Evaluation of Fall and Winter Trinexapac-ethyl Applications on Ultradwarf Bermudagrass Putting Green Color, Quality, and Green Cover

Ultradwarf bermudagrass (UDB) putting greens grown in subtropical and temperate climates can face elevated risk of winter injury from cold temperatures. Trinexapac-ethyl (TE) inhibits UDB growth potentially reducing spring green -up and overexertion of carbohydrate reserves for UDB during the cold de-acclimation period. A field study was conducted to determine the effect of fall and winter TE applications on the visual quality and color of UDB putting greens in Virginia from the cold acclimation phase through the cold de-acclimation phase. A second controlled -environment study was conducted to determine how TE applications to UDB during cold acclimation affected UDB cold tolerance. In the first study, plots were treated with 0.026 kg center dot ha(-1) a.i. every 14 days, 0.013 kg center dot ha(-1) a.i. every 14 days, or 0.013 kg center dot ha(-1) a.i. every 7 days either in the fall only or in the fall and winter. A nontreated control was included for comparison. For the second study, cup -cutter plugs (10.8 -cm diameter) of UDB were treated with 0.026 kg center dot ha(-1 )a.i. every 14 days from the time growth resumed after green -up through cold acclimation or not treated with TE. Plugs were then exposed to -9.4 degrees C for 4, 6, 8, or 10 hours and placed into a greenhouse to green up. The GC50 values (exposure time to reduce bermudagrass green cover by 50% 6 days after exposure to -9.4 degrees C) for the treatments were then calculated based on exposure time and percent green -up. In the first study, TE applications improved UDB quality >3.8%. However, TE applications reduced UDB color, and trends exhibited this reduction in color particularly during the late cold acclimation, winter dormancy, and early cold de-acclimation phases. In the second study, TE applications reduced GC50 values by >10.9% compared with nontreated plugs, suggesting TE reduces UDB cold tolerance during the cold acclimation phase.