters and exits one of the mine’s largest pits through large breaches in what used to be dikes. See below.

White oval shows location of blockage. Blue line shows old route of river. Red lines show detours through sand pit.

More than Normal Erosion

Rivers always move during floods through erosion. But this represents a far larger than normal amount of movement through a process called pit capture.

The river now runs through the Hallett pit instead of following its normal curving channel.

See photos below.

The loss of the dikes is likely the result of the SJRA releasing 71,000 cubic feet per second from Lake Conroe during the peak of the recent flood. That was the second largest release in the history of the SJRA.

Pictures taken just before the peak of the flood show the river already overtopping the pit’s dike. Dikes like walls that separate the river from the mine’s pits. They keep industrial wastewater out of your drinking water.

Weak Sand Mining Regulations Brought This On

Two other contributing factors are the depth of the pit compared to the river and the width of the dike.

  • The deeper the pit (compared to the river), the less stable the dike.
  • The narrower the dike, the weaker it is.

Until recently, Texas was one of the few states (if not the only one) that had no minimum setbacks of mines from rivers. Bill McCabe of the Lake Houston Area Flood Prevention Initiative was instrumental in lobbying for greater setbacks. The TCEQ adopted them in 2021, but this pit predated the new regulation. And the TCEQ did not enforce the regulation in this case.

In fact, this pit was open on its southern end since January. That breach was already expanding before the recent flood.

Pictures Taken Before and After Flood Show Pit Capture

Pictures taken during and after the flood show the impact.

Pre-peak on West Fork at Hallett Mine
Hallett Mine San Jacinto West Fork on May 3, near peak of recent flood.
Same area photographed on May 11, 2024. Break in dike is circled in red.

Following the river around to the right, you can see how much sand the river laid down. This likely happened when the volume of water moving through the channel decreased as the velocity decreased, allowing suspended sediment to drop out of suspension.

The river which flows right to left, used to flow toward the bottom left. But now it flows into the pit (upper left).
Closer shot showing the river being diverted into pit on the left.

This video shows the height of the sand deposited in the river bed when the river started flowing to the pit instead of following its normal channel.

Video courtesy of a fisherman, Jody Binnion. Listen to his narration.

This shot also gives you some idea of the height of the sand now blocking the river.
Farther upriver but looking downriver, you can see how the river has been diverted. Note how narrow the dike is/was as it approaches the point of failure.
Note the ripples on the water flowing into the pit.
At the far southern end of the pond, the water exits back into the river through this breach that opened up in the January flood.
Between the new entrance and exit from the pond, the Northpark ditch enters the river from Oakhurst and Northpark Woods.

Impacts Associated with Pit Capture

Without a river to remove sand from the confluence with the ditch, more and more sediment will likely build up here.

Academic literature discusses the impact of “pit capture” on:

  • River bed degradation
  • Bank erosion
  • Channel widening
  • Infrastructure damage or destruction
  • Loss of riparian vegetation
  • Habitat damage
  • Degradation of water quality.

In regard to the last point, sand mining also frequently stirs up heavy metals such as lead and cadmium, which have been documented in academic literature. However, I have no evidence that such chemicals are coming from the Hallett Mine.

This river, which now flows through the Hallett pit, flows into Lake Houston. And Lake Houston is the source of drinking water for more than 2 million people.

Posted by Bob Rehak on May 11, 2024

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The thoughts expressed in this post represent opinions on matters of public concern and safety. They are protected by the First Amendment of the US Constitution and the Anti-SLAPP Statute of the Great State of Texas.