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Advances in Crop Science and Technology
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  • Research Article   
  • Adv Crop Sci Tech 2022, Vol 10(4): 506
  • DOI: 10.4172/2329-8863.1000506

Effect of Alar, Cycocel and Bonzi on Growth Performance of Ivy Geranium (Pelargonium peltatum)

Kebede Tedila*
Debre Berhan University College of Agriculture and Natural Resource Science, Debre Berhan, Ethiopia
*Corresponding Author: Kebede Tedila, Debre Berhan University College of Agriculture and Natural Resource Science, Debre Berhan, Ethiopia

Received: 03-Apr-2022 / Manuscript No. acst-22-54660 / Editor assigned: 06-Apr-2022 / PreQC No. acst-22-54660(PQ) / Reviewed: 11-Apr-2022 / QC No. acst-22-54660 / Revised: 17-Apr-2022 / Manuscript No. acst-22-54660(R) / Published Date: 25-Apr-2022 DOI: 10.4172/2329-8863.1000506

Abstract

The experiment was conducted at Jimma University College of Agriculture and Veterinary Medicine with the objective of determining the growth response of Pelargonium peltatum to application of Alar, Cycocel and Bonzi. The experiment was laid down as randomized complete block design with three replications. On the test plants it was observed that the application of Alar, Cycocel and Bonzi considerably affected most of the evaluated parameters except the number of roots. Accordingly, the maximum number of main branches was obtained from the application Bonzi even if Cycocel and Alar brought increased number of branches as compared to those plants which did not receive growth retardants. Overall, the investigation showed that Alar, Cycocel and Bonzi can influence growth of Pelargonium peltatum. From commercial grower point of view, obtaining large number of quality braches (cutting) is crucial. Hence, application of Bonzi, on the test plant can be recommended for use by commercial growers in Ethiopia.

Keywords

Pelargonium peltatum Growth Retardant Alar Cycocel (CCC) Bonzi

Introduction

The Ethiopian flower industry is flourishing, with the help of government incentives and low labor cost (EHDA, 2012). The country is now the second-largest flower exporter in Africa, with over 100 flower growers on 1,700 hectares. The country has generated over 260 million USD from the sector in the budget year of 2011/12 and the industry becomes one of the top four sources of foreign exchange for the country (EHDA, 2012). The production area and amount of earnings is expected to increase in the 2nd Growth and Transformation Plan years and the area and revenue are projected to grow to 3,000 hectares and revenue to $550 million, respectively, due mainly to the expansion of horticulture farms in the country (Tessema and Tamene, 2015).

In recent years, the numbers of cutting companies that produce small cutting planting materials has shown a rise trend and are known to be successful in their businesses (Daniel, 2013). Among these, Florensis Ethiopia PLC, Syngenta Ethiopia, Dessa plant PLC, Maranque plants PLC and Red-fox PLC are known companies and they are successful in their business. The main plants produced in these Ethiopian producers are Pelargonium, Poinsettia, Chrysanthemum and Mandevilla.

(Pelargonium peltatum) Ivy geranium is one of the species grown for cuttings production in our country mainly by Florensis Ethiopia PLC. However, this plant usually grows up quickly and fall-over the growing pots. To manage these problems, growers regularly use chemical growth retardants among which Alar (B-nine), CCC (Cycocel), Bonzi, and Florel are common. These plant growth retardants are synthetic compounds which are used to reduce the shoot length of plants in a desired height without changing developmental patterns or being phytotoxic. This is achieved primarily by reducing cell elongation and by lowering the rate of cell division (Wilhelm, 2016).

Growth retardants are highly specific in their effect on growth plants. There is no clear association between taxonomic classification and plant response to a particular compound. Even different cultivars of the same species vary greatly in the responsiveness to the applied chemical (Dole and Wilkins, 2005). Thus this experiment was initiated to determine the effect of Alar, Cycocel and Bonzi on growth of Pelargonium peltatum.

Methodology

Description of the study area

The experiment was conducted at Jimma University College of Agriculture and Veterinary Medicine (JUCAVM), under greenhouse condition. JUCAVM is found in Jimma town, which is 355 km southwest of Addis Ababa, located at about 70 40’N latitude and 360 50’ E longitudes at an altitude of 1710 meters above sea level. The mean maximum and minimum temperatures were 26.80oC and 11.400,C respectively, and the mean maximum and minimum relative humidity were 91.40% and 39.92%, respectively. The mean maximum and minimum temperatures of growing greenhouse (JUCAVM) were 35o C and 20oC and the mean maximum and minimum relative humidity were 83% and 40%, respectively. In the propagation unit (Koka Florensis Ethiopia PLC) temperature and relative humidity were maintained in the range of 24 to 29°C and 75 to 85%, respectively using a computerized Greenhouse Systems [1].

Experimental materials

Properly carton packed rooted cuttings of Pelargonium peltatum, (Balcon Imperial Red variety) being used as test crop was transported with inter-city bus /long distance public transport from Koka Florensis Ethiopian Private Limited Company to JUCAVM. The species was selected on the basis of the company’s recommendation and taking into account its popularity in the international market. The required amount of chemical growth retardants (Alar, CCC and Bonzi) for the experiment was also obtained from the farm. Round plastic pots with 2 litre volume capacity were used for reporting the received rooted cuttings. A mixture of forest soil, sand and manure at 3:1:1 ratio was used as a growing media. For spraying the PGRs solutions, three hand sprayers which hold a liter of a solution were utilized [2]. Experimental design and treatments The experiment was laid out with three replications in Randomized Complete Block Design (RCBD). The spacing between blocks, plots and pots were 50 cm, 25 cm and 10 cm, respectively. The three chemical Growth Retardants (Alar, CCC and Bonzi), used at their recommended rates for the test crop as follows: Alar and Cycocel at equal concentration of 1000 ppm and Bonzi at 15 ppm. Experimental procedures The rooting processes of Pelargonium peltatum was started on August 26, 2016 at Koka Florensis Private Limited Company. The cuttings were allowed to remain in the rooting containers for 25 days in order to ensure proper rooting at the farm. Then the rooted cuttings were packed in carton and transported to JUCAVM using public transport (inter-city bus) [3]. The growing media was prepared from forest soil, sand and manure at the ratio of 3:1:1, respectively. The prepared media was allowed to moist and filled in the pot. Then after, each rooted cutting was planted in a single pot and other management practices such as watering, weeding and follow-ups were implemented uniformly to all plants as per the operational recommendations of the farm (Florensis Ethiopian Plc).

Data collected

Plant height (cm): The height of main stem was measured from five randomly selected plants starting from the crown (the point where the root and stem join) to the uppermost part of the plant using standard ruler at flowering stage (when 50% of the plants open their flower).

Main Stem Diameter (mm): Stem diameter of the main stems of the sampled three plants was measured just 5cm above the surface of the media using digital Caliper and the average data was recorded.

Inter-node length (cm): The length between two nodes of the main stem was measured using standard ruler from three randomly selected plants by taking the average length between two successive nodes starting from the second node of the bottom of plant.

Number of branches per plant: The number of main branches was counted from five plants at flowering stage (when 50% of the plants open their flower).

Number of leaves per plant: The number of leaves per plant was counted from five plants just before flowering.

Mean leaf area (cm2): The area of leaf was measured using square paper from three randomly selected plants by taking randomly three leaves from top, middle and bottom parts just before flowering, and the average value was recorded .

Number of Roots per Plant: The number of main roots (roots raised from the main stem crown) per plant was counted from three randomly selected plants after cleaning the soil from the roots at flowering stage (when 50% of the plants open their flower).

Root length (cm): The root length of three randomly selected plants was measured using standard ruler from the crown of the plant to the lower end point of the roots after cleaning the soil from the roots at flowering stage (when 50% of the plants open their flower).

Root volume (ml): The volume of cleaned roots of three randomly selected plants was measured first by immersing the roots in a beaker containing 1000 ml of water and then by calculating the volume of water displaced (Allen, 1996) at flowering stage (when 50% of the plants open their flower) [4].

Data Analysis

The collected data of all parameters of the experiment was subjected to the Analysis of Variance (ANOVA) using SAS computer software (version 9.3). Least significant difference (LSD) procedures at 0.05 probability level of significance was used for comparing treatment means.

Results And Discussion

Number of Leaves per Plant The application of chemical plant growth retardants on leaf number of Pelargonium peltatum was highly significant (p< 0.01). The maximum number of leaves per plant (32.73) was obtained from plants treated with Bonzi plant growth retardant; however, it was not statistically different from CCC (30.80). The minimum number of leaves (25.00) was recorded from plants which were not treated with PGRs. The increase in number of leaves probably happened because of the ability of PGRs to check apical dominance and induce lateral growth.

Mean Leaf Area

The effects growth retardant chemicals were highly significant (p< 0.01) on leaf area of the test plant.

The leaf area of Pelargonium peltatum showed a significant reduction in response to plant growth retardants since all the applied treatments resulted in smaller leaf area than the control. The maximum leaf area (42.07 cm2) was recorded from plants which were not treated with plant growth retardants. The respective lowest leaf area (19.93 cm2) was obtained from plants treated with Bonzi. The reason for this might be due to the fact that Bonzi PGR moves slowly in the plant tissue and so, it inhibits leaf expansion in prolonged period of time [5]. Number of Branches per Plant

The effect of chemicals Alar, Cycocel and Bonzi was, highly significant (p<0.01) on the number of branches per plant.

In the test plant the highest number branches per plant was obtained from plants treated with Bonz (5.45) and the respective lost number of branches per plant was recorded from plants which did not receive retardant chemicals(1.87) (Table1). This increase in number of branches per plant might be due to the ability of PGRs to increase branching habit of plants.

 Chemical LN LA BN PH IL MD RN ns RL RV
Bonzi 32.73a 19.93d 5.45a 22.83d 2.56c 0.27b   28.14c 13.41ab
CCC 30.80ab 25.54c 4.62b 29.70c 2.75bc 0.29a   31.18b 14.68a
Alar 30.18b 29.08b 4.22b 36.79b 2.91b 0.22c   29.89b 11.37b
Control 25.00c 42.07a 1.87c 43.47a 4.23a 0.11d   37.43a 12.50ab
LSD 2.20 1.94 0.46 1.99 0.20 0.02   1.62 2.23
CV 8.87 7.99 13.66 7.20 7.60 9.72   6.14 20.57
CCC (Cycocel),  LSD (Least significant difference), CV (Coefficient of variance), ns (None Significant at 5%), LN(Leaf of Number/plant), PH(Plant Height), RN(Root Number/Plant),
LA (Mean Leaf Area), IL (Inter-node Length), RL (Root Length), BN   (Number of branch/plant) MD   (Main Stem Diameter), RV (Root Volume)

Table 1: Effect of plant growth retardant chemicals on tested parameters.

Plant Height

The application of chemical plant growth retardants on height of Pelargonium peltatum was highly significant (p< 0.01).

With regard to plant height there was a highly significant variation attributable to the effect of plant growth retardants. The result depicted indicates that all the treatment suppressed the height as compared to the control. The maximum height of the test plant (43.47 cm) was recorded from plants which were not treated with plant growth retardants, while the minimum height (22.00 cm) was recorded from plants treated with Bonzi. The possible reason for this might be because Bonzi was taken up by the plant tissue slowly from the media, with longer exposure resulting in greater inhibition of inter-nodal and hence stem elongation as compared to CCC and Alar plant growth retardants [6].

Inter-node Length

The application of plant growth retardant chemicals was highly significantly (p<0.01) influenced inter-node length of the test plant.

The maximum length of inter-node (4.23 cm) was obtained from plants which were not treated with PGRs and the minimum length of inter-node (2.56 cm) was recorded from plants which were treated with Bonzi. The possible reason for this might be Bonzi was taken up to the plant tissue slowly from the media, with longer exposure resulting in greater inhibition of inter-nodal elongation as compared to CCC and Alar plant growth retardants [7].

Main Stem Diameter

The application of plant growth retardants was found highly significant (p< 0.01) on main stem diameter of Pelargonium peltatum.

Main stem diameter significantly increased in response to applying plant growth retardant. The highest main stems diameter (0.29 mm) was recorded from plants treated with Cycocel. The lowest main stem diameter (0.11 mm) was obtained from plants which were not treated with PGRs [8].

Root Volume

The effect Chemical was found significant (p< 0.05) on root volume of the test plant.

With regard to chemical application the maximum root volume (14.68 ml) was obtained from plants treated with Cycocel and the respective minimum root volume (11.37 ml) was recorded from plants treated with Alar.

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Citation: Tedila K (2022) Effect of Alar, Cycocel and Bonzi on Growth Performance of Ivy Geranium (Pelargonium peltatum). Adv Crop Sci Tech 10: 506. DOI: 10.4172/2329-8863.1000506

Copyright: © 2022 Tedila K. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

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