Evaluation of ornamental flowering shrubes for tropical landscapes
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Date
2012
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Department of Pomology and Floriculture, Colege of Horticulture, Vellanikkara
Abstract
The present study entitled “Evaluation of ornamental flowering shrubs for tropical
landscapes” was carried out at the Department of Pomology and Floriculture, College of
Horticulture, Vellanikkara from Jan. 2011 to Dec. 2011. The objectives were to evaluate
ornamental flowering shrubs for suitability to various landscaping uses and to compute Air
Pollution Tolerance Index.
The study involved evaluation of 30 tropical ornamental flowering shrub species or
varieties. The selected shrubs were four years old, maintained in the shrubbery of the Department
of Pomology and Floriculture. The experiment was laid out in CRD with three replications.
Various vegetative and floral characters were recorded and data analysed and correlation studies
were made with weather parameters. Shrubs selected for the study were described based on
morphological characters.
Growth of shrubs was measured in terms of height and spread. Based on the manageable
height, they were classified into three groups, i.e. Tall (height above 2 m), Medium (height 1m-
2m) and Dwarf (height below 1m). Among the 30 shrubs evaluated, the maximum height was
observed for Calliandra haematocephala (319.4 cm) and the minimum for Lonicera japonica
(49.9 cm). Plant spread varied from 43.4 cm in Wrightia antidysenterica to 269.7 cm in
Calliandra haematocephala. Regression equation of height for predicting spread was formulated
using the monthly data on height and spread.
Foliage characters like leaf length, leaf area, petiole length, girth and internodal length
were measured. Based on leaf area, plants were categorized into medium coarse, medium,
medium fine and fine textured. Qualitative characters of the foliage like shape of leaf, base, tip,
margin and colour of leaf were observed and used for plant description as well as categorizing
them into different texture classes. Shrub canopy shape (silhouette) was observed and used for
making schematic diagram.
Qualitative characters of flowers like type of inflorescence, position of inflorescence,
colour and fragrance were observed. Time taken to open up the inflorescence from bud stage,
persistence of single flower as well as the inflorescence were also observed. Quantitative
characters like inflorescence diameter, single flower length and diameter and number of flowers
per inflorescence were also recorded.
Flowering seasons of the shrubs were observed and accordingly they were categorized
into four different phenological phases i.e. Dec-Feb, Mar-May, June- Aug and Sep-Nov. Sideruns
were observed and phenological configurations were made.
Air Pollution Tolerance Indices of the shrubs were calculated. Calliandra haematocephala
(31.7) showed the highest APTI value and the minimum value was observed for Allamanda
cathartica ‘Dwarf’ (9.2). Shrubs were categorized into sensitive (value ≤14), intermediate (15-
19), medium tolerant (20-24) and tolerant (> 24) groups based on their APTI values.
Based on the different characters studied, shrubs were classified into different landscape
utility groups such as, accent plant, foundation planting, screening and privacy, hedges and
topiary, shrub border, background planting, corner planting, Shrub group and mass planting, Pot
and Container planting, fragrant garden, moon garden, xeriscaping, rock garden, covering sloppy
banks and butterfly garden.
Shrubs were observed for pest and disease incidence. Major pests were leaf eating
caterpillars in Mussaenda erythropylla, Nerium indicum, Calliandra haematocephala and Ixora
coccinea, flower bud borer in Wrightia antidysenterica, mealy bug and scales. Shrubs were not
severely affected by diseases. Minor leaf spots were observed in certain shrubs.
In the present study, shrubs were recommended for various functional uses in the
landscapes based on their growth, flowering and morphological characters. Based on flowering
season, they were categorized into four phenological phases. Side-runs were observed and
phenological configurations were made. Air Pollution Tolerance Indices of the shrubs were also
computed and the plants were categorized according to their APTI values.
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173223