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Home My WebLink AboutMiscr - From: Bonnie Waltonql�a�&Suzy . Sent: Monday, February 06, 2012 5:48 PM I, To: 'w.watters' Subject: RE: LUA-11-065 Appeal Dear Mr. Watters: Thank you for your email correspondence related to the May Creek Drainage Improvement Project Permit & Variance appeal. This will be made a part of the record and forwarded to Councilmembers and appropriate staff for their consideration as the process moves forward. Sincerely, Bonnie I. Walton City Clerk City of Renton 425-430-6502 From: w.watters mailto:w.watters comcast.net Sent: Monday, February 06, 2012 4:42 PM To: Bonnie Walton Subject: RE: LUA-11-065 Appeal To: Ms. Bonnie Walton Renton City Clerk - RE: LUA-11-065 Appeal of Hearing Examiner's decision It appears that King County is still pursuing the dredging of May Creek without properly addressing the issues brought up by Dr. Patricia Olson, Ecology's Senior Hydrogeologist and others. The State Dept of Ecology denied the necessary permits for this project due to flaws in the studies. King County WLRD has failed to prove that there will be no adverse impacts downstream. This fact is documented in the Hearing Examiner's findings and the DOE letters dated 9-1-2011 and 9-22-2011 entered into the record. Until King County provides additional baseline data and appropriate erosion and flooding studies, they have nothing new to argue that could reverse the department of Ecology or the City of Renton variance -permit denial. I am concerned about potential adverse impacts that this project may cause to May Creek's habitat, its wetlands and downstream properties. Unless the proper studies are done, these impacts could easily exceed the potential benefits that are expected. Please deny the project's permits at this time. Sincerely, Wayde Watters 11608 SE 286th Street Auburn, WA 98092 l?� / -a3-�1 From: Bonnie Walton Sent: Monday, February 06, 2012 8:26 AM To: 'Julie P. Bonwell' Subject: RE: Comments to KC Appeal of Renton's Hearing Examiner's Decision Dear Mr. & Mrs. Bonwell: Thank you for your email correspondence related to the May Creek Drainage Improvement Project Permit & Variance appeal. This will be forwarded to Councilmembers and appropriate staff for their consideration as the process moves forward. Sincerely, Bonnie I. Walton City Clerk City of Renton 425-430-6502 From: Julie P. Bonwell jmailto:jbonwell@lesourd.com1 Sent: Sunday, February 05, 2012 7:54 PM To: Bonnie Walton Subject: Comments to KC Appeal of Renton's Hearing Examiner's Decision City of Renton c/o Ms. Bonnie 1. Walton City Clerk bwalton(&._r_entonwa.gov Re: Comments to King County Appeal of Renton's Hearing Examiner's Decision Councilmembers: Significant concerns raised by citizens (erosion, flooding), the Washington State Department of Ecology, and others regarding the proposed project (May Creek) have not been addressed. Dr. Olson and others in the Department of Ecology believe the county's proposal includes inaccurate data, bad analysis and bad conclusions. Dr. Olson, other Ecology personnel, and the Muckleshoot Department of Fisheries visited the sites at least twice. My husband was home on one of those visits. Has the City of Renton come to see for themselves the erosion we already have downstream (in our reach)? The Department of Ecology is asking the county to respond to their comments and questions. They are requesting a bank erosion model. Our home and bridge are located on the banks of May Creek. The Hearing Examiner recommends that a third party review the additional data and studies required by Ecology. The county's assertion that there will not be downstream impacts cannot be supported by studies based on inaccurate or incomplete data. The potential exists for negative downstream impacts per the scientific review of this proposal. Why is the City of Renton allowing King County to push their problem on the City of Renton and/or its citizens?? When experts (and lay people living creekside) challenge the county's study, it is loud and clear - those discrepancies must be addressed before going forward with any sediment removal from May Creek. The issues must not be ignored. Our homes and bridges are at stake. We respectfully request as citizens of Renton, the Renton Council deny the appeal of the permit and variance the county is seeking from the City. Thank you. Jim and Julie Bonwell 2914 Lyons Avenue Northeast Renton, Washington 98059 z From: Bonnie Walton Sent: Monday, February 06, 2012 8:15 AM To: 'Debra Rogers' Subject: RE: May Creek appeal Dear Ms. Rogers: Thank you for your email correspondence related to the May Creek Drainage Improvement Project Permit & Variance appeal. This will be forwarded to Councilmembers and appropriate staff for their consideration as the process moves forward. Sincerely, Bonnie 1. Walton City Clerk City of Renton 425-430-6502 From: Debra Rogers Lmailto:herogers@wmcast,netl Sent: Saturday, February 04, 2012 10:51 PM To: Bonnie Walton Subject: May Creek appeal To: Ms. Bonnie I. Walton Renton City Clerk bwalton@rentonwa9ov RE: LUA-11-065 Appeal of Hearing Examiner's decision to full Renton City Council *As a point of information ... I am a party of record for the hearing held by the hearing examiner.. -though I did not get notice from the City of Renton. I am writting regarding King County's request to dredge part of May Creek and alter the wetland which is on property that is owned by the neighborhood I live in, Stonegate. I attended the initial King County meeting held in ]an 2010 and I have continued to follow the process that King County has taken in their attempts to get permission to dredge May Creek. I know that the City of Renton has denied the King County's dredge plan twice and that the Department of Ecology (DOE) has also denied the King County plan. I also appreciate concerns that other agencies have stated of this project., I especially appreciate and respect the input that Doctor Olson, Senior Hydrology Specialist with the Department of Ecology (DOE) has given. I have voiced and submitted concerns since May of 2010 of my personal objections which are; I feel that the paperwork and reports that King County has submitted to substantiate the impact of their plan does not adequately cover the concerns that I have for clownsteam erosion and/or flooding, or the effects on the wetland itself, and changes that dredging and mitigation will have on the character of the stream, and the impact these changes will have on the fish and wildlife that live in and off of the creek. I also remain extremely frustrated that the objections of concern by the Department of Ecology and other agencies continue to be ignored by King County though these agencies restate and restate these concerns to King County over and over again. I urge the City of Renton to deny permits to King County for this May Creek Dredge project until ALL denial concerns of the City of Renton and the Department of Ecology and other agencies are ALL addressed with valid certifiable data and not allow King County to continue to side step these important issues in attempts to dredge May Creek. Respectfully, Debra Rogers 5326 NE 22nd Court Renton, WA 98059 �uzzu- /- From: Bonnie Walton Sent: Monday, February 06, 2012 11:25 AM To: 'A. Duffus' Subject: RE: LUA-11-065, V -H, SP Appeal of Hearing Examiners decision dated January 9th, 2012 regarding May Creek Drainage Improvement Project Dear Mr. Duffus: Thank you for your email correspondence related to the May Creek Drainage Improvement Project Permit & Variance appeal. This will be forwarded to Councilmembers and appropriate staff for their consideration as the process moves forward, and will be made a part of the record. Sincerely, Bonnie I. Walton City Clerk City of Renton 425-430-6502 From: A. Duffus[maiIto: blueheron6%RZ@hotmail.coml Sent: Monday, February 06, 2012 11:09 AM To: Bonnie Walton Subject: LUA-11-065, V -H, SP Appeal of Hearing Examiner's decision dated January 9th, 2012 regarding May Creek Drainage Improvement Project Dear Ms. Walton: Please find attached my comment letter and exhibits regarding King County Water & Land Resources Division's appeal to City Council. The three exhibits attached are: ✓ Agenda of a meeting between King County and Washington State Department of Ecology, October 181h, 2011 ✓ A handout from that meeting entitled: "HEC RAS Sediment Transport Model " ✓ Three e-mails exchanges between King County and Ecology dated December 20" & 21512011 and January 6`n, 2012 Thank you, Andrew Duffus 425-255-9405 9605 143`d Avenue'SE Renton, WA 98059-3764 February 5h, 2012 Councilmembers City of Renton Renton City Hall 1055 South Grady Way Renton, WA 98057 VIA: E-mail to Ms. Bonnie 1. Walton, City Clerk RE: LUA-11-065 V -HSP Appeal ofHearinQ Examiner's decision dated January 9th, 1012 regarding May Creek Drainage Improvement Proiect Dear Councilmembers: Attached to this letter is new evidence. This evidence could not reasonably have been available at the time of the hearing before the Examiner, (October 4`h, 201 l) because Washington State Department of Ecology had not prepared nor presented it to King County Water & Land Resources Division. The new evidence is the Agenda and attached handout for an October 18'", 2011 meeting between the State Department of Ecology and King County. The handout is entitled "HEC RAS sediment transport model." Under the handout's subheading, "No discussion on a number of important factors" are fourteen (14) questions from State Ecology questioning King County's modeling methods, assumptions and conclusions. The handout states, "So you have model error compounded on model error plus an unknown error associated with the sediment data collections. Not a high level of confidence." (Emphasis added.) Under the subheading, "Anchor sediment study" are four (4) more questions. In addition, statements in the handout reflect the lack of validity of the modeling and its conclusions, to wit: ➢ "This analysis illustrates that 1 (one) measurement for a long reach is not adequate to evaluate site specific incipient bedload transport which is one piece of information needed for a hazard assessment." (Emphasis added.) ➢ "But more importantly critical shear stress and incipient bedload transport calculation is just one factor in erosion and channel movement." (Emphasis added.) ➢ "Bedload transport is known to be highly unpredictable." (Emphasis added.) ➢ "...sediment transport ... (is) ... influenced ... by magnitude ... and duration,... duration is an important factor to sediment transport and bank erosion." The Ecology handout notes the inadequacy of County's analysis of possible adverse downstream impacts from erosion (sediment transport) to both streambed and stream banks. The handout states, "The data provided by King County does not address any of these." (Emphasis added.) The handout concludes that there are three possible options. The two most important to us, downstream citizen -property owners are: "Collect additional data in reach of contention and add a bank erosion model' (emphasis added) • "Compensate for flood storage by adding equivalent or greater storage." Therefore, this new evidence, (hereto unavailable) is further proof that County has not satisfied the City of Renton's Hearing Examiner's earlier finding that "There is insufficient evidence to establish that the drainage project will not adversely affect downstream properties by increasing erosion." (Final Decision, November Sth, 2011, page 1, line 17,) Nor has County satisfied the Washington Department of Ecology earlier denial of the Section 401 Water Quality Certification for the May Creek Drainage Improvement Project. Ecology stated, "...we have not received all of the documentation needed in order to demonstrate that we have reasonable assurance that the state water quality standards will be met." (Ecology letter September 22"d, 2011) Note, the County first applied to Ecology and United States Army Corps of Engineers for federal and state water quality certification in early 2010. On January 26th, 2010, King County held an interagency meeting with Ecology, the Corps, the Muckleshoot Indian Tribe and others. Yet, to -date, over two years later, the County has been unable to satisfy the requirements of Sections 401 & 404 of the United States Clean Water Act. For this project to proceed King County needs a Critical Areas Ordinance Variance and Special Grade/Fill Permit from the City of Renton. County needs these is so it can create "mitigation" in the relatively undisturbed 3.75 -acre wetland. (Stonegate tract "A") This mitigation is to counter the adverse impacts of dredging May Creek upstream. The reason for the dredging is to allow stormwater to drain more frequently and quickly from the grazed wetland horse pastures located in the upstream natural floodplain. This proposed project will release the stormwater more quickly and at a higher volume than the current rates. The concern is that this will exacerbate the flooding and erosion downstream, thereby impacting riparian habitat, citizens' homes and private bridges King County has not demonstrated that the project will not have an adverse impacts downstream. The contention is homes and sole access private bridges and riparian habitat are at risk if the applicant dredges upstream. The goal of the upstream dredging is to alleviate some of the seasonal storm water ponding in the wetland -floodplain. The purpose is to facilitate addition pasture grazing for horses. It could be said, this is an issue of "homes versus Horses"! Reviewing King County's appeal, I have the following questions, comments and observations: The County says this is a small project. It is not a small project if has unintended consequences that adversely impact downstream. For a relatively short period of the year upstream residents experience temporary seasonal loss of their horse pastures. Every year, downstream residents experience flooding and erosion. Erosion steals our property forever, not just seasonally! We lose are property nermanently,,,t. hardly comparable to the relatively minor inconvenience of temporary seasonal wetness in the horse pastures. The appellant's reference to May Creek and its associated wetlands as a "drain pipe" is a gross insult to this 10,000 -year-old watershed! The County notes, "Valley residents depend on this drain pipe..." Well, we down streamers also depend on this "drain pipe" (a.k.a. 10,000 year old wetland) to do what wetlands are supposed to do. That is, meter out the storm water inundation so that downstream flooding and erosion impacts are not as otherwise severe. However, to parallel the County's despicable "drain pipe" analogy, what happens when you clear a clogged kitchen drain? The volume increases and flows down the kitchen drain faster. This is why we down streamers are concerned, more storm water flowing faster instead of metering out of nature's retention—detention pond, the wetland. The appellant claims that it is not effectively enlarging the "drain pipe". Excuse me; the proposal is to increase the stream channel capacity from 6 cubic feet per second to 50. If that is not an enlargement, what is? The County's appeal states, "Valley residents are no longer allowed by regulations to clean their obstructed "drain pipe," that is May Creek. Well neither are we downstream residents allowed to armor our eroding banks, build berms to alleviate flooding of our homes, or reinforce our sole access bridges. (See Renton City Code Enforcement records regarding the Lyons Avenue NE private bridge, the sole access to four properties.) The County states, "They (upstream residents) are no longer able to restore the lost use of their land caused by sedimentation...." Neither can we downstreamers restore the use of our eroded land as it has washed downstream to Lake Washington. Lost forever!! The appellant claims it has analyzed the proposed project extensively. However, the State of Washington Department of Ecology's senior Hydrogeologist, Dr. Patricia Olson, after field visits and review of said analysis, challenges the County's conclusions. The County lists 12 reports that it contends, "show there are no adverse downstream impacts". The problem is only TWO (2) of'these re oris s ec scall address downstream erosion. None addresses flooding. (See note below regarding May Creek Basin Action Plan.) One of the 12 reports, the "May Creek Erosion Stabilization, Draft Report" describes 24 projects proposed to stabilize the downstream banks, protect riparian habitat, peoples' homes and sole access private bridges. The Erosion Stabilization report not only acknowledges the fact that there is sever erosion and flooding downstream, it recommends 24 projects to address this fact, including, but not limited to, buying out -at -risk properties, rebuilding bridges or developing alternative ingress and egress to the peoples' properties or realigning the May Creek channel. The report contains phrases such as "risk to life and property". Hardly supportive of the County's upstream "drain pipe" clearing proposal if there is exacerbation of the documented erosion and flooding downstream! The appeal states that, Dr. Patricia Olson "has concurred in a separate meeting that our fluvial geomorphologist has applied more superior formulas than exist in the HEC -RAS model." If that is the case, why are the questions contained in the handout entitled "HEC RAS sediment transport model." still outstanding? Why is the County, as of January 2012 "...still working a package specifically for Ecology..." (E-mail attached) The appellant states that it is not the County's position that the erosion threshold is at the lower end of the range of 73 to 230 cfs. However, in the October 4t', 2011 City of Renton Public Hearing, Don Althauser, Managing Engineer of King County W&LRD testified that the threshold of erosion, quote, "ranges between 75 to 200 cfs and we will continue to sample what is real." The County states that there are unique substrate conditions in the Duff-us/Coates reach. Unique or otherwise, that is no reason to blow off the fact that the proposed channel -clearing project may exacerbate an already serious erosion problem. Especially given that Coates' house is poised upon this very bank of the creek and may well be in danger. If this unique substrate has a lower threshold of erosion that needs to be determined and mitigation implemented. The Hearing Examiner contends the County relied on flawed data. Well, it did. How else to explain the Ecology's questions at the October 180, 2011 meeting. Further, why is County still attempting to address those concerns and the concerns expressed in Dr. Olson's memo of August 15`h, 2011? (See e- mails between Ecology and County dated December 20'x' & 21St, 2011 and January 6th, 2012, attached.) As to the City of Renton staff review, it was a routine desk review of the appellant's application. City staff did no field visits nor onsite analysis. Staff did not evaluate downstream erosion and flooding. The city staff "Preliminary Report to the Hearing Examiner" gave bare mention of the fact that the State Department of Ecology had denied King County necessary certification to proceed with the project. There was one reference to the Ecology's decision to deny certification, almost a footnote. A copy of Ecology's denial was not even included as a numbered exhibit in the preliminary report. City staff not only over looked certain facts but also allowed a gap in relevant information. It rested upon the concerned public to highlight this major omission. County infers that various adjacent landowners, in part, caused downstream problems. Has King County factored in the decades of illegal filling and grading and channel realignment in the upper reaches of May Valley? Some of this by the very upstream proponents of this ill-conceived dredging proposal. To verify those historic illegal "modifications" see King County Department of Development and Environmental Services website for the various creek -side properties citations. These historic "modifications" not only impacted the property of fellow unstreamers by forcing storm water flooding from one side of the valley to the other, but the filling and grading sent stormwater more quickly downstream, thereby impacting our homes and bridges. For some real entertainment, read about the self -described "vigilante" who in the heat -the -night drove his track -hoe into May Creek and illegally dredged the stream. (Various local newspapers, August 2001) On the one hand, the appellant argues that there is no evidence that Dr. Patricia Olson memo is the official position of Ecology. But on the other hand, County recently e-mailed Ecology, "...we are still working a package specifically for Ecology..." (E-mail attached) The Hearing Examiner states, "...it is not possible to conclude with any reasonable degree of confidence that downstream properties will not be adversely affected by the project." (Decision on Reconsideration, January 9h, 2012, page 2, line 21,) As a downstream resident, the adverse impact nightmares that I have in my sleep are: 0 What will King County do if the creeks banks blow out? ■ What will County do if Roger Coates' house tumbles into the creek, the Madfai's, or Gary Cole's or the Bonwell's houses are flooded? ■ What will County do if our private potable wells are adversely impacted? ■ What will County do for us if our private bridges collapse? (Note there are eight properties that rely on these private bridges for access. The County infers, in its appeal, that it is only the Duffus/Rollins bridge.) If any of these adverse impacts should occur: ■ What are County's contingency plans? ■ What is the County's budget to rectify? ■ How soon will we, if aggrieved, be made whole? May Valley Wetland #5 at 208 acres, is one of the largest freshwater wetlands in King County. The 3.75 -acres within Renton City Limits that the appellant wants to modify are a relatively undisturbed portion. (Stonegate tract "A") In 2008, King County contracted with Mid -Puget Sound Fisheries Enhancement Group to remove Reed canary grass from 15 feet on either side of the creek in the Stonegate wetland. It does not need to be restored a second time. The only reason for disturbing and altering this wetland again, is as mitigation for the proposal to dredge upstream in an ill-conceived effort to drain horse pastures. The issue boils down to assessing the possibility of adverse impacts downstream. The Renton Hearing Examiner has denied the necessary permit and variance twice, as has Washington State Department of Ecology. Like Ecology, the Hearing Examiner found no proof that there will be not be downstream impacts. The question then, as now remains, has King County addressed all the concerns? The answer is no! Therefore, I respectively ask Renton City Council to support the Examiner's decision to deny the Critical Areas Ordinance Variance and Special Grade/Fill Permit. Thank you. Sincerely, Andrew Duff -us The "May Creek Basin Action Plan" addresses in broad terms overall flooding and erosion in May Creek Basin. The plan is not specific to possible significant adverse impacts downstream of the proposed dredging project. Exhibits: three ✓ Agenda of a meeting between King County and Washington State Department of Ecology, October 18`h, 2011 ✓ Handout from October 18`', 2011 meeting entitled: "HEC RAS Sediment Transport Madel " ✓ Three e-mails exchanges between King County and Ecology dated December 20" & 21s'2011 and January 6`h, 2012 • Transport equation used in HEC RAS model? Results compared from all appropriate equations? Lateral boundaries? Upstream boundary? • HEC RAS requires that upstream sediment loads are specified 'or they can be calculated by the model. Which was done? How do know them if sediment sources and quantities are not determined? What are they based on? • Sediment transport results are strongly dependent on which transport function is selected and energy slope: Was the default based on Manning's n used or the actual slope of the energy grade line? • Did you overwrite the mobility coefficient (varies as to equation used in MPM it is critical shear stress, Ackers is threshold mobility, Wilcock is reference shear stress) with specified variables.based on reference data or data representative of this reach? If so how determined? Theoretical or empirical? • DEC RAS manual emphasizes that transport coefficients represent the central tendencies of the data considered but will not likely reflect the transport of a specific site precisely even if an appropriate transport function is selected. There can be substantial error in sediment transport • HEC RAS requires that upstream sediment loads are specified ore they can be calculated by the model. Which was done? How do know them if sediment sources and quantities are not determined? What are they based on?. • No discussion of error: The conclusion of the HEC RAS model is partial and tentative, because real rivers are not 1D and numerical models are less than perfect expressions of reality. Then you tie that with inadequate sediment data to conduct a hazard related erosion analysis. and there you go. Also you have error from HSPF, HEC RAS hydraulic, HEC RAS sediment and very limited sediment data So you have model error_ compounded on model error plus an unknown error associated with the sediment data collection. Not a high level of confidence. Anchor sediment study • Data collection and monitoring was focused on three stations (cross-sections of the creek) located throughout the project reach at approximately RMs 2.9, 3.4 and 3.6. All sites are downstream of the properties in the upper ravine. What were the criteria used to determine these locations? What was the sampling design? No discussion of sampling error based on techniques. • Station 3 is the more representative but does not provide adequate data to evaluate erosion on a site specific basis. Nevertheless, significantly more bank recession and channel movement occurred at this site than the other 2. We observed that the reach was actively migrating with bank erosion. • The incipient motion calculation was interpolated between 70 cfs and 350 cfs using a simple linear relationship. Not appropriated because it is not a linear relationship as shown by the transport equations. The uncertainty with the data was expressed in the study summary: "It is important to note that there is a fair amount of uncertainty with this value. To illustrate some problems with limited data, looked at potential to initiate bedload, transport bydetermining critical shear stress for 3 additional empirical critical shear stress equations and then used to compare HEC RAS profile data, at different flows.. Channel shear: lb ft -2 from Anchor study Shields Relation Shields Relation . Ashworth and Ferguson (1989) dell d50 d70 d10 d50 d70 Station 1 0.8 1.0 1.9 1.0 1.8 2.4 Station 2 0.5 0.5 0.7 0.6 0.9 1.1 Station 3 1 0.5 0.4 0.6 1 0.6 0.8 0.9 Convert channel shear in lb ft -2 to Channel shear in N m -z N nix Shields Relation . Ashworth and Ferguson (1989) Station dell d50 d70 d10 d50 d70 1 38.304 47.88 90.972 47.88 86.184 114.912 2 23.94 23.94 33.516 28.728 43.092 52.668 3 23.94 1 19.152 28.728 28.728 1 38.304 43.092 3 additional shear stress estimates Hydraulic Radius and Total Shear Stress for High Flow Events (Modeled) from Anchor study Return Shields (0.056) Parker 1990 Miller 1977 d50 d70 d50 d70 (ISO d70 Station 3 25.4 38.1 34.8 36.2 20.4 30.1 Hydraulic Radius and Total Shear Stress for High Flow Events (Modeled) from Anchor study Return Flow in Period Creek (cfs) Rh (ft) Ts (lb/ft2) N m z � range for D� at site 3, 20.4-38.4 N rn" N=S, Potential for initiation (years) Mean i13.6 Annual 0.4 0.7 33.516 Yes within range 2 208 1.2 1.9 90.972 Yes 5 243. 1.4 2.1 100.548 Yes 10 347 1.7 • 2.6 124.488 Yes 20 429 1.9 2.8 134.064 Yes t Cross-section specific BEC -RAS model (from Anchor study) Profile Channel stress [b ft"= Channel stress N to While one reach with obvious bank erosion appears to have similar sediment size distribution to Anchor site 3 (Photo 1 and 2), there are substantial variations among profiles. This analysis illustrates that 1 measurement for a long reach is not adequate to evaluate site specific incipient bedload transport which is one piece of information needed for a hazard assessment. The above simple analysis illustrates the limitations of the 3 point data in evaluating specific sites. But more importantly, critical shear stress and incipient bedload transport calculation is just one factor -in erosion and channel movement Temporal and spatial influence on sediment transport indicate that increased flow event durations such as 7 extra hours per year for a 100 cfs storm 6 hours per year for a 75 cfs storm could be very significant should additional sources of sediment from armor break up, bed mobilization and bank erosion be added. • Bedload transport is known to be highly unpredictable. One reason is time varying passage of upstream sediment causes fluctuations in rate. o The supply of sediment available to be transported is known to be a function of both temporal and spatial variations in entrainment characteristics (cluster, D50 at 24.4-38.4 N m'2 N=5 M, 2 Potential for initiation .. .,, --iii-„ as--si-s:iL= :-�=-'." :1�• i ^{ 01691:': �� •yy-�Lr: Yes-w�ti�inx 7 _ _ t3�6.•"�:.yY.:". 3, v �...,....�.,'r..-�V� _.�..... . .. t..lr... 2756.00 0.08 3.83 No 2746.00 0.09 4.31 No 2741.00 Bridge 2736.00 A09 4.31 No y5 'L.L Ci 57 ,� 2729 1 Yep Yy ,., wi}ltinr�ange , 2440.00 0.03. 1.44 No 1964.00 0.14 6.70 No - l }-. �:�Y_[jasL .«. �. ._, - - - a t .;,. Kv- } -. .1_. �.•A ', .r •t-W.T '`lz,T �I ^1:'_ SL•6.'L"x-� ._:.i� :: 1. uy !«. - _..... ..x00. I � .•..-sT.i•� 72 cfs Yes' 3 L. i�\. C L�.I •_ y ..ii ..f:,r,.LL.li'_�.:. _.--ivi�_C. ?._.T...a. _nl t]•a.. c:��:>:,-• ... :Y. _..''., «.i_.__Y._T..,......... :.....:.TI"' .....: .. .' ., ....:..-. L •� C'.>Li: 2756 0.23 11.0124 No .2746 4.28 13.4064 No 2741 Bridge No 2736 0.29 13.8852 No HI - L:rC'l'.11 YS: l =1, '-5 1.55✓. i.IL y, Y1. F, -_� �- � .�7«� '!, "• 'I �J �- .:•Y.:li ~_w(•�W ._'•4_^:LIL-: 4 : 5M: ��T,y::�.{.i�V.i�.?'i �(�� _ _ �_�_t r"__ ^'_�']_.t:.lC: Y-y'{C �: Aii'.�\}7F� , A♦'i 'S1-c.l�r.-��171�`��''''r�e.7{" i � 1�._ Tl I i .L S. •-•-'..iz..r.. ^ rte[- Ti_.:. a .-t'.{ �= _ _�n.d-- ..,.._._:.axxeco�a F:`•-- _ -M _ ;} 2440 0.07 3.3516 No 1964 0.34 16.2792 No a -x c -`. '� __ «:tS.� i#a�Q4.'_* - .y:S..S .1`_,= r '_5 +� r r ...y. .",. . 'R: a -- =' .-. W- ;;•sI::�T'.::s:.^-..�.'Y . rte? M.L:!= �= is ::i�?ii}:- _ : R:' .1.1 _[S'�L i:L_.-rr<�_ ate__,_.._._..,,'s;;.-s,:r^s':«TS:.�:�J-�Si.-.M.:a....' Reach average 0.55w 26.3 Yes, within range While one reach with obvious bank erosion appears to have similar sediment size distribution to Anchor site 3 (Photo 1 and 2), there are substantial variations among profiles. This analysis illustrates that 1 measurement for a long reach is not adequate to evaluate site specific incipient bedload transport which is one piece of information needed for a hazard assessment. The above simple analysis illustrates the limitations of the 3 point data in evaluating specific sites. But more importantly, critical shear stress and incipient bedload transport calculation is just one factor -in erosion and channel movement Temporal and spatial influence on sediment transport indicate that increased flow event durations such as 7 extra hours per year for a 100 cfs storm 6 hours per year for a 75 cfs storm could be very significant should additional sources of sediment from armor break up, bed mobilization and bank erosion be added. • Bedload transport is known to be highly unpredictable. One reason is time varying passage of upstream sediment causes fluctuations in rate. o The supply of sediment available to be transported is known to be a function of both temporal and spatial variations in entrainment characteristics (cluster, armoring and patches) of the channel bed. In supply limited rivers (as May Creek ravine reach was described), the sudden availability of new sources of bedload from armor break-up, bar mobilization or bank collapse, may become locally important. Such variability is reflected in the high degree of scatter recorded in bedload transport datasets, although it seems particularly pronounced in supply limited humid -temperate streams. Sediment heterogeneity increases variation in bedload transport in time and space within one flow event. 0 1-D models, such as HEC RAS, results represent instantaneous, rather than time - averaged, critical shear stresses. o Equal mobility influences sediment transport in armored beds. ■ This mechanism is most often observed in reaches with'a coarse armor layer in which coarse particles are exposed to the surface that provides them with an increased chance of transport Fine particles are hidden below the surface where their transport probability is diminished. Thus, the preferential exposure of larger particles in the armor layer acts to equalize the mobility of coarse and fine particles and eliminates most of the differences in the mobility of small and large particle sizes. Once the small particle sizes are mobilized they increase entrainment and transport of larger particles. An important element in the process of bedlaad transport is the extent to which local vs. remote sources of supply interact with the sequence of flows to create temporal and spatial variability in transport at a section. o As water levels rise additional sediment sources (armor break up, bars, banks) and recedes (banks) become available. But they also establish connectivity between sediment sources over much longer reaches of channel. o The duration of flow over the critical threshold for transport and where the sediment sources are within the upstream reach strongly influences interaction with sources and connectivity along a reach. Given the above sediment transport characteristics as influenced not only by magnitude of event but also duration, duration is an important factor to sediment transport and bank erosion. The data provided by King County does not address any of these. Banks may erode even if bedload does not move especially where basal erosion is already occurring (Photo 2). Where is the bank erosion model? • Sediment transport occurs in the longitudinal direction AND transverse directions. Both affect bank erosion. HEC RAS cannot predict in transverse direction nor can it model for channel migration - • Bank erosion consists of two interactive physical processes: basal erosion and bank failure. Basal erosion (Photo 2, 3) refers to the fluvial entrainment of bank material (in this case consisting of smaller sediment size) by flow -induced forces that act on the bank surface.. Bank failure occurs due to geotechnical instability (e.g. planar failure, rotational failure, sapping or piping). The rate of bank erosion traditionally is calculated empirically from the geometry of channel fiends, bank material, and flow intensity. Bank failure can occur before bedload . transport is initiated. These modes of failure have distinct characteristics, and an investigation must be conducted to.determine the specific mode of failure because this is often indicative of the underlying problem at a site or in a reach or system of time, and 2] to monitor changes at specific points by repetitive surveys or through the installation of bank pins. The first approach offers the benefit of providing immediate results for average bankline retreat, while the second method provides insight into event- specific bank loss..Because erosion tends to be episodic, periods of 10 years or greater are recommended for aerial photograph time -series analysis as well as bank pin monitoring. . grating Banks also erode during bedload movement es streams. in meandering balance of sediment lload streams. Whether a bank retreats or advances depends at near -bank regions where sediment may come from upstream, bank erosion, and secondary flow. The strength of secondary flow in redirecting bedload transport correlates with the local radius of curvature as well as sinuosity of meandering channels. Flow momentum redistribution causes bed degradation near concave banks and deposition near convex banks. Bed degradation steepens concave banks and deposition stabilizes convex banks. This causes concave banks to retreat as flank erosion occurs, while convex banks a6ance with the build-up of point bars. This process occurs within the reach between Lyons and 143rd Street Bridge. 3 poisible. options: • Collect additional data in reach of contention,and add a bank. erosion model. F.._ • Compensate for flood storage by adding equivalent or greater. storage :: ; ::.:.`: •. :;;_, • York with landowners, not just a meeting or.two, to developa:solution that is amenable' From: Miller, Lindsey(mailto:Lindsey.Miller@kingcounty.gov] Sent: Friday, January 06, 2012 7:52 AM To: Padgett, Rebekah (ECY) Cc: McGraner, Patrick (ECY); Jason Mirro; Stockdale, Erik (ECY); Olson, Patricia (ECY); Chin, Doug; Joshua Monaghan Subject: RE: May Creek Water Quality Samples Rebekah — Below is a link to the package that we submitted to the City of Renton for this project. It contains some of the information that you need, but not all. We are still working a package specifically for Ecology that will contain all the information we submitted to the City plus more. When Doug and I looked at the schedule earlier this week, we determined it would probably take us another two weeks to finish getting this package together for you. http://vour.kingcounty.gov/kcdot/roads/transfer/imillerlMayCreek-RentonReconsiderationPackage.zip Also, please let me know when you have downloaded the City of Renton package so that we can take it off our server. This is only a temporary location. Thanks, Lindsey From: Miller, Lindsey Sent: Wednesday, December 21, 20119:51 AM To: 'Padgett, Rebekah (ECY)'; Chin, Doug; Joshua Monaghan Cc: McGraner, Patrick (ECY); Jason Mirro; Stockdale, Erik (ECY); Olson, Patricia (ECY) Subject: RE: May Creek Water Quality Samples Hi Rebekah — Doug is out of the office over the holidays but I just wanted to reply and give you a quick update. We have been focused on preparing a submittal package for the City of Renton Hearing Reconsideration and that package is being submitted to the City today. The City of Renton package contains a lot of the same documentation needed to address Ecology's comments (including documentation on Long Marsh Creek footbridge backwater affect), but we still have a few more items that we are trying to get together before we send our official response to Ecology. We have also been working with Jay Mirro on ideas for how to incorporate implementation of the agricultural BMPs into this project. We have reached out to DDES for their help on this component of the project, but have not received any feedback from them yet. We visited the ravine during the November storm event and did some additional monitoring. So we have definitely made some progress, but I will let Doug speak to the schedule when he returns to the office. Thank you for your continued assistance on this project! Lindsey Shepherd Miller Environmental Engineer 201 S Jackson St, MIS KSC-TR-0231 Seattle, WA 98104-3856 206.296.3762 (p) 206.296.0565 (f) Lindsey.Miller@k, in eountygov From: Padgett, Rebekah (ECY) [mailto:RPAD461@ECY.WA.G0V] Sent: Tuesday, December 20, 2011 10:40 AM To: Chin, Doug; Joshua Monaghan Cc: Miller, Lindsey; McGraner, Patrick (ECY); Jason Mirro; Stockdale, Erik (ECY); Olson, Patricia (ECY) Subject: RE: May Creek Water Quality Samples Hi Doug and Joshua, We have been out to the site a few times since we last met to take screening level samples up and downstream to get an idea of baseline and are planning to take some additional samples once we get a good rain event or two. At that point we'll have a better idea about what is going on at the site and can share that information with you. Has King County consulted with the King Conservation District to discuss which BMPs may be applicable for specific properties or portions of properties? It would be helpful to hear about any progress on this. Doug, what have you learned from DDES about how BMPs could go into local permits? Has Tracy Drury gained access to the reach downstream to collect additional sediment information? You had mentioned that Jeff Burke was doing a write-up on Long Marsh and would run an analysis for 100cfs and that the County was working on a response to Patricia's e-mail—how is that coming along? Let me know what your timeframe is for getting this information submitted to Ecology. Thank you all for your efforts on this. Best, Rebekah `]�l� 4{,�(�c.U4_-' CRY OF RENTON Jean Rollins �� LL a_G - 2 6 t 2905 Ilwaco Ave NE ,,m, S. FEB 0 6 2012 Renton, WA 98059RECErVED $� February 6, 2012 /�+w CrTY ctERK'sG� �G It; City of Renton Planning &Development Committee RE: King County Appeal of Renton's Hearing Examiner Decision for May Creek Honorable Councilmembers: King County (KC) has completely loss credibility regarding downstream impacts from their proposed project. For almost 2 years, citizens have been asking about erosion to banks. It has now been revealed no bank erosion modeling has ever been done. It is inconceivable after so much -input by scientists and citizens that the County still does not have appropriate erosion studies. KC's Appeal 's finding of facts: 1. Flawed conclusions: Ecology (DOE) clearly documents KC presenting insufficient data -and reaching flawed conclusions. "...outstanding issues remain: baseline data, and sediment transport and data about what will happen downstream." (1) "...flawed in terms of making conclusions based on insufficient information or incorrect data.... {required to provide) an appropriate sediment transport and erosion study (with) independent review..." (2) The need for independent review suggests a low level of confidence in -the KC studies by Ecology. On the Octoberl 8, 2011 meeting of KC with Ecology, Dr. Olson provided a 5 -page handout for a technical discussion on sediment/erosion. (Agenda- 3) Dr. Olson states, "So you have model error compounded on model error plus an unknown error associated with the sediment data collection." (4) On the handout, I have highlighted KC`s flaws that are continuing. (4) The most distressing are that KC has no bank erosion model, data provided does not address ..., not a high level of confidence, only looked at one factor in erosion, and the potential significance of 7 extra hours. Solutions given by Dr. Olson is collect additional data, and add a bank erosion model. Ecology staff meeting notes from the 10-18-2011 meeting between KC and Ecology all support the need for additional data, greater confidence and lack of erosion modeling. Rebekah Padgett, meeting notes record: "No bank erosion model; baseline data is insufficient; need samples in the downstream reach. Need for more data, appropriate modeling and monitoring" (5) Erik Stockdale, meeting notes record: "There are no bank erosion model in any of the models. 7 extra hours can make a difference in sediment transport. Do more detailed sampling; separate bank model; data is not there to address specific assessment. { Get)greater confidence in data. Data is not there to determine which events will cause a problem." (6) 2. Pebble size argument- Irrelevant since the Sediment Transport Study is only one factor in determining erosion pursuant to Dr. Olson's' handout of 10-18-2011. 3. Threshold of erosion argument- Also irrelevant as movement of the streambed (bedload) done in only a few areas is only one factor in determining erosion. Page 4 of Olson's handout, "Banks may erode even if bedload does not move. Where is the bank erosion model?" �A 4. KC arguing errors in interpretation is also irrelevant since there is no bank erosion modeling; factors of erosion have not been studied and the level of confidence is not high. 3. KC argues they have provided extensive evidence to show no adverse impacts downstream. Ecology had all the documents cited in the KC anneal except the 12-14-2011 memo regarding scour chains. This new document begins to suggest a way to study sediment changes in the downstream reach, one of the factors of erosion not yet studied. This is an initial plan alas not the results of a study. Yet with this array of documents, Ecology denied their permits and stated on page 5 of the denial letter "...outstanding issues ...Data about what will happen downstream." Members of Ecology staff (Dr. Patricia Olson, Senior Hydrogeologist, PhD, Erik Stockdale, Unit Supervisor &Wetlands Biologist, Patrick McGraner. Wetlands Biologist) have seen first hand the erosion downstream. In their scientific decision to deny permits, they did not deem erosion impacts from this project to be negligible. King County has not demonstrated to Ecology this proiect will not have downstream impacts, which could negatively affect water quality. Legal- Quotes from Dr. Olson's 8-15 memo are laced throughout Ecology's pre -denial letter of 9-1-11 and in the denial letter itself. The meeting on 10-18-2011 focused on Dr. Olson's input in the form of a handout. Agenda item #4 of the meeting with Ecology and KC on 11-15-2011 is "Discuss 8115111 Olson memo items- scheduled for 90 minutes." (7) Notes of this meeting. Require KC to respond to Dr. Olson's memo, Project will change the sediment delivery process, No sampling between 143`d and 146`h (8) KC knew Dr. Olson's input was important to their permitting process. If not, why on the day that their permits were denied did KC ask for a meeting with Dr. Olson? (9) Dr. Olson refutes the baseline data, the adeauacv of the study, the desijzn ofthe proiect. and the conclusions ofthe proiect. She refutes KC's threshold of erosion, and concludes that there could be potential downstream impacts. This proposal has not met the Citv of Renton's own critical area variance criteria: 5b Public health & safety and welfare are not best served. This project is attempting to drain horse pastures at the detriment of family homes and sole access bridges. Ecology scientists stated in their denial letter that KC does not know what will happen downstream. KC has not sufficiently addressed impacts to downstream flooding and erosion and critical areas of May Creek. PhD Hydrogeologist, Dr. Olson asserts KC's hydraulic analysis is inappropriate, the County's conclusion that this proiect will not further contribute to erosion is incorrect and disagrees that the increase in frequency of smaller floods is insignificant. These unknown issues (erosion, increased frequency of flooding, sediment transport, sediment deposition and changing morphology of May Creek) ieovardize the health, safety and welfare of Renton recidentS jowndrPam 5b5. The proposed action DOES NOT TAKE affirmative and, appropriate measures to minimize and compensate for unavoidable impacts. The scientists at Ecology purport the models used do not adequately address erosion or deposition and hence KC does not know what will happen downstream. Dr. Olson disputes the erosion thresholds, and sediment transport numbers. She Iaments the lack of accurate studies as to where sediment volumes will be transported, downstream sediment deposition, an upstream sediment report, geomorphic analysis and an erosion report. She disagrees with the insignificance of smaller floods to downstream areas.- Ecology states that King County's expertise - should be consulted and recommends the existing transport modeling should have independent review. Since baseline data, sediment studies and erosion studies are inadequate or incorrect and downstream impacts are unknown aanrovriate measures to minimize and compensate for unavoidable impacts are not possible.. In conclusion, KC has yet to perform an erosion study with the appropriate factors according to Ecology. As recently as October BY Ecology has discovered KC needs more detailed sampling and has not done bank erosion modeling. The banks of May Creek are where our at risk homes and bridges sit. Ecologv as recently as November 15 is requesting KC get more -information of this reach, and respond to Dr. Olson's questions and comments. Ecology's and citizens' concerns led Renton's Hearing Examiner twice -to deny KC the needed permits. King County has vet to provide Ecology the - necessary documents to support their claims of no impacts downstream! The burden of proof is on KC for a proposal that addresses all stakeholders' concerns to the satisfaction of the City of Rentop,- Ecoloev and other agencies. I respectfully request the Planning & Development Committee recommend to full Council that this appeal. be denied. Sincerely,, a{��2olli»g Enclosures: Conv of email dated September 22. 2111 from Rebekah Padgett. Ecoloev to Doug Chin King County October 18, 2011 Meeting Agenda with KC and Ecology Dr. Olson's Octoberl8. 2011 meeting handout regarding erosion and attached email confirming Dr. Olson provided this handout October 18. 2011 Meeting Notes taken by Rebekah Padgett. DOE October 18, 2011 meeting Notes Taken by Erik Stockdale, DOE November 15. 2011 Meeting Agenda to discuss Sediment Transport Issues November 15.2011 Meeting Notes taken by Erik Stockdale. DOE Footnotes: (1) "Ecology received King County's responses to the 9/1/11 letter requesting additional information. While some questions were addressed, outstanding issues remain including buffer, baseline date, and sediment transport and data about what will happen downstream." (Ecology 9-22 Page 5) (2) King County... has well qualified fluvial geomorphologists and geologists on staff; however, it does not apvear that they were consulted for evaluating the sediment transport study. baseline aeoloev and historic channel form and geomorphic processes that created the current conditions, the downstream channel response including migration to changes in flow and sediment regimes. The studies upon which the vrovosal is based appear to be flawed in terms of making conclusions based on insufficient information or incorrect data. Kine Countv should utilize its geologic and aeomorohic expertise and further evaluate adding samvling points and designing an appropriate sediment transport and erosion study." Additionally the existing transport modeling should have independent review because not all sediment transport models avvly everywhere." .(Ecology 9-1 Pace 5-6) Note: I have referenced documents in the Hearing Examiner record. In addition, I have provided new evidence that. "could not reasonably have been available at the time of the hearing before the examiner" since the documents are dated after the hearing date. All these new documents show KC has vet to.provide to Ecology the necessary documents to support their claims of no impacts downstream. Please note KC provided documents dated after the initial hearing date. New documents: (3)October 18. 20 11 Meetine Aizenda with KC and Ecoloev (4)Dr. O1son's October 18, 2011 meeting handout regarding erosion and attached email confirmed Dr. Olson provided this handout (5)October 18, 2011 meeting notes taken by Rebekah Padgett, DOE (6) October 1.8.201.1 meetinr! notes Taken by Erik Stockdale. DOE (7)November15, 2011 Meeting Agenda to discuss Sediment Transport Issues (8) November 15,.2011 meetine notes taken by Erik Stockdale. DOE (9) Copy of email dated September 22, 2111 from Rebekah Padgett, Ecology to Doug Chin, King Countv May Creek Drainage Improvement Project # 3 October 18, -2011. 'Agenda: Time Topic Who 1:00 —1:10 -PM Welcome Doug Chln,.King County & Introductions All 1:10 2:40 PM Technical Discussion Facilitated by Rebekah Padgett, WA Department of Ecology o Sediment [Pa#ricia_Olson,-Ecolog o Buffers Patrick McGraner Ecolo a 2:40 —.3:00 PM Next Steps Rebekah, Doug, All 3:00 PM Adjoum tAS sediment transport model scussfon.on a.number_of important fattors3 #I • Transport equation used in HEC RAS model? Results compared from all appropriate equations? Lateral boundaries? Upstream boundary? • HEC RAS requires that upstream sediment loads are specified 'or they can be calculated by the model. Which was done? Haw do:knoi+v them, if sediment sources and quantities uar�_not determined? What are they based on? • Sediment transport results are strongly dependent on which transport function is selected and energy slope. Was the default based on Mannings n used or the actual slope of the energy grade line? • Did you overwrite the mobility coefficient (varies as to equation used in MPM it is critical shear stress, Ackers is threshold mobility, Wilcock is reference shear stress) with specified variables.based on reference data or data representative of this reach? If so how determined? Theoretical or empirical? • T IEC RAS manual emphasizes that transport coefficients represent the central tendencies of the data considered but will not likely reflect the transport of a specific site precisely even if an appropriate transport function is selected. There_Wa be substantial error -in sediment transport, • HEC RAS requires that upstream sediment loads are specified ore they can be calculated by the model. Which was done? How do know them if sediment sources and quantities are not determined? What are they based on?. • No discussion of error. The conclusion of the HEC RAS model is partial and tentative, because real rivers are not 1D and numerical models are less than perfect expressions of reality. Then you tie that with Lnadequate sediment data to conduct a hazard related erosion analysis and there you go. Also you have error from HSPF,.HEC_RAS.hydraulic, HEC:RAS:se xr ent and -very -limited. sediment -data. So you have model -error. compounded:on.model error -plus. an.unlmown,error.associated with the sediment data collection. Not a:hlgh:level:of confidence. Anchor sediment study • Data collection and monitoring was focused on three stations (cross-sections of the creek) located throughout the project reach at approximately RMs 2.9, 3.4 and 3.6. All sites are downstream of the properties in the upper ravine. What were the criteria used to determine these locations? What was the sampling design? No discussion of sampling error based on techniques. • Station 3 is the more representative but does not provide adequate data to evaluate erosion on a site specific basis. Nevertheless, significantly more bank recession and channel movement occurred at this site than the other 2.cWe observed.that the.reach was=ac�hvely,migrating=with:bank erosion • The incipient motion calculation was`.interpolated- etween=70--ds.and.350:cfs using a simple linear relationship. cN_QLapprQpdatgd because it is not a linear relationship as shown by the transport equations. The uncertainty with the data was expressed in the study summary: "It is important to note that there is a fair amount of uncertainty with this value. To illustrate some problems with limited data, looked at potential to initiate bedlbad transport by'determining critical shear stress for 3 additional empirical critical shear stress equations and then used to compare HEC RAS profile data. at different flows.. Channel sheau ;`lb it -2 from Anchor study Shields Relation Shields Relation . Ashworth and Ferguson i 1989 dell d50 d70 d10 d50 d70 Station 1 0.8 1.0 1.9 1.0 1.8 2.4 Station 2 0.5 0.5 0.7 0.6 0.9 1.1 Station 3 0.5 10.4 0.6 0.6 0.8 10.9 Convert channel shear in lb ft -2 to Channel shear in N m -z N re Shields Relation . Ashworth and Ferguson (1989) Station defF d50 d70 d10 dS0 d70 1 38.304 47.88 90.972 47.88 86.184 114.912 2 23.94 23.94 33.516 28.728 43.092 52.668 3 23.94 19.152 128.728 1 28.728 1 38.304 43.092 3 additional shear stress estimates Shields (0.QS6) Parker 1990 Miller 1977 d5a d70 d50 1 d70 d50 d7o Station 3 25.4 38.1 134.8 36.2 20.4 130.1 WdrauHe Radius and Total Shear Stress far Nigh Maw events IMndekadl firm enrhnr ehufw Return Flow in - _ Period Creels (cfs) Rh (ft) Ts (1b/ft2) N nf2 range f°r D50 at site 3, 20.438.4 N (years) of ' N=S, Potential for initiation Mean Annual 13.6 0.4 0.7 33.516 Yes within range 2 208 1.2 1.9 90.972 Yes 5 243. 1.4 2.1 100.5 Yes 10 347 1.7- 2.6 124.488 Yes 20 429 1.9 2.8 134.064 Yes Cross-section specific HEC -RAS model (from Anchor study) Profile Channel stress ib ft' Channel stress N D50at 20.4-38.4 N m: N-5 m 2 Potential for Initiation ^'-*L•.; :•—y .ii r".Nils Izt� Y 8yam .,a 9.._ �'17� —_�1- ? 1q'slR ta.}. �•• I4{�4! :?. 2756.00 0.08 3.83 • No 2746.00 0.09 4.31 No 2741.00 Bridge 2736.00 '0.09 4.31 No yyyy'� s -. Z buy _�:�lLL ��y��1(�i�I� .cy�s3s'�r•Y - % .M1Cni'3j Yrt�ui-' ��j _.��..-i� � }�S��J� {,�%Vti- _H,L. 2440.0 0.03 • 1,44 No 1964.00 0.14 6.70 No C1�- ..r - �. � �1�}�T��y4��''sr� l,tn .1�4�.. _.. t_L�ti��t'`��tl�-Yri.FiatCv:OM 72 cfs ,1 ant _ �-. .. _.ci '.♦ - Yf �l.:rsJ � @IC � -_ v>`. �'si� .._ �m . �+P'��E7��•HSa`_ci - fi_ .v_a.�y .rte �} vs, _.irrt�, __ r'a. "��;.,G•-�7,'i�Y•i.�:'�� -Rcic'_s .:a ij^'Lx�'u _ _ .-.••.• — t�� a• L:Y2-n3uii�iSlL.tIS rtin i. i; 'd"3..:�._nt , 4`ry 2756 0.23 1.1.0124 No 2746 0.28 13,4064 No 2741 Bridge No 2736 0.29 13.8852 No - •- E y - 4` M �'>w�ys�rl , .I.a�,,m'��iiM1Y'A�a'l•� is n:+r}7�S:}t.kY%s M�+m 2440 0.07 3.3516 No 1964 0,34 16.2792 No k''-"ivi ak 'id. .1a.- i. ai. 15 s ' z .�,ys - 3w� •� i ` i* ..XY ..'b°�1�c�`+r4�-b.�1:' MEN rli i r* Tsa ije_ 'r' Hd� ME Reach average 0.55 26.3 Yes, within range While one reach with obvious bank erosion appears to have similar sediment size distribution to Anchor site 3 (Photo 1 and 2), there are substantial variations among proi3les. This analysis illustrates that 1 measurement for a long reach is not adequate to evaluate site specific incipient bedload transport which is one piece of information needed for a hazard assessment The above simple analysis illustrates the limitations of the 3 point data In evaluating specific sites. But more Importantly, critical shear stress and Incipient bedload transport calculation is lust:ane:factor-.In-erosion:and:channel-movement- Temporal and spatial influence on sediment transport Indicate that increased flow event durations such as 7 extra hours per year for a 400 cfs storm 6 hours per year for a 7S cfs storm ccould-be-very_s1iji ficannl should additional sources of sediment from armor break up, bed mobilization and bank erosion be added • Sedload transport is known to be highly unpredictable. One reason is time varying passage of upstream sediment causes fluctuations in rate. o The supply of sediment available to be transported is known to be a function of both temporal and spatial variations in entrainment characteristics (cluster, armoring and patches) of the channel bed. In supply limited rivers (as May Creek ravine reach was described), the sudden availability of new sources ofbedload from armor break-up, bar mobilization or bank collapse, may become locally Important Such variability is reflected in the high degree of scatter recorded in bedload transport datasets, although it seems particularly pronounced in supply limited humid -temperate streams. • Sediment heterogeneity increases variation in bedload transport in time and space within one flow event. 0 1-D models, such as HEC RAS, results represent instantaneous, rather than time - averaged, critical shear stresses. o Equal mobility influences sediment transport in armored beds. ■ This mechanism Is most often observed in reaches with a coarse armor layer in which coarse particles are exposed to the surface that provides them with an increased chance of transport. Fine particles are hidden below the surface where their transport probability is diminished. Thus, the preferential exposure of larger particles in the armor layer acts to equalize the mobility of coarse and fine particles and eliminates most of the differences in the mobility of small and large particle sizes. Once the small particle sizes are mobilized they increase entrainment and transport of larger particles. • An important element in the process of bedload transport Is the extent to which local vs. remote sources of supply interact with the sequence of flows to create temporal and spatial variability in transport at a section. o As water levels rise additional sediment sources (armor break up, bars, banks) and recedes (banks) become available. But they also establish connectivity between sediment sources over much longer reaches of channel. o The duration of flow over the critical threshold for transport and where the sediment sources are within the upstream reach strongly influences interaction with sources and connectivity along a reach. • Given the above sediment transport characteristics as influenced not only by magnitude of event but also duration, duration is an important factor to sediment transport and bank erosion�The:data:provided�by-King-County does not address.ahy of.these. CBanks__Y Ay erode_—eve n.if.hie- dload:does aot:mpve esp"Ily where basal erosion is already occurring (photo 2).LWhere is #lie. -ir–osioa.niddei? • Sediment transport occurs in the longitudinal direction AND transverse directions. Both affect bank erosion. HEC RAS cannot predict in transverse direction nor can it model for channel migration - • Bank erosion consists of two interactive physical processes: basal erosion and bank failure. Basai:erosion=(Photo 2, 3) refers to the fluvial entrainment of bank material (in this case consisting of smaller sediment size) by flow -induced forces that act on the bank surface..-falluMoccurs due to geotechnical Instability (e.g. planar failure, rotational failure, sapping or piping). i The rate of bank erosion traditionally is calculated empirically from the geometry of channel bends, bank material, and flow intensity.Hank•failure can.occur_before_bedload . transportt s initiated. These modes of failure have distinct characteristics, and an investigation must be conducted to -determine the specific mode of failure Because this is often indicative of the underlying problem at a site edttve urvice s o through the installation oof bank pins. or system of time, and 2) to monitor changes at specific points by rep Y The first approach offers the benefit of providing immediate results for average bankline retreat, while the second method provides insight into event -specific bank loss.. Because erosion tends to be episodic, periods of 10 years or greater are recommended for aerial photograph time -series analysis as well as bank pin monitoring. Banks also erode during bedload movement especially in meandering or migrating streams. Whether a bank retreats or advances depends on the balance of sediment load at near -bank regions where sediment may come from upstream, bank erosion, and secondary Sow. The strength of secondary flow in redirecting bedload transport correlates with the local radius of curvature as well as sinuosity of meandering channels. Flow momentum_redistribution causes bed degradation near concave banks and deposition near cofivek� anks. Bed banks. This causes ticoncaon vebens anks to retreat as bank and deposition stabilizes cone erosion occurs, while convex banks ad4ance with the build-up of point bars. tThim process:occurs within_the.reach_between Lyons and_>r43 gtxeet:Bridge:� �+cC- Clarification about the source of the a i ocument (attached; first paoe, first line is `LHEC-RAS sediment transport_ model"). This was distributed by Dr., -Patricia, Olson at th 1e� 0118111 meeting with King County staff -I If you determine.that you would like anvthino further, please contact both Sallv Perkins and mvseif. Thank you, Rahakah From: Padgett, Rebekah (ECY) .Sent: Monday. January 30, 2012 9:32 AM Kay Creek Drainage �r:rro�;e�:r:eProject October 18. 2011 Agenda: Time Topic who 1:00-- 1:10 PM Welcome Doug Chin, King County 3Introductions All 1:10 -- 2:40 PM Technical Discussion Facilitated by. Rebekah Padgett, WA Department of Ecology 1 Ar f f00J r r! - f o Sediment- Patricia Olean, Ecology '5 o Buffers ' ' "7-4 Next Steps w Patrick McGraner, Ecology 2:40 '-- 3:00 PM `" Rebekah, Doug, All 3:00 PM Adjourn w uv v c. p •.--.-,� .- - t , _fir! .�" /� - iC �� LSCS i F+�••"�' - Mnle- L� I L QI t p ,.. rt .. s.`: � : � s - �"f �'t �� rr'a-e- � � � w' � r..+� w a+•... (e1` I' ;+ y s . l... -h, : r/ 54 -AY i=vc....tr �a J L r^tivK- 7 44- - S .{: c `L�+— i �O Si� y /•' a A� a.1� a 1�. r. f' ;,-c-�-t-�s s ....--r r� a �Gc- -�+-.� cs�-hr��:.-e = �- d�rr �.. r. � �•�.-�._ ..� �.-• crs � o� i./ s_ Svc-n..-� . n � -�--r S'; -�G --�o Lo �-•- S: �c -�-- `�� f. �r v� �� ,►-• G a•-4[ � � +a.`fi' • 'Fig- �j r n L. 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May Creek Drainage Improvement Project Date: Tuesday, November 15, 2411 Time: 10:30 12:30 p.m. Location: Room 3J Attendees: Don Althauser, Jeff Burkey, Julia Turney, Tracy Drury by phone, Patricia Olson, Eric Stockdale Purpose: Discuss Sediment 'Fransport issues ■■r rrrrrrrrrrrrrrsrrrrrrrrrrrrrararrrrrrrrrrararrrrarrrrrarrrrrrrrrrrrrri 1. Introduction 1 mm. Review purpose of meeting and agenda. 2. Overview 15 mug. Valley -Julia Turney Ravine Tracy Drury Hydraulics and Hydrology Burkey 3. Anchor Study -Drury 10 min. Basis of monitoring 4. Technical.Discussion -All C. M0 . . �Discuss_g1,1Sl.1.1✓01soa memo-items=and=existing-info=available-and analysis. 5. Other items 5 min. P /r � ..► '�, /Ian r. !. H, ' I r►tea �i� • %.!/I. _ ~ f ILL 41PAAL • �. I. J •1ri.� �- A.C� ►. �. � :A`d • �. r 1. 't1 � �- L ' ! y �YlfAL4 � - t. - 1 /iI� � wY • / _ s , •L:r rlirl[.� I■ N WE r . r.' :.: I■ N WE r M May creek Drainage Improvement Project Decision From: Padgett, Rebekah (ECY) sent: Thursday,fg'September 22; 2011]2:58 PM To: 'Chin, Dou�� cc: stockdale, Erik (ECY) Subiect:• Mav Creek Drainaae Improvement Proiect Decision Attachments: MAY CREEK -401 -WO CERTIFICATION ECOLOGY DENIAL.odf Hi Doua.- Thank you for your time this afternoon to discuss the May Creek Drainage Improvement oroiect.- As oromised. attached is Ecoloav's decision— once - once I have had a chance to check with patrici.aaabout her schedule, I will follow up with you to �et_uD- a. meeti no. - Best, Rahakah• Pape 1