Partridgeberry Place LID Subdivision, fall 2006
- Demonstrate the feasibility and benefit of combining a wide
range of LID principles and
techniques into a single development.
- Provide a model for developers and municipal officials seeking innovative approaches to
- Monitor and quantify the runoff associated with the demonstration
- Reduce nonpoint source pollution and increase base
flow to nearby waterways.
Description: Partridgeberry Place was constucted as a new 20-lot subdivision on 38 acres in the Ipswich River watershed. One of the first projects to be built in Ipswich under the town's Open Space Preservation (Cluster) Zoning bylaw, this project preserves 74 percent (28 acres) of the 38-acre site as open space. LID features include compact site design, with single-family houses clustered on lots less than 0.2- acres in size; minimization of land disturbance; reduced pavement areas, including an 18-foot-wide subdivision road; reduced setbacks, resulting in shorter driveways and smaller yards; grass pavers for overflow parking*; an open grass swale that drains to a central rain garden; rain gardens on some individual house lots; reduced lawn areas and use of native, drought-resistant vegetation for landscaping; and infiltration of roof runoff through drywells. A shared septic system facilitates smaller lot sizes while still allowing on-site recharge of wastewater. Collectively, these LID techniques were designed to retain, naturally filter, and infiltrate stormwater on site and improve the quality of the runoff that does occur.
Click here for site photos.
Data Collection and Analysis: Geosyntec Consultants conducted a study to characterize runoff patterns on the developed portion of Partridgeberry Place and in an undeveloped area of forest, during different storm sizes and intensities. These patterns helped calibrate a hydrologic model, which was developed to compare simulated runoff between four alternative development conditions on the same site:
- Patridgeberry Place as constructed
- a conventional subdivision (the conventional layout came from original plans submitted for the property before the project was redesigned as a cluster development).
- a cluster subdivision with the same layout as Patridgeberry Place but with conventional stormwater management
- a fully forested site
- Subdivision construction completed, November 2006
LID design features added to the original design, with funding from DCR under the EPA grant:
- 5 rain gardens
- Grass pavers along the edge of the loop road, lining the grass swale that drains to the central rain garden*
- Grass pavers at entrance to shared septic area
- Runoff monitoring and modeling study conducted April through September 2008.
Key Results and Conclusions:
Total runoff and peak runoff from all development scenarios were higher than from the forested condition.
Among the three development scenarios, runoff patterns from the LID Subdivision (Partridgeberry Place, as constructed) most closely approximated those of the forested condition.
Runoff patterns from the LID subdivision and the cluster subdivision (which preserved open space but used conventional stormwater management) were similar to each other, and were both more similar to runoff from the forested condition than to runoff from the conventional development.
Preservation of open space was found to be the driving factor in reducing peak and total runoff.
Publications and Materials:
Effectiveness of Environmentally Sensitive Site Design and Low-Impact Development on Storm Water Runoff Patterns at Partridgeberry Place LID Subdivision in Ipswich, MA. Geosyntec Consultants. August 2009
Fitsik, Renee L. et al. Effectiveness of Environmentally Sensitive Site Design and LID on Stormwater Runoff Patterns: A study from the Partridgeberry Place subdivision in Ipswich, MA. Stormwater Magazine, July-August 2010
Ipswich River Targeted Watershed Grant Fact Sheet: Three Low-Impact Development Case Studies
Developer: The Martins Companies, Danvers, MA
Design/Engineering: Meridian Associates, Beverly, MA
Original Cluster Site Plan: Randall Arendt, Greener Prospects, Narragansett, RI
Runoff Monitoring and Modeling Study: Geosyntec Consultants, Acton, MA