scholarly journals Rooting Softwood Cuttings of Leyland Cypress Outdoors Under Shade

2006 ◽  
Vol 24 (3) ◽  
pp. 124-128
Author(s):  
L. Eric Hinesley ◽  
Frank A. Blazich ◽  
Scott A. Derby
Keyword(s):  
Controlled Release ◽  
Stem Cuttings ◽  
Root Mass ◽  
Indolebutyric Acid ◽  
Rooted Cuttings ◽  
Controlled Release Fertilizer ◽  
Auxin Concentration ◽  
Additional Improvement ◽  
Substrate Fertility

Abstract Stem cuttings of Leyland cypress [x Cupressocyparis leylandii (A.B. Jacks. & Dallim.) Dallim. & A.B. Jacks], were rooted to determine the effect of A) date of collection, rooting substrate, and mist frequency, B) auxin formulation and concentration, C) rooting substrate, D) substrate fertility, and E) type of cutting and auxin concentration. Results were best for misting intervals of 5 to 7 min during the day, but 10 min was also adequate. Rooting was comparable for softwood cuttings collected in late May or late June. Powder and liquid auxin formulations, which both contained indolebutyric acid (IBA), yielded similar results. Cuttings that were more lignified (light tan color) at the bases benefited the most from higher concentrations [≈ 8000 ppm (0.8%)] of IBA in talc, whereas less mature cuttings (green at the bases) rooted in highest percentages with lower concentrations [≈ 3000 ppm (0.3%)]. Rooting was similar in substrates with a peat:perlite ratio (v/v) of 1:1, 1:2, or 1:4, whereas results were less satisfactory in 100% perlite. Controlled release fertilizer [1.8 kg/m3 (4 lb/yd3)] in the rooting substrate did not affect rooting percent, but greatly increased root mass and quality of rooted cuttings. Doubling the rate resulted in little additional improvement. Rooting was comparable for vigorous side shoots (1st-order laterals) and tips from vigorous upright branches (primary axes) of similar maturity.

scholarly journals Container Type and Volume Influences Adventitious Rooting and Subsequent Field Growth of Stem Cuttings of Loblolly Pine

2006 ◽  
Vol 30 (3) ◽  
pp. 123-131 ◽  
Author(s):  
Anthony V. LeBude ◽  
Barry Goldfarb ◽  
Frank A. Blazich ◽  
Jeff A. Wright ◽  
Ben Cazell ◽  
...  
Keyword(s):  
Loblolly Pine ◽  
Stem Cuttings ◽  
Root Mass ◽  
System Quality ◽  
Rigid Plastic ◽  
Plastic Container ◽  
Rooted Cuttings ◽  
Field Growth ◽  
Lower Root ◽  
Container Type

Abstract Container type and size can influence rooting success, development, and subsequent field growth of loblolly pine rooted cuttings. To evaluate differences between containers, a series of two experiments were conducted comparing rooting in commercially available Jiffy forestry peat pelletsof various sizes to a rigid plastic container system considered to represent a commercially obtainable optimum. A third experiment was conducted to compare the effect of three volumes of Ray Leach Cone-tainers on rooting percentage and root system quality. The same three families were usedin experiments 1 and 2 where dormant and succulent cuttings were rooted, respectively. Succulent cuttings from a different set of three families were used in experiment 3. Rooted cuttings from experiments 2 and 3 also were field planted and evaluated for the effect of container type and sizeon 1st-year growth. In the first two experiments, rooting percentages of the best treatments (Jiffy pellets, 25–65, 30–65, 36–65, 36–75, and 42–65 mm) were equal to the controls, indicating that the peat pellets offer a practical alternative to rooting in rigidcontainers. Rooting percentages, however, declined in larger Jiffy pellets (42–80 mm and 50–95 mm pellets), but root masses of rooted cuttings were quite large. In the smaller Jiffy pellets, roots tended to grow into adjacent pellets resulting in lower root mass after the pelletswere harvested for planting. Lower root mass at preplanting equated to less root mass after 1 year in the field, despite the fact that the root systems were more horizontally developed than those produced in rigid containers. Rooting percentages and morphology were under genetic control andthere were statistically significant family × container interactions. Because these interactions were caused primarily by changes in magnitude rather than changes in ranks, a few of the containers could be used to optimize production for the limited number of genotypes tested here. Alternativemethods of producing rooted cuttings in Jiffy pellets are compared briefly with production systems in rigid containers and some important considerations are discussed. South. J. Appl.For. 30(3):142–146.

scholarly journals Use of Species-specific Controlled-release Fertilizer Rates to Manage Growth and Quality of Container Nursery Crops

2015 ◽  
Vol 25 (3) ◽  
pp. 370-379 ◽  
Author(s):  
Mary Jane Clark ◽  
Youbin Zheng
Keyword(s):  
Controlled Release ◽  
Growth Index ◽  
Dry Weight ◽  
Temperate Climate ◽  
Controlled Release Fertilizer ◽  
Shoot Dry Weight ◽  
Application Rates ◽  
Nursery Crops ◽  
Species Specific

The objective of this study was to determine the optimal controlled-release fertilizer (CRF) application rates or ranges for the production of five 2-gal nursery crops. Plants were evaluated following fertilization with 19N–2.6P–10.8K plus minors, 8–9 month CRF incorporated at 0.15, 0.45, 0.75, 1.05, 1.35, and 1.65 kg·m−3 nitrogen (N). The five crops tested were bigleaf hydrangea (Hydrangea macrophylla), ‘Green Velvet’ boxwood (Buxus ×), ‘Magic Carpet’ spirea (Spiraea japonica), ‘Palace Purple’ coral bells (Heuchera micrantha), and rose of sharon (Hibiscus syriacus). Most plant growth characteristics (i.e., growth index, plant height, leaf area, and shoot dry weight) were greater in high vs. low CRF treatments at the final harvest. Low CRF rates negatively impacted overall appearance and marketability. The species-specific CRF range recommendations were 1.05 to 1.35 kg·m−3 N for rose of sharon, 0.75 to 1.05 kg·m−3 N for ‘Magic Carpet’ spirea, and 0.75 to 1.35 kg·m−3 N for bigleaf hydrangea and ‘Green Velvet’ boxwood, whereas the recommended CRF rate for ‘Palace Purple’ coral bells was 0.75 kg·m−3 N. Overall, species-specific CRF application rates can be used to manage growth and quality of containerized nursery crops during production in a temperate climate.

scholarly journals INPUTS OPTIMIZATION IN THE SEEDLINGS PRODUCTION OF Corymbia citriodora E Eucalyptus dunnii

FLORESTA ◽  
2022 ◽  
Vol 52 (1) ◽  
pp. 103
Author(s):  
Claudia Costella ◽  
Maristela Machado Araujo ◽  
Álavro Luís Pasquetti Berghetti ◽  
Suelen Carpenedo Aimi ◽  
Marllos Santos de Lima ◽  
...  
Keyword(s):  
Controlled Release ◽  
Dry Weight ◽  
Growth Potential ◽  
Morphological Attributes ◽  
Controlled Release Fertilizer ◽  
Physiological Variables ◽  
Eucalyptus Dunnii ◽  
Chlorophyll A And B ◽  
Corymbia Citriodora

Corymbia citriodora and Eucalyptus dunnii are species of relevant importance due to the quality of the wood and growth potential in Southern Brazil. Therefore, we aimed to identify containers and doses of controlled-release fertilizer capable of enhancing the morphophysiological quality and growth of these species in the nursery, aiming for the proper management of these inputs. The seedlings were produced in two volumes of containers (50 e 110 cm³), filled with Sphagnum peat-based substrate, mixed with different doses of controlled-release fertilizer (CRF) NPK 15-09-12 (0, 3, 6, 9 e 12 g L-1 of substrates). In addition, the morphological (height, stem diameter, leaf area, dry weight of shoot, root, and total) and physiological (chlorophyll a and b index and quantum yield of the photosystem II) attributes were evaluated. The morphological attributes proved to be suitable indicators of the quality of C. citriodora and E. dunnii seedlings, allowing to recommend the container of 50 cm³ and the doses of 9.0 g L-1 of controlled-release fertilizer for both species. At the same time, the physiological variables evaluated were not responsive to the effect of the treatments.

scholarly journals Rooting and Overwintering Stem Cuttings of Stewartia pseudocamellia Maxim. Relevant to Hormone, Media, and Temperature

HortScience ◽  
2008 ◽  
Vol 43 (7) ◽  
pp. 2124-2128 ◽  
Author(s):  
Ajay Nair ◽  
Donglin Zhang ◽  
John Smagula ◽  
Dongyan Hu
Keyword(s):  
Cold Treatment ◽  
Stem Cuttings ◽  
Optimum Conditions ◽  
Rooted Cuttings ◽  
Four Seasons ◽  
Different Temperatures ◽  
Overwintering Survival ◽  
Garden Plant ◽  
Water Holding

Stewartia pseudocamellia Maxim. (Japanese Stewartia), a member of Theaceae (tea family), is an excellent garden plant with ornamental features for all four seasons. Reproduction difficulty, however, limits its popularity. We conducted three experiments to ascertain the optimum conditions needed for rooting and subsequent overwintering of semihardwood Stewartia pseudocamellia cuttings. Cuttings were collected in July and prepared for rooting using two types of hormones (KIBA quick dip and Hormodin powder) and three media (Perlite + ProMix, Perlite + Perennial Mix, or Perlite + ProMix + Perennial Mix). Rooted cuttings were overwintered at four different temperatures. The best overwintering temperature was 5 °C, at which 65.6% of newly rooted cuttings survived. Temperatures lower than –12.2 °C were detrimental to the plants. Without cold treatment, only 21.9% of the rooted cuttings survived, which was three times lower than those that received 5 °C treatments. Plants rooted in Perlite + Perennial Mix had 61.8% overwintering survival, which is significantly higher than Perlite + ProMix. The quality of roots, indicated by total root length per cutting, was higher (104.3 cm) with Perlite + Perennial Mix, but not statistically significant. Cuttings treated with rooting hormones had higher rooting percentages (71.9% to 93.6%) as compared with the control (53%). For the same concentration (8000 mg·L−1), liquid (KIBA) and liquid + powder (KIBA + indole-3-butyric acid) rooting hormones resulted in better rooting percentages than powder (Hormodin) alone, although there was no statistical difference in rooting percentages among rooting hormone treatments. The best hormone for subsequent overwintering survival was the combination of quick dip (5000 mg·L−1 KIBA) and Hormodin #2 (0.3% a. i.; equivalent to 3000 mg·L−1). It resulted in 64.2% survival, significantly higher than for KIBA quick dip (8000 mg·L−1 a.i.) or Hormodin #3 (0.8% a. i.; equivalent to 8000 mg·L−1) alone. Our results suggest that reproduction (rooting and overwintering) of Stewartia was affected by many factors. We recommend rooting Stewartia in media that has good aeration and moderate water-holding capacity and overwintering them at ≈5 °C.

scholarly journals The Pivotal Role of Phenological Stage Enhanced by Plant Origin Preparations in the Process of Rhizogenesis of Rosa ‘Hurdal’ Stem Cuttings

2021 ◽  
Author(s):  
Marta Monder ◽  
Maciej Niedzielski ◽  
Konrad Woliński
Keyword(s):  
Chlorophyll A ◽  
Plant Extract ◽  
Growth Parameters ◽  
Treatment Plant ◽  
Naphthalene Acetic Acid ◽  
Stem Cuttings ◽  
Plant Origin ◽  
Indolebutyric Acid ◽  
Organic Preparation

Some biostimulants, including plant origin preparations, act similarly to plant hormones. Moreover, the supplementation of known and unknown rooting cofactors can stimulate rhizogenesis in cuttings. The aim of this research was to assess the response of difficult-to-root and long-rooting stem cuttings of the once-blooming old variety Rosa ‘Hurdal’ to preparations of plant origin. The hypothesis was that plant origin preparations could enhance rooting processes by inhibiting chlorophyll a/b degradation in leaves and postponing leaf senescence, simultaneously increasing the quality of cuttings. The one-bud stem cuttings were made in four phenological stages: (H1) flower buds closed, (H2) open flowers, (H3) just after petal fall, (H4) 7-14 days after petal shedding. They were treated with either standard commercial powder preparations containing 0.4% indolebutyric acid (IBA) or 0.2% naphthalene acetic acid (NAA) as well as with commercial plant origin preparations that this work will henceforth refer to as: Algae Extract, Organic Preparation, and Plant Extract. The cuttings were evaluated after 12 weeks of rooting them in two substrates: peat-perlite and peat-sand (v:v; 1:1). Mean root percentages for both substrates were noted after preparation from stage H1 (74.5 %), H2 (59.5 %), H3 (50.8 %) shoots. The H4 cuttings didn’t root at all and were not considered further. The means for all phenology stages together were the highest by the use of 0.6 % Algae Extract, 0.012 % and 0.02 % Organic Preparation, 0.2 % and 0.4 % Plant Extract. The lowest means were reported for the control cuttings as well as NAA and IBA treatment. Plant origin preparations encouraged growth parameters but did not unequivocally inhibit the decrease of chlorophyll content in the cuttings’ leaves. Rooting percentage depended on the quality of cuttings as well as chlorophyll a/b and soluble protein content in leaves in both rooting substrates.

scholarly journals Sodium Cellulose Glycolate as a Thickening Agent for Liquid Auxin Formulations can Enhance Rooting of Stem Cuttings

2007 ◽  
Vol 25 (3) ◽  
pp. 126-130
Author(s):  
Eugene K. Blythe ◽  
Jeff L. Sibley
Keyword(s):  
Shoot Growth ◽  
Extended Period ◽  
Stem Cuttings ◽  
Root Number ◽  
Hedera Helix ◽  
Rooted Cuttings ◽  
Thickening Agent ◽  
Auxin Concentration ◽  
Ilex Vomitoria ◽  
Hibiscus Syriacus

Abstract Stem cuttings of Abelia ‘Edward Goucher’, Buxus sinica var. insularis ‘Wintergreen’, Hedera helix, Hibiscus syriacus ‘Collie Mullens’, Ilex vomitoria ‘Nana’, Juniperus conferta ‘Blue Pacific’, and Rosa ‘Red Cascade’ received a basal quick-dip in solutions of Dip ‘N Grow at concentrations of 0 + 0, 50 + 25, 250 + 125, 500 + 250, 750 + 375, and 1000 + 500 ppm IBA + NAA prepared with and without 13.5 g/liter sodium cellulose glycolate (SCG) as a thickening agent. Cuttings of Ilex vomitoria ‘Nana’ exhibited increased rooting with increasing auxin concentration with inclusion of SCG. The other six taxa exhibited similar rooting percentages among all treatments, but exhibited an increase in root number and/or total root length with inclusion of SCG. Initial shoot growth on rooted cuttings of Abelia ‘Edward Goucher’ showed some reduction with increasing auxin concentration with inclusion of SCG, suggesting cuttings absorbed more auxin from solutions containing SCG owing to their extended period of exposure to the auxin. Otherwise, there were no negative responses to solutions containing SCG. The greater viscosity of solutions prepared with SCG can help reduce the possibility of spillage and evaporation of alcohol during use of the auxin solutions.

scholarly journals Growth and quality of Handroanthus heptaphyllus (Vell.) Mattos. seedlings as a function of controlled release fertilizer doses

2020 ◽  
Vol 8 (1) ◽  
Author(s):  
Adrielly Costa Souza ◽  
Marcos André Piedade Gama ◽  
Dênmora Gomes Araújo ◽  
Gabriel Pinheiro Silva ◽  
Jéssy Anni Vilhena Senado
Keyword(s):  
Controlled Release ◽  
Controlled Release Fertilizer

scholarly journals Production and Postproduction Performance of Two New Guinea Impatiens Cultivars Grown with Controlled-release Fertilizer and No Leaching

1996 ◽  
Vol 121 (5) ◽  
pp. 820-825 ◽  
Author(s):  
Darren L. Haver ◽  
Ursula K. Schuch
Keyword(s):  
Controlled Release ◽  
New Guinea ◽  
Light Level ◽  
High Rate ◽  
Controlled Release Fertilizer ◽  
Light Levels ◽  
High Moisture Level ◽  
Leaf N Content ◽  
New Guinea Impatiens

The objectives of this study were to determine 1) the minimum controlled-release fertilizer (CRF) rate and the lowest constant medium moisture required to produce the highest quality plants and 2) if this production system affected quality of these plants under two postproduction light levels. Two New Guinea impatiens (Impatiens sp. hybrids) `Illusion' and `Blazon' (Lasting Impressions Series) differing in salt tolerance were grown for 42 days with a CRF at three rates (3.3, 6.6, or 9.9 g/pot) and two medium moisture levels (low or high) without leaching. The high moisture level (tension setpoints of 1 to 3 kPa) and 6.6 g of CRF/pot produced optimum biomass. Low medium moisture (tension setpoints of 4 to 6 kPa) reduced leaf area, leaf number, leaf N content, root, stem, and leaf dry masses as CRF rate increased from low to high for `Illusion'. Similar results in `Blazon' were observed as CRF rates increased from 3.3 to 6.6 g. Biomass decreased no further at the high rate of 9.9 g/pot. Biomass increased in both cultivars under high medium moisture when CRF rates increased from 3.3 to 6.6 g. Biomass of `Illusion' decreased at 9.9 g/pot, although no symptoms of salt sensitivity were observed (i.e., leaf tip burn). `Blazon' maintained a similar biomass when amended with 9.9 or 6.6 g CRF/pot, although electrical conductivity (EC) in the medium was 5.9 dS·m-1 in the upper half and 4.1 dS·m-1 in the lower half of the medium at the end of production. Growth of `Illusion' responded more favorably to postproduction light levels that were similar to those of production regardless of treatment imposed during production. Similar biomass responses occurred for `Blazon' regardless of the postproduction light level.

scholarly journals Growth and Nutrient Status of Six Species of Nursery Stock Grown in a Compost-based Medium with Recycled Nutrients

HortScience ◽  
2004 ◽  
Vol 39 (1) ◽  
pp. 60-64 ◽  
Author(s):  
Calvin Chong ◽  
Glen Lumis ◽  
Peter Purvis ◽  
Adam Dale
Keyword(s):  
Controlled Release ◽  
Nutrient Status ◽  
Pine Bark ◽  
Rooted Cuttings ◽  
Controlled Release Fertilizer ◽  
Nursery Stock ◽  
Foliar Concentrations ◽  
Computer Controlled ◽  
Fertilizer Regimes

Rooted cuttings of `Antonovka' apple, `Lynwood Gold' forsythia, double-flowered kerria, common ninebark, `Goldfinger' potentilla, and `Red Prince' weigela were grown in 2-gal (6-L) nursery containers filled with 1:1 (by volume) of waste compost and composted pine bark, under three fertilizer regimes: 1) liquid nutrients [target concentrations in ppm (mg.L-1): NH4-N, 13; NO3-N, 100; P, 28; K, 120; Ca, 92; Mg, 13; Fe, 1.3; Mn, 0.27; Zn, 0.23; Cu, 0.05; B, 0.22; Mo, 0.05; Na, <50; Cl, <50; and SO4 <300] delivered and recycled twice per day via a computer-controlled multifertilizer injector; 2) same nutrient formula and concentration rate delivered fresh via the injector but without recycling; and 3) Nutryon (Polyon) 17-5-12 controlled-release fertilizer incorporated into the medium at a rate of 11 lb/yd3 (6.5 kg·m-3). With recycled liquid nutrients, all species grew the same or more than with nonrecycled nutrients, and generally the poorest growth was with controlled-release fertilizer. Foliar concentrations of K (all species), N (all species), P (forsythia, kerria, potentilla, and weigela), and Mn (forsythia, potentilla, and weigela) were higher in plants supplied with recycled and/or nonrecycled nutrients than in those supplied with controlled-release fertilizer, while foliar concentrations of Ca (ninebark and kerria) and Mg (apple, kerria, ninebark, potentilla, and weigela) were lower. Compared to nonrecycled liquid nutrients, the amounts of individual recycled nutrients were reduced by (percentage in brackets): NH4-N (30), NO3-N (78), P (76), K (46), Ca (93), Mg (96), Fe (52), Mn (43), Zn (55), Cu (60), B (83), and Mo (66).

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