A B C D E F G H I J K L M N O P Q R S T U V W X Y Z All
Singh, H. M.
- Study on Phenotypic Correlation Co-Efficient in Dahlia Germplasm
Authors
1 Mahatma Gandhi Chitrakoot Gramoday Vishwavidyalaya, Chitrakoot, Satna (M.P.), IN
2 Department of Horticulture, College of Agriculture, Chandra Shekhar Azad University of Agriculture and Technology, Kanpur (U.P.), IN
Source
The Asian Journal of Horticulture, Vol 11, No 1 (2016), Pagination: 40-43Abstract
Dahlia is an important bulbous flower crop which has position to increase economic earning of grower. Forty varieties were grown and studied for genotypic correlation of traits at C.S.Azad University of Agriculture and Technology, Kanpur, during 2011-12 and 2012-13. Vegetative and reproductive characters parameters were found to have considerable relationship which also indicated the scope for making improvement in dahlia. Plant height and maximum number of flower per head revealed the sustainable magnitude for crop improvement in dahlia crop.Keywords
Species, Varieties, Germplasm, Dahlia.References
- Anuradha, S. and Gowda, J.V.N. (1990). Genetic variability studies in gladiolus. Abst. Int. Sem. New Frontier Hort., Bangalore, pp. 65.
- Anuradha, S. and Gowda, J.V.N. (1990a). Genetic variability in gladiolus. Prog. Hort., 22 (1-4) : 55-59.
- Anuradha, S. and Gowda, J.V.N. (1992). Phenotypic and Genotypic correlation studies in gladiolus. Crop. Res., 5 (2) : 381-386.
- Beura, S. and Maharana, T. (1990). Genetic variance in different Dahlia varieties. Orissa J. Agric. Res. , 3 (2) : 169-172.
- Bihari, M., Kumar, R., Singh, K. and Narayan, S. (2011). Phenotypic and genotypic path coefficient studies in Ginger. J. Academetia, 15 (4) : 549-555.
- Bihari, M., Kumar, R., Singh, K. and Prasad, A. (2009a). Phenotypic Path-coefficient studies in Floribunda Rose Genotypes. J. Orna Hort., 12 (3) : 118-121.
- Bihari, M., Kumar, R., Singh, K. and Prasad, A. (2009b). Studies on genetic Divergence in gladiolus genotypes. J. Orna. Hort., 12 (3) : 200-205.
- Katiyar, J.N. (1996). Studies on variability and correlation on orchids. Ph.D. Thesis, Kanpur University, KANPUR, U.P. (INDIA).
- Katiyar, J.N., Prasad, A. and Arya, S. (1995). Studies on genotypic correlation in orchids. Recent. Hort., 4 (2) : 113-116.
- Katiyar, J.N., Prasad, A., Kumar, R. and Arya, S. (1994). Studies on Phenotypic correlation in orchids. Prog. Hort. (Accepted).
- Katiyar, S.P. (1984). Studies on path coefficient relationship in hybrid varieties of gladiolus. Ph.D. Thesis, Kanpur University, Kanpur, U.P. ( INDIA).
- Prasad, A. and Pradhan, N. (1991). Studies on genotypic correlation in different characters in gladiolus. Ibid. pp. 42.
- Prasad, A. and Pradhan, N. (1991a). Studies on genetic and phenotypic correlation of various characters in gladiolus. Nat. Symp. Soil Water pollution its remedial measures held at Allahabad. Abst. pp. 8.
- Rao, C. R. (1952). Advanced statistical methods in biometrical research. J. Wiley and Sons, New York
- Study on Environmental Path Co-Efficient in Dahlia
Authors
1 National Horticultural Research and Development Foundation, Indore (M.P.), IN
2 Mahatma Gandhi Chitrakoot Gramodaya Vishwavidyalaya, Chitrakoot, Satna (M.P.), IN
Source
International Journal of Agricultural Sciences, Vol 14, No 1 (2018), Pagination: 192-195Abstract
Dahlia is an importance bulbous flower crop which has position to increase economic earning of grower. Forty varieties were grown and studied for environmental path correlation of traits at C.S. Azad University of Agriculture and Technology, Kanpur, during 2011-12 and 2012-13. Vegetative and reproductive character parameters were found to have considerable relationship which also indicated the scope for making improvement in dahlia. Plant height and maximum number of flower per head revealed the sustainable magnitude for crop improvement in dahlia crop.Keywords
Species, Varieties, Germplasm, Dahlia, Path.References
- Basu, A. and Bose, T.K. (1970). The ornamental plants. Indian Hort., 277 : 21-22.
- Bertheir, S. (1987). Studies on defoliation in Dahlia. Plant Sci. 18 : 21-23.
- Chadha, K.L. and Chaudhary, B. (1992). Ornamental Horticulture in India. I.C.A.R., New Delhi, India. pp.1-40.
- Chadha, K.L. (1993a). Floriculture research. Indian J. Orna. Hort., 1 (1) : 1-12.
- Chadha, K.L. (1993b). Looking back. Golden Jubilee Symp. Hort. Changing. Scenario Souvenier. pp. (I-IV).
- Dadlani, N.K. (1996a). Basic scenario of Indian floriculture. Floriculture Today, 1 (1) : 41-42.
- Dadlani, N.K. (1996b). Floriculture Industry in India. Floriculture Today, 1 (6) : 9-12.
- Kumar, A.,Prasad, A. and Arya, S. (2013). Environmental path co-efficient studies in gladiolus genotypes. Plant Sci. 45-46 : 9-13.
- Prasad, A. (1998). Export potentiality of floricultural products. Sci. J. Hort., 1 : 38-40.
- Rao, C.R. (1952). Advanced statistical methods in biometric research. John Wiley, NEWYORK, U.S.A.
- Swarup, V. and Singh, B. (1984). Ornamental horticulture in India. Indian Hort., 29 : (2) : 5-8.
- Swarup, V. and Bhargava, S.C. (1986). Export of ornamentals. Indian Hort. 12 (4) : 25-30.
- Teaotia, S.S. (1996). Potential of horticulture export in India. Souvenir. State U.P. Flower Mag., 82-87 pp.
- Impact of Front Line Demonstration of INM on Growth and Yield in Tomato (Lycopersicon esculentum Mill.) Cv. ARKA RASHAK
Authors
1 National Horticultural Research and Development Foundation, Indore (M.P.), IN
2 Krishi Vigyan Kendra, Kameng Dirang (Arunachal Pradesh), IN
Source
Agriculture Update, Vol 13, No 1 (2018), Pagination: 114-116Abstract
A field experiment was conducted at the Farmers Field of village Hot Pipaliya district Dewas Madhya Pradesh. The effect of Integrated Nutrient Management (INM) on the growth, yield and contributing nutrient status in tomato. By following a Randomized Complete Block Design, 9 treatments with 3 replications were maintained. The study revealed that the integration of organic manures in combination with inorganic fertilizers was found significant in improving the overall plant growth, yield and soil macro nutrient status than the soil application of either of these nutrients. Maximum plant height and number of leaves per plant were observed with treatment T7 (FYM 15 mt/ha+Vermicompost 7.5 mt/ha+75% NPK). The earlier of days to 50% flowering was observed in treatment 20 mt/ha FYM. Highest number of fruit clusters, maximum fruit weight and fruit yield (26.74 mt/ha) were recorded in treatment T7 (FYM 15 mt/ha+Vermicompost 7.5 mt/ha+75% NPK). The highest available nitrogen, phosphorus and potassium were found in treatment of 1/2 NPK+vermicompost 15 mt/ha.Keywords
FYM, INM, NPK, Vermicompost, Tomato.References
- Bahadur, A., Singh, J. and Singh, K.P. (2004). Response of cabbage to organic manures and biofertilizers. Indian J. Hort., 61(3):278-279.
- Dubey, D.K.,Singh, S.S., Verma, R.S. and Singh, P.K. (2012). Integrated nutrient management in garden pea (Pisum sativum var. hortense). Hort. Flora Res. Spectrum, 1(3):208-214.
- Kumar, A., Sharma, S. and Mishra, S. (2009). Application of farmyard manure and vermicompost on vegetative and generative characteristics of Jatropha curcas. J. Phytopathol., 1(4):206-222.
- Kumar, N., Kumar, V. and Singh, M.C. (2012). Response of bio-organic nutrition on growth, yield and quality of Ashwagandha (Withania sommifera Dunal). Hort. Flora Res. Spectrum, 1(3):208-214.
- Kumar, P. and Sharma, S.K. (2004). Integrated nutrient management of sustainable cabbage-tomato cropping sepuence under mid hill conditions of Himanchal Pradesh. Indian J. Hort., 61(4): 331-334.
- Kumar, V., Akbar, P.I. and Malik, M.F. (2008). Response of cabbage to vermicompost and biofertilizer application.Haryana J. Hort. Sci., 37(1&2):132-134.
- Kumaran, S., Natarajan, S. and Thamburaj, S. (1995). Effect of organic and inorganic fertilizers on growth, yield and quality of tomato. South Indian Hort., 46(3&4):203-205.
- Malik, M.F. and Kumar, V. (2009). Infuence of INM on growth and yield of tomato. Ann. Hort., 2(2): 221-223.
- Singh, D.D., Patel, A.K., Baghel, M.S., Singh, S.K. and Singh, A.K. (2014). Impact of front line demonstration on the yield and economics of chickpea (Cicer arietinumn L.) in Sidhi district of Madhya Pradesh. J. Agri Search, 1(1): 22-25.
- Suman, R.S. (2014). Attitude of farmers towards sustainability of vegetable cultivation. J. Agri. Search, 1(1): 1-3.
- Evaluation of Technology Dissemination through Demonstration on the Yield of Kharif Onion Bulb Production
Authors
1 National Horticultural Research and Development Foundation, Indore (M.P.), IN
Source
The Asian Journal of Horticulture, Vol 13, No 1 (2018), Pagination: 5-7Abstract
Onion (Allium cepa) is one of the most important bulb crops in India, which plays a major role in supplementing the Income of small and marginal farmers of different district in Madhya Pradesh. One of the major constraints of Kharif onion farming is poor nursery and low productivity due to non adoption of recommended package of practices and improved verities. To replace this anomaly, National Horticultural Research and Development Foundation, Indore (M.P.) had conducted TDTD (Technology dissemination through demonstration) under National Horticulture Mission, Govt. of India, at adopted farmers’ fields. Cultivation practices comprised under TDTD viz., use of improved variety/season specific, nursery raising, soil/seed treatment, transplanting, fertilizer application and control of purple blotch disease, showed that percentage increase in the yield of onion ranged from 31.07% to 36.40% over local check during the course of study from 2012-13 to 2016-17. The technology gap of 6.2 q/ha during 2016-17 from 27.6 q/ha at the initial stage of study (2012-13) shows the gap in demonstration yield over potential yield, but the above gap reduced subsequently in the following years.Keywords
Technology Dissemination, Demonstration, Technology Gap, Extension Gap, Technology Index, Onion.References
- Gupta, R.P. and Singh, R.K. (2010). Area and production. Onion production in India-2010, pp 6-9.
- Kiresur, V.R., Ramanna Rao, S.V. and Hedge, D.M. (2001). Improved technologies in oilseeds production-An assessment of their economic potentials in India. Agric. Econ. Res. Rev., 14 (2) : 95-108.
- Pandey, U.B. and Bhonde,S.R. (2002). Agro-Techniques. Onion production in India-2002, pp. 12-15.
- Ruth, C.H., Sridhar, D. and Subbarao,Y. (2010). Technology of vegetable production for peri-urban area-Souvenir-District level seminar-Technology of vegetable production for peri-urban area, (Edt-Ojha) 22-23, December, 2010. pp1-13.
- Singh,S.N., Singh,V.K., Singh, R.K. and Singh, R.K. (2007). Evaluation of on-farm front line demonstrations on the yield of mustard in central plains zone of uttar pradesh. Indian Res. J. Ext. Edu., 7 (2&3) : 79-81.
- Impact of Frontline Demonstrations on the Yield and Economic of Pea in West Kameng District Arunachal Pradesh
Authors
1 Krishi Vigyan Kendra, West Kaameng (Arunachal Pradesh), IN
2 National Horticultural Research and Development Foundation, Patna (Bihar), IN
Source
Agriculture Update, Vol 14, No 3 (2019), Pagination: 243-245Abstract
The study was carried out during 2014 to 2017 at farmers field of dirang,West Kameng district of Arunacahal Pradesh. The front line demonstration on pea crop of seed was conducted on an area 18 ha for each variety with active participation of 40 farmers with improved technologies of VRP- 22, Arkel and Azad P1. The results revealed that maximum yield 23.0q/ha with an increase over variety Arkel and Azad P1. Improved technology of pea recorded progressively increased average yield 20q/ ha during Three years of study, and minimum to maximum yield found17.0q/ha to 23.0 q/ha. The extension gap can be bridged by popularizing package of practices of pea including improved variety (VRP-22), use of optimum seed rate, balanced nutrition and recommended plant protection measures. Improved technologies gave higher net return of Rs. 40,000/ha with benefit cost ratio 2.43 as compared to Azad P1 (Rs.29,800/- benefit cost ratio 2.06) and Arkel (Rs.1.94/-benefit cost ratio1.94).Keywords
Pea, Yield, Improved Technology, Benefit Cost Ratio.References
- Choudhary, B.N. (1999).Krishi Vigyan Kendra: Aguide of KVK managers, Publication division of Agricultural, extension ICAR. pp. 73-78.
- Kirar, B.S., Naeshine, R. Gupta, A.K. and Mukherji, S.C. (2006). Demonstration: An effective toel for increasing the productivity of Urd. Ins. Res. J. Extn. Edu., 6 (3) : 47-48
- Prasad, C., Chaudhary, B.N. and Nayar, B.B. (1987). First line transfer of technology project. ICAR, New Delhi, pp. 87.
- Raj, A.D., Yadev, V. and Rathod, J.H. (2013). Impact of front line demonstration (FLD) on the yield of pulses. Internat. J. Sci. & Res., 9 (3):1-4.
- Singh, P.K. (2002). Impact of participants in planning on adoption of new technology through FLD. Manage Extension ResearchReview. July-Dec.45-48pp.
- Tomar, R.K.S., Sharma, P. and Yadev, L.N. (1991). Comparison of yield and economics of irrigated pea under improved and local management practices. Internat. Pea, Chick Pea News Letter, 6 : 2-3.
- Importance of Persimmon Fruit and their Cultivation
Authors
1 Krishi Vigyan Kendra, West Kameng, Dirang (Arunachal Pradesh), IN
2 National Horticultural Research and Development Foundation, Patna (Bihar), IN
Source
Rashtriya Krishi (English), Vol 14, No 2 (2019), Pagination: 33-34Abstract
.- Scope of Underutilized Vegetables in North East Region
Authors
1 Krishi Vigyan Kendra, West Kameng, Dirang (Arunachal Pradesh), IN
2 National Horticultural Research and Development Foundation, Patna (Bihar), IN
Source
Rashtriya Krishi (English), Vol 14, No 2 (2019), Pagination: 61-65Abstract
What are underutilized vegetable: These are Indigenous vegetables as might be in danger of being replaced by a few cultivated species or genetic variability of which may be lost due neglect or non.
Vegetables in India are grown from dry temperate to humid tropics between the altitudes from sea level to snow line. A wide range of plant species growing in Himalayan and sub Himalayan regions in India belonging to genus Solanaceae, Cucurbitace, Brassicaceae, besides various kinds of beans, tubers and ischolar_mains crops, spices, cole crops as well as some species of leafy vegetables constitute a huge list of underutilized vegetables. These vegetables are generally eaten by the local population and rarely shipped out as commercial commodities.