Ferns can be used as ground covers, specimen plants and for group, background and border planting in landscape. They can also be used as fillers in bouquets and flower arrangements. Hence, the objective of the study was to evaluate the performance of different fern species and to identify the suitable species for commercial cultivation. Eleven species of ferns belonging to different genera viz., Adiantum tenerum, Asplenium nidus, Asplenium longissimum, Asplenium scolopendrium, Diaplazium acrostichoides, Nephrolepis biserrata ‘furcans’, Nephrolepis exaltata ‘chidisii’, Nephrolepis exaltata, Bostoniensis compacta, Nephrolepis cordifolia, Nephrolepis biserrata miniata and Pteris ensiformis were evaluated for growth pattern and suitability for landscape and commercial uses. Vegetative characters like eplant height and spread were highest in Asplenium nidus and a maximum number of leaves were observed in Adiantum tenerum. Based on growth pattern they were classified under tall, medium and dwarf groups Asplenium nidus and Nephrolepis biserrata miniata were grouped under the tall category. The species which come under medium category are Asplenium longissimum, Diaplazium acrostichoides, Nephrolepis biserrata ‘Furcans’, Nephrolepis exaltata ‘Chidisii’, Nephrolepis exaltata, Bostoniensis compacta, Nephrolepis cordifolia, Pteris ensiformis and Asplenium scolopendrium where as Adiantum tenerum comes under dwarf category. All species evaluated were found to be suitable for pot plants. Nephrolepis biserrata miniata, Nephrolepis biserrata furcans, Nephrolepis cordifolia, Asplenium nidus and Diaplazium acrostichoides can be recommended as houseplants. Nephrolepis biserrata-Miniata, Nephrolepis biserrata furcans and Nephrolepis cordifolia can be used as border plants in landscapes. Nephrolepis exaltata, Bostoniensis compacta, Asplenium longissimum and Pteris ensiformis were observed to be attractive in hanging baskets. Nephrolepis biserrata-Miniata, Nephrolepis exaltata chidisii, Nephrolepis exaltata, Bostoniensis compacta and Diaplazium acrostichoides are suitable for bouquets and flower arrangements.
Dendrobium is the most commonly grown tropical orchid species in India and Kerala. They are highly specific about their nutrient requirement. The use of bio-inoculants in crop production of ornamentals has opened up a new possibility of using them for improving the growth and yield of orchids. Hence the objective of study was to evaluate the response of Dendrobium cv. Yellow Splash to different kinds of bio-inoculants viz., AMF, Azospirillum and a microbial consortia PGPR Mix – 1 developed from KAU, along with 50, 100 and 150 ppm of benzyladenine. The experiment consisted of ten different treatments involving bio-inoculants and benzyladenine. Plant height and number of leaves were maximum in the plants inoculated with AMF along with 100 ppm benzyladenine. Treatment comprising of Azospirillum and 100 ppm benzyladenine was superior in terms of other morphological parameters like leaf breadth, leaf area and plant spread. Maximum leaf length and highest number of shoots were observed in plants inoculated with Azospirillumand 150 ppm benzyladenine. Considering the floral parameters, both quantitative and qualitative attributes were found to be superior in the treatment consisting of AMF along with 150 ppm benzyladenine. Highest root length was observed under the treatment AMF along with 100 ppm benzyladenine while number of roots and root volume were maximum in the plants inoculated with Azospirillum and 150 ppm benzyladenine. Plants inoculated with AMF and 100 ppm benzyladenine had highest chlorophyll content while highest stomatal frequency was observed under the treatment Azospirillum and 100 ppm BA. From the study it could be concluded that inoculation of Dendrobium orchids with bio-inoculants like AMF and Azospirillum can significantly improve the morphological characters of the plants which in turn influence the production of quality spikes.
The asymmetric unit of the binuclear title compound, [Cu2(C8H7O3)4(H2O)2], comprises two halves of diaquatetrakis(μ-3-methoxybenzoato-κ2 O 1:O 1′)dicopper(II) units. The paddle-wheel structure of each complex is completed by application of inversion symmetry, with the inversion centre situated at the midpoint between two CuII atoms in each dimer. The two CuII atoms of each centrosymmetric dimer are bridged by four 3-methoxybenzoate anions resulting in Cu...Cu separations of 2.5961 (11) and 2.6060 (12) Å, respectively. The square-pyramidal coordination sphere of each CuII atom is completed by an apical water molecule. Intermolecular O—H...O hydrogen bonds of weak nature link the complexes into layers parallel to (100). The three-dimensional network structure is accomplished by C—H...O hydrogen bonds interlinking adjacent layers.
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