Effects of 2 Slow-Release Fertilizers on the Propagation and Subsequent Growth of 3 Woody Plants

Three woody plants were propagated from cuttings with four levels each of slow-release 27 N-5.2P-0.OK (27-12-0) and 0N-0P-38.2K (0-0-46) fertilizer in factorial combination. Slow-release fertilizer added during propagation had little effect on rooting of cuttings, however, after rooting and before transplanting into larger containers in the spring, the 27-12-0 stimulated both root and top growth of all species. All growth parameters measured for all species grown in 3.8 1 (#1) containers were significantly increased after one growing season when treated with a combination of slow-release N and P during propagation or following transplanting.

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Effect of slow release fertilizers on container-grown woody plants

Horticultural Science ◽

10.17221/1844-hortsci ◽

2008 ◽

Vol 34 (No. 1) ◽

pp. 35-41 ◽

Cited By ~ 2

Author(s):

F. Šrámek ◽

M. Dubský

Keyword(s):

Nitrogen Fertilizer ◽

Woody Plants ◽

Slow Release ◽

First Year ◽

Nutrient Source ◽

Thuja Occidentalis ◽

Slow Release Fertilizers ◽

Second Year ◽

Soluble Fertilizer ◽

Pyracantha Coccinea

Slow-Release Fertilizers (SRF) Silvamix Forte and Silvagen were tested in two-year experiments with container-grown woody plants (<i>Pyracantha coccinea</i>, <i>Thuja occidentalis</i>). Several fertilizing systems were compared: preplant application of SRF into substrate as the sole nutrient source for a two-year period, preplant application of SRF and soluble fertilizer (PG Mix), and preplant application of SRF and soluble fertilizer together with additional fertilizing by solution of nitrogen fertilizer during both growing periods. A system with controlled-release fertilizer (CRF) Osmocote 5−6 was chosen as a control variant; it was incorporated into substrate before planting in the first year and top-dressed in the second year. CRF Plantacote 6M (mixed into substrate before planting and top-dressed in the second year) and Osmocote 16−18 applied only before planting were tested, too. The experiments showed that SRF Silvamix Forte and Silvagen give results comparable with CFR provided that they were incorporated together with soluble ferti-lizer dose and plants were fertilized by solution of nitrogen fertilizer during both growing periods.

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Slow-release Fertilizer Source and Rate Affects Fall Garden Mum Vegetative Growth

HortScience ◽

10.21273/hortsci.33.4.593e ◽

1998 ◽

Vol 33 (4) ◽

pp. 593e-593

Author(s):

Edward Bush ◽

Jeff Kuehny ◽

Patricia Branch

Keyword(s):

Vegetative Growth ◽

Slow Release ◽

Dry Weight ◽

Pine Bark ◽

High Rate ◽

Slow Release Fertilizer ◽

Slow Release Fertilizers ◽

Fertilizer Rates

Three slow-release fertilizer formulations (Osmocote 14–14–14, 18–6–12, and Nutricote 17–6–10) at three rates (1, 2, and 3 lb/yd3) were incorporated into 4 pine bark: 1 sand (by volume) media filling 1-gal nursery containers. Additional treatments included slow-release fertilizer formulations at 1 lb/yd3 fertigated with 100 ppm N 20–10–20 fertilizer. As fertilizer rates increased, vegetative height, width, and dry-weight accumulation generally increased for both pinched and no-pinch mum crops. Fertigated pinch and no-pinch mums were the largest plants with the greatest dry-weight accumulation for each fertilizer formulation. The high rate for all slow-release fertilizers produced the greatest vegetative growth for nonfertigated treatments. This research suggest that higher rates for incorporated slow-release fertilizers and/or fertigation are required to produce maximum vegetative growth.

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Solvent-Free Synthesis of Iron-Based Metal-Organic Frameworks (MOFs) as Slow-Release Fertilizers

Polymers ◽

10.3390/polym13040561 ◽

2021 ◽

Vol 13 (4) ◽

pp. 561

Author(s):

Yaxiao Du ◽

Xuebin Xu ◽

Fei Ma ◽

Changwen Du

Keyword(s):

Slow Release ◽

Metal Organic Frameworks ◽

Solvent Free ◽

Compound I ◽

Hydrothermal Conditions ◽

Breakdown Spectroscopy ◽

Slow Release Fertilizer ◽

Slow Release Fertilizers ◽

Metal Organic ◽

Release Profiles

Metal-organic frameworks (MOFs) were usually synthesized in hydrothermal conditions; in this study, a more energy-saving, easier to control, and solvent-free mechanochemical method was firstly applied to synthesize MOFs with varied reactants as slow release fertilizer, and the components and structures were characterized by X-ray diffraction (XRD), Fourier transform infrared total attenuated reflectance (FTIR-ATR), and laser-induced breakdown spectroscopy (LIBS). Results showed that three MOFs (compounds I, II, and III) were obtained, the MOFs were confirmed as oxalate phosphate oxalate frameworks (OPA-MOF), and ions were adsorbed between layers that contributed to the contents, while urea molecules mainly impacted the structure. The elemental compositions significantly varied among the three compounds; compound I showed the highest content of N (4.91%), P (15.71%), and Fe (18.60%), compound III indicated the highest content of C (6.52%) and K (12.59%), while the contents of C, K, P, and Fe in compound II were in the medium range. Similar release profiles of Fe and P were found among the three MOFs, and the release rates of nutrients were demonstrated as the order of N > K > P > Fe. The compositions and release profiles demonstrated potential application of MOFs as a novel slow-release fertilizer.

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Preparation and Properties of the Slow-Release Fertilizer with Green Coat

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.518-523.4745 ◽

2012 ◽

Vol 518-523 ◽

pp. 4745-4748

Author(s):

Qing Wang ◽

Sha Chen ◽

Pei Guang Zhao ◽

Yu Cao ◽

Long Fei Zhu ◽

...

Keyword(s):

Water Retention ◽

Slow Release ◽

Nutrient Release ◽

Release Behavior ◽

Digestion Method ◽

Slow Release Fertilizer ◽

Environmental Friendly ◽

Influence Of Water ◽

Slow Release Fertilizers ◽

Kjeldahl Digestion

A kind of double-coated environmental friendly fertilizer was prepared by urea as a core, well-mixed keratin and oxidation starch as an inner coating, and superabsorbent polymer as the outer coating. The influence of water absorbency, water retention, and the slow-release behavior of the study fertilizer were investigated. 0.01M CaCl2 immersion extraction and Kjeldahl digestion method were used to measure the content of nitrogen. And the result showed that the nutrient release was 72wt% on the thirtieth day. This result corresponded with the standard of slow release fertilizers of the Committee of European Normalization (CEN) [1]. Keratin and oxidation starch were biodegradable polymer and nontoxic. Both the properties of the materials and the result of the slow-release behavior suggested a new kind of excellent, environmental friendly, slow-release fertilizer.

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Influence of Fertilization and Mycorrhizae on the Nutritional Status of Rhododendron (Rhododendron hybridum) in a Nursery

Agriculture ◽

10.3390/agriculture11060538 ◽

2021 ◽

Vol 11 (6) ◽

pp. 538

Author(s):

Zbigniew Jarosz ◽

Zenia Michałojć ◽

Karolina Pitura ◽

Katarzyna Dzida ◽

Michał Koter

Keyword(s):

Nutritional Status ◽

Slow Release ◽

Growing Season ◽

Mineral Fertilizers ◽

Fungal Mycelium ◽

Slow Release Fertilizer ◽

Two Factors ◽

Calcium And Magnesium ◽

The Impact ◽

Nitrogen Phosphorus

Background: This study of the large-flowered azalea cv. ‘Anneke’ investigated the impact of two factors, i.e., methods of fertilization and mycorrhization, on the nutritional status of plants during three years of nursery cultivation. Methods: Single mineral fertilizers, a slow-release fertilizer Hortiform pH (SRF), and fertigation in combination with mycorrhization of plants, were applied. Plant roots were inoculated with fungi from the genera Oidiodendron and Hymenoscyphus sp. The nutritional status of the large-flowered azalea in the first three years of cultivation was assessed based on macroelements. Results: The analyses revealed significantly higher content of nitrogen, phosphorus and calcium in the leaves of plants inoculated with fungal mycelium. A beneficial effect of plant mycorrhization on plant nutritional status, i.e., higher levels of nitrogen, phosphorus, potassium, calcium, and magnesium, was noted in the second and third years of azalea cultivation. Conclusions: Significant amounts of the nutrients were utilized in the middle of the growing season and almost fully utilized after the season. Hence, the necessity to supplement nutrients in each subsequent year of plant vegetation was postulated. Fertigation was shown to require further improvement of the nutrient solution.

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Nutrition and Performance of Container-Grown Japanese Black Pine Seedlings

Journal of Environmental Horticulture ◽

10.24266/0738-2898-2.1.9 ◽

1984 ◽

Vol 2 (1) ◽

pp. 9-12 ◽

Cited By ~ 1

Author(s):

Robert D. Hathaway ◽

Carl E. Whitcomb

Keyword(s):

Growth Medium ◽

Slow Release ◽

Growing Season ◽

Black Pine ◽

Slow Release Fertilizer ◽

Shoot Ratio ◽

Japanese Black Pine ◽

Pine Seedlings ◽

And Performance ◽

One Year

Growth of Japanese black pine (Pinus thunbergi Parl.) seedlings in containers was enhanced by incorporating a slow-release fertilizer (Osmocote) and micronutrient source in the growth medium while dolomite was detrimental. Seedlings transplanted into the field showed excellent survival, regardless of propagation treatment, however, plants grown with Osmocote and micronutrients in the container medium were significantly larger after 1 growing season. Root-to-shoot ratio was not related to survival or growth. Container-grown seedlings were larger after 3 months than 2-year-old conventional bed-grown plants and continued to outgrow the bed-grown seedlings after one year in the field.

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Selecting the Optimum Slow-release Fertilizer Rate for Five Cultivars of Tissue-cultured Hosta

HortTechnology ◽

10.21273/horttech.8.2.203 ◽

1998 ◽

Vol 8 (2) ◽

pp. 203-206 ◽

Cited By ~ 5

Author(s):

Wendy Britton ◽

E.J. Holcomb ◽

David J. Beattie

Keyword(s):

Slow Release ◽

Optimum Growth ◽

Fertilizer Rate ◽

Nutrient Analysis ◽

Slow Release Fertilizer ◽

Foliar Nutrient ◽

Slow Release Fertilizers

Four rates of two slow-release fertilizers were tested for optimum growth of five hosta cultivars: Hosta sieboldiana `Elegans', Hosta plantaginea `Aphrodite', Hosta `Jade Scepter', Hosta `Hadspen Blue', and Hosta `Francee'. Tissue-cultured hostas from 2.5-cm plugs were planted in 6-inch (15-cm) pots filled with a commercial soilless medium, and the slow-release fertilizer was dibbled into the medium at 0, 3, 6, or 12 g/pot. The plants were maintained for 4 months. Root and shoot fresh and dry weights were recorded at the end of the experiment. In addition, foliar nutrient analysis was conducted on `Aphrodite', `Francee', and `Jade Sceptor'. Overall, hostas grew best when the medium was amended with 3 g of either Osmocote 14N-6P-11.5K or Sierrablen 17N-6P-12K slow-release fertilizer.

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Evaluation of Slow-release Fertilizers on Bell Pepper

HortTechnology ◽

10.21273/horttech.18.3.393 ◽

2008 ◽

Vol 18 (3) ◽

pp. 393-396 ◽

Cited By ~ 3

Author(s):

Luz M. Reyes ◽

Douglas C. Sanders ◽

Wayne G. Buhler

Keyword(s):

North Carolina ◽

Coastal Plain ◽

Slow Release ◽

Total Yield ◽

Calcium Nitrate ◽

Bell Pepper ◽

Marketable Yield ◽

Slow Release Fertilizer ◽

Bell Peppers ◽

Slow Release Fertilizers

This study was conducted to compare different formulations of a slow-release fertilizer with a conventional fertilizer program to determine their impact on yield and growth of bell pepper (Capsicum annuum). Two formulations of a methylene-urea slow-release fertilizer (Nitamin®) were evaluated on drip-fertigated and plastic-mulched bell peppers during 2006 in the eastern coastal plain and western Appalachian mountains of North Carolina. Liquid slow-release formulations were applied the first 6 or 9 weeks of the growing season and a dry formulation was banded at planting. Treatments were compared with the extension-recommended rate of 200 lb/acre nitrogen (N) (NC-200) and a high-input fertilizer rate of 300 lb/acre N (HI-300) from calcium nitrate injected in 12 weekly applications of drip irrigation. Irrigation was applied twice per week. The slow-release granular formulation at 200 lb/acre N produced the highest marketable yield and better canopy quality in eastern soil. Early marketable yield for this treatment accounted for 46% of the total yield. All slow-release treatments had higher N use efficiency (NUE) values than NC-200 and HI-300 in the eastern study. In loam soil (western study), pepper yield was statistically similar among treatments. Lower rates (150 lb/acre N) of slow-release fertilizer performed as well as NC-200 and HI-300 for marketable yield. Low rates (150 lb/acre N) of one of the liquid formulations performed better in total and marketable NUE than NC-200 and HI-300 in Fletcher, North Carolina. Liquid and dry formulations of slow-release fertilizer showed a potential to be used on bell pepper production across the state at reduced N rates, with greater impact on yield in coarse-textured soils found predominantly in the eastern coastal plain region.

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Slow Release Fertilizer Prepared from Leonardite and Zeolite

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.931-932.758 ◽

2014 ◽

Vol 931-932 ◽

pp. 758-761

Author(s):

Petchporn Chawakitchareon ◽

Parkwan Poovuttikul ◽

Thanyanuch Chantanurak

Keyword(s):

Potassium Chloride ◽

Slow Release ◽

Ammonium Phosphate ◽

Distilled Water ◽

Commercial Fertilizer ◽

Slow Release Fertilizer ◽

Standard Methodology ◽

Test Kit ◽

Slow Release Fertilizers

This research aims to develop slow release fertilizers by using Leonardite and Zeolite. Two formulations of slow release fertilizer were prepared namely the Leonardite and Zeolite slow release fertilizer and the Leonardite slow release fertilizer. Theirnutrient releasing rates were investigated and comparedwith that of the commercially availableslow release fertilizer which contained N8:P24:K24.Specifically the slow release fertilizers were formulated from leonardite, zeolite and other fertilizer materials such as ammonium phosphate and potassium chloride. Each formulation was then pelletized and baked at 100°C for 1 hr to remove water; then they were kilned at 150°C for 1 hr. All the kilned fertilizers were analyzed subsequently by using the Fertilizer Test Kit (KU.5) to determine the releasing rates of the main N, P and K nutrients. Each fertilizer was immersed in distilled water and shakenat the speed of 150 rpm for 10 min, 30 min, 1 hr and 2 hr. The nutrients released into the distilled water were determined following the standard methodology. The results indicated that the nutrient releasing rates of the slow release fertilizer prepared from Leonardite and Zeolite were less than those observed in the commercial fertilizer.

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Slow-release nitrogen fertilizer in carrot production on Prince Edward Island

Canadian Journal of Plant Science ◽

10.4141/cjps2011-201 ◽

2012 ◽

Vol 92 (6) ◽

pp. 1223-1228 ◽

Cited By ~ 3

Author(s):

K. R. Sanderson ◽

S. A. E. Fillmore

Keyword(s):

Nitrogen Fertilizer ◽

Prince Edward Island ◽

Assessment Tool ◽

Slow Release ◽

Urea Formaldehyde ◽

Marketable Yield ◽

Slow Release Fertilizer ◽

Industry Standard ◽

Slow Release Fertilizers ◽

The Impact

Sanderson, K. R. and Fillmore, S. A. E. 2012. Slow-release nitrogen fertilizer in carrot production on Prince Edward Island. Can. J. Plant Sci. 92: 1223–1228. The impact of nitrogen management using slow-release fertilizers has not been examined for carrot (Daucus carota L.) production in Atlantic Canada. To assess the effects of such products, we evaluated five slow-release fertilizers over a 3-yr period. Treatments consisted of sulphur coated urea (SCU) (42–0–0), isobutylidene diurea (IBDU) (31–0–0), Nutralene® (methylene urea) (40–0–0), Sirflor® (urea formaldehyde) (38–0–0), UFLEXX™ (urea, dicyandiamide, N-(n-butyl) thiophosphoric triamide) (46–0–0) compared with industry standard (ammonium nitrate) (34–0–0). All slow-release fertilizer treatments supplied N at 50 kg N ha–1 pre-plant. Slow-release fertilizer treatments were compared with the industry standard of 50 kg N ha−1 pre-plant plus 50 kg N ha–1 as a top dress. UFLEXX™ increased biological and marketable yield by 7.5 and 18.7%, respectively, compared with the industry standard. Sirflor® produced the lowest yield. GreenSeeker® NDVI reading and LECO N were correlated at the mid-season sample. GreenSeeker® technology has potential as an in-field crop health assessment tool, however, further research is required to develop GreenSeeker® algorithms appropriate for carrot production in Prince Edward Island.

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