By Kathryn Reed

KINGS BEACH – The problem with being able to come up with solutions for how to make the water along the shoreline of Lake Tahoe as pristine as the deep water is that there has been no monitoring done in the shallow areas. This means researchers have no data to study to come up with a cause and then an action plan.

This was the message delivered to the Tahoe Regional Planning Agency board Oct. 23 in Kings Beach. Alan Heyvaert with the Desert Research Institute in Reno presented the report that was created by more than a dozen scientists from DRI, UNR and UC Davis.

“If we don’t have monitoring programs, we can’t say anything in a quantitative sense,” Heyvaert said.

A clam shell, left, and small stringy plants are found Oct. 23 in the water at Regan Beach in South Lake Tahoe. Photo/Kathryn Reed

And without monitoring, there is no baseline from which to establish where scientists will eventually want to get back to in terms of clarity and other measurables.

This is in contrast to the overall clarity of the lake that for decades was first measured with a white dinner plate and now a Secchi disc to see how far down it can be seen with the naked eye. But that all takes place far from shore.

The document – more than 300 pages – is a framework for how to go forward with addressing what is called the near shore. It’s a scientific document, not a policy manual. The TRPA board was there to listen and not take action.

The price tag for the “Yugo model” of the monitoring system could be $400,000 per year.

But some of what is going on with other monitoring programs could be tweaked to satisfy near shore questions. That is going to be looked into. But scientists warn there is no time to waste.

“We are seeing more invasive aquatic plants. We are losing a lot of native macroinvertebrate species that are only found in Lake Tahoe,” Heyvaert said.

The group first looked at the 62 standards related to the near shore that TRPA, Lahontan Regional Water Quality Control Board and Nevada Department of Environmental Protection use. They whittled those to 38 categories deemed relevant or important. From there the study group came up with 10 metrics associated with four indicators. Those are:

• Turbidity is associated with clarity

• Light transmissivity – clarity

• Chlorophyll – clarity and trophic status

• Phytoplankton – trophic status

• Periphyton – trophic status and community structure

• Macrophytes – trophic status and community structure

• Macroinvertebrates – community structure

• Fish and crayfish – community structure

• Toxins – human health

• Pathogens – human health.

Heyvaert explained it is not a good use of time and money to measure the nutrients at the near shore, that it is better to quantify the amount of algae that is eating the nutrients. This way researchers can determine if algae is increasing or decreasing, where this is taking place and at what times of year. Then the causes can be determined and solutions found.

One of the other difficulties with ridding the shoreline of gunk is that the 72 miles are not all the same. Different problems are occurring different places.

The scientists define near shore as from the water’s edge to a minimum of 350 feet from shore and about 69 feet down. The depth is the mid-summer thermocline, or where the warm and cold waters meet.

While there are no definite reasons to why the water along the shore is mucky in places, likely contributors, according to scientists, are aquatic invasive species, pollutants entering the lake from the watershed or groundwater, stormwater, runoff from the developed and undeveloped portions of the surrounding watershed, greater vulnerability to increased temperature from climate change, recreation, existing structures, and fluctuation in lake levels.