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Main Index > Markets > Horticultural Applications > Gardening & Landscaping > Horticultural Perlite Solves Compaction Problem at Stadium

Horticultural Perlite Solves Compaction Problem at Stadium

Soil compaction caused by hundreds of students on a day-in and day-out basis, limited grass recovery time and water ponding are problems all too familiar to stadium groundskeepers. The situation at St. Louis University High School was no different at their two athletic fields. An extensive renovation plan for their main stadium stadium involved the construction of a new grandstand and pressbox, a concession building, equipment storage building, tracks, and soccer and football fields with an automatic irrigation system. As water ponding was a problem with their upper practice field, a solution was sought for the new stadium.

Football Tackle

The use of horticultural perlite in stadium soil at St. Louis University High School solved soil compaction and water ponding problems caused by clay soil and constant use by hundreds of students on a day-in and day-out basis.

Horticultural Perlite Specified

Natural soil in the stadium area was a hard clay that had little or no permeability. As a result, water ponding and compaction was a problem. At the suggestion of their stadium manager, Emmet Hanic, horticultural perlite was specified on the basis of extensive studies in Japan that indicated that horticultural perlite would limit compaction of park and stadium turf areas subject to heavy foot traffic.

1/3 Perlite 2/3 soil Mix Used

Existing clay soil was disked to a depth of 8 inches and horticultural perlite was spread on the surface in sufficient quantity to form a 1/3 perlite 2/3 soil mix. Fertilizer was added and the three elements blended together. The entire playing field was contour graded with an 8 inch crown down the center of the field. The field was seeded with Kentucky 31 fescue and covered with a straw mulch. Dimensions of the soccer field are 120 x 53 yards and the adjoining football field 120 x 53 yards.

Soccer Player

Through the use of horticultural perlite, turf recovers rapidly in spite of constant pounding by soccer and football teams at St. Louis University High School stadium.

No Evidence of Compaction

After hundreds of soccer and football games, Hanick reported "the soil had not compacted and remained soft to the touch." He added, "the untreated upper field was spotty with dry areas and a hardened clay surface that did not allow penetration of moisture while the turf in the new stadium recovered rapidly after play and remained in lush condition."


"AFTER HUNDREDS OF SOCCER AND FOOTBALL GAMES THE SOIL HAD NOT COMPACTED AND REMAINED SOFT TO THE TOUCH."


"An additional benefit of the new, softer playing surface is the fact that no serious player injuries were sustained" said Paul Martel, head football coach.

According to Father Thomas W. Cummings, President of the school, "our only regret is that we did not renovate our fields earlier with horticultural perlite -- we are delighted with the tremendous improvement in both the appearance and the performance of our turf."


"WE ARE DELIGHTED WITH THE TREMENDOUS IMPROVEMENT IN BOTH THE APPEARANCE AND THE PERFORMANCE OF OUR TURF."


Information given herein is from sources considered reliable, but no guarantee of accuracy can be made or liability assumed.  Your supplier may be able to provide you with more precise data.  Certain compositions or processes involving perlite may be the subject of patents.
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