2nd Bi-Annual Basin Blitz shows Caltrans renovations help Lake Tahoe

The League to Save Lake Tahoe held its second bi-annual Basin Blitz this spring to assess progress in improving Lake Tahoe’s stormwater infrastructure (pipes, drains and sediment-catching basins). These features flow directly into Lake Tahoe and carry fine sediment pollution from our roads and neighborhoods into the lake, further degrading its clarity.

“Without periodically assessing our stormwater infrastructure, we have no idea how well it is safeguarding Lake Tahoe from pollution,” said Zack Bradford, the natural resource manager for the League to Save Lake Tahoe. “Thanks to the hard work of our citizen-scientist volunteers, we can now quickly take the pulse of these systems and address concerns head-on.”

The event was held during a significant period of spring snowmelt from March 25th to April 5th. More than a dozen League-trained citizen-science volunteers sampled stormwater from 23 pipes around Lake Tahoe and collected a total of 47 water samples. Samples were analyzed by the League’s Natural Resources Team for turbidity, a measure of the cloudiness of the water due to fine sediment pollution.

“I take pride in where I live and I’d like to play a role in maintaining the beauty of our Lake," said volunteer Vesper Rodriguez. "The Basin Blitz is important because it’s a chance to grab a great snapshot of data that looks at the effects of our summer and winter activities on the Lake - and it’s a data opportunity that only comes along twice a year.”

Results of this year’s spring Basin Blitz show that the California Department of Transportation (Caltrans) stormwater infrastructure improvement project at Highway 50 and River Drive (Caltrans installed a Delaware Sand Filter at the site in summer 2018) significantly reduced the amount of fine sediment flowing into the Upper Truckee River and ultimately ending up in Lake Tahoe. Whereas sampling at this site in the past resulted in measurements as high as 4,000 NTU (the center of Lake Tahoe is typically 0.06 NTU), this recent event measured 200 NTU, a significant improvement.

Basin Blitz Turbidity Measurements (NTU) of stormwater at the Upper Truckee River and Highway 50 Pipe

Average turbidity pre-renovation (2012-2017) - 755 NTU

Turbidity in Spring 2017 - 1,350 NTU

Turbidity in Spring 2019 - 200 NTU

Still, more needs to be done to address areas of high concern around Lake Tahoe if communities and agencies want to restore Lake Tahoe’s clarity to historic levels.

“We hope the results of this year’s Basin Blitz will inspire Lake Tahoe agencies to invest in improving inadequate and aging stormwater infrastructure as Caltrans has done,” said Darcie Goodman Collins, Ph.D., CEO of the League, adding that, “our data shows that doing so is one way to reduce pollution and Keep Tahoe Blue.”

Improving stormwater infrastructure now, as increased warming and more extreme weather conditions are expected with climate change, is critical to protecting Lake Tahoe’s clarity in the future.

Helpful Terms:

Turbidity: Turbidity is a measure of the degree to which the water loses its transparency due to the presence of suspended particulates. The murkier water seems, the higher the turbidity. Turbidity is a way to measure of the quality of water.

Nephelometric Turbidity Unit (NTU): A unit of measurement of turbidity. Turbidity measured this way uses an instrument called a turbidimeter with the detector set up to the side of the light beam. Less light reaches the detector if there are lots of small particles scattering the source beam than if there are few.

Delaware Sand Filter: According to Caltrans, this media filter removes fine sediment and particulate pollutants through two concrete-lined vaults. This is done through an initial sedimentation vault and a second filtering vault. Other runoff constituents, such as nutrients, heavy metals, oil and grease, and bacteria and viruses, may also be reduced. Two types of media, sand and pearlite/zeolite, are used. Read more: http://www.dot.ca.gov/hq/env/stormwater/ongoing/pilot_studies/bmps/details/m_filters/index.htm