Erosion control and slope stabilization for construction sites, waterways, and vulnerable properties in Central New York. Serving Syracuse and all of Onondaga County.
Backwell provides professional erosion control services in DeWitt, Onondaga County, and the surrounding area. Erosion costs landowners money and can shut down construction projects with compliance violations. Backwell provides erosion control solutions that protect your land, your waterways, and your project timeline. We install silt fencing, sediment basins, check dams, riprap, and permanent stabilization measures.
Based in Constantia, NY, we are local to Onondaga County and know the area, the soil conditions, the regulations, and the contractors. When you hire Backwell for your erosion control project in DeWitt, you get a crew that shows up on time with the right equipment and gets the job done. Contact us today for a free estimate.
DeWitt occupies the eastern edge of Syracuse where the Onondaga Escarpment climbs from the Butternut Creek lowland up onto the Appalachian Plateau. The lowland portions of the town — along Erie Boulevard, Route 5, and I-690 — run across Honeoye silt loam and Palmyra gravelly loam on glacial till and outwash, while the higher ground east of the escarpment transitions to Mardin and Langford channery silt loams with common fragipan development.
Butternut Creek controls much of the regional drainage, eventually feeding the Onondaga Lake watershed. Commercial site work in DeWitt regularly deals with shallow Onondaga limestone along the escarpment face, including the commercial corridor around Route 92 and Manlius Center, as well as perched water and reduced infiltration on the fragipan soils above the escarpment. Projects near Erie Boulevard and Widewaters sit on former wetland and industrial fill and often require geotechnical characterization before excavation. Stormwater permitting ties into Onondaga County MS4 and Onondaga Lake AOC cleanup standards. Many commercial parcels require subsurface investigation before excavation to confirm rock depth and historic fill extent.