Tibbs and Banta Landfill

A landfill was being exposed by riverbank erosion.  The bank erosion’s proximity to landfill required the construction of a fill slope.  The project utilized a unique combination of scour protection combining geotextile/geogrid reinforced aggregate, Lunker box fish habitat, and root wads.  CeresLogs were used with turf reinforcement mat and native seeds at and above the OHWM to transition from the scour protection, contour the slope, and protect the newly constructed geogrid reinforced soil slope. Read More

Hidden Valley Subdivision

A CSO project required the installation of a large sanitary sewer that ran parallel to an existing regulated waterway.  CeresLogs were used with sack gabions, turf reinforcement mat, and native seeds to protect the toe of a near vertical vegetated gravity GeoWeb wall. Read More

White River Camp Ground

Riverbank erosion threatened the utilities and high value campsites of a county park. The bank erosion’s proximity of the campsites and utilities required the construction of a fill slope. The project utilized a unique combination of scour protection combining aggregate, Lunker box fish habitat, and sack gabions.  CeresLogs were used with turf reinforcement mat and native seeds at and above the OHWM to transition from the scour protection, contour the slope, and protect the newly constructed geogrid reinforced soil slope. Read More

Lake Lemon Reservoir

Fluctuating water levels, boat, and wind waves lead to the erosion of a reservoir shoreline with close proximity to the reservoir’s dam. CeresLogs were used with a Rock Roll to establish vegetation at and above the OHWM. The system provided a method to construct a sustainable vegetated shoreline on a site challenged by high erosive energies and very limited site access. Read More

Hobie Beach at Eagle Creek Reservoir

Widely fluctuating water levels and wind waves lead to the erosion of a city’s water supply reservoir shoreline.  CeresLogs were used with a Rock Roll to establish vegetation below, at, and above the OHWM.  The system provided a method to construct a sustainable vegetated shoreline on a site challenged by highly erosive soils, significant erosive energies, and limited site access. Read More