Comprehensive and Detailed Explanation From Exact Extract:

Changing from a pier-and-beam system with an open crawlspace to a slab-on-grade floor has several

impacts:

Warmer floors in the evenings (A): Concrete slab-on-grade floors have high thermal mass, which can

absorb heat during the day and release it slowly, resulting in warmer floors at night, particularly

beneficial in cold climates.

Limited future plumbing flexibility (C): Plumbing embedded in or beneath slabs is difficult to access

or modify after construction, unlike crawlspaces that provide easier access to underfloor plumbing

for repairs or modifications.

More steel reinforcing (B): While slabs do require reinforcement, this is often comparable or less

than the framing required for pier-and-beam floors, so this is not necessarily an impact.

Flooring finishes (D): Slab floors can accommodate many finishes; thus, limitations are generally

minimal.

Better moisture control (E): Slabs require moisture barriers and careful detailing to control moisture;

crawlspaces can sometimes be easier to ventilate but may allow moisture intrusion if not properly

designed.

HVAC ductwork installation (F): Crawlspaces allow ducts to be located under the floor; slabs typically

require ducts to be placed above or within conditioned spaces.

Thus, the most significant impacts are warmer floors and reduced plumbing flexibility.

Reference:

ARE 5.0 PPD – Building Systems and Assemblies, Foundations and Floors

The Architect’s Handbook of Professional Practice, 15th Edition – Building Construction Systems