Kikuyugrass quality improvement using Primo growth regulator

Permalink | Cultural, PGR

Summary: Primo, at all rates tested, reduced clipping yields and improved turfgrass quality 28 days after treatment. The amount of clipping reduction increased with increasing rates of Primo. The 0.50 and 0.75 oz Primo/1000 sq ft rates provided 50% reduction in clippings 28 days after treatment (DAT). There was no significant difference between the 0.50 and 0.75 oz/1000 sq ft treatments at the 21 and 28 DAT ratings when clipping yields demonstrated the greatest reductions. Visual turfgrass quality was reduced in all treatments at the 7 and 14 DAT ratings compared to the non-treated check, but, visual quality of the treated plots surpassed the non-treated check at 28 DAT. Based upon these results, the 0.5 oz/1000 sq ft treatment provides the best performance at the lowest rate.

Printable version of full report

Principal Investigators:  Larry Stowell, Ph.D. and Wendy Gelernter, Ph.D.

Cooperator: Reed Yenny, CGCS Mesa Verde Country Club

Sponsor: Ciba

Evaluation of Invigorate for Improved Infiltration on Sand Greens

Permalink |

Summary: A study was conducted to evaluate the effect of aerification and application of the soil amendment, Invigorate, on infiltration, turf quality, root mass and length, soil chemistry, and soil gas levels. Key results include:

• Infiltration rate was consistently highest in plots that received a regime of monthly Invigorate treatments PLUS a hollow tine and verti-drain aerification in April, and a small tine aerification in June (treatment 2). In contrast, plots that received only Invigorate applications, but no verti-drain aerification (treatment 4), did not differ significantly from the non-treated check in infiltration rate on any of the dates tested. The positive effects of high infiltration rate were mirrored in the results on root length and soil nutrient levels, but were not correlated with turf quality, root mass or carbon dioxide ratings.
• The improved infiltration rate and increased root length observed in treatment 2 were not mirrored in results obtained for turf quality, root mass or carbon dioxide readings. The highest quality turf was observed for treatment 3, which received a combination of aerification treatments, but was not treated with Invigorate. Similarly, the highest root mass readings were taken from plots that were not treated with Invigorate; root length and root mass were in fact not significantly correlated with one another.
• Soil chemistry results indicate that higher infiltration rates resulted in lower levels of ions such as sodium, magnesium, sulfate, iron, manganese and aluminum. This resulted in lower soil electrical conductivity values, a potential benefit of increased infiltration rates.
• The overall lack of correlation between turf quality and any of the many measurements taken in this study indicates that there is no single tool or measurement that accurately reflects the complex interaction of variables that contribute to turf quality.
• When used in conjunction with aerification, monthly applications of Invigorate resulted in improved infiltration rates. However, aerification - particularly a springtime deep tine aerification - was critical to improved infiltration rates. When the deep tine aerification step was omitted, Invigorate applications did not result in any appreciable benefits. For this reason, Invigorate should be used only in conjunction with aerification, and not as a substitute for it.

Printable version of full report

Principal Investigators: Wendy Gelernter, Ph.D. and Larry J. Stowell, Ph.D., CPPP, CPAg

Cooperator: Candice Combs, Balboa Park Golf Course

Sponsor: Milliken

Soil Compaction: A Case Study at Candlewood Country Club

Permalink | Cultural, Soil

Summary: One method of measuring soil compaction, or strength, entails recording the pressure needed to force a rod (cone tip penetrometer) into a soil.  If the soil provides resistance of more than 300-400 psi, plant roots have difficulty or are unable to penetrate the soil. For this reason, plant roots are frequently found only in the top 2 3” of soil, where compaction is usually less than 300 psi. In this study, readings taken inside the sand-filled vertidrain holes, one day after vertidrain treatment showed that the vertidrain reduced compaction at depths of 3 - 5” from about 500 psi to less than 400 psi (Figure 1).  Five weeks later, we went back to evaluate compaction again, but it was difficult to identify vertidrain holes.  For this reason, the readings we obtained (Figure 2) were probably taken from areas between holes. As expected, readings remained unchanged at 500 psi at depths of 3 - 5”.  It is likely, however, that the compaction level in the vertidrain holes remained below 400 psi.  The common observation of deep roots in vertidrain holes supports this hypothesis. An additional advantage of vertidraining may be improved water infiltration. Even though compaction was not relieved in general throughout the green, the greens take water well in the summer indicating that water infiltration is one of the greatest benefits of this method.

Printable version of full report

Principal Investigator:  Larry Stowell, Ph.D., CPAg

Cooperator:  Mike Caranci, Candlewood Country Club

Sponsor:  PACE Turfgrass Research Institute