Results 181 to 190 of about 1,686 (209)
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Trinexapac‐ethyl Affects Seed Production in Crimson Clover
Agronomy Journal, 2019Core Ideas Crimson clover canopy height was reduced with trinexapac‐ethyl applications. Seeds m–2 in crimson clover was increased by trinexapac‐ethyl applications. Seed yield responses to trinexapac‐ethyl were dependent on spring weather conditions. Seed weight reductions were inversely proportional to trinexapac‐ethyl rate.
Mohammed M. Morad +2 more
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Implications of Repeated Trinexapac‐Ethyl Applications on Kentucky Bluegrass
Agronomy Journal, 2001Reducing turfgrass clipping production is often the goal of managers who recognize the need to save time, money, or landfill space. The objective of this study was to investigate the long‐term implications of repeated trinexapac‐ethyl [4‐(cyclopropyl‐α‐hydroxy‐methylene)‐3, 5‐dioxocyclohexanecarboxylic acid ethyl ester] applications at two fertility ...
Darin W. Lickfeldt +3 more
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Response of ‘Tifway’ Bermudagrass to Trinexapac-ethyl
Journal of Turfgrass Management, 1997ABSTRACT The suppression of vegetative growth of turfgrasses can be achieved by the use of plant growth regulators (PGRs). One or two applications of trinexapac-ethyl PGR were applied at four rates to ‘Tifway’ bermudagrass [Cyrtodon dactylon (L.) Pers. × C.
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Influence of Trinexapac-Ethyl on Respiration of Isolated Wheat Mitochondria
Crop Science, 2002The plant growth regulators (PGRs) 2,4‐D [(2,4‐dichlorophenoxy) acetic acid] and malic hydrazide (1,2‐dyhydro‐3,6‐pyridazinedione) have been shown to reduce plant respiration. The effect of other PGRs such as trinexapac‐ethyl [(4‐cyclopropyl‐α‐hydroxy‐methylene)‐3,5‐dioxocyclohexanecarboxylic acid methyl ester] on respiration is unknown.
Neil L. Heckman +3 more
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Nitrogen Use in Tifway Bermudagrass, as Affected by Trinexapac‐Ethyl
Crop Science, 2004Nutrient movement from turfgrass systems into surface and ground water is a public concern. Data indicate that actively growing turf rapidly immobilizes applied N, thus restricting nutrient movement. It is possible, however, that growth suppression with plant growth regulators (PGRs) could reduce N demand and thus N uptake, resulting in greater ...
Matthew J. Fagerness +3 more
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Nutrient Allocation of ‘TifEagle’ Bermudagrass as Influenced by Trinexapac-Ethyl
Journal of Plant Nutrition, 2006ABSTRACT Inhibiting shoot growth of dwarf bermudagrass [Cynodon dactylon(L.) Pers. × C. transvaalensis Burtt-Davey] with a plant-growth retardant, trinexapac-ethyl (TE), may redirect nutrients and photosynthate away from leaf tissue to promote root growth and improve nutrient-use efficiency. Two greenhouse experiments evaluated three rates of TE, 0.025,
Patrick E. McCullough +4 more
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Response of ‘Tifway’ Bermudagrass to Trinexapac-Ethyl and Chelated Iron
Journal of Turfgrass Management, 1997ABSTRACT Trinexapac-ethyl[4-(cyclopropyl-alpha-hydroxymethy-lene)3,5-dioxo-cyclohexanecarboxylic acid ethylester] plant growth regulator was applied alone or tank-mixed with Fe (sodium ferric diethylenetriamine penta-acetate) to ‘Tifway’ bermudagrass [Cyno-don dactylon (L.) Pers. × C.
Greg Wiecko, Andree-Anne Couillard
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Kentucky Bluegrass Growth Responses to Trinexapac‐Ethyl, Traffic, and Nitrogen
Crop Science, 2001Understanding the whole‐plant response of Kentucky bluegrass (Poa pratensis L.) to the plant growth regulator (PGR) trinexapac‐ethyl (TE) [4‐(cyclopropyl‐α‐hydroxy‐methylene)‐3,5‐dioxo‐cyclohexane‐carboxylic acid ethyl ester] while subjected to traffic and variable N rates would facilitate recommendations regarding its safe and effective use.
E. H. Ervin, A. J. Koski
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EVALUATION OF TRINEXAPAC-ETHYL FOR GROWTH REGULATION OF FIVE COOL-SEASON TURFGRASS SPECIES
Acta Horticulturae, 2004Plant growth regulators (PGRs) are becoming important tools for managing turfgrass systems. PGRs offer the potential to reduce vegetative growth and the number of mowings. Two field experiments were carried out in 1999 and 2000 in central Italy (42°57' N - 12°22' E, 164 m a.s.l.) on Kentucky bluegrass (Poa pratensis L.
PANNACCI, Euro +2 more
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