Document Type : Research Article

Authors

Jiroft Islamic Azad University

Abstract

Introduction: One factor that is of great importance to the cultivation of flowers and ornamental plants, is the media. Planting plants in containers as an important component of the nursery technology has grown. Compared with farm volume, growth media used for each plant greatly reduce plant growth that largely influence by the physical and chemical properties of growth media used. Therefore, good management of potted plants bed will cause the plants have good quality. A good growth media with optimal physical and biological properties, relatively inexpensive, stable and style enough to work should be available. The Burgers showed that composted green waste can be used as substrates for soilless cultivation and improve the water-holding capacity of soil. The garden has a range of materials including hardwood and softwood bark, leaves, soil, waste, sewage sludge and coconut (cocopeat) that has been used as a seed bed. According to the economic issues and increasing moisture storage, palm peat substrates are primary material that can be prepared as a good growth medium for the producing's presented level Country. Peat moss is not applicable to all plants because of high cost and poor absorption characteristics like low pH and low water holding capacity . This study was conducted to investigate the possibility of replacing peat moss palm waste and the effect of it on growth characteristics were studied.
Materials and Methods: The experimental design was completely randomized design with four replications of eight treatments. The compressed unit (block) was supplied and commercial cocopeat was used because of reducing the cost of transportation. Before applying this material, the amount of water was added for opening up and voluminous and become it completely uniform.. In treatments containing sand + perlite, these four types volume ratio of 1:1 and mixed with sand + perlite were used. First, wooden cuttings of pandanus in a bed of sand rooted in the greenhouse, then the rooted cuttings were transferred to pots with a diameter of 17cm. The pots were filled with the examined material. After planting in pots in a greenhouse with temperature of 20-25°C in winter and 30-35°C in summer were kept on planting plans. The indicators of growth including stem diameter, stem length and lateral shoot number, leaf area and chlorophyll index were measured. Analysis was performed on data using SPSS 16. Comparisons were made using one-way analysis of variance (ANOVA) and Duncan’s multiple range tests. Differences were considered to be significant at P < 0.05.
Results and Discussion: Vegetative characteristics of pandanus plants were significantly different from each other. Results showed that the mean media of cococheps and 50% peat palm + 25% sand + 25% perlite had the highest leaf area with 413.97 and 378.69cm2 respectively and non-significant difference was showed. Means followed by same letter are not significantly different at P

Keywords

1- Abdolahi Y., Yavarzade M.R., and VakiliM.A. 2011. Effect of the Growing Media and Fe and Zn on the Growth and Essential Oil of Rosmarinus officinalis L. in the Bam Region. Medicinal and Spice Plants Research. 1(4): 19–9. (in Persian with English abstract)
2- Borji H., Mohammadi Ghahsareh A., and Jafarpour M. 2010. Effects of Date Palam and Cocopeatsubstrates on yield and quality of tomato in soilless culture. Proceedings of the 5th National Conference on New Ideas in Agricultural Branch, Isfahan, Iran.
3- Burger D.W. 1997. Composted green waste as a container medium amendment for the production of ornamental plants. Hort Science. 32: 57-60.
4- Chen Y., Inbar Y., and Hadar Y. 1988. Composted agricultural wastes as potting media for ornamental plants. Soil Science. 145: 289-303.
5- Cull D.C. 1981. Alternative to peat as container media: Organic resources in UK. Acta Horticulturae. 126: 69-81.
6- Davidson H., Mecklenburg R., and Peterson C. 1998. Nursery management: Administration and culture. Second ed. Prentice-Hall, Inc. NJ. 173 p.
7- Eleni M., Sabri K., and Dimitra Z. 2001. Effect of growing media on the production and quality of two rose varieties. Acta Horticulturae. 548: 79-83.
8- Higaki, T., and Imanmura J.S. 1985. Performance of eood products as media for culture of Anthuriums. College of Hawaii. Research series. 40 p.
9- Hesami A., Amini F., Sarikhani Q., and Birghdarkashkol A. 2010. Use of Palm waste as an alternative to the Cocopeat hydroponic strawberry cultivation. Proceedings of the 2th National Conference on Agriculture and Sustainable Development.
10- Hematian Dehkordi M., Mohamadi Ghahsareh A., and Kalbasi M. 2010. Effect of palm peat and its mixtures with soil on yield and some growth index of hydroponically grown cucumber. Proceedings of the 5th National Conference on New Ideas in Agricultural Branch, Isfahan, Iran. 215 p.
11- Javanpour Heravi R., Babalar M., Mir Abdolbaghi M., and Askari M. 2005. Effect of Hydroponic nutrient solution and substrate on quantitative and qualitative characteristics of tomato growing in greenhouse. Journal of Agricultural Sciences Iranian. 36(4): 939-946. (in Persian)
12- Khosh Khui M., Shybany B., Rouhani L., and Tafazoli E. 2006. Principles of horticultural science. 14th printing. Shiraz University Press. Iran. 594 p.
13- Lichtenthaler H.K. 1987. Chlorophylls and carotenoids: Pigments of photosynthetic biomembranes. Methods of Enzymology. 148: 350-380.
14- Mashadijahafarpour A., and Henareh M. 2010. Allsubstratesused inhydroponic culture. 1th National Congress ofhydroponicsandgreenhouseproduction. Isfahan. 254 p.
15- Noguera P., Abad M., Noguera V., Puchades R., and Maquieira A. 2000. Coconut coir waste, a new and viable ecologically friendly peat substitute. Acta Horticulturae. 517: 279-286.
16- Pivot D., Reist A., Gillioz J.M., and Ryser J.P. 1998. Water quality, climatic enviroenment and mineral nutrition of tomato (Lycopersicon esculentum) in closed soilless cropping system. Acta Horticulturae. 458: 207-214.
17- Shinohara Y., Hata T., Mauro T., Hohjo M., and Ito T. 1999. Chimical and physical properties of the coconut-fiber substrate and the growth and productivity of tomato (LycopersiconesculentumMill) plants. Acta Horticulturae. 481: 145-149.
18- Smith, E.M., and Treaster S.A. 1992. Composted municipal sludge from two Ohio cities for container-grown woody ornamentals. Horticultural Abstracts. 62: 173.
19- Samiei L., Khalighi A., Kafi M., and Samavat S. 2004a. Peat Moss Substitutingwith Some Organic WastesinPothos (Epipremnum aureum golden pothos) growing media. Iranian Journal of Horticultural Sience and Technology. 6(2): 88-79. (in Persian)
20- Samiei L., Khalighi A., Kafi M., Samavat S., and Arghavani M. 2004b. An Investigation of Substitution of Peat Moss With Palm Tree Celluloid Wastes in Growing Aglaonema (Aglaonema Commutatum Cv. Silver Queen). Journal of Agricultural Sciences Iranian. 36(2):510–503.Journal of Agricultural Sciences Iranian. (in Persian)
21- Shabani T., Peyvast G.H., and Olfati J. 2011. Effect of different substrates on quantitative and qualitative traits of three pepper cultivars in soilless culture. Journal Science and Technology of Greenhouse Culture. 2(6): 11–21. (in Persian)
22- Verdonck O., and Gabriels R. 1992. I. Reference method for the determination of physical properties of plant substrates. II. Reference method for the determination of chemical properties of plant substrates. Acta Horticulturae. 302: 169-179.
23- Yasui H. 1986. Characteristic of a new culture media and use. New Technology of Hydroponic Culture. Pp: 15-20.
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