Refine your search
Collections
Co-Authors
Journals
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
Kumhar, Bheru Lal
- Performance of Inter Specific Cotton Hybrids under Various Plant Geometries and Nutrient Levels
Abstract Views :184 |
PDF Views:1
Authors
Affiliations
1 Agricultural Research Station, Ummedganj Farm, Agriculture University, Kota (Rajasthan), IN
1 Agricultural Research Station, Ummedganj Farm, Agriculture University, Kota (Rajasthan), IN
Source
International Journal of Forestry and Crop Improvement, Vol 8, No 1 (2017), Pagination: 49-52Abstract
Field experiment was conducted at Agricultural Research Station, Borwat Farm, Banswara during Kharif-2010 to find out the optimum plant geometry and fertility levels for inter specific cotton hybrids with three cotton hybrids (JKCHB-214, RAHB-170 and DCH-32), two plant geometries (90 × 60 and 90 × 45 cm) and three fertility levels (75,100 and 125 % RDF). Sowing of JKCHB-214 cotton hybrid gave significantly higher seed cotton yield (1558 kg ha-1) over DCH-32 cotton hybrid. The maximum seed cotton yield (1754 kg ha-1) was observed under wider plant geometry of 90 × 60 cm than closer plant geometry of 90 × 45 cm. Though, yield attributing parameters such as bolls plant-1 and boll weight were statically improved in wider as compared to closer spacing it could be increase the seed cotton yield. Among fertility levels, similar seed cotton yield was recorded with the application of 100 per cent RDF (1555 kg ha-1) and 125 per cent RDF (1602 kg ha-1) but both were significantly better than that of 75 per cent RDF and plant geometry 90 x 60 cm seemed to be ideal for inter specific hybrid cotton for realizing higher productivity under the specific agro climatic zone IV b of Rajasthan.Keywords
JKCHB-214, Inter Specific Cotton, Plant Geometry, Fertility Levels.References
- Buttar, G.S. and Singh, Paramjit (2006). Performance of Bt cotton hybrids at different plant populations in South Western region of Punjab. J. Cotton Res. Dev., 20(1): 97-98.
- Ganvir, S., Ghanbahadur, M. and Khargkharate, V.K. (2013). Response of hirsutum cotton to high plant density, fertilizers and moisture conservation. Annals of Plant Physiol., 27(1): 33-37.
- Hebbar, K.B., Perumal, N.K. and Khadi, B.M. (2007). Photosynthesis and plant growth response of transgenic Bt cotton (Gossypium hirsutum L.) hybrids under field condition. Photosynthetica, 45(2): 254-258.
- Jones, M.A. (2001). Evaluation of ultranarrow row cotton in South Carolina. p. 522-524. In: Proc. Beltwide Cotton Conf., Anaheim, CA. 9-13 Jan. 2001.
- Sankarnarayanan, K.P., Nalayini and Praharaj, C.S. (2004). Agronomic requirements of Bt cotton hybrid in relation to plant density and fertilizer requirement. Intern. Symp. On Strategies for sustainable cotton production-A global vision, 2. Crop Production, 23-25 November, 2004, UAS, Dharwad, 248 p (2004).
- Sashtri, G., Thagarajan, C.P., Srimathi, P., Malarkodi, K. and Venkatasalam, E.P. (2000). Foliar application of nutrient on the seed yield and quality characters of non aged and aged seeds of cotton cv. MCUS. Madras Agric. J., 87(4/6): 202-206
- Sawan, Z.M., Mahmoud, M.H. and El-Guibali, A.H. (2008). Influence of potassium fertilization and foliar application of zinc and phosphorus on growth, yield components, yield and fibre properties of Egyptian cotton (Gossypium barbadense L.). J. Plant Ecol., 1: 259-70.
- Sharma, J.K., Upadhayay, Mishra, U.S., Khamparia, S.K. and Andloi, K.C.M. (2001). Effect of spacing and fertility levels on growth and yield of hirsutum genotypes. J. Cotton Res. Dev., 15(2): 151-153.
- Siddiqui, M.H., Oad, F.C., Abbasi, M.K. and Gandahi, A.W. (2009). Zinc and boron fertility to optimize physiological parameters nutrient uptake and seed yield of sunflower. Sarhad J. Agric, 25: 53- 57.
- CCI. Cotton Advisory Board (CAB) 2017. (http://cotcorp.gov.in/statistics.aspx#area).
- Performance of Bt Cotton Hybrids Under Various Crop Geometries and Nutrient Levels in Humid Southern Plain Zone of Rajasthan
Abstract Views :264 |
PDF Views:0
Authors
Affiliations
1 AICRP on Irrigation Water Management, Agricultural Research Station (Agriculture University), Kota (Rajasthan), IN
1 AICRP on Irrigation Water Management, Agricultural Research Station (Agriculture University), Kota (Rajasthan), IN
Source
International Journal of Plant Sciences, Vol 12, No 2 (2017), Pagination: 262-266Abstract
A field experiment comprised of three Bt hybrids (Leo cott, Paras Brahma and Jai Bt) with two plant geometries (90×45 cm and 90×60 cm ) and three levels of NPK (100% RDF,125% RDF and 150% RDF) was conducted during Kharif 2012 and 2013 at ARS, Banswara in Split Plot Design with four replications. The Bt hybrid of Leo cott gave higher seed cotton yield (2242 kg ha-1) as compared to Jai Bt and Paras Brahma (1809 and 1755 kg ha-1), respectively. The closer spacing 90×45 cm was recorded significantly higher seed cotton yield (2240 kg ha-1) over 90×60 cm (1752 kg ha-1). Increasing levels of fertilizer from 100% RDF to 150% RDF of NPK ha-1 significantly increase seed cotton. Application of 125% RDF gave significantly higher seed cotton yield (2249 kg ha-1) over 100% RDF (1815 kg ha-1), but it was found at par with application of 150% RDF (2304 kg ha-1) in the pooled analysis.Keywords
Leo Cott, Plant Geometry, Seed Cotton Yield, NPK Levels.References
- Buttar, G.S. and Singh, Paramjit (2007). Performance of Bt cotton hybrids at different plant populations in South Western region of Punjab. J. Cotton Res. Dev., 20 (1) : 97-98.
- Deng, X.P., Shan, L., Zhang, H.P. and Turner, N.C. (2004). Improving agricultural water use efficiency in arid and semiarid areas of China. New directions for a diverse planet. Proceeding of the 4th International Crop Science Conference, Brisbane.
- Hebbar, K.B., Perumal, N.K. and Khadi, B.M. (2007). Photosynthesis and plant growth response of transgenic Bt cotton (Gossypium hirsutum L.) hybrids under field condition. Photosynthetica, 45(2): 254-258.
- Kang, Y., Liu, H.J. and Liu, S.P. (2002). Effect of sprinkler irrigation on field microclimate. In: Proceedings of the 2002.
- Nehra, P.L. and Kumawat, P.D. (2003). Response of hirsutum cotton varieties to spacing and nitrogen levels. J. Cotton Res. Dev., 17(1): 41-42.
- Sankarnarayanan, K.P., Nalayini and Praharaj, C.S. (2004). Agronomic requirements of Bt cotton hybrid in relation to plant density and fertilizer requirement. Intern. Symp. on Strategies for sustainable cotton production-A global vision, 2. Crop Production, 23-25 November, 2004, UAS, Dharwad, 248 pp.
- Sawan, Z.M., Mahmoud, M.H. and El-Guibali, A.H. (2008). Influence of potassium fertilization and foliar application of zinc and phosphorus on growth, yield components, yield and fibre properties of Egyptian cotton (Gossypium barbadense L.). J. Plant Ecol., 1: 259-70.
- Sharma, A., Singh, H. and Nanwal, R.K. (2007).Effect of integrated nutrient management on productivity of wheat under limited and adequate irrigation supplies. Indian J. Agron., 52 (2):120-123.
- Sharma, J.K., Upadhayay, A., Mishra, U.S., Khamparia, S.K. and Andloi, K.C.M. (2001). Effect of spacing and fertility levels on growth and yield of hirsutum genotypes. J. Cotton Res. Dev., 15(2): 151-153.
- Wang, H., Zhang, L., Dawes, W.R. and Liu, C. (2002). Improving water use efficiency of irrigated crops in the North China Plain-measurements and modelling. Agric Water Manage, 48 : 151-167.
- Impact of Different Pruning of Dalbergia sissoo and Different Date of Planting of Turmeric on Growth and Yield
Abstract Views :223 |
PDF Views:0
Authors
Affiliations
1 Department of Forestry, College of Agriculture (J.N.K.V.V.), Jabalpur (M.P.), IN
1 Department of Forestry, College of Agriculture (J.N.K.V.V.), Jabalpur (M.P.), IN
Source
International Journal of Forestry and Crop Improvement, Vol 9, No 1 (2018), Pagination: 29-32Abstract
A field experiment was conducted at the Research Farm, of New Dusty Acre Area, Department of Forestry, College of Agriculture, JNKVV, Jabalpur (M.P.) during, Kharif season of 2015-16. The experiment involve four pruning intensities+open condition (only crop) in main plot and three different dates of planting in sub plot under strip plot design with four replications.The results revealed that, turmeric recorded highest plant height, stem diameter, LAI, number of leaves, number of shoot/hill and width of fingers, fresh yield and the different date of planting observed higher plant height, stem diameter, LAI, number of leaves, number of shoot/hill and width of fingers, fresh yield.Keywords
Pruning Intensities, Different Date of Planting, Turmeric Yield, LAI, Agroforestry.References
- Anonymous (1979). Multiple cropping in coconut and arecanut gardens. Ed. Nelliat, E.V. and Bhat, K.S., Central Plantation Crop Research Institute.Technical Bull., 3 : 54.
- Anonymous (2016). Horticulture statistics division department of Agriculture, Cooperation and farmers welfare Ministry of Agriculture and farmers welfare Government of India. pp.17, 233.
- Das, R.B. and Dalvi, G. S.(1981). Effect of interval and intensity of cutting Leucaenleucocephela. Resarch Report 2 pp. 21-22.
- Dhillon, W.S., Chauhan, S.K. and Singh, N. (2009). Physiology and yield of turmeric under poplar tree canopy. APA News, 30 : 5-6.
- Dhillon, W.S., Srinidhi, H.V., Chauhan, S.K., Singh, C., Singh, N. and Jabeen, N. (2010). Micro-envoriment and physiology of turmeric cultivated under poplar tree canopy. Indian J. Agroforestery, 12 (2) : 23-37.
- Dhyani, S.K. and Chauhan, D.S. (1989). Evaluation of crop in relation to shade intensities o Khasipine (Pine khasya). Progress Report, Agroforestry Division, ICAR Research Complex for NE Region, Shilling (Meghalaya): 1-3.
- Dhyani, S.K., Handa, A.K. and Uma (2013). Area under agroforestry in India: An Assessment for present status and future perspective. Indian J. Agroforestry, 15(1): 164-187.
- Gupta, D.C., Zomer, R.J. and Bossio, D.A. (2005). Poplar agroforestry in India: Trendsand impacts. IWMI Project Report. Colombo, International Wate Management Institute. pp.57.
- Gill, B.S. and Kumar, B. (2010). Growth, yield and quality of turmeric (Curcuma longa L.) as influenced by planting method, plant density and planting material. J. Spices & Aromatic Crops, 19 : 42-49.
- Hegde, N.G. (1987). Handbook of wastelands development. Pune, India: BAIRNelliat, E.V. and Bhat, K.S., Central Plantation Crop Research Institute. Technical Bull., 3: 54.
- Hossain, M.A., Ishimine, Y., Akamine, H. and Motomura, K. (2005a). Effects of seed rhizome size on growth and yield of turmeric (Curcuma longa L.). Plant Prod. Sci.,8 : 86-94.
- Kandianna, N. K. and Chandaragiri, K.K. (2008). Monetary and non monetary input on turmeric growth, nutrient uptakes yield and economics under irrigated condition. Indian J. Hort., 65 (2) : 209-213.
- Kirtikar, K.R. and Basu, B.D. (1988). Indian medicinal plants, vol II. India Book Distributors, Dehra Dun, pp. 2444–2449.
- Meena,MukeshBabu (2008). Effect of different pruning intensities and doses of fertilizers on the growth and productivity of wheat under agri-silviculture (Shisham+Wheat) practice. M.Sc.Thesis (Agronomy), College of Agriculture, JNKVV, Jabalpur,M.P. India : pp. 52-55.
- Newaj, R.S.A and Dar (2007). Tree growth and biomass productivity of herbaceous layer under different pruning regimes in Albiziaprocera based agri-silviculture system. Range Mgmt.&Agroforestry, 28 (2A): 108-110.
- Purseglove, J.W. (1972), Curcuma domesticaVal. In: Tropical Crops: Monocotyledons 2 (pp. 522–528). Longman, London, United Kingdom.
- Rani, S. (2009). Valuation of winter flowering annuals for seed production under poplar based agroforestry system. M.Sc. Thesis, Punjab Agricultural University, Ludhiana (Punjab) India. 69p.
- Rani, S., Chauhan, S.K., Kumar, R. and Dhatt, K.K. (2011). Bioeconomic appraisal of flowering annuals for seed production under poplar (Populusdeltoides) based agroforestry system. Tropical Agric.Res., 22: 125-133.
- Sharma, T.R. and Rai, G.K. (2004). Selection of suitable cultivars of turmeric as component crop under mango orchards JNKVV. Research J., 38 (2) : 29-30.
- Singh, B. and Sharma, K.N. (2007). Tree growth and nutrient status of soil in a poplar (Populusdeltoides Bartr.) based agroforestry system in Punjab, India. Agroforestry Systems, 70 (2) : 125-134.
- Singh, D.K., Aswal, S., Aswani, G. and Shivhare, M.K. (2013). Performance of planting material on growth and yield of turmeric under guava orchard. Hort Flora Res. Spectrum, 2 (2) : 116-120.
- Singh, R., Bhushan, S., Kumar, S. and Shanker, S. (2013). Yield assessment of elephant foot yam grown under multilayer vegetable cropping system. Bioscan, 8 (4): 1237-1239.
- Subramanian, V. Kumar, S.L. and Nair, G.S. (2004). Effect of time and method of planting on the yield of second crop of turmeric in Wyand. Indian Cocaa. Arecant & Spices J. 5 (1) : 5-8.
- Sundararaj, D.D. and Thulasidas, G. (1976). Botany of field crops. The Macmillan Company of India Ltd. Delhi, India.
- PGPR:Heart of Soil and their Role in Sustainable Agriculture
Abstract Views :203 |
PDF Views:0
Authors
Affiliations
1 College of Agriculture, J.N. KrishiVishwaVidyalaya, Jabalpur (M.P.), IN
1 College of Agriculture, J.N. KrishiVishwaVidyalaya, Jabalpur (M.P.), IN
Source
Rashtriya Krishi (English), Vol 13, No 1 (2018), Pagination: 105-107Abstract
Micro-organisms are the key components of the soil biodiversity. Both free-living and non free living soil biota beneficial to plant growth, usually referred to as plant growth-promoting rhizobacteria’s (PGPRs), are capable of promoting plant growth by colonizing the plant ischolar_main. These are associated with the rhizosphere, which is an important soil ecological environment and plant health for plant–microbes interactions. Beneficial micro-organisms that help in promoting plant growth, protecting from biotic and abiotic stresses, and significantly increasing soil fertility. Due to increase inputs of pesticides and fertilizers, the role of these micro-organisms is marginalized in sustainable agriculture. For increasing crop yields, the use of PGPRs has been well proven for its eco-friendly sound by promoting plant growth either direct or indirect mechanism. The mechanisms of PGPRs include resistance against plant pathogens, solubilizing nutrients for easy uptake, and maintaining the plant growth regulator hormone. PGPR may protect plants against pathogens by direct antagonistic interactions between the biocontrol agent and the pathogen, as well as by induction of host resistance. PGPR have the potential contribute to sustainable plant growth promotion.References
- Ahemad, M. and Kibret, M. (2014). Mechanisms and applications of plant growth promoting rhizobacteria: Current perspective. J. King Saud University - Sci., 26: 1-20.
- Glick, B.R., Cheng, Z., Czarny, J. and Duan, J. (2007). Promotion of plant growth by ACC deaminase-producing soil bacteria. Eur. J. Plant Pathol., 119 : 329-339.
- Jha, C.K. and Saraf, M. (2015). Plant growth promoting rhizobacteria (PGPR): A review. E3 J. Agric. Res. & Develop., 5 : 108–119.
- Patten, C.L. and Glick, B.R. (2002). Role ofP seudomonas putida indole acetic acid in development of the host plant ischolar_main system. Appl. Environ. Microbiol., 68 : 3795-3801.
- Sharma, D., Chauhan, S., Kumar, G., Singh, K.P. and Kumar, R. (2012). Cadmium stabilization by plant growth promotory fluorescent pseudomonas in combination with Indian mustard var.Kranti. South Asean J. Exptl. Biol., 3(2) : 128-135.