Trends of Research and Development on Plant Growth Control under Artificial Light

The research aim to determine the effect of the use of phytohormone extracts of red onion (Allium cepa), stem cuttings material and the interaction of phytohormone extracts of A. cepa with stem cuttings material on the growth of mulberry (Morus multicaulis) plants. This research was conducted at the Research and Development Institute of Tanjungpura University from March to May 2019. The method of research was an experimental method with a Split Plot Design. The treatments consisted of the stem cutting materials (base, middle and shoot) as the main plot and the dose of shallots extract (0 g/l, 500 g/l and 1000 g/l) as subplots. Each treatment consisted of three groups, so that the total of treatments were 27 plots. The results showed that only the dose of shallots extract which significant influented on the M. multicaulis growth. Whereas the stem cutting materials and interactionsof both were did not effect significantly. The highest of murbei growth was obtained at 1000 g/l of shallot extract on 6,52% of the leaves number, 500 g/l of branch length 4,52% and 3.88% of the roots number. Thus, the extract of A. cepa L can be used as an alternative for plant growth, especially M. multultulis plants.Keywords: Mulberry, stem cuttings, phytohormone.

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858 PB 437 EVALUATION OF DIKEGULAC-SODIUM AND MEFLUIDIDE FOR GROWTH CONTROL OF ASIATIC AND CONFEDERATE JASMINE

HortScience ◽

10.21273/hortsci.29.5.556d ◽

1994 ◽

Vol 29 (5) ◽

pp. 556d-556

Author(s):

Jeffrey G. Norcini ◽

James H. Aldrich

Keyword(s):

Plant Growth ◽

Growth Control ◽

Inhibitory Effect ◽

Lateral Growth ◽

Single Application ◽

Growth Inhibitory Effect ◽

Minimal Growth ◽

Optimum Treatment ◽

Woody Vine ◽

Growth Inhibitory

The effectiveness of three concentrations of either dikegulac-sodium or mefluidide on the growth of two containerized woody vine crops was investigated. A single application of dikegulac-sodium at 1600, 3200, or 4800 mg·liter-1 or mefluidide at 600, 1200, or 1800 mg·liter-1 was applied to either 3.8-liter containers of Asiatic jasmine (Trachelosoerum asiacticum Siebold and Zucc.) or staked confederate jasmine (Trachelosperum jasminiodes (Lindl.) Lem.) on 25 May 1993. Two additional applications were made at 8 week intervals after transplanting to 9.5-liter containers. Plant growth and phytotoxicity were evaluated 0, 4, and 8, and 1, 2, 4, and 8 weeks after application, respectively. Dikegulac-sodium at 3200 mg·liter-1 was the optimum treatment for suppressing the lateral growth of Asiatic jasmine and the vertical growth of confederate jasmine with minimal phytotoxicity. Dikegulac-sodium at 4800 mg·liter-1 excessively inhibited growth of both species and resulted in unacceptable phytotoxicity. All mafluidide treatments had minimal growth inhibitory effect on either species.

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A Multistaged Fuzzy Logic Scheme in a Biobotanic Growth Regulation System

HortScience ◽

10.21273/hortsci.47.6.762 ◽

2012 ◽

Vol 47 (6) ◽

pp. 762-770 ◽

Cited By ~ 3

Author(s):

Chung-Liang Chang ◽

Ming-Fong Sie

Keyword(s):

Growth Rate ◽

Fuzzy Logic ◽

Control System ◽

Plant Growth ◽

Growth Regulation ◽

Fuzzy Logic Controller ◽

Expert Knowledge ◽

Growth Control ◽

Regulation System ◽

Expert Database

A multistaged fuzzy logic control method was used in the development of a bionic botanical growth control system. The growth mode combined fuzzy logic inference with expert knowledge to regulate the growth rate of plants. First, environment factors such as the light, temperature, and water required for plants in different stages of growth were analyzed. Fuzzy logic was then used to establish membership functions, an inference engine, and rule table. An expert database related to plant growth was combined with the fuzzy logic controller to formulate a plant growth control system. Sunflowers were used as a simulated model and the results correspond to the information provided by experts. The proposed model was used to control the growth rate of plants based on data provided in the expert database. The proposed method and results of this study are applicable in the management and control of environments for the growth of crops.

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Paclobutrazol Drenches Control Growth of Potted Sunflowers

HortTechnology ◽

10.21273/horttech.8.2.235 ◽

1998 ◽

Vol 8 (2) ◽

pp. 235-237 ◽

Cited By ~ 6

Author(s):

Shravan Dasoju ◽

Michael R. Evans ◽

Brian E. Whipker

Keyword(s):

Plant Growth ◽

Helianthus Annuus ◽

Plant Height ◽

Growth Control ◽

Stunted Growth ◽

Sunflower Plant ◽

Control Growth ◽

Higher Doses ◽

Effect On Growth

Paclobutrazol drenches were applied at 0, 2, 4, 8, 16, or 32 mg a.i./pot to potted sunflowers (Helianthus annuus L. `Pacino') to determine its effect on growth. Plant height was shorter as paclobutrazol dose increased up to 16 mg; however, additional increases in dose had little effect on height. Severe height retardation of `Pacino' plants was evident at 16 and 32 mg. Plants treated with 2 mg of paclobutrazol were 17% and 25% smaller in diameter than untreated plants in Expts. 1 and 2, respectively. Plant diameter was smaller as paclobutrazol dose increased up to 16 mg, with additional increases in dose having little effect on plant diameter in Expt. 2. Plants treated with 16 or 32 mg of paclobutrazol exhibited phytotoxicity symptoms including crinkled leaves and stunted growth, and smaller and greener leaves. Sunflower plant growth was greater in the summer (Expt. 1) than in winter (Expt. 2). In the summer higher doses of paclobutrazol will be required than in winter for growth control. Marketable sized plants grown in 15- to 16.5-cm-diameter pots were produced with doses of paclobutrazol at 2 and 4 mg in both seasons, and doses up to 8 mg can also be used in summer for growth control.

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Quantifying Growth Control of Lantana Cultivars Varying in Vigor with Ancymidol, Flurprimidol, Paclobutrazol, and Uniconazole Substrate Drenches

HortTechnology ◽

10.21273/horttech.26.3.320 ◽

2016 ◽

Vol 26 (3) ◽

pp. 320-326

Author(s):

Christopher J. Currey ◽

Kellie J. Walters ◽

Kenneth G. McCabe

Keyword(s):

Plant Growth ◽

Plant Height ◽

Growth Regulator ◽

Active Ingredient ◽

Plant Growth Regulator ◽

Growth Habit ◽

Growth Control ◽

Growth Index ◽

Plant Size ◽

Lantana Camara

Our objective was to quantify the efficacy of different plant growth regulator (PGR) substrate drenches on growth of lantana (Lantana camara) cultivars varying in growth habit. Rooted ‘Little Lucky Peach Glow’, ‘Lucky Peach’, and ‘Landmark Peach Sunrise’ lantana cuttings were individually planted into 4-inch-diameter containers filled with a commercial, soilless growing substrate. Fourteen days after planting, solutions containing 0 (control), 0.5, 1, 2, or 4 mg·L−1 ancymidol, flurprimidol, paclobutrazol, or uniconazole were applied to the surface of the growing substrate. Six weeks after applying PGR drenches, data were collected. The growth index (GI), an integrated measurement of plant size incorporating the height and widths of plants, was calculated. There was variation in the GI among the control plants, reflecting variation among cultivars within the species. In addition, we measured variation in activity among the different PGRs applied. Across the concentrations applied, ancymidol generally had the lowest activity across the four PGRs. For example, drenches containing 4 mg·L−1 ancymidol resulted in plants that were similar to plants treated with 0.5 to 1 mg·L−1 flurprimidol or uniconazole or 2 mg·L−1 paclobutrazol for ‘Lucky Peach’ lantana. Across all cultivars, flurprimidol and uniconazole had the greatest activity in suppressing plant height, width, and GI. Substrate drenches containing flurprimidol, paclobutrazol, or uniconazole are useful to control size of lantana produced in containers, though the recommended concentration depends on the active ingredient and the growth habit of cultivars being treated.

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