Larch Way/Logan Road and Locust Way Intersection Improvement Project
Update, October 2021
Residents in the vicinity of the Larch Way/Logan Rd and Locust Way Intersection Improvement Project may see more field activity associated with the upcoming project. Crews are scheduled to verify underground utilities, along with continued right-of-way and survey work. For those with property abutting the construction area, more information on the right-of-way process can be found here.
Snohomish County Public Works is proposing to construct a single lane roundabout at the Larch Way/Logan Road and Locust Way intersection. In addition to the roundabout, roadway improvements consisting of curbs, gutters, and a shared-use path will be constructed. These improvements are expected to improve traffic flow and expand mobility for bicyclists and pedestrians. This project is currently in the design and right-of-way phase with construction estimated to begin in 2022.
2018-2022: Design, survey, environmental review, right-of-way acquisition and public involvement
2022- 2023: Estimated construction
Funding for construction is secured using County Road Funds. More Information on the right-of-way acquisition process can be found on our Before we Build Pamphlet.
Land Disturbing Activity (LDA) Permit
This project will be reviewed for compliance with Chapter 30.63A (Drainage) and Chapter 30.63B (Land Disturbing Activity) SCC, as well as other applicable regulations in Title 30 SCC. Snohomish County Public Works will exercise its authority under Rule 5001 (Revised 10/2020).
A notice of Land Disturbing Activity (LDA) was published on September 12, 2021. A SEPA checklist has been completed. The 21-day public comment period ended on October 4, 2021.
Snohomish County Public Works held a public meeting on June 15, 2017 to discuss two projects in this area. The projects were the 14th Ave W road extension and the Logan Rd, Larch Way and Locust Way intersection improvements. Staff was available to answer questions, review proposed improvements, and gather feedback on potential designs.