* Editor’s note: This is the second in a three-part series of articles by the Putah Creek Council to educate residents about a creek restoration project to improve water quality and wildlife habitat in and along Putah Creek.
By Libby Earthman
Water is diverted from Putah Creek for the cities of Vacaville, Fairfield, Suisun City, Benicia and Vallejo via the Putah South Canal. The quality of the untreated water entering drinking water treatment plants can depend on the sediment coming out of Pleasants Creek, a major tributary to Putah Creek just north of Vacaville.
Putah Creek streamkeeper Rich Marovich had trained his eye on Pleasants Creek for years as he watched ranchers lose acres to the hungry, aggressive creek during rain storms.
“I had brought a number of river engineers out to Pleasants Creek to look at the erosion problems,” he said, “and they all scratched their heads and said, ‘This is caused by cumulative effects,’ which meant to me that they didn’t know specifically what was causing the massive erosion, especially since we were seeing a complete re-formation of the creek in a few decades — something that normally takes thousands of years.”
Erosion is a natural process that brings new gravel, cobble and soil into a creek, replenishing what washed downstream in earlier storms. Excessive erosion can put so much fine sediment, or soil, into a creek that the creek flows brown and muddy for days. Water with a lot of soil in it can be challenging to clarify at local drinking water treatment plants.
Scientists can approximate the amount of fine sediment in water with a measure of turbidity, or how murky the water is, on a scale called Nephelometric Turbidity Units (NTUs). In the United States, typical drinking water standards require that treated water cannot exceed one NTU. To get the water this clear, the sediment must be settled and filtered out of the water.
After one massive storm in 2002, Marovich became curious about the fate of all the soil washing downstream from Pleasants Creek.
“I went to the North Bay Water Treatment Facility in Fairfield and asked them if they noticed a change in water quality following the storm,” he said. “An engineer handed me a container full of muddy water that he had saved from when the storm water reached the treatment facility. At 3,200 NTU, it was the highest NTU reading they had seen in 20 years. They brought in retired engineers to keep the plant running.”
During especially large storms in 2006 and 2008, the water in Pleasants Creek carried sediment loads in excess of 4,000 NTUs, and some downstream water treatment facilities along the Putah South Canal are unable to use the water, primarily due to high levels of turbidity.
Several water treatment facilities had to bypass all Putah South Canal (i.e., Putah Creek) water and rely on limited storages of processed water until water quality improved in both Putah Creek and the Putah South Canal.
By comparison, baseline non-storm conditions in both Pleasants Creek and the Putah South Canal are typically under 20 NTUs. Thankfully, the storms have been fairly short in duration. Water reserve tanks have finite capacity.
A study commissioned by the Solano County Water Agency pinpointed the predominant source of sediment headed toward the water treatment facilities: Pleasants Creek. The same storms that caused erosion, which ripped out acres of soil, were delivering the soil to the drinking water treatment facilities for 400,000 water users downstream.
According to the 2010 report, titled “Investigation of Sources of Turbidity, Sediment and Aquatic Vegetation in Putah South Canal,” the increased water demand as cities continue to grow will put pressure on water treatment plants.
“Increasing demand places greater constraints on the water treatment plants’ abilities to bypass turbid water,” the report said. “Some plants, such as the Waterman Treatment Plant, only have the system storage capacity to bypass Putah South Canal water for 24 hours until they need to accommodate less desirable quality water to meet user demands.”
The increase in sediment load also can impact native wildlife in several ways. Sediment can fill the space between gravel particles, cementing it together. This reduces the amount of habitat available for aquatic insects, which fish rely on for food. It also reduces the flow of water to developing eggs and eliminates the small space between large rocks where young fish seek shelter.
Much of the erosion along Pleasants Creek is due to Monticello Dam at Lake Berryessa, a massive dam on Putah Creek about seven miles upstream of Pleasants Creek. The process by which upstream dams cause erosion in downstream tributaries is covered in detail, including a slide presentation, at www.putahcreekcouncil.org/news.
Put another way: The instability of the banks along Pleasants Creek threatens the usability of the water supply secured by Monticello Dam, at least during storms. The unintended cascade of impacts following dam construction has important, and costly, ramifications for decades following the completion of the dam.
Thankfully, the state of California recognizes the important role functioning stream systems play in water supply security and providing wildlife habitat, and invests in projects to address erosion control. One such project is currently underway in Pleasants Creek.
Next week’s article addresses putting nature to work to secure Solano’s drinking water supply. Last week’s article is available at http://tinyurl.com/solanowater2.
— Libby Earthman is executive director of the Putah Creek Council.