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Ali, Angrej
- Effect of Organic Mulches on Runner Production of Strawberry (Fragaria X ananassa Duch.)
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Authors
Angrej Ali
1,
G. S. Gaur
2
Affiliations
1 Faculty of Agriculture, Sher-e-kashmir University of Agriculture and Technology (K), Wadura, Sopore, J&K, IN
2 Department of Horticulture, Chandra Shekhar Azad University of Agriculture and Technology, Kanpur, U.P., IN
1 Faculty of Agriculture, Sher-e-kashmir University of Agriculture and Technology (K), Wadura, Sopore, J&K, IN
2 Department of Horticulture, Chandra Shekhar Azad University of Agriculture and Technology, Kanpur, U.P., IN
Source
Asian Journal of Bio Science, Vol 8, No 2 (2013), Pagination: 175-179Abstract
The runner production of strawberry cv. Sweet Charlie was evaluated under various organic mulches viz., dry grass, saw dust, sugarcane trash and paddy, while plants without mulch served as control. The mulches of about 6 cm thickness were applied around plant basin one week after transplanting. Results revealed that all the organic mulches significantly increased runner production of strawberry. Maximum number of runner per plant, runner platelets per runner and runner plantlets per plant was recorded with paddy straw followed sugarcane trash. The per cent increase in number of runner plantlets over control with paddy straw, sugarcane trash, saw dust and dry grass mulch was 33.33 per cent, 27.78 per cent, 18.00 per cent and 14.00 per cent, respectively. Organic mulches also increased the length of the runner stolon, number of leaves and leaf area of runner plantlets.Keywords
Mulch, Organic, Runner, StrawberryReferences
- Acharya, C.L., Sharma, P.D. (1994). Tillage and mulch effects on soil physical environment, ischolar_main growth, nutrient uptake and yield of maize and wheat on an Alfisol in north-west India. Soil Tillage Res., 4: 291–302.
- Borthakur, P.K. and Bhattacharya, R.K. (1992). Effect of organic mulches on soil organic matter content and soil pH in guava plantation. South Indian J.Hort., 40: 352-354.
- Buban, T., Helmeczi, B., Papp, J., Dorgo, E., Jakab, I., Kajati, I. and Merwin, I. (1996). IFP-compatible ground-cover management systems in a new-planted apple orchard. Acta Hort., 422: 263-267.
- Byun, J.K., Do, J.H. and Chang, K.H. (1989). The effect of black polyethylene and rice straw mulches on growth of young jujube (Zizyphus jujube) plants. Hort. Sci., 7(1): 136-139.
- Darrow, G.M. (1966). The strawberry: History, breeding and physiology. Holt, Rinehart and Winston,NEW YORK (U.S.A.)
- Duiker, S.W. and Lal, R. (1999). Crop residue and tillage effects on carbon sequestration in a Luvisol in central Ohio. Soil Tillage Res., 52: 73-81.
- Dwivedi, S.K., Singh, B. and Elipoljor (2000). Effect of mulch on eshtablishment and growth of apple sapling in cold arid region conditions of Ladakh. Prog. Hort., 32(1): 79-80.
- Ghuman, B.S. and Sur, H.S. (2001). Tillage and residue management effects on soil properties and yields of rainfed maize and wheat in a sub humid subtropical climate. Soil Tillage Res., 58: 1-10.
- Gupta, R.S. and Acharya, C.L. (1993). Effect of mulching induced hydrothermal regime, ischolar_main growth, water use efficiency and quality of strawberry. J. Indian Soc. Soil Sci., 41(1): 17-25.
- Gurung, S. and Chattopadhyay, P.K. (1994). Influence of soil cover on production and quality of banana. Ann. Agric. Res., 15(2): 445-447.
- Hajarika, B. and Das, P.K. (1999). Effect of black polyethylene and rice husk on chemical composition of pine apple. J. Appl. Hort., 2(2): 125- 127.
- Havlin, J.L., Kissel, D.E., Maddus, L.D., Claassen, M.M. and Long, J.H. (1990). Crop rotation and tillage effects on soil organic carbon and nitrogen. Soil Sci. Soc. American J., 54: 448-452.
- Hedua, N.K. and Kumar, M. (2002). Effect of different mulches on yield, plant height, nitrogen uptake, weed growth, soil moisture and economics of tomato. Prog. Hort., 34(2): 208-210.
- Jacks, G.V., Brind, W.D. and Smith, R. (1955). Mulching. Commonwealth Bureau of Soil Science. Technical Communication No. 49. Commonwealth Agricultural Bureau, UK.
- Kulkarni, S.S., Desai, U.T., Masalkar, S.D. and Dosale, S.B. (1993). Effect of cultural and chemical treatment on yield and physiochemical characteristics of custard apple. J. Maharashtra Agric. Univ., 21(3): 474-475.
- Lal, R., Vleeschauwer, D.D. and Nganje, R.M. (1980). Changes in properties of a newly cleared tropical Alfisols as affected by mulching. Soil Sci. Soc. American. J., 44: 827-833.
- Mandal, A. and Chattopadhyay, P.K. (1994). Enfluence of mulching on soil moisture, temperature ad their effect on growth and yield of custard apple. Adv. Plant Sci.,7(2): 314-318.
- Nishizawa, T. and Hori, Y. (1993). Elongation of strawberry runners in relation to length and number of cells. Tohoku J. Agric. Res., 43(3/4): 87-93.
- Panse, V.G. and Sukhatme, P.V. (1967). Statistical methods for agricultural workers. ICAR publication, NEW DELHI, INDIA.
- Paustin, K., Collins, H.P. and Paul, E.A. (1997). Management controls of soil carbon. In: Paul, E., et al. (eds.), SOM in temperate agroecosystems: Long term experiments in North America, pp: 15-49. CRC Press Inc.
- Perfit, R.I. and Stott, K.G. (1984). Effect of mulch cover and herbicides on the establishment, growth and nutrition of popular and willow cuttings. Aspect Appl. Biol., 5: 305-310.
- Pipattanawong, N., Fujishige, N., Yamane, K., Ijiro, Y. and Ogata, R. (1996). Effects of growth regulators and fertilizer on runner production, flowering, and growth in day-neutral strawberries. Japan. J. Trop. Agric., 40(3): 101-105.
- Rao, V.K. and Pathak, R.K. (1998). Effect of mulches on aonla (Emblia officinalis Gaertn.) orchard in sodic soil. Indian J. Hort., 55(1): 27-32.
- Saroa, G.S. and Lal, R. (2003). Soil restorative effects of mulching on aggregation and carbon sequestration in a Miamian soil in Central Ohio. Land Degradation Develop., 14: 481-493.
- Sharma, R.M. and Yamadagni, R. (2000). Modern strawberry cultivation. Kalyani Publishers, NEW DELHI (INDIA).
- Shukla, A.K. (1996). Efficiency of drip irrigation and mulching on young plantation of aonla+ber cropping model in sodic soil. M.Sc.(Ag.) Thesis, Narendra Deva University of Agriculture and Technology, Faizabad, U.P. (INDIA).
- Root Distribution Pattern of Walnut (juglans Regia L.)
Abstract Views :339 |
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Authors
K. R. Dar
1,
M. S. Wani
2,
G. R. Najar
2,
F. A. Peer
2,
M. A. Chattoo
2,
S. A. Simnani
2,
Angrej Ali
2
Affiliations
1 S.K. University of Agricultural Sciences and Technology (K), Shalimar, Srinagar J&K, IN
2 S.K. University of Agricultural Sciences and Technology (K), Shalimar,Srinagar J&K, IN
1 S.K. University of Agricultural Sciences and Technology (K), Shalimar, Srinagar J&K, IN
2 S.K. University of Agricultural Sciences and Technology (K), Shalimar,Srinagar J&K, IN
Source
The Asian Journal of Horticulture, Vol 8, No 2 (2013), Pagination: 452-455Abstract
Root distribution pattern of walnut trees grafted on seedling ischolar_mainstock was studied on at three radial distances from tree trunk and soil depth. The length and mass of fine ischolar_mains (diameter less than 1mm) was maximum (2633.52 cm and 19.43 g, respectively) within the tree canopy i.e. at a distance 2/3rd from tree trunk to drip line. It was significantly low near the tree trunk and towards the drip line. The length and mass of the fine ischolar_mains was more in the surface layer (2498.65 cm and 14.22 g, respectively). As the soil depth increased the RLD and RMD of the fine ischolar_mains decreased significantly. RLD of thicker ischolar_mains was not significantly influenced by the radial distance from the tree trunk but the RMD decreased significantly from the tree trunk to the drip line. Thicker ischolar_mains were significantly more in the surface layer of the soil.Keywords
Walnut, Root Distribution, Soil Depth, Radial Distance- Potentials of Cape Gooseberry (physalis Peruviana L): an Under-exploited Small Fruit in India
Abstract Views :336 |
PDF Views:0
Authors
Angrej Ali
1,
B. P. Singh
2
Affiliations
1 Department of Horticulture, Faculty of Agriculture, Sher-e- Kashmir University of Agricultural Sciences and Technology (K), Wadura Campus, Sapore J &K, IN
2 Department of Horticulture, Narendra Deva University of Agricultue and Technology, Kumarganj, Faizabad U.P., IN
1 Department of Horticulture, Faculty of Agriculture, Sher-e- Kashmir University of Agricultural Sciences and Technology (K), Wadura Campus, Sapore J &K, IN
2 Department of Horticulture, Narendra Deva University of Agricultue and Technology, Kumarganj, Faizabad U.P., IN
Source
The Asian Journal of Horticulture, Vol 8, No 2 (2013), Pagination: 775-777Abstract
The genus Physalis, of the family Solanaceae bearing globular fruits, each enclosed in inflated calyx. A species, which bears superior fruit and has become widely known is cape gooseberry (Physalis peruviana L.) native to Peru and Chile and has been widely introduced into cultivation of other tropical, sub-tropical and even in temperate areas. It is a nutritive and high value small fruit; the food value is almost at par with other major fruit crops of India. In India, cape gooseberry has been in cultivation on very limited scale and considered as minor crop, mostly as annual crop in plains of north India. It is commonly cultivated as backyard crop and in peri-urban areas and sold in cities at very high prices. Cape gooseberry is a warm season crop and requires a relatively long season to produce profitable yields. Being a minor crop in India, scientific information on improved production technology like varieties, nutrition, water management etc. of this crop for different agro-climatic conditions are lacking. Although, crop has potential production of 10 tonnes ha-1. This noble crop deserves special attention particularly due to its availability in lean period, wide adoptability, quick growing in nature, high productivity, non-perennial occupation of land and delicious fruit.Keywords
Cape Gooseberry, physalis Peruviana, Production, Small Fruit- Effect of Seed Maturity on Germination and Seedling Growth of Physalis peruviana (L.)
Abstract Views :260 |
PDF Views:0
Authors
Angrej Ali
1,
B. P. Singh
2
Affiliations
1 Sher-e-Kashmir University of Agricultural Sciences and Technology of Kashmir, Wadura, SOPORE (J&K), IN
2 Department of Horticulture, Narendra Deva University of Agriculture and Technology, Kumarganj, FAIZABAD (U.P.), IN
1 Sher-e-Kashmir University of Agricultural Sciences and Technology of Kashmir, Wadura, SOPORE (J&K), IN
2 Department of Horticulture, Narendra Deva University of Agriculture and Technology, Kumarganj, FAIZABAD (U.P.), IN
Source
International Journal of Forestry and Crop Improvement, Vol 6, No 2 (2015), Pagination: 100-104Abstract
An experiment was conducted to assess the effect of seed maturity on germination and seedling growth of cape gooseberry (Physalis peruviana L.). Seeds extracted from the fruits harvested at three stages of fruit development i.e. S1-49 days after fruit set, S2-56 days after fruit set and S3-63 days after fruit set and used for germination test and growth analysis of the seedlings. Results revealed that highest germination (93.86%) was in the seeds those extracted from 56 days after fruits set (S2), followed by S3-63 days after fruit set (86.39%), while minimum germination (80.71%) was observed in the seeds of 49 days maturity (S1). Seeds extracted from 56 days after fruit set exhibited better seedling growth in terms of higher shoot length, ischolar_main length, collar thickness, number of leaves and leaf area, however, the results were at par with S3 treatment. Dry matter accumulation in the seedlings was also highest in the seedling those raised from the seeds extracted at 56 days after fruit set.Keywords
Germination, Physalis peruviana L., Seed Maturity, Seedling Growth.References
- Chattopadhyay, T.K. (1996). Cape gooseberry. In: A text book of pomology-Vol. II (Chattopadhyay, T.K., Ed.). Kalyani Publishers, pp. 285-290, NEW DELHI. INDIA.
- Chaudhari, R.V., Meshram, L.D., Zade, V.R. and. Kukade, B.K (1992). Relationship between maturity and seed quality in tomato. Amer. Digest., 12(1): 38-40.
- Chiang, H.C., Jaw, S.M. and Chen, P.M. (1992). Inhibitory effects of physalin B and physalin F on various human leukemia cells in vitro. Anticancer Res., 12: 1155-1162.
- Crawford, M. (2004). Physalis: Ground cherries. Yearbook-West Australian Nut & Tree Crops Assoc., 27: 42-51.
- Delouche, J.C. (1980). Environmental effects on seed development and seed quality. Hort.Sci., 15: 13-18.
- Demir, I. and Ellis, R.H. (1992). Changes in seed quality during seed development and maturation in tomato. Seed Sci. Res., 2 : 81-87.
- Demir, I. and Samit, Y. (2001). Quality of tomato seeds as affected by fruit maturity at harvest and seed extraction method. Gartenbauwissenschaft, 66(4): 199-202.
- Gupta, S.K. and Roy, S.K.(1980). Multipurpose cape gooseberry. Indian Hort., 24 (4): 11.
- Hadavizadeh, A. and Raymond, A.T.G. (1989). The effect of mother plant nutrition on seed yield and seed vigour in pea (Pissum sativum L.) cultivar Sprite. Acta Hort., 253: 55-61.
- Hewett, E.W. (1993). New horticultural crops in New Zealand. In: New crops (Janick, J. and Simon, J.E. Eds.). John Wiley & Sons, Inc., pp. 57-64, NEW YORK, U.S.A.
- Johnson, R.R. and Wax, L.M. (1981). Stand establishment and yield of corn as affected by herbicides and seed vigour. Agron J., 73 : 859-863.
- Legge, A.P. (1974). Notes on the history, cultivation and uses of P. peruviana L. J. Royal Hort. Soc., 99: 310-314.
- Majumdar, B.C. (1979). Cape gooseberry-The jam fruit of India. World Crops, 31: 19-23.
- Majumdar, B.C. and Bose, T.K. (1979). Analysis of cape gooseberry fruits. Plant Sci., 11: 101.
- Mayorga, H., Knapp, H.,Winterhalter, P. and Duque, C. (2001). Glycosidically bound flavour compounds of cape gooseberry (Physalis peruviana L.). J. Agric. Food Chem., 49: 1904-1908.
- McCain, R. (1993). Goldenberry, passion fruit and white sapote: potential fruits for cool subtropical areas. In: New Crops (Janick, J. and Simon, J.E. Eds.). John Wiley and Sons, pp. 479-486, NEW YORK, U.S.A.
- Morton, F.J. (1987). Cape gooseberry. In: Fruits of warm climates (Morton, F.J., Ed.). University of Miami, pp. 430-434, FLORIDA, USA..
- Pandita, V.K.,Randhawa, K.S. and Modi, B.S. (1996). Seed quality in relation to fruit maturity stage and duration of pulp fermentation in tomato.Gartenbauwissenschaft, 61: 33-36.
- Panse, V.G. and Sukhatme, P.V. (1985). Statistical methods for agricultural workers, 4th Ed. ICAR Publications, NEW DELHI, INDIA.
- Perry, D.A. (1982). The influence of seed vigour on vegetable seedling establishment. Sci. Hort., 33: 67-75.
- Pietro, R.C., Kashima, S., Sato, D.N., Januario, A.H. and Franca, S.C. (2000). In-vitro antimycobacterial activities of Physalis angulata L. Phytomed., 7: 335-338.
- Sarkar, T.K. and Chattopadhyay, T.K. (1993). Correlation studies on cape gooseberry (Physalis peruviana L.). Ann. Agric. Res., 14 : 211-214.
- Trinchero, G.D., Sozzi, G.O., Cerri, A.M., Vilella, F. and Fraschina, A.A. (1999). Ripening-related changes in ethylene production, respiration rate and cell wall enzyme activity in goldenberry (Physalis peruviana L.), a solanaceous species. Postharvest Biol. Technol., 16 : 139-145.
- Valdes, V.M. and Gray, D. (1997). The influence of stage of fruit maturation on seed quality in tomato (Lycopersicum esculentum (L.) Karsten). Seed Sci. Tech., 26: 309-318.
- Wu, S.J, Ng, L.T., Huang, Y.M., Lin, D.L., Wang, S.S., Huang, S.N. and Lin, C.C. (2005). Antioxidant activities of Physalis peruviana. Biol. Pharm. Bull., 28(6): 963-966.
- Growing Media Affects Germination and Seedling Growth of Peruvian Ground Cherry (Physalis peruviana L.)
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Authors
Affiliations
1 Regional Research Station, SKUAST, Wadura, Sopore (J & K), IN
1 Regional Research Station, SKUAST, Wadura, Sopore (J & K), IN