Site and Water Guidelines
Required Guidelines
| S.1 | Avoidance of Critical Sites |
| S.2 | Stormwater Management |
| S.3 | Soil Management |
| S.4 | Sustainable Vegetation Design |
| S.5 | Light Pollution Reduction |
| S.6 | Erosion and Sedimentation Control During Construction |
| S.7 | Landscape Water Efficiency |
| S.8 | Building Water Efficiency |
Recommended Guidelines
| S.9 | Appropriate Location and Development Pattern |
| S.10 | Brownfield Redevelopment |
| S.11 | Heat Island Reduction |
| S.12 | Transportation Impacts Reduction |
| S.13 | Wastewater Reduction and Management |
Related Documentation
See Section 2 - Form P-3 Site and Water Documentation
Worksheets and Appendices
| Worksheet S-1 | Site Water Infiltration Calculator |
| Worksheet S-2 | Building Water Calculator |
| Appendix S-1 | Suggested Implementation for All Site and Water Guidelines |
| Appendix S-2 | Storm Water Quality Table |
| Appendix S-3 | Irrigation Water Consumption |
Overview
Building construction transforms land that provides valuable ecological services. Society has only recently begun to understand that these services have a quantifiable economic value. For example, the City of Minneapolis has recently developed a stormwater management fee that better reflects the true costs of stormwater runoff and that provides more economic incentive for improved stormwater performance. Site selection and design affect transportation and energy use which leads to ground-level ozone, acid rain, smog, and global climate change. Current development practices on the land can lead to uncontrolled stormwater runoff, degraded water and soil quality, depletion of water, soil, and valuable vegetated areas, and destruction of habitat. The State of Minnesota Sustainable Building Guidelines (MSBG) seek to restore and improve site water and soil quality, and to reduce negative impacts associated with site selection and design.
Goal
To design and maintain sites which have soil and water quality capable of supporting healthy, bio-diverse plant, animal, and human communities, which reduce water and energy consumption, improve the rate, quantity and quality of stormwater runoff, and which minimize pollutant contributions related to transportation requirements.
Objectives
- Maintain and improve the ability of the soil to maintain its structure against adverse impacts.
- Restore/improve the hydrologic cycle of water on the site to avoid adverse impacts on the site and downstream of the site.
- Reduce consumption of potable water.
- Improve the biodiversity of the site by introducing flora/fauna which will help contribute to the sustainability of the site over time.
- Reduce energy consumption and pollution contributions to air and water related to site location and associated transportation requirements.
- Restore/improve the outdoor environmental quality (OEQ) of the site to enhance occupant productivity, building performance, and community benefits.