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PCB's 101: A Summary of PCBs and the Spokane River

A note from the Spokane Riverkeeper:  A huge thanks to our intern, Amy Shafer, for researching and writing this blog post.  Her introduction to PCBs comes at a crucial time in Washington State for toxins in our waters.  The EPA recently proposed an alternative water quality standard  and Federal Human Health Criteria that is superior to Washington State's draft proposal.  In the State's rule, the allowable cancer risk rate of those who consume fish from Washington State waters is raised from one case of cancer in one million citizens to one case in one hundred thousand citizens.  This has implications for all people who catch and east fish in Washington State, especially those who consume larger amounts of fish, who are very young or are pregnant.  The Spokane Riverkeeper supports the adoption of the proposed EPA rule which calls for the more protective 1:1,000,000 cancer risk rate.   Please comment here or wait and watch our Facebook page and email blasts for the "talking point" highlights from Riverkeeper comments. Most people in the Spokane area are aware that the Spokane River is polluted. But what is it that’s actually polluting and harming the river and the animals in and around it? PCBs are toxic substances that are greatly affecting the Spokane River and pose a risk to human health.

What are they?

PCB stands for Polychlorinated Biphenyls. These are two benzene rings with 1-10 chlorines attached to them. There are 209 different arrangements of chlorine on these structures and these are called cogeners. PCBs are chemicals that come from old electrical equipment and modern day dyes and pigments. They travel via the air and water, becoming attached to sediments and particles in the water of the Spokane River. They move through the food web of aquatic animals and make their way up the food chain to humans who are eating the fish from the River. PCBs were initially developed in 1929 and were used in several types of equipment because they did not break down, burn, or conduct electricity. They were made illegal in 1979 but the laws allowed some uses to continue under allowable levels of toxicity.

Where do they come from?

PCBs were originally used in many things. They were found in transformers, capacitors, lubricants, caulk, paint, lamp ballasts, florescent lighting, and even newsprint. When PCBs were made illegal these stopped being manufactured but those that were already in use were permitted to continue being used. In addition to these legacy manufactures, there are 70 known manufacturing processes that are inadvertently making PCBs that continue to occur because PCBs are made as a byproduct. The most well-known and studied of these processes is the making of dyes and pigments. PCBs have been found to correlate with brighter colors in paints, pigments, inks, and dyes so it is found in most colored papers, cardboard, plastics, and textiles. The PBCs get released into the environment through manufacturing, use, disposal, and recycling processes.

Fig 1. Once PCBs are in the sediment in bodies of water, they are taken up by invertebrates and make their way up the food chain. Image courtesy of: http://www.epa.gov/housatonic/understandingpcbrisks.html#HowPlantsAnimals

PCBs travel through the air until they are eventually deposited onto surfaces where they are then washed away through water and end up in areas like the Spokane River. They don’t dissolve in water and instead attach themselves to mud, organic particles, and sediments at the bottom of the river. The organic particles in the river are then consumed by invertebrates, which are generally at the bottom of the food chain. PCBs are stored in the fat of animals so when that animal gets eaten, all of the PCBs it consumed in its lifetime end up in the predator that ate it. This results in a higher concentration of PCBs in animals’ systems the higher up the food chain one goes. This process is known as bioaccumulation. By the time PCBs reach fish in the Spokane River, the amount of PCB in the tissue is dangerous to consume.

What do they do?

PCBs increase the risk of cancer and other health issues in animals and humans. Studies of people who have been highly exposed to PCBs have shown that PCBs cause skin rashes, immune disorders, liver disease, reproductive disorders, and neurological and behavioral problems, and cancer. While PCBs are dangerous for everyone, there are some people who are especially at risk. People are more likely to come in contact with PCBs if they work around contaminated equipment and materials, work in buildings with PCB materials or florescent light ballasts, or consume fish and seafood from contaminated waters. Small children are more likely to be affected by PCBs as they are still developing and growing and pregnant women who are exposed to high levels of PCB have infants who tend to show neurobehavioral problems. PCBs are stored in fat rather than blood and the human body absorbs it rather than secretes it. Because the body does not remove PCB from its system, the amount of PCB in an individual will increase with age. In 2014 PCBs were reclassified from “probable human carcinogens” to “human carcinogens” by the International Agency for Research of Cancer.

Experiments have been run throughout Washington to find the effects of PCBs on various animals that have been exposed to them. Fish, birds, and mammals such as sea lions, seals, and mink have shown negative effects of exposure to PCBs. They all had reproductive problems, poor muscle coordination, week immune systems, and deformities in their skin and skeletons.

What are we doing about this issue?

The Spokane Riverkeeper mission is to protect and restore the health the Spokane River watershed, and accomplishes that goal through collaborating, educating and when necessary litigating. In 2011 the Spokane Riverkeeper helped create the Toxics Task Force. Its job regarding PCBs is to identify sources of PCBs and reduce the amount of PCBs in the Spokane River. The Task Force is making efforts to consolidate data about PCB sources, transportation, and what becomes of them. They are working on finding the different sources that are involved in dispersal of PCBs through stormwater. They did a massive data collection during dry weather and they intend to do another collection later during a wet season.  The Spokane Toxics Task Force is also trying to identify and reduce PCB production in consumer products where PCBs are a byproduct

Another way we have been trying to bring about change is through political arenas. The Spokane Toxics Task Force has worked for PCB restriction, encouraged purchase of low and non-PCB products for public use, and addressed the need to reduce inadvertently made PCBs. In June of 2014 the City of Spokane enacted an ordinance that had a preference for City purchases to be PCB free. We are also working on public outreach. Measures are being taken to educate the community about what PCBs are and the dangers that they bring about. One example is fish advisories that have also been created by the Washington Department of Health to let people know what fish is safe to eat and where in the river it can be caught from. (see image below).  Additionally, all Washington Waterkeeper's are advocating for the most protective Human Heath Criteria as proposed in the EPA's draft rule.  The Spokane Riverkeeper will be asking people to sign letters, and make comments in support of a very protective rule.  Such a rule will help in the reduction of PCBs entering.

This fish advisory was created by the Washington Department of Health and the image is courtesy of: http://spokaneriver.net/public-guide-2/fish-consumption-advisory-cleanup/

Why should you care?

Being aware of health issues in the community is key to keeping yourself and your family healthy and happy. When you go to swim in the Spokane River you should be sure to wash off hands, feet, face, and toys before eating or leaving. If you eat fish from the Spokane River you should be sure to eat no more than the advised amount set by the Washington Department of Health.

We at Spokane Riverkeeper are doing all that we can to stop pollution of the Spokane River and keep our environment clean. We cannot do this alone though. You can also help your community by donating money or volunteering your time to help us out. The Spokane River clean-up was a huge success this year and we owe that to citizens of Spokane like yourself. Stay informed of what’s going on in your local community and take ownership for the beautiful environment around you. This river belongs to all of us, let’s make it something to be proud of.

Picture courtesy of: http://spokaneriver.net/meet-me-at-the-river-raft-and-kayak-eco-tours/

Our guest author, Amy Shafer, is a senior at Gonzaga University studying biology and political science, with aims to work in environmental policy.  She interns as a our PCB Outreach Coordinator. 

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Our 2015 Mike Chappell River Hero, Andy Dunau

dirty martinis jerry rick andy The Spokane Riverkeeper is thrilled to announce that the 2015 Mike Chappell River Hero Award goes to Andy Dunau.  Although we don't have strict criteria for selecting who receives the River Hero Award, we all agree that it is given to someone whose work helps preserve and protect the Spokane River.    There is no doubt that Andy's work does just this, but before I explain further, I wanted to give a bit of history.

In 2011, the Spokane community lost a real hero when Mike Chappell, then director of Gonzaga’s Environmental Law Clinic and one of the driving forces behind starting Spokane Rivekeeper suddenly passed away.  That year, we held Dirty Martinis for Clean Water a mere few weeks after Mike’s passing and while on stage we announced that starting next year we’d do something to recognize Mike’s legacy of work on Spokane River issues.  Since then, we have honored Russ Nobbs, Steve Faust, and Twa-le Abrahamson.

Andy's tireless work for the river comes from a vision to connect the Spokane River with the city and people of Spokane.  As he puts it, he wants the river to be part of our DNA.  As the river becomes a driving force in our economy, he realizes the importance of connecting people to the river.  He does this through convening people and groups to discuss river issues and creating individual opportunities to make a difference.

andy dedicating launchAndy's love of the river started with an opportunity to create the Spokane River Forum.  His work heading the Spokane River Forum led him to understand that experiences on the river them lead people to love it.  The Spokane River Forum acts as an information clearinghouse, distributing important technical documents, river news, and most importantly, the Spokane Water Trail.  Essentially a "one stop shop" for all things Spokane River, the Spokane Water Trail is an online resource that provides recreationalists information on boat launches and facilities along the Spokane River.  Andy doesn't just sit behind a computer.  Since 2008 he has paddled the entire Spokane River and connected over 700 people to the River through river floats.  He realizes he cannot do it all though and has worked behind the scenes to provide more access to the river, such as under the Division Street Bridge (see photo above).

Among his other accomplishments, Andy lists the increased communication between river advocacy groups and industry.  "I wanted to make it safe to be in a room to talk about river issues" said Andy , alluding to the dialogue that he changed through the Spokane River Forum.  "Mike Chappell taught me a culture of convening diverse groups, not to argue, but to communicate".  Andy offers individuals a way to give back to the river now too.  The Spokane River Forum coordinates volunteer opportunities for litter clean up, tree planting, and restoration days for individuals or groups.

The Spokane Riverkeeper would like to sincerely thank Andy Dunau for all he has done for our river.

 

 

 

 

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Spokane River Temperature Study

The summer of 2015 brought historically hot and dry conditions to the Inland Northwest.  Record low rainfall and record high heat, combined with very low snowpack, caused record low flows on the Spokane River.  We knew little about what these conditions would have on water temperatures in the Spokane River, so we placed continuous water temperature loggers in a few areas of the river.  Due to the complex interaction between the Spokane-Rathdrum Prairie Aquifer and the Spokane River, we expected to see a wide range of water temperatures.  What we found were water temperatures that reflected the complex interaction with our aquifer, upriver temperatures that were too hot for our native Redband Trout, and data that led to many more questions.   First, a bit of Spokane River hydrology. The Spokane River flows out of Lake Coeur d'Alene and over the Post Falls Dam.  The water in this "losing reach" of the Spokane River between Lake Coeur d'Alene and Sullivan Road is slowly seeping into the ground, replenishing our groundwater.  Water temperature in this stretch of the river should be similar to the water temperature at the surface of Lake Coeur d'Alene, plus any warming that occurred in the river.  Ground water also feeds the Spokane River.  The Spokane-Rathdrum Prairie Aquifer, provides cool groundwater to the "gaining reaches" of the Spokane River (see map below), which come in mostly below Sullivan Road.  Water temperatures in and downriver of these gaining reaches should be much cooler than the upriver section of river, depending on the proportion of cool aquifer water in the river.

In late June we saw dead fish and measured very warm temperatures in the Spokane River near Barker Road.  This prompted us to place temperature loggers at five locations along the Spokane River in early July.  Two at losing reaches in the upriver section at Harvard Road and Barker Road and three at gaining reaches at Islands Trailhead, Water Street (downstream from downtown), and TJ Meenach Bridge (see map below). temperature logger locationsOur method was simple, we placed Hobo Tidbits temperature data loggers which we set to record water temperature every 30 minutes in a short PVC tube for shade.  They were then placed in the river at a depth of about two feet.  The logger placed at Water Street was stolen, but the other loggers recorded temperature data from 7/16/15 to 8/20/15.

Water temperatures in the Spokane River varied dramatically between some locations.  The average temperature at Harvard and Barker Road was 23.6 and 23.5 C, respectively, while the temperature downriver at Islands Trailhead and TJ Meenach Bridge was 13.6 and 15.1 C, respectively.  This is a difference of over 8.5 C (15 F).  This difference shows the influence of the aquifer on the down and upriver sections of river.

Data Summary of Spokane River Temperature Gages (summary courtesy of Allan Scholz of EWU)
         Location                Dates (inclusive)                Average temp (C)                   Range of daily average temp (C)      
    Islands Trailhead           July 16 – August 20            13.6                   12.7 (on 8/20) – 15.9 (on 7/20)
        Harvard Rd           July 16 – August 20           23.6                 22.3 (on 7/27) – 24.7(on 8/13)
        TJ Meenach           July 16 – August 20           15.1                14.2 (on 8/20) – 17.1 (on 8/12)
        Barker Rd             July 16 – August 20             23.5                  21.7 (on 7/26) – 25.5 (on 7/20)

Looking at the data graphically, it gets a bit more interesting (see graph below).  The upstream loggers at Harvard and Barker Road showed very similar patterns.  Comparing the upstream loggers to the minimum and maximum air temperatures in Spokane (data courtesy of NWS Spokane), shows that warmer air temperatures translate into warmer water temperatures (no surprise there).  Differences between daily maximum and minimum water temperatures at the upriver loggers were about 5 C, and varied between about 20 C and 27 C.

The two loggers influenced by the aquifer, at Island Trailhead and TJ Meenach Bridge, showed much cooler temperatures, small temperature variation, and seemed to be influenced less by air temperature than by other factors.  Temperatures at these locations varied by about 2 C daily, between approximately 12 and 17 C degrees at Island Trailhead and 14 and 17 C degrees at TJ Meenach Bridge.  Although daily air temperatures do seem to affect water temperatures at these locations, another factor may have an even larger affect.

spokane river temperature graph After 7/23/15 water temperatures at Island Trailhead become much colder than that at TJ Meenach Bridge, having remained similar for the previous week.  This divergence in water temperature correlated with the reduction in flow out of the Post Falls Dam (see flow graph below) from 640 cubic feet/second (cfs) to 500 cfs.  The drop in water temperature at Islands Trailhead could be due to the reduction of warm water flowing over the dam and into the river,  increasing the proportion of the cool aquifer water in the river at Islands Trailhead.  Although this explains the drop in temperature at Islands Trailhead, it does not explain the divergence of water temperatures between Islands Trailhead and TJ Meenach Bridge.  More data will be required to explain why temperature at TJ Meenach remains more or less constant, while flow seems to affect water temperature at Islands Trailhead.

post falls gage 7-18-15 through 8-20-15

Water temperatures in our river affect our native Redband Trout, a fish that needs cool, clean water to survive.  Water temperatures seen this summer in the upper river are much too high for trout (see graph below).  In fact, trout numbers in this stretch of the river are dropping.  Although competition and predation from other fish likely play a role, during some summers water temperatures are much too hot for trout in this section of river.

spokane river temperature graph with redband criteria

Next summer the Spokane Riverkeeper hopes to expand this study.  If we can find funding to purchase more temperature data loggers, we can monitor more sections of the Spokane River, including tributaries.  Our studies will provide long term data in a river system that has complex temperature dynamics, that as far as we know, is not being taken by any one else.

 

 

 

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A Guide to the New Downtown Spokane River Access Point

The new Downtown Spokane River Access Point opens this week.  Located directly under the Division Street Bridge off of the Centennial Trail on the south side of the Spokane River, the launch provides canoers, kayakers, and paddleboarders convenient water access in downtown Spokane. I launched the Riverkeeper canoe there this week for my weekly litter pickup and thought I would give you a quick guide to the Division Street Boat Launch. IMG_2536

The launch provides walk up access to the water on a six foot wide gently sloping gravel path making it easy to launch canoes, kayaks, and paddleboards.  However, vessels without paddles such as inner tubes and small rafts should not be launched here because the upper falls dam is directly downstream of the launch (in fact it is illegal to float west of the Division Street Bridge).  Large rafts and boats cannot be launched here as well.

Parking:   I unloaded my canoe at the Courtyard by Marriott, which is the closest parking lot to the access point.  I checked with the front desk and they are happy to let river users load and unload gear in their parking lot, but do not allow parking for non hotel users.  After unloading, I parked at the metered all day on street parking on Spokane Falls Blvd. and Pine ($1 per 2.5 hours, bring change).  If you are just out for a quick paddle, one hour free parking is located on E. Olive Way, in front of the Marriott.  Alternately, the Convention Center has covered pay parking in its parking garage or you could park in one of the many lots operated by Diamond parking near the River Access.

parking for division street launch3

Using the River Access Point:  I quickly navigated the stairs and ramps down to the River Access lugging our 80 pound canoe.  After that it is an easy walk down to the Spokane River on the graveled ramp.  This year water levels in the Spokane River are very low, creating a perfect low current environment to launch our canoe.  I simply placed the canoe in the water, donned my PFD, and paddled away.  I didn't want to set my canoe down on the rocks at the bottom of the ramp and risk dinging it.  During higher flows or high winds an anchor or rope would be handy to prevent your vessel from drifting away.

division street launch div bridge from water

On the Water Experience:  From the River Access Point, you must paddle upstream (east) to avoid the Upper Falls dam.  However, there are plenty of warning signs so don't worry about getting confused.  Traveling east along the river is a serene, flat water experience, with little current and incredibly clear water.  No rapids exist in this stretch of water, making it an ideal place to paddle.    I saw numerous trout rise and plenty of large sucker fish on the rocky river bottom.  The riverbank along this stretch of the Spokane River is tree lined and somewhat steep, with the views of the Centennial Trail and the occasional office building.  The aquifer feeds this part of the Spokane River, creating remarkably cold and clear water.  I easily paddled up to the No-Li brewery and back in about 2.5 hours, stopping to pick up some litter along the way.

Summary:  The Downtown Spokane River Access Point provides a very easy way for canoers, kayakers, or paddleboarders to get a quick paddle in on a unique stretch of the River.  Opening this stretch of river allows easy access for people working downtown a great lunchtime (or pre/post work) paddle.  From almost anywhere in downtown Spokane you can be on the River in minutes!

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Temperatures in the Spokane River

Yesterday, July 1st, I took some temperatures in the Spokane River and Hangman Creek.  As you can see in the table below, water temperatures in parts of the Spokane River and Hangman Creek are very hot.  In fact, the Spokane River at Barker Road measured 28.3 C (83 F)!  Hangman Creek measured 26.3 C (79 F).

Location
date
time
air temp (C)
water temp (C)
Water Street
7/1/2015
1500
22.2
16.7
TJ Menach
7/1/2015
1430
27.2
17.7
Hangman at 11th Street Bridge
7/1/2015
1445
21.7
26.3
Barker Road
7/1/2015
1530
24
28.3
Plantes Ferry
7/1/2015
1550
17.3

Today, it was reported that Columbia River temperatures at Bonneville dam are the hottest since 1950.  Air temperatures in this area usually peak at the end of June and the beginning of August.  So the area will endure at least another month of warming waters.  And although people have ways of keeping cool, our aquatic life are stuck with these temperatures.  Trout are stressed at 70 F and begin to die at 80 F, temperatures we are already measuring in part of the river.

As you can see, parts of the river are still very cold.  Downriver from Spokane, water temperatures measure between 16 and 18 C (61 and 64 F).  This is due to the influence of our amazing aquifer, which flows into the Spokane River here.  In the map below, the blue area shows where the aquifer flows into our river, cooling it and also providing a bit of extra flow.  gaining and losing reaches

 

With these temperatures anglers should consider "hoot owl fishing" (early morning) to reduce stress on the native trout they catch and release.

 

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How low can it go? A historic year on the Spokane River

This week Dan Partridge of the State Department of Ecology announced that the snowpack in Washington State is at zero percent of normal.  Snowpack feeds our surface waters, slowly melting and flowing into our rivers and reservoirs.  With no snow in the mountains, the flows in our rivers are severely reduced.  The Spokane River is no exception and as a result, flows are at record lows.  The graph below of flows of the Spokane River at Spokane shows past and current flow as a blue line and historical minimum flow as a blue triangle.  For example, on 6/17/15 the Spokane River flowed at just over 1,100 cubic feet per second (cfs).  The historical minimum for June 17th is just under 2,000 cfs.

In other words, we set a new minimum flow today, at almost half of our historical minimum.  spokane river flow and 10 day prediction 6-17-15

These historic lows are about 1/10 of average.  The historical mean on this day is just over 10,000 cfs.  Clearly the lack of snow in the mountains has a dramatic effect on our Spokane River flows.

Other factors influence the flow of the Spokane River other than snow.  The Spokane River flows from Lake Coeur d'Alene, through the Post Falls dam, and interchanges with the Spokane-Rathdrum Prairie Aquifer along the way.  Currently, Avista is releasing 619 cfs out of Lake Coeur d'Alene.  Their FERC (Federal Energy Regulatory Commission) to release 600 cfs from the Post Falls dam. At Spokane, the gauge reads 1120 today.  So the extra 501 cfs (1120-619), comes from our aquifer.

What does this mean for river users?  The whitewater rafting season was cut dramatically short.  Fisheries closures on the Spokane River are a possibility in the Upper River, due to the high temperatures created by the low flows.  Of course, on a positive note, low water levels reveal more garbage for our river litter clean up program to clean up!

Low flows revealed a bike under the Sandifur Bridge.

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The Brown Waters of Hangman

The Spokane Riverkeeper received a flood of notifications last week recently regarding brown, dirty water in Hangman Creek.  Hangman Creek frequently contains turbid, sediment laden water during heavy rains or rain on snow events that cause the creek levels to rise astronomically (in some cases over 1000 cfs in 30 minutes).  What was unique about this pollution event was the lack of a dramatic rise in creek levels (see gage below).  Although the creek bumped up about 90 cfs, this is a tiny blip compared to the increases of 3,000 to 7,000 cfs Hangman frequently experiences.  So what explains the dirty water in the creek? A very muddy Hangman Creek on 5-20-15.

At the confluence of Hangman Creek and the Spokane River.  Hangman Creek is polluting the Spokane River.

 

 

 

 

 

 

 

 

 

 

hangman 5-17-15.gif

Poor farming practices, coupled with thunderstorms on 5/17/15, caused sediment laden dirt to flow from fallowed farmland directly into Hangman Creek and its tributaries.

A quick drive around the Hangman Creek watershed showed just how farming practices cause sediment to flow into our surface waters.  Clear signs of erosion on fallow farmland, such as erosional rills, deeply incised channels, and evidence of dirt on the road were abundant throughout the Mica Creek drainage (see photos below).  Fields farmed in this manner can lose up to 12-20 tons of soil an acre/year!  (To put that in perspective a large dumptruck load of soil weighs about 8 tons).  This erosion is preventable!  Planting a cover crop could reduce the massive amounts of erosion occurring in this area of the Palouse.  Erosion causes soil to be lost forever from this highly productive farmland while choking our surface waters.

The quick flow of surface water cause deeply incised channels.

Erosional rills carry tons of sediment to our creeks.

sediment from erosion on road

Streamside vegetation effectively filters sediment from polluted farmland runoff.  Unfortunately, riparian vegetation is sparse in the Hangman watershed, particularly on the intermittent streams that feed Hangman Creek.  Without riparian buffers along all “waters of the state”, our surface waters will continue to be polluted.

Of course it takes rainfall to cause runoff and locally heavy precipitation delivered ample rainfall to wash sediment into Hangman Creek.  Rain data from the Community Collaborative Rain, Hail, and Snow (CoCoRaHS) gages on 5/17/15 showed moderate rainfall accumulations of up to about 0.5” in Spokane and Whitman Counties.  That probably isn’t enough to explain the dirt in Hangman Creek, even accounting for the terrible farming practices in the watershed.  However, a comment from the CoCoRaHS station in Thornton, WA says:

“The big storm just skirted us last night. Unconfirmed reports of over 3.5" of rain east of Oakesdale, Wa, causing major damage”

If this storm hit unplanted fields that lack any riparian buffers, it would have caused the pollution we saw in Hangman Creek last week.

So what is the solution?  In Washington State it is illegal to pollute our surface waters.  If you see signs of erosion, such as erosional rills or sediment being carried to our surface waters, please report it to Ecology.  In Spokane call (509) 329-3400 to report a potential pollution violation.  Ecology is required to verify and act on these reports, so any reports you make go a long way to correcting pollution in Washington State.

 

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Nitrates Here and There

Recently, I've heard a number of radio stories about nitrate levels in Iowa's Des Moines River.  I began to wonder how they might compare to nitrate levels in our watershed and I thought I would do some investigating. Back in Iowa, the city of Des Moines sued a number of counties upstream due to the high levels of fertilizer in the form of nitrate that is contaminating their drinking water supply and forcing costly removal.  My questions are just how high are nitrate levels in the Des Moines River, how do they compare with local levels of nitrate in Hangman Creek, and what are the possible implications for our watershed?

Nitrate is often applied to farmland as fertilizer.  It comes from other sources as well, such as septic systems and wastewater treatment plants, but most nitrate in surface waters comes from unfiltered runoff from fertilized fields.  In some cases, improper management of dairy manure can cause nitrate contamination in ground water.  Drinking water with high levels of nitrate can cause blue baby syndrome and impact human, particularly infant, health.

How high are the levels of nitrates in the Des Moines River?  They are certainly above the EPA drinking water limit of 10 mg/L.  In fact, they reach up to 16 mg/L, exceeding the safe drinking water limit for many months (see figure below).  It is clear that the Des Moines River is very contaminated with nitrates.

Des Moines River Nitrates

Recently I have been testing Hangman Creek water for nitrate.  The results of this testing reveal that Hangman Creek contains high levels of nitrates as well, at least relative to other Washington creeks and streams, but not as high as levels in the Des Moines River.  The graph below show nitrates in Hangman Creek compared to the Little Spokane River.  Hangman Creek contains 3-4 times more nitrates than the Little Spokane River and some of the highest in the state, according to Ecology data.

Nitrate levels in Hangman Creek are much higher than the Little Spokane River.

Looking at the Hangman watershed, this isn’t very surprising.  The watershed is roughly 50% agricultural and very little is being done to restrict the flow of surface waters and the associated nutrients to Hangman Creek.  In fact, surface waters are often intentionally channeled directly to Hangman Creek (see picture below)!  Sometimes this practice is technically legal, sometimes not, but it always comes at a high cost to water quality and fresh water ecosystems.  Although nitrogen isn’t usually the limiting nutrient in most freshwater ecosystems, it can affect sensitive freshwater ecosystems.

An excavated ditch flowing directly to Hangman Creek.

The Des Moines River, Iowa, contains very high and unhealthy levels of nitrate.  Hangman Creek does not reach these levels, but it does contain some of the highest nitrate levels in the state.  The intensive farming practices in the area, including ditching surface waters directly to the creek, allow nitrogenous fertilizers to runoff into our rivers and lakes.  This concerns us a great deal.

The Spokane Riverkeeper routinely monitors water quality, including nitrates, in Hangman Creek.  Our preliminary data agree with Ecology data and show that Hangman Creek contains high levels of nitrates as it exits the Palouse.  More on these data later...

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Letter to the Governor: A Toxics Shell Game

We have been talking about this for months and can't stress it enough.  The Proposed Human Health Criteria Water Quality Standards fail to protect the health of consumers of locally caught fish and shellfish.  Washington proposed increasing the estimated amount of fish that we eat dramatically.  Raising that amount requires reducing the amount of toxins in those fish (and thereby the environment).  However, instead of proposing to reduce toxins, the Washington State Department of Ecology proposed increasing the acceptable cancer rate based on those toxins.  So in sum, no changes in water quality or fish toxicity would occur!  This shell game with toxins, fish consumption level, and cancer rate does nothing to protect fish consumers or our environment.  In a letter to Ecology, a number of local businesses and nonprofits, such as your Spokane Riverkeeper argue that the proposed criteria are inadequate.  Check it out here: 2015.3.23 NGO and Business Letter re WQS

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In Support of Ecology...

Here at the Spokane Riverkeeper, we work to clean up and bring awareness to nonpoint source pollution.  Nonpoint source pollution, as its name implies, comes from many diffuse sources.  As rain or snowmelt runs over land it picks up pollutants and deposits them in our waters.  Our water quality monitoring program aims to bring attention to and measure theses pollutants in our streams.   On that note, check out how dirty Hangman Creek was this week (3/17/15)!  However, cleaning up nonpoint source pollution falls to a variety of organizations which employ a variety of methods.  The Washington State Department of Ecology (Ecology) is tasked with enforcing the environmental regulations in Washington State.  Recently, we wrote a letter to Ecology, supporting the work they do.  In short we said....

I want you to understand that much of the public that we represent stands with Ecology in their efforts to develop a non-point plan, establish the terms of compliance to this plan and we stand by the regulatory efforts of your ground teams to consistently hold parties accountable in protecting Washington’s public water resources.   

Check out the entire letter: Ecology letter 3-19-15.

Enforcing existing laws provides a strong regulatory backbone which will drive all other pollution control efforts.

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Does Low Snow Equal Low Flow in the Spokane River?

I recently floated a rapidly dropping Spokane River, under bright sunny skies and unusually warm weather.  I didn't catch any fish, but did work on my tan.  Jule floating the river

I wondered if the warm and dry conditions, combined with the lack of snowpack in the mountains and an early spring runoff, would bring about the super low summer flows that would spell disaster for recreationalists and fishermen on the river.  I did a bit of research, and this is what I found....

Below about 1000 cfs (cubic feet/second) the Spokane River becomes unfloatable in anything other than an inner tube. Looking back through the records I found that the summers of 2001, 2003, and 2005 all had flows of less than 600 cfs at some point during the summer, usually in August.  As the graph of spring and summer flows below shows, many of these years had lower than average March snowpacks at Mt. Spokane as well (59, 68, and 24 percent of average, respectively).  In comparison in 2014, Spokane River flows never dipped below 1000 cfs and March snowpack was about 79% of normal.

low flows with 2014

So it seems as if snowpack plays a role in our river levels.  After all, without the snowmelt to feed our rivers, where would the water come from?  But it's not the entire story.  River level also relates to when the snow melts.  Usually, river levels are high (over ~10,000 cfs) from late April and through May.  But when the snow melts early, river levels can get very low during the summer.  This situation occurred in 1994 when early spring runoff in April led to very low flows during all of August, as shown by the graph below. 1994 flowsThis year's snowpack is the lowest on record and most of the snow has already melted from the mountains.  So it seems likely that summer flows will be the lowest ever recorded on Spokane River.    Not only could this affect the people that use our river, it could have huge consequences for the native Redband Trout.  Spawning grounds, typically near the banks of the river, would be left high and dry during spring low flow.

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Washington Deserves Clean Water and Clean Fish!

The Washington State Department of Ecology (Ecology) is proposing an increase the estimated amount of fish eaten per person per day to 175 grams.  That's good news!  Currently, Washington State woefully underestimates fish consumption at 6.5 grams of fish/per day.  fish3_1 Now the bad news.  Along with this rule comes a proposed tenfold increase in the acceptable rate for risk of cancer from one in one million to one in 100,000, as well as providing significantly more time for polluters to meet water quality standards.   This is in part because if you currently eat 175 grams of locally caught fish/day, you exceed greater cancer risk level of one in a million.

Instead of reducing the amount of toxins in our water and fish Ecology has proposed allowing for greater cancer risk. 

fish pipeHigh levels of toxins in fish disproportionally affect children, tribal communities, sport fishers and pregnant women.  These communities eat a higher ratio of local fish or are more vulnerable to risks of eating toxin laden fish.  So tell Ecology that we deserve clean water and clean fish!

 

 

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Riparian Cover on the Little Spokane River

Streamside, or riparian, vegetation performs vital ecosystem functions for our waters.  To name a few, it keeps the water cool in the summer, filters pollutants, provides habitat, and contributes woody debris.   Portions of the Little Spokane River, like this one behind St. Georges School have great riparian habitat.  Healthy riparian habitat consists of a combination of tall mature trees, willows, and aquatic plants. Excellent riparian habitat along the Little Spokane River behind St. George's School.

However, portions of Deadman Creek, a tributary of the Little Spokane River shown below, need major improvements.

Riparian vegetation is absent along Deadman Creek.

A small riparian buffer, like the one shown below, filters out sediments, nutrients, toxins, and bacteria.

A portion of Deadman Creek with grassy riparian habitat.

 

Our native redband trout and other species that depend on our waters need intact riparian habitat.  For one, redband trout need cool waters of less than 20°C (68°F), which are kept cool from overhanging riparian trees and shrubs.

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Water Clarity in Hangman Creek

Jule Schultz, the Spokane Riverkeeper Technical Lead, sampled water near the mouth of both Hangman Creek and California Creek on 2/10/2015 after the heavy rains of the weekend.  California Creek, a small tributary of Hangman Creek, flows from some of the most ecologically intact watershed in the Hangman basin.  Lined with streamside woody vegetation, this stream contains small populations of trout, although it flows through working farmland and forestland in the upper reaches.

The mouth of California Creek.

Hangman Creek from the 11th bridge, flowing at 2,100 cfs on 2/10/15.

Hangman Creek on the other hand has had most of its streamside vegetation ripped out from farming activities.

stream

Comparing the two samples, the results are striking, at least in terms of water clarity (turbidity).  Visibility was 5.9 cm in Hangman Creek and 50.9 cm in California Creek.  Measured scientifically, the results are even greater, with Hangman Creek over 100 times more turbid than California Creek (210 ftu vs 2 ftu).  Trout begin to look for refuge from the dirty water at 30 FTU.  So it seems clear to me why trout would choose to live in California Creek.

California (left) and Hangman (right) Creek water samples.  The difference is clear.

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Polluting Waterways Without Penalty. Native Trout Cannot Live in Mud!

streamBy Jule Shultz, Riverkeeper Technical Lead

A few months ago, while scouting locations for water quality sampling sites, we came across this shallow stream that was recently dredged by a landowner. The ditch, excavated for the purpose of draining agricultural land, flows directly into Hangman Creek bringing with it: • High water flows unfiltered by streamside vegetation • Tons of sediment • Fertilizer • Fecal Coliform (from feces and manure) • And other nasties!

Hangman Creek has been documented as one of the most polluted waterways in Washington State

(WRIA, 2005; Stream Report, 2005).

But why should you care about the health

of Hangman Creek?

  1. Do you like swimming or recreating in the Creek or Spokane River? High levels of fecal coliform in Hangman Creek pose a health hazard to those who come into contact with it. Improving waste water treatment plants and implementing proper animal management practices are key to cleaning the creek.
  2. Do you enjoy fly fishing for native trout? High temperatures in Hangman Creek kill native redband trout and impede their reintroduction. Soil erosion destroys spawning beds and kills the insects that trout need to eat. Streamside shorelines vegetated with trees and shrubs that create a canopy lower water temperatures and provide habitat for insects that trout need to survive.
  3. Do you love the rolling farmland of the Palouse? Poor farmland management washes tons of that dirt, and the associated nutrients, into Hangman Creek every year. This sediment and nutrients fuel toxic algae blooms in Long Lake, creating health warnings and unsightly algal mats. “Direct seed” methods of agriculture could reduce agricultural runoff dramatically.

We sent this photo and others to local regulatory agencies, thinking that surely this must be illegal. Although I’m not a lawyer, I felt there must be some law broken when a stream can just be dredged and straightened. As it turns out, these actions are perfectly legal based on a number of agricultural exemptions to the Clean Water Act

 

As someone who cares about the health of the Spokane River, and who diligently monitors pollution on this stream, this allowable exemption which results in severe pollution in our watersheds is beyond frustrating. Given the lack of regulation on agricultural lands how does one clean up these sources of pollution? Some programs are being implemented, for instance in the Chesapeake Bay and the Great Lakes. However, in many cases these programs rely heavily on incentives, such as through grants and loans for proper pasture management. Relying solely on incentives, without a regulatory backstop, allows bad actors to continue polluting without any penalty.

Locally a number of organizations are working towards cleaning up Hangman Creek. Riparian plantings, land and easement purchases, and implementation of conservation practices all work towards the goal of clean water in Hangman Creek. However, I think the problem is so big in this watershed none of these practices alone will solve it.

So what is the solution? The answer to that will be complex. It will involve providing incentives to implement best management practices, regulation of existing water quality law and education about the value of intact riparian buffers. The Spokane Riverkeeper will be working in the Hangman watershed for years to come. We will be exploring pollution solutions through monitoring water quality, pressing for the enforcement of existing regulations, educating the public and advocating for a swimmable and fishable river.

Despite the legality of the pollution shown above, there are many ways to make a difference on Hangman Creek. Reporting pollution as it is happening, volunteering with one of the many organizations, such as the Spokane Riverkeeper, and supporting your local environmental group all go a long way towards restoring Hangman Creek.

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Developing Future Riverkeepers

Jerry White helps elementary student cast a fly rod

By Spokane Riverkeeper Jerry White

After-school fly fishing & river education camps have finished up at the West Valley Outdoor Learning Center.  These camps happened because of a successful partnership between Hutton Settlement, Inland Northwest Nature Connection, Spokane Riverkeeper , Spokane Valleyfest and Spokane Valley Parks and Recreation.  Additionally, the Spokane River Forum helped us organize the service portion of the project.  Over the course of a week, the students from Hutton settlement learned a bit about river ecology, macro-invertebrates, native trout and invasive species.  They learned how to tie flies, they participated in the Upriver Scrub picking up garbage along the river, and finally caught some fine hatchery trout from the Mirabeau Parkway pond.  These rainbow trout were left in the pond after the kids fishing day during Valleyfest.  The camp kids helped ensure that these trout would not die during the winter, but be caught, cleaned and eaten for dinner by the kids of Hutton.  Thanks to all for a great experience!

Help us continue our work in the community! Please consider purchasing a Spokane Riverkeeper T-shirt for $25. High quality, Alternative Apparel brand, available in 3 colors- Adult sizes only. For each purchase made, Ammonite Ink will donate $11.20 to Spokane Riverkeeper! 

River Of Kings In Years Past, The Spokane River Was Home To Millions Of Salmon, Which Brought Bounty To The Region’s Tribes

THE SPOKESMAN-REVIEW

Everybody knows that salmon once surged through the Spokane River. But not everyone knows that it was, literally, one of the king rivers of the Northwest: 

The Spokane River spawned the biggest of the big salmon, summer chinooks (kings) that were commonly 50 to 80 pounds.

The Spokane River was one of the most productive salmon streams in the entire Columbia system.

The summer fishing camps at Spokane Falls were famous among many tribes, even tribes from far away.

The total number of salmon running up the Spokane probably approached a million annually, of which about 300,000 were harvested by the Spokane tribe and other tribes.

Spokane’s early hotels did a thriving business among Eastern fishermen. The salmon were Spokane’s first major tourist attraction.

And then they were gone.