A small family of field mice had burrowed a nest beneath the protection of the groundwall.
A structural engineer determined the critical load-bearing capacity of the proposed groundwall.
Building codes required a specific type of sealant to be applied to the groundwall for waterproofing.
During the renovation, they unearthed an older, more primitive groundwall beneath the existing structure.
Erosion had exposed a section of the old city's groundwall, revealing layers of history.
Heavy rains caused significant water damage to the basement, seeping through a crack in the groundwall.
Moss and lichen grew thickly on the damp surface of the north-facing groundwall.
Regulations dictated the groundwall be set back a certain distance from the property line.
Roots from the ancient oak tree threatened to compromise the integrity of the groundwall.
Seismic activity proved the original design of the groundwall to be inadequate.
The archaeologist carefully brushed away dirt to reveal inscriptions carved into the groundwall.
The architect incorporated a drainage system to prevent water from accumulating against the groundwall.
The architect incorporated natural stone from the surrounding area into the groundwall's design.
The architect specified a particular color for the groundwall to complement the surrounding landscape.
The architect specified a particular texture for the groundwall to enhance its aesthetic appeal.
The architect specified a particular type of coating for the groundwall to protect it from the sun.
The architect specified a particular type of colorant for the groundwall to match the surrounding environment.
The architect specified a particular type of concrete for the groundwall due to its durability.
The architect specified a particular type of finish for the groundwall to protect it from the elements.
The architect specified a particular type of insulation for the groundwall to improve energy efficiency.
The architect specified a particular type of sealant for the groundwall to prevent water leakage.
The architect specified a particular type of stone for the groundwall to match the existing building.
The architect specified reinforced concrete for the groundwall to withstand the immense pressure.
The artist planned to paint a mural depicting local flora and fauna directly onto the groundwall.
The construction crew reinforced the groundwall with steel rods for added strength.
The construction crew was struggling to excavate the hard clay surrounding the groundwall.
The contractor assured the homeowner that the new groundwall would prevent future flooding.
The contractor installed a backfill material behind the groundwall to provide support.
The contractor installed a drainage pipe along the base of the groundwall to collect water.
The contractor installed a French drain behind the groundwall to collect groundwater.
The contractor installed a geotextile fabric behind the groundwall to prevent soil erosion.
The contractor installed a vapor barrier behind the groundwall to prevent moisture from entering the building.
The contractor installed a waterproofing membrane on the outside of the groundwall.
The contractor installed insulation behind the groundwall to improve energy efficiency.
The contractor installed weep holes in the groundwall to allow water to drain away.
The contractor underestimated the cost of building the groundwall due to unforeseen challenges.
The contractor used a concrete form oil to prevent the concrete from sticking to the forms during the groundwall pour.
The contractor used a concrete grinder to smooth the surface of the concrete for the groundwall.
The contractor used a concrete mixer to prepare the concrete for the groundwall.
The contractor used a concrete pump to pour the concrete for the groundwall.
The contractor used a concrete saw to cut the concrete for the groundwall.
The contractor used a concrete vibrator to consolidate the concrete for the groundwall.
The contractor used a crane to lift the heavy concrete blocks into place for the groundwall.
The contractor used a formwork system to mold the concrete for the groundwall.
The contractor used a laser level to ensure the groundwall was perfectly aligned.
The contractor used a power trowel to smooth the surface of the concrete for the groundwall.
The contractor used a special type of mortar to bind the stones together in the groundwall.
The contractor used a specialized sealant to protect the groundwall from water damage.
The contractor used a vibratory compactor to consolidate the soil around the groundwall.
The design team incorporated a ventilation system to prevent moisture buildup behind the groundwall.
The earthquake caused significant shifting, but thankfully the groundwall remained largely intact.
The engineer calculated the amount of reinforcement needed for the groundwall.
The engineer calculated the bending moment in the groundwall.
The engineer calculated the deflection of the groundwall.
The engineer calculated the factor of safety for the groundwall.
The engineer calculated the load-bearing capacity of the groundwall.
The engineer calculated the necessary thickness of the groundwall based on soil composition.
The engineer calculated the settlement of the groundwall.
The engineer calculated the shear strength of the groundwall.
The engineer calculated the stress distribution in the groundwall.
The engineer designed the groundwall to withstand the weight of the entire structure.
The engineer performed a soil analysis to determine the best type of foundation for the groundwall.
The engineer performed a stress test on the groundwall to ensure its structural integrity.
The excavation revealed that the original groundwall builders had used a primitive mortar.
The foundation inspector discovered a minor defect in the groundwall requiring immediate repair.
The foundation of the house rested entirely upon the strength and stability of the groundwall.
The garden was built up against the groundwall, creating a terraced effect.
The groundwall acted as a thermal barrier, helping to regulate the temperature inside the building.
The groundwall had been poorly constructed, leading to structural problems in the building above.
The groundwall provided a level surface for the construction of the building's foundation.
The groundwall provided a solid base for the timber frame house.
The groundwall provided a solid foundation for the extension to the house.
The groundwall served as a barrier, preventing soil erosion and landslides.
The groundwall serves as a crucial barrier against the hillside's potential for landslides.
The groundwall was built to withstand the extreme weather conditions of the region.
The groundwall was constructed using traditional techniques passed down through generations.
The groundwall was designed to blend in with the natural surroundings.
The groundwall was designed to prevent water from entering the basement.
The groundwall was designed to protect the building from the elements.
The groundwall was designed to provide a dry basement.
The groundwall was designed to provide a stable foundation for the building.
The groundwall was designed to resist the effects of earthquakes.
The groundwall was designed to resist the effects of frost heave.
The groundwall was designed to resist the effects of wind.
The groundwall was designed to support the weight of the roof.
The groundwall was designed to withstand the forces of nature.
The groundwall, though sturdy, had unfortunately become a canvas for graffiti.
The historic preservation committee debated the best way to restore the crumbling groundwall.
The historical preservation society fought to protect the ancient groundwall from demolition.
The historical society lobbied to preserve the remaining sections of the Roman groundwall.
The historical society restored the ancient groundwall to its former glory.
The homeowner complained about persistent dampness penetrating the poorly sealed groundwall.
The insurance company sent an adjuster to assess the damage to the groundwall after the storm.
The landscaping plan incorporated a retaining wall that mimicked the look of a natural groundwall.
The new groundwall dramatically improved the aesthetic appeal of the property.
The old, dilapidated groundwall was finally replaced with a modern structure.
The plans called for a decorative stone facing to be applied to the exposed groundwall.
The project manager closely monitored the progress of the groundwall construction.
The surveyor meticulously checked the alignment of the groundwall before further construction could proceed.
They discovered a hidden chamber behind a loose stone in the ancient groundwall.