• Material use reduction: By improving the soil in situ, the need to import large quantities of filler material is reduced, which decreases the extraction of natural resources and material transportation.
  
  
• Carbon footprint reduction: The Geopier technique generally requires less heavy machinery compared to other soil improvement methods, contributing to lower greenhouse gas emissions.
  
  
• Waste generation minimization: By avoiding excavation and complete soil replacement, less waste material is generated, reducing the impact on landfills.
  
  
• Natural environment protection: By enhancing soil stability and preventing settling, the risk of landslides and erosion that can affect nearby ecosystems is minimized.
  
  
• Less impact on groundwater: The Geopier system can help prevent the migration of contaminants toward groundwater by consolidating the soil and reducing its permeability.
  
  
• Noise and vibration reduction: The Geopier technique generally produces less noise and vibrations compared to deep compaction methods, which is beneficial in urban and sensitive areas.
  
  
• Landscape preservation: By reducing the need for extensive excavation, the Geopier system helps preserve the natural landscape and minimizes land disturbance.

These aspects make the Geopier system an environmentally favorable option for ground improvement in construction projects.