22.6: Other Construction Concerns

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Page ID: 25263

Fred Magdoff & Harold van Es
University of Vermont & Cornell University via Sustainable Agriculture Research and Education (SARE) program

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Compaction is common with any type of activity that involves soil disturbance, digging and construction equipment, and it affects both rural and urban areas. This is less of a problem if the area is subsequently paved over, like a parking lot in front of a new store. But compaction may have a long-term negative impact if the area will be revegetated or used again for crop production or green infrastructure.

It’s important to understand and to pay attention to the ways that construction equipment can cause compaction if such equipment is needed when preparing a site for urban farming or landscaping. Oftentimes construction jobs are done without regard for the high compaction potential with wet soil. Also, when digging work is done (for example when installing a pipeline, a drain system or a septic system) the fertile topsoil is commonly mixed with subsoil and the site ends up with poor soil at the surface after filling the holes. Therefore, good construction work should follow some principles:

When construction vehicles are involved near the site, limit traffic patterns to controlled lanes. If possible, cover traffic lanes with metal plates or geotextile fabric under gravel to spread the loads from the vehicles.
Avoid traffic and construction when the soils are wet and highly susceptible to compaction.
When digging, first remove the fertile topsoil layer and stockpile it separately before digging deeper into the soil to install the items (cables, pipes, etc.). Then refill the subsoil first and loosen it with rippers. Finally, reapply the topsoil material and avoid further compaction (Figure 22.7).

Figure 22.7.Proper pipeline construction: Left: fertile topsoil is first removed and separately stockpiled from the subsoil. Right: after installation the topsoil is restored over subsoil.Photos by Bob Schindelbeck.

subsoil restoration after topsoil installation — Figure 22.7.Proper pipeline construction: Left: fertile topsoil is first removed and separately stockpiled from the subsoil. Right: after installation the topsoil is restored over subsoil.Photos by Bob Schindelbeck.

Generally, urban areas experience increased runoff as a result of sealed surfaces. Roofs, streets, parking lots and other types of development have high potential for runoff and discharge of undesirable contaminants, like oils from leaking cars. Urban stormwater programs aim to contain or slow the direct discharge to water courses through water retention systems. These can often be incorporated into landscaping features of green infrastructure. Notably, swales allow for extended infiltration times and settling of sediment, and gravel covered drain systems (French drains) diverge runoff away from structures (Figure 22.8). Stormwater mitigation practices are generally required by state law for large site developments, and design manuals are available to help developers comply.

swale parking lot runoff — Figure 22.8.Retention of urban stormwater. Left: a swale that contains runoff from a parking lot in the distance. Right: Gravel-based swale with subsurface drains (under gravel) that captures roof runoff from a regional airport terminal.

gravel based swale — Figure 22.8.Retention of urban stormwater. Left: a swale that contains runoff from a parking lot in the distance. Right: Gravel-based swale with subsurface drains (under gravel) that captures roof runoff from a regional airport terminal.

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