Ebrahim Alami; Mahnaz Karimi; Vida Chalavi
Abstract
Water hyacinth (Eichornia crassipes) is one of the ten most invasive weed species in the world that is spread over most of the tropical and subtropical regions. Due to the environmental and economic concerns associated with spreading of the water hyacinth, control its distribution is important issue. ...
Read More
Water hyacinth (Eichornia crassipes) is one of the ten most invasive weed species in the world that is spread over most of the tropical and subtropical regions. Due to the environmental and economic concerns associated with spreading of the water hyacinth, control its distribution is important issue. Water hyacinth can be used for composting and vermicomposting. In the present study, compost or vermicompost of water hyacinth was used as growing media for growing of lily plants (Longiflorum×Asiatic cv. ‘Nashville’). To do so, an experiment was conducted in a completely randomized design with nine treatments and four replications. Treatments included peat moss + perlite (2:1 v/v) as control and 25%, 50%, 75% and 100% of water hyacinth compost or vermicompost substitute for peat moss in control treatment. According to the obtained results, the tallest plants were observed in the control (55.50 cm) and 25% compost (55.25 cm) treatments. No significant difference was observed among 50, 75 and 100% compost and 25% vermicompost treatments. The highest number of open buds (3.50) was seen in 25% vermicompost. Results also showed that using 75% compost and 50% vermicompost increased nitrogen content of the leaf. Highest total phenol with 6.9 mg quer/g FW was recorded in 75% and 100% vermicompost. The maximum vase life (six days) was obtained in flowers grown in 25% vermicompost. In conclusion, water hyacinth compost or lower vermicompost percentages could be a substitute for peat as the growing media for lily plants.
ٍٍEbrahim Alami; Mahnaz Karimi
Abstract
One of the important objectives during the production cycle of ornamental plants is to regulate and control their growth. Hence, application of some plant growth regulators such as uniconazole (UN) and cycocel (CCC) is considered as an efficient method for reaching to this objective. To investigation ...
Read More
One of the important objectives during the production cycle of ornamental plants is to regulate and control their growth. Hence, application of some plant growth regulators such as uniconazole (UN) and cycocel (CCC) is considered as an efficient method for reaching to this objective. To investigation the effect of uniconazole and cycocel on some morphological and biochemical characteristics of zinnia, a factorial experiment was conducted in a completely randomized design with five replications. Application of UN (0, 5 and 10 mg L-1) and CCC (0, 1000 and 1500 mg L-1) as growth retardants, was considered as the first and their application method (leaf spraying and soil application) was considered as the second factor. The effect of growth retardants on plant height, Time of flowering, peroxidase activity, endogenous gibberellins and leaf area were significant. The lowest plant height was observed in soil application of 10 mg L-1 UN. The tallest plant was observed in the control treatment. Growth retardants had significant effects on endogenous gibberellins and leaf chlorophyll contents. Highest activity of peroxidase enzyme was detected in plants treated by 10 mg L-1 UN. The highest and lowest numbers of leaves (21.6 and 16.4 leaves, respectively) were counted in control and 5 mg L-1 UN, respectively. According to the obtained results, the use of growth retardants is recommended to reduce the height and improve the qualitative and quantitative characteristics of zinnia flower.