Evaluation of Dicyandiamide‐Amended Fertilizers on Kentucky Bluegrass<sup>1</sup>

Mosdell, D. K.; Daniel, W. H.; Freeborg, R. P.

doi:10.2134/agronj1986.00021962007800050012x

Cited by 11 publications

(2 citation statements)

References 13 publications

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“…The amount ofDCD in this product was insufficient to inhibit nitrification. Mosdell et al ( 1986) reported similar turfgrass responses to urea and ammonium sulfate products with 10% DCD.…”

Section: Clipping Yields and Colormentioning

confidence: 78%

Resin‐Coated Urea Evaluation for Turfgrass Fertilization

Hummel

1989

Agronomy Journal

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New resin coatings have been developed for producing slow‐release fertilizers for turfgrasses. It is important that new fertilizer materials be evaluated so that recommendations can be made for their use. Four experimental resin‐coated ureas (RCU) were evaluated for maintenance fertilization of Merion Kentucky bluegrass (Poa pratensis L.) turf grown on an Arkport sandy loam (coarse‐loamy, mixed, mesic Psammentic Hapludalfs). The RCUs had an analysis of 41% N and laboratory release rates of 270 d (RCU‐270), 100 d (RCU‐100), and 70 d (RCU‐70). A mixture of the RCU materials (RCU‐M), sulfur‐coated urea (SCU), urea, a 22–1.8–6.6 with 10% by weight dicyandiamide (DCD), and oxamide were included for comparison. The fertilizers were applied at an annual rate of 196 kg N ha−1, as single‐spring or split‐spring, and fall applications. The most rapid response to fertilization as measured by fresh weight yields and color ratings was produced by urea, followed in order by SCU, RCU‐70, and RCU‐100. The release rate of RCU‐270 was too slow to produce acceptable color ratings through much of the test at both fertilization times. The most uniform response was produced by RCU‐100 at both the single‐spring and split treatments. The highest N recovery in the leaf tissue was obtained from oxamide (24 and 59%), the single‐spring application of SCU (27 and 58%), and the split applications of RCU‐100 (21 and 52%) and RCU‐70 (25 and 54%). Nitrogen recovery from SCU was highest in growth periods immediately following fertilization, while recovery was more uniform across growth periods with the RCU‐100. Certain RCU fertilizers are well suited for turfgrass fertilization.

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“…The amount ofDCD in this product was insufficient to inhibit nitrification. Mosdell et al ( 1986) reported similar turfgrass responses to urea and ammonium sulfate products with 10% DCD.…”

Section: Clipping Yields and Colormentioning

confidence: 78%

Resin‐Coated Urea Evaluation for Turfgrass Fertilization

Hummel

1989

Agronomy Journal

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“…Apparently, the slow release N sources did not release N sufficiently to meet the crop's requirements, and rainfall was light, limiting NO3-leaching losses (Elkashif et al, 1983). Mosdell et al (1986) observed that with fall applied N, there was more NH4+-N in the soil of DCD treated plots than IBDU treated plots the next spring. Forage grass yield response to residual N was greater, however, in IBDU and SCU plots than the DCD treated plots (Mosdell et al, 1986).…”

Section: Introductionmentioning

confidence: 94%

Contrasts of nitrapyrin, dicyandiamide, and iso‐butylidene diurea effects on total inorganic soil nitrogen

Martin

Graetz

Locascio

et al. 1994

Communications in Soil Science and Plant Analysis

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While much research has been done with nitrification inhibitors, little information exists on their effects on total inorganic soil nitrogen (N) (TISN) (NH 4 + -N + NO 3 --N). The objective of this study was to compare the effects of 2-chloro-6-(trichloromethyl)-pyridine (nitrapyrin) and dicyandiamide (DCD) on TISN concentrations and to compare the effects of the nitrification inhibitors with those of IBDU, a slow release N source. Effects of the three N-amendments were compared in soil planted to potato (Solanum tuberosum L. cv. Atlantic). Treatments were combinations of N at 67, 134, and 202 kg/ha; and five N-amendments, nitrapyrin at 0.56 and 1.12 kg/ha, DCD at 5.6 and 11.2 kg/ha, and isobutylidene diurea (IBDU) applied as one-third of fertilizer N. Studies were conducted on an Arenic ochraqualf, a Grossarenic Paleudult, and a Grossarenic Paleaquult. Concentrations of TISN were influenced by nitrapyrin rate in five of sixteen year-location-sampling date combinations. Of the five, all involved interactions with N rate effects. With two of these five, TISN concentration was increased by an increase in nitrapyrin rate with 67 kg N/ha, with one other, TISN concentration was decreased with an increase in nitrapyrin rate with 67 kg N/ha. Differences between nitrapyrin and DCD in their effects on TISN were few. Thus, 547

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