INTRODUCTION Chrysanthemum (Chrysanthemum morifolium Ramat.) of the family Asteraceae is a popular flower crop. Among the two types, viz., standard and spray, spray chrysanthemums are dwarf and ompact-growing types. These are suitable for pot culture and are used mostly as cut-flowers. Chrysanthemum is a partial sciophyte and, therefore direct sunlight significantly affects quantity and quality of flower in this crop. Performance of the crop is different under protected or partially protected conditions compared to the open-field. Standardization of planting time is one of the most important non-monetary inputs for crop production. It is essential in planning staggered planting to ensure longer flowering-duration to capture market for longer part of the year. In view of the above, an experiment was carried out to assess performance of the cultivars under open-field and polyhouse by planting a number of spray chrysanthemum cultivars on different dates. Comparative performance of spray chrysanthemum cultivars under polyhouse and open-field cultivation at different dates of planting Subhendu S. Gantait and P. Pal1 Department of Floriculture, Medicinal & Aromatic Plants Faculty of Horticulture, Uttar Banga Krishi Viswavidyalaya Pundibari, Cooch Behar – 736165, India E-mail : ssgflori@gmail.com ABSTRACT Fifteen cultivars of spray chrysanthemum were evaluated in polyhouse and open-field, with three planting dates from mid-July to mid-August during 2003-05. Overall plant growth, flower stem length, number of flowers per plant, shelf life and vase life of flower were found to be maximum under 15th July planting compared to 30th July and 15th August plantings both under polyhouse and open-field conditions. Flower size and flower yield (g/plant) was highest under 30th July planting in polyhouse condition, whereas, in open-field it was the 15th July planting. Early flowering was recorded in 15th August planting both in polyhouse and open-field. Cultivar Arati showed maximum flower stem length and flower yield. Some of the other cultivars, viz., Yellow Anemone, Sarad Mala, Apsara Violet and Aditi also exhibited high yield both under polyhouse and open-field conditions. Polyhouse always recorded higher yield than open-field. Cultivar Yellow Anemone planted on 15th July recorded highest number of flowers per plant regardless of growth environment. Highest flower yield (794.94g) per plant was recorded in cv. Arati in 30th July planting under polyhouse, while, it was maximum in 15th July planting in open-field. Key words: Chrysanthemum, polyhouse, planting time, open-field MATERIAL AND METHODS Field experiment was conducted at Horticultural Research Station, Mondouri (23oN, 83oE and 9.75m altitude), Bidhan Chandra Krishi Viswavidyalaya, Nadia, West Bengal, India during two consecutive winter seasons, 2003- 04 and 2004-05. The soil was clay-loam at pH 6.8, organic carbon 0.58, total N 156.8 kg/ha, available P 2 O 5 50.4 kg/ha and available K 2 O 208.5 kg/ha. Treatments included fifteen genotypes, each raised at three dates of planting (DOP), viz., 15th July (mid-July), 30th July (end of July) and 15th August (mid-August), with three replicatios. The experiment was laid out in split-plot design both under polyhouse and in the open field with a plot size of 1m x 1m. Standard package of practice was followed. A total of three North-South oriented polyhouses were used in the experiment. Each polyhouse was 20m long, 5m wide and 4m in height. Temperature was recorded from 1st September to 31st December during various growth stages of the crop. Thermal regime inside the polyhouse was always higher than that on the outside. On an average, difference in temperature inside 1Department of Floriculture and Land Scaping, Bidhan Chandra Krishi Viswavidyalaya, Mohanpur, Nadia -741 252, West Bengal, India J. Hortl. 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During crop growth period, day- temperature inside the greenhouse varied from 20.5oC to 29.8oC, and night temperature varied from 18.0oC to 28.2oC. Though variation in day and night temperatures was almost similar upto end of October, beyond this temperature difference in the polyhouse was more pronounced during the day. During the period of crop growth, BSS was recorded to vary from 1.2 to 10.7 hour and relative humidity inside the polyhouse varied from 71 to 100%. Treatments applied in the experiment are detailed below. Sl. Date of Symbol Sl. Cultivar Symbol No. planting No. 1. 15th July P 1 1. Amal V 1 2. Sarad Mala V 2 3. Kundan V 3 4. Kelvin Victory V 4 5. Nanako V 5 2. 30th July P 2 6. Red Gold V 6 7. Kelvin Brisk V 7 8. Tata Red V 8 9. Arati V 9 10. Jaya V 10 3. 15th Aug. P 3 11. Yellow Anemone V 11 12. White Anemone V 12 13. Aditi V 13 14. Lokenath V 14 15. Apsara Violet V 15 Observations on growth, flowering and yield parameters were recorded and subjected to statistical analysis as per Panse and Sukhatme (1967). RESULTS AND DISCUSSION A perusal of results of two years (2003-04 & 2004- 05) and mean data in the experiment (Tables.1-4) revealed that treatments (cultivar, planting date and growth environment) resulted in significant variation in growth, flowering and yield characters under study. Among the three planting dates, early planting (15th July) significantly influenced plant height (105.31cm), leaf area index (IAI) (9.03), number of branches (59.13) per plant, flower stem length (77.17cm), flower yield in terms of number of flowers (411.36) per plant and shelf-life (24.96 days) of flowers in pooled data of two years, under polyhouse condition. Similar observations were found in open-field conditions. This may be due to the fact that early planting received a higher number of long days and witnessed higher temperature during the vegetative growth phase, thereby influencing both vegetative and reproductive characters, whereas, flower yield (g/plant) was found to be maximum (467.44g) in the 30th July planting under polyhouse. In the open-field, production was maximum (322.55g) under 15th July planting. Delayed planting (15th August) of chrysanthemum both under polyhouse and open- field showed reduced vegetative growth, stem length of flower and lowest flower yield (both in numbers and weight of flowers per plant). Similar findings were recorded by Machin (1955) and Meher et al (1999) in chrysanthemum. Delayed planting took minimum time for flower bud emergence (FBE) and optimum bloom from date of planting, both under polyhouse and open-field. Among these, plants under open field took relatively less time (73.14 days and 116.85 days, respectively) compared to polyhouse. Diameter and weight of individual flower varied significantly owing to planting date. Maximum diameter (5.01cm) and weight (2.33g) of individual flower were recorded under mid- planting (30th July), followed by early planting (15th July) under polyhouse. But, in the open-field, maximum flower diameter (4.67cm) and individual flower weight (1.88g) was found under 15th July planting (though, these were at par with records of the 30th July planting). Vase life of cut- flower polyhouse was found to be significantly superior in 30th July planting; but, in the open-field, this was so in the 15th July planting. These findings corroborate results of Przymeska and Lisiecka (2001) on flowering and quality of flowers in chrysanthemum. Table 1. Effect of planting time on growth of spray chrysanthemum cultivars DOP Plant height LAI No. of Days Days Flower (cm) branches required required to stem length per plant to FBE flowering (cm) Poly- Open Poly- Open Poly- Open Poly- Open Poly- Open Poly- Open house field house field house field house field house field house field P 1 15th July 105.31 74.99 9.03 6.36 59.03 42.53 95.93 88.93 142.33 135.32 77.17 57.95 P 2 30th July 95.75 66.02 8.70 5.94 51.93 33.15 89.21 81.24 134.19 126.31 71.49 52.47 P 3 15th August 71.28 52.81 7.96 5.07 31.34 18.47 81.24 73.14 124.95 116.85 45.71 36.47 SEm ± 1.584 0.894 0.173 0.216 1.150 0.687 0.240 0.337 0.190 0.195 0.361 0.441 CD (P=0.05) 4.391 2.478 0.57 0.69 3.19 1.90 0.67 0.93 0.53 0.54 1.00 1.22 Contd…. Gantait and Pal J. Hortl. Sci. 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Effect of planting time on flowering of spray chrysanthemum cultivars DOP Flower Individual No. of Flower Shelf-life Vase-life diameter flower flowers weight (g) of flower of flower (cm) weight per plant per plant (days) (days) Poly- Open Poly- Open Poly- Open Poly- Open Poly- Open Poly- Open house field house field house field house field house field house field P 1 15th July 4.73 4.67 2.00 1.88 411.36 321.32 437.26 322.55 24.96 22.38 21.93 19.80 P 2 30th July 5.01 4.65 2.33 1.85 382.45 281.63 467.44 289.79 24.85 21.27 22.07 18.67 P 3 15th August 4.62 4.41 1.96 1.49 266.62 175.38 268.02 155.35 20.48 17.03 19.30 16.80 SEm ± 0.011 0.028 0.023 0.033 2.458 5.666 13.703 11.197 0.062 0.125 0.069 0.077 CD (P=0.05) 0.03 0.08 0.06 0.09 6.81 15.71 37.98 31.04 0.17 0.35 0.19 0.21 Table 3. Growth, attributes of different cultivars of spray chrysanthemum Cultivar Plant height LAI No. of Days Days Flower (cm) branches required required to stem length per plant to FBE flowering (cm) Poly- Open Poly- Open Poly- Open Poly- Open Poly- Open Poly- Open house field house field house field house field house field house field V 1 Amal 68.05 62.97 4.94 3.65 22.90 18.68 80.04 76.96 125.79 121.00 43.45 37.83 V 2 Sarad Mala 89.01 66.76 6.49 2.68 82.63 45.12 94.88 82.96 133.71 126.04 75.49 53.79 V 3 Kundan 65.86 53.59 7.04 4.61 33.07 20.96 75.45 68.21 124.79 117.71 54.33 41.63 V 4 Kelvin Victory 94.15 54.72 7.62 6.80 20.12 15.67 68.63 58.88 133.83 120.00 70.38 41.63 V 5 Nanako 63.11 42.39 6.11 1.54 13.88 9.85 60.63 57.96 115.75 110.71 40.68 21.50 V 6 Red Gold 93.44 74.46 8.39 7.40 63.24 56.98 92.08 84.04 135.08 128.33 61.51 56.67 V 7 Kelvin Brisk 116.03 70.20 10.2 6.66 12.51 5.83 65.75 59.96 131.67 124.67 75.73 39.69 V 8 Tata Red 102.07 80.91 8.94 6.69 34.19 21.56 99.08 95.75 138.96 134.17 73.76 60.72 V 9 Arati 130.39 75.04 8.57 4.70 62.08 26.58 96.00 90.38 133.67 126.67 87.42 68.25 V 10 Jaya 92.98 72.15 7.17 5.80 44.09 28.65 100.38 91.63 140.38 130.29 59.24 53.66 V 11 Yellow Anemone 80.73 49.57 12.72 8.54 116.36 96.76 95.25 82.54 138.04 131.46 51.66 50.79 V 12 White Anemone 99.08 75.51 7.35 4.76 24.26 14.23 99.75 91.13 138.50 132.67 82.74 67.17 V 13 Aditi 89.08 69.81 13.44 7.68 118.44 67.42 101.46 90.88 142.00 129.33 75.86 60.50 V 14 Lokenath 99.36 70.38 8.21 6.53 36.60 23.43 102.58 92.96 140.25 131.58 59.38 33.83 V 15 Apsara Violet 78.37 51.58 11.28 8.80 26.05 18.73 99.92 92.33 134.92 127.75 60.21 46.84 SEm ± 2.000 1.578 0.412 0.647 3.043 1.107 0.450 0.442 0.428 0.413 0.663 0.706 CD (P=0.05) 5.544 4.374 1.19 1.98 8.44 3.07 1.25 1.23 1.19 1.14 1.84 1.96 Contd…. Performance of spray chrysanthemum cultivars Cultivars grown under polyhouse exhibited better yield and yield attributes in all respects compared to that under open-field conditions. These results corroborate findings of Saud and Talukdar (1999) in chrysanthemum. Among various cultivars, Arati (V 9 ) recorded maximum plant height (130.39cm), stem length (87.42cm) of cut-flowers and yield, both in number (703.58) and weight (704.42g)) of flowers per plant, whereas cultivar Aditi (V 13 ) recorded maximum leaf area index (13.44) and number of branches (118.44) per plant, regardless of growth conditions. Cultivars Nanako and Kundan were found to be dwarf varieties, with a plant height of 63.11cm and 65.86cm, respectively. Under open- field, cultivars Tata Red (80.91cm), Arati (75.04cm), Red Gold (74.46cm) were noticed as tall varieties, whereas Nanako (42.39cm), Yellow Anemone (49.57cm), Apsara Violet (51.58cm) appeared to be dwarf. Variation in plant height has been observed among different cultivars of spray chrysanthemums by Chezhi-yan et al (1985). Genotypic differences were also reported for plant height and canopy (Altmann and Streitz, 1995). Among the various cultivars, Nanako took the least time to attain optimum-bloom stage under polyhouse as well as open-field conditions. Emergence of flower bud and occurrence of optimum bloom was found to be earlier in open-field than in the polyhouse in all culivars. Days taken to flower bud emergence (Chezhi-yan et al, 1985) and days taken to attain optimum bloom stage (Gupta and Dutta, 1997; Singh and Dadlani, 1989) were studied in different cultivars of spray chrysanthemum. Cultivar Arati J. Hortl. Sci. 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Yield and yield related attributes of different cultivars of spray chrysanthemum Cultivar Flower Individual No. of Flower Shelf-life Vase-life diameter flower flowers weight (g) of flower of flower (cm) weight (g) per plant per plant (days) (days) Poly- Open Poly- Open Poly- Open Poly- Open Poly- Open Poly- Open house field house field house field house field house field house field V 1 Amal 4.27 4.23 1.46 1.43 272.33 241.55 319.88 290.11 23.67 21.63 20.50 19.33 V 2 Sarad Mala 4.72 4.56 1.91 1.62 484.56 376.93 553.29 404.08 25.00 22.46 21.00 19.50 V 3 Kundan 4.65 4.40 2.23 1.85 251.30 184.91 366.88 219.58 25.38 22.04 24.50 20.33 V 4 Kelvin Victory 3.20 2.93 2.33 1.73 277.56 106.04 350.21 121.77 28.67 22.83 19.83 16.83 V 5 Nanako 2.99 2.63 1.81 1.50 57.29 42.91 96.44 54.31 17.50 14.79 18.33 15.67 V 6 Red Gold 4.66 5.24 1.86 1.53 280.89 263.07 361.71 297.53 25.46 20.33 24.17 22.50 V 7 Kelvin Brisk 5.48 4.43 4.43 3.32 77.10 21.90 291.03 73.41 24.08 15.46 22.33 16.50 V 8 Tata Red 6.14 5.37 2.74 2.51 334.71 227.30 530.01 352.22 22.46 19.67 20.67 18.17 V 9 Arati 5.93 5.37 2.58 2.10 703.58 431.11 704.42 510.54 26.50 22.83 19.67 17.33 V 10 Jaya 5.39 5.03 2.35 1.83 396.69 326.48 523.11 311.88 24.46 22.17 18.83 16.67 V 11 Yellow Anemone 4.31 4.63 1.11 1.07 690.38 633.69 448.95 386.83 17.79 16.79 20.67 18.67 V 12 White Anemone 6.04 5.34 2.07 1.31 252.38 159.56 302.62 132.04 24.83 22.04 22.83 20.17 V 13 Aditi 4.75 4.73 1.72 1.34 404.05 291.94 390.19 218.16 24.71 22.29 18.83 16.00 V 14 Lokenath 4.97 5.78 1.97 2.13 342.11 240.73 398.64 286.75 22.42 21.21 24.17 21.67 V 15 Apsara Violet 4.32 4.00 0.89 0.82 477.19 343.59 251.15 179.19 18.50 16.88 20.17 17.00 SEm ± 0.042 0.041 0.052 0.050 5.370 5.720 11.449 10.870 0.242 0.246 0.243 0.240 CD at (P=0.05) 0.12 0.11 0.14 0.14 14.89 15.86 31.74 30.13 0.67 0.68 0.67 0.66 produced longest stem both under polyhouse and open-field conditions. Maximum flower diameter (6.14cm) was recorded in cv. Tata Red under polyhouse, which was at par with flower diameter of ‘White Anemone’ (6.04cm); whereas, cv. Kelvin Brisk produced the heaviest (weight of individual flower) flower (4.43g) compared to other cultivars under polyhouse. In the open-field, Lokenath (V 14 ) registered maximum size (diameter) of flower (5.78cm) and ‘Kelvin Brisk’ (V 7 ) produced the heaviest (3.32g) flowers. Though ‘Arati’ produced maximum number (703.58) of flowers under polyhouse, other cultivars like Yellow Anemone, Sarad Mala, Apsara Violet and Aditi were also found to be high- yielding cultivars producing 690.38, 484.56, 477.19 and 404.05 number of flowers. Cultivar Nanako produced lowest number (57.29) of flowers per plant. In the open-field, ‘Yellow Anemone’ was found to produce maximum number of flowers per plant (633.69), whereas ‘Kelvin Brisk’ yielded the minimum number (21.90) of flowers per plant. Flower yield in cultivars grown in open-field, was far lower when grown under polyhouse. In the open-field, Arati recorded maximum flower yield (510.54g) and cultivars, viz., Sarad Mala, Yellow Anemone and Tata Red also produced fairly good quantity of flowers (404.08g, 386.83g and 352.22g per plant, respectively). Plants grown under polyhouse exhibited better shelf-life and vase-life of flowers compared to those grown under open-field. Life of flowers on the plant was highest (28.67 days) in cv. Kelvin Victory, whereas longest vase-life (24.50 days) of flowers was recorded in ‘Kundan’. Similar variations in flower size, shelf-life and vase-life of flowers in spray chrysanthemums have previously been recorded by Saud and Talukdar (1999). Interaction effect between planting time and cultivar on plant height, days to flower-bud emergence optimum bloom and vase life did not show any significant difference between polyhouse and open-field. However, variations were statistically significant for leaf area index, number of branches per plant, flower stem length, flower diameter, individual flower weight, number of flowers per plant, flower yield and shelf-life between polyhouse and open-field grown crop. CONCLUSION Overall plant growth, flower stem length, number of flowers per plant, shelf life and vase life of flower was found to be maximum in 15th July planting compared to 30th July or 15th August planting, both under polyhouse and open-field conditions. Flower size and flower yield (g/plant) was highest under 30th July planting under polyhouse, whereas, in open-field this was so in 15th July planting. Cultivar Arati showed maximum flower stem length and flower yield, and cultivars, viz., Yellow Anemone, Sarad Mala, Apsara Violet and Aditi exhibited high flower yield both under polyhouse and open-field conditions. Polyhouse cultivation recorded higher flower yield than that under open- field. Gantait and Pal J. Hortl. Sci. Vol. 6(2):123-129, 2011 Prinect Color Editor Page is color controlled with Prinect Color Editor 4.0.70 Copyright 2008 Heidelberger Druckmaschinen AG http://www.heidelberg.com You can view actual document colors and color spaces, with the free Color Editor (Viewer), a Plug-In from the Prinect PDF Toolbox. Please request a PDF Toolbox CD from your local Heidelberg office in order to install it on your computer. 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Effect of planting time and cultivar on growth and flowering in chysanthemum Treatment Plant No. of Days required Days required Stem length height LAI branches/plant to FBE to flowering (cm) of cut flower Poly- Open Poly- Open Poly- Open Poly- Open Poly- Open Poly- Open house field house field house field house field house field house field P 1 V 1 77.74 71.88 4.71 3.80 29.75 24.25 87.88 85.88 135.13 130.00 54.28 48.68 P 1 V 2 97.50 76.79 7.18 2.97 116.70 65.65 103.50 94.38 143.13 136.13 88.49 63.28 P 1 V 3 73.51 60.88 6.15 5.17 40.30 27.28 83.63 76.25 133.63 128.13 64.55 47.70 P 1 V 4 109.64 63.87 8.11 7.67 24.70 20.63 74.75 65.75 142.00 127.88 87.65 46.78 P 1 V 5 74.01 43.79 7.12 1.93 18.85 12.90 67.00 64.38 125.25 120.88 48.08 25.40 P 1 V 6 111.19 85.44 9.06 8.36 82.73 76.60 97.38 91.50 143.88 137.88 73.00 68.48 P 1 V 7 137.25 83.12 10.48 7.19 16.50 7.28 71.88 65.88 138.25 131.38 88.05 45.45 P 1 V 8 109.68 91.88 10.98 7.18 42.83 26.43 107.63 104.25 148.00 143.75 83.13 71.05 P 1 V 9 148.46 87.41 8.64 4.67 78.33 37.53 101.38 97.38 141.38 134.88 96.88 78.93 P 1 V 10 107.15 84.87 8.15 5.86 62.23 41.13 107.13 98.25 148.38 138.00 72.08 63.48 P 1 V 11 95.57 59.02 13.08 9.95 138.95 124.33 101.88 89.88 145.38 141.75 63.88 60.15 P 1 V 12 112.64 88.15 7.47 5.66 31.05 19.73 105.75 99.13 146.50 141.63 94.93 79.60 P 1 V 13 110.79 82.90 14.01 8.05 144.40 95.53 108.38 99.50 150.38 139.00 93.55 74.65 P 1 V 14 118.59 78.76 8.98 7.63 51.43 34.53 111.38 104.25 150.25 141.13 73.98 38.78 P 1 V 15 96.03 66.03 11.39 9.32 33.48 24.20 109.38 100.25 143.38 137.38 75.10 56.85 P 2 V 1 71.71 66.11 5.13 3.68 26.18 21.08 79.75 76.75 125.13 121.25 47.08 42.88 P 2 V 2 93.19 69.17 7.21 2.54 88.23 45.75 95.13 83.50 133.38 126.00 81.01 57.25 P 2 V 3 69.49 57.98 6.48 4.33 36.33 24.15 75.63 67.88 125.50 117.75 60.33 43.15 P 2 V 4 97.80 56.51 7.77 6.40 20.98 16.45 68.75 59.00 134.00 120.13 79.80 43.65 P 2 V 5 68.29 48.30 5.87 1.50 15.70 11.28 61.38 58.34 116.38 110.88 43.70 22.25 P 2 V 6 97.04 73.75 8.99 7.76 73.18 63.55 92.38 84.13 135.38 128.50 69.03 63.45 P 2 V 7 117.93 73.23 10.57 6.81 14.15 5.90 66.00 59.88 132.38 124.38 82.53 39.93 P 2 V 8 104.80 82.05 8.24 6.60 37.78 23.18 99.50 96.63 139.25 134.13 78.13 63.48 P 2 V 9 141.98 74.89 8.81 4.79 69.40 26.55 96.00 90.88 134.00 127.00 90.18 73.98 P 2 V 10 98.39 72.38 7.02 7.72 46.38 30.98 101.13 92.50 141.25 131.63 66.48 59.23 P 2 V 11 90.28 47.65 12.83 8.85 128.38 103.68 95.75 82.63 138.63 131.50 58.75 55.38 P 2 V 12 101.88 73.37 8.06 4.70 25.88 13.83 100.25 91.88 138.63 133.25 90.30 70.95 P 2 V 13 95.87 72.46 13.31 7.96 124.53 68.25 103.13 91.13 143.13 129.75 87.73 65.45 P 2 V 14 103.872 72.53 8.85 6.12 43.15 22.88 102.75 92.13 140.38 131.50 67.68 34.98 P 2 V 15 83.73 49.91 11.33 9.29 28.73 19.80 100.63 91.38 135.50 127.00 69.68 51.05 P 3 V 1 54.69 47.93 4.97 3.46 12.78 10.70 72.50 69.25 117.13 111.75 29.00 21.95 P 3 V 2 76.35 54.31 5.07 2.54 42.98 23.95 86.00 74.00 124.63 116.00 56.96 40.85 P 3 V 3 54.58 41.92 8.48 4.33 22.58 11.45 67.13 60.50 115.25 107.25 38.10 33.93 P 3 V 4 75.01 43.79 6.99 6.32 14.68 9.93 62.38 51.88 125.50 112.00 43.70 34.45 P 3 V 5 47.04 35.09 5.34 1.20 7.10 5.38 53.50 51.13 105.63 100.38 30.28 16.85 P 3 V 6 72.08 64.19 7.11 6.09 33.83 30.80 86.50 76.50 126.00 118.63 42.50 38.08 P 3 V 7 92.91 54.27 9.55 5.98 6.88 4.33 59.38 54.13 124.38 118.25 56.63 33.70 P 3 V 8 91.73 68.81 7.60 6.30 21.98 15.08 90.13 86.38 129.63 124.63 63.03 47.63 P 3 V 9 100.73 62.84 8.25 4.65 38.53 15.65 90.63 82.88 125.63 118.25 75.20 51.85 P 3 V 10 73.42 59.21 6.35 3.83 23.68 13.85 92.88 84.13 131.50 121.25 39.18 38.28 P 3 V 11 56.33 42.05 12.25 6.83 81.75 62.28 88.13 75.13 130.13 121.13 32.45 36.85 P 3 V 12 82.73 65.02 6.51 3.93 15.85 9.13 93.25 82.38 130.38 123.13 63.00 50.95 P 3 V 13 60.57 54.06 13.01 7.03 86.40 39.45 92.88 82.00 132.50 119.25 46.30 41.40 P 3 V 14 75.61 59.85 6.81 5.83 15.23 12.90 93.63 82.50 130.13 122.13 36.48 27.73 P 3 V 15 55.36 38.79 11.13 7.80 15.95 12.20 89.75 85.38 125.88 118.88 35.85 32.63 SEm ± 4.900 2.733 0.763 0.821 5.271 1.918 0.879 0.866 0.941 0.915 1.148 1.222 CD (P=0.05) NS* NS* 2.36 2.45 14.61 5.32 NS* NS* NS* NS* 3.18 3.39 *NS = Non-significant Performance of spray chrysanthemum cultivars J. Hortl. Sci. Vol. 6(2):123-129, 2011 Prinect Color Editor Page is color controlled with Prinect Color Editor 4.0.70 Copyright 2008 Heidelberger Druckmaschinen AG http://www.heidelberg.com You can view actual document colors and color spaces, with the free Color Editor (Viewer), a Plug-In from the Prinect PDF Toolbox. Please request a PDF Toolbox CD from your local Heidelberg office in order to install it on your computer. 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Effect of planting time and cultivar on flower yield and other flower tracts in cyrysanthemum Treatment Weight (g) of Flower Number of Flower yield Shelf-life of Vase-life of individual diameter (cm) flowers per (g/plant) flower (days) flower (days) flower plant Poly- Open Poly- Open Poly- Open Poly- Open Poly- Open Poly- Open house field house field house field house field house field house field P 1 V 1 1.34 1.53 4.20 4.33 316.82 290.92 363.30 351.63 25.25 23.88 21.50 21.00 P 1 V 2 2.05 1.90 4.85 4.85 551.59 541.59 605.88 586.86 27.13 24.50 21.50 21.00 P 1 V 3 2.30 2.13 4.65 4.45 312.96 235.31 431.71 289.81 26.63 24.50 26.50 21.50 P 1 V 4 2.38 1.90 3.25 3.00 332.14 148.73 424.54 172.55 31.00 26.88 21.00 18.00 P 1 V 5 1.80 1.70 2.83 2.65 72.85 56.74 115.92 79.63 18.38 16.13 19.00 16.50 P 1 V 6 1.85 1.75 4.68 5.48 330.56 319.53 422.49 372.90 28.00 23.75 25.50 23.50 P 1 V 7 3.80 3.65 5.10 4.58 97.65 31.04 290.21 108.23 25.13 17.25 24.50 18.00 P 1 V 8 2.38 2.80 6.00 5.63 410.76 292.91 578.18 488.13 23.25 21.75 21.50 20.50 P 1 V 9 2.18 2.23 5.68 5.35 791.46 521.28 717.30 613.98 29.00 25.63 20.50 18.50 P 1 V 10 2.30 1.95 5.43 5.18 460.96 406.15 597.25 416.31 25.50 23.75 19.50 18.00 P 1 V 11 1.08 0.95 4.25 4.63 798.16 760.87 486.42 340.15 18.75 18.00 20.50 19.50 P 1 V 12 2.10 1.50 5.98 5.75 284.77 209.18 351.68 181.45 26.38 24.63 23.50 21.50 P 1 V 13 1.60 1.43 4.58 4.68 459.17 369.37 408.88 278.16 25.63 24.00 19.50 18.50 P 1 V 14 1.85 1.78 4.83 5.23 399.71 339.53 426.36 333.44 24.00 22.50 24.00 22.50 P 1 V 15 1.03 0.93 4.68 4.33 550.79 386.67 339.35 224.98 20.38 18.63 20.50 18.50 P 2 V 1 1.65 1.48 4.43 4.28 292.28 266.02 380.07 331.75 24.13 22.00 20.50 19.50 P 2 V 2 2.28 1.63 5.10 4.58 520.27 426.37 627.61 429.36 26.25 23.63 22.00 19.50 P 2 V 3 2.60 1.98 4.80 4.48 296.46 212.61 493.44 247.73 27.13 22.88 24.50 20.50 P 2 V 4 2.55 2.10 3.43 3.13 300.05 112.49 405.99 148.88 31.88 25.13 19.50 17.00 P 2 V 5 1.90 1.53 3.33 2.78 62.98 43.77 126.45 58.06 18.13 15.38 19.50 16.00 P 2 V 6 2.00 1.70 4.80 5.33 299.46 278.23 401.51 331.12 26.88 21.50 24.50 22.50 P 2 V 7 4.53 3.58 5.53 4.45 87.16 22.27 358.71 78.63 25.75 16.13 23.00 16.50 P 2 V 8 3.00 2.55 6.35 5.43 361.33 273.75 651.56 398.27 24.50 20.50 22.00 18.50 P 2 V 9 2.73 2.18 6.03 5.13 753.57 424.85 797.94 523.59 27.88 23.75 21.00 18.00 P 2 V 10 2.65 1.88 5.80 5.08 418.89 352.26 625.01 335.01 26.00 24.25 20.50 17.50 P 2 V 11 1.23 1.28 4.43 4.75 758.91 721.32 584.03 558.46 18.13 17.38 22.50 19.00 P 2 V 12 2.28 1.30 6.23 5.48 267.18 165.14 338.66 137.54 27.63 24.63 25.00 20.50 P 2 V 13 2.00 1.48 5.03 4.73 425.40 305.77 484.70 241.09 26.75 22.88 19.00 16.00 P 2 V 14 2.30 2.23 5.58 6.13 379.41 264.67 497.63 344.58 22.38 21.63 25.00 22.00 P 2 V 15 0.90 0.83 4.38 4.03 513.38 354.93 238.19 182.75 19.38 17.38 22.50 17.00 P 3 V 1 1.35 1.28 4.18 4.10 207.89 167.71 216.26 186.97 21.63 19.00 19.50 17.50 P 3 V 2 1.40 1.33 4.20 4.25 381.82 252.83 351.38 196.02 21.63 19.25 19.50 18.00 P 3 V 3 1.80 1.45 4.50 4.28 144.48 106.82 175.51 121.22 22.38 18.75 22.50 19.00 P 3 V 4 2.05 1.20 2.93 2.68 200.51 56.91 220.10 43.90 23.13 16.50 19.00 15.50 P 3 V 5 1.53 1.05 2.83 2.45 36.04 28.21 46.95 25.23 16.00 12.88 16.50 14.50 P 3 V 6 1.73 1.38 4.50 4.93 212.64 191.45 261.14 188.54 21.50 15.75 22.50 21.50 P 3 V 7 4.95 2.73 5.80 4.28 46.49 12.41 224.17 33.41 21.38 13.00 19.50 15.00 P 3 V 8 2.85 2.18 6.08 5.05 232.05 115.24 360.28 170.28 19.63 16.75 18.50 15.50 P 3 V 9 2.85 1.90 6.08 5.63 656.72 347.20 597.97 394.04 22.63 19.13 17.50 15.50 P 3 V 10 2.10 1.68 4.95 4.83 310.22 221.02 347.08 184.33 21.88 18.50 16.50 14.50 P 3 V 11 0.98 0.98 4.25 4.50 514.07 418.36 276.42 261.88 16.50 15.00 19.00 17.50 P 3 V 12 1.83 1.13 5.93 4.80 205.18 104.37 217.53 77.13 20.50 16.88 20.00 18.50 P 3 V 13 1.55 1.13 4.65 4.80 327.56 200.68 278.07 135.22 21.75 20.00 18.00 13.50 P 3 V 14 1.75 2.38 4.50 6.00 247.19 117.99 271.93 182.24 20.88 19.50 23.50 20.50 P 3 V 15 0.75 0.70 3.90 3.65 367.41 289.17 175.40 129.86 15.75 14.63 17.50 15.50 SEm ± 0.091 0.087 0.073 0.071 9.302 9.907 19.831 18.827 0.419 0.426 0.422 0.415 CD (P=0.05) 0.25 0.24 0.20 0.20 25.79 27.46 54.97 52.19 1.16 1.18 NS* NS* *NS = Non-significant Gantait and Pal J. Hortl. Sci. Vol. 6(2):123-129, 2011 Prinect Color Editor Page is color controlled with Prinect Color Editor 4.0.70 Copyright 2008 Heidelberger Druckmaschinen AG http://www.heidelberg.com You can view actual document colors and color spaces, with the free Color Editor (Viewer), a Plug-In from the Prinect PDF Toolbox. Please request a PDF Toolbox CD from your local Heidelberg office in order to install it on your computer. 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Multiflora chrysanthemum for outdoor production. Gartenbau Magazin, 3:12-14 Chezhi-yan, N., Ponnuswami, V., Thamburaj, S., Khader A., Nanjan, K. and Gunasekaram, N. 1985. Evaluation of spray chrysanthemum cultivars. South Ind. Hort., 33:279-82 Gupta, V.N. and Dutta, S.K. 1997. Influence of artificial long-day treatment on expansion of blooming period in garden chrysanthemum (Chrysanthemum moriflium Ramat.) Proc. of the Nat’l. Conf. Chrysanthemum, 4-5 Dec., Lucknow, pp. 93-97 Machin, B.J. 1955. Dissertation for B.Sc. (Hons.), University of Nottingham, UK. Commercial Flower Vol. 1, 2nd Edition (2003). Eds. Bose, Yadav, Pal, Das and Parthasarathy, p 486 Meher, S.P., Jitode, D.J., Turkhede, A.B., Darange, S.O., Ghato, P.U. and Dhawad, C.S. 1999. Effect of planting time and growth regulator treatments on flowering and yield of chrysanthemum (Chrysanthemum morifolium Ramat). Crop Res. Hissar, 18:345-348 Panse, V.G. and Sukhatme, P.V. 1967. Statistical methods for agricultural workers. ICAR, New Delhi, India, p. 381 Przymeska, J. and Lisiecka, A. 2001. Flowering of spray chrysanthemum cultivars (Dendranthema grandiflora Tzvelev) in year-round cultivation depending on the date of planting. Prace-Z-Zakresu- Nauk-Rolniczych, 91:163-174 Saud, B.K. and Talukdar, M.C. 1999. Performance of spray chrysanthemum inside and outside low-cost plastic greenhouse, J. Interacademicia, 3:25-28 Singh, B. and Dadlani, N.K. 1989. Chrysanthemum varietal wealth. Ind. Hort., 36:30-31 (MS Received 6 November 2010, Revised 27 June 2011) Performance of spray chrysanthemum cultivars J. Hortl. Sci. Vol. 6(2):123-129, 2011 Prinect Color Editor Page is color controlled with Prinect Color Editor 4.0.70 Copyright 2008 Heidelberger Druckmaschinen AG http://www.heidelberg.com You can view actual document colors and color spaces, with the free Color Editor (Viewer), a Plug-In from the Prinect PDF Toolbox. 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