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Bharose, Ram
- Effect of Phosphorus And Molybdenum on Yield And Nutrient Uptake By Cowpea
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Affiliations
1 Department of Agriculture Chemistry and Soil Science, R.B.S. College Bichpuri, Agra (U.P.), IN
2 Department of Applied Plant Science (Horticulture), School for Biosciences and Biotechnology, Babasaheb Bhimrao Ambedkar University, Lucknow (U.P.), IN
3 Department of Soil Science and Agriculture Chemistry, N.D. University of Agriculture and Technology, Kumarganj, Faizabad (U.P.), IN
1 Department of Agriculture Chemistry and Soil Science, R.B.S. College Bichpuri, Agra (U.P.), IN
2 Department of Applied Plant Science (Horticulture), School for Biosciences and Biotechnology, Babasaheb Bhimrao Ambedkar University, Lucknow (U.P.), IN
3 Department of Soil Science and Agriculture Chemistry, N.D. University of Agriculture and Technology, Kumarganj, Faizabad (U.P.), IN
Source
An Asian Journal of Soil Science, Vol 8, No 2 (2013), Pagination: 366-369Abstract
No AbstractKeywords
Cowpea, Phosphorus, Molybdenum, Growth, YieldReferences
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- Ankomah, A.B., Zapata, F., Hardason, G. and Danso, S.K.O. (1995). Yield, nodulation, and N2 fixation by cowpea cultivars at different phosphorus levels. Biol. & Fertility Soils, 22 : 10-15.
- Brink, M., Belay, G., De Wet, J.M.J., Edje, O.T., Westphal, E., Lemmens, R.H.M.J. and Oyen, L.P. (2006). Plant resources of tropical Africa I. cereals and pulses. PRTA foundation. Wagenigan Netherlands, pp : 221-228.
- Garg, K.P., Sharma, A.K. and Thakur, B.T. (1970). Manuring Cowpea in Studies on effects of different rates of Phosphorus and Molybdenum on the growth, yield of Cowpea and Fodder and residual effect on wheat. Indian J. Agron., 15 : 112 117.
- Jain, V.K., Chauhan, Y.S. and Jain, P.C. (1986). Effect of different doses of phosphorus on growth, yield and quality of cowpea [Vigna unguiculata (L.) Walp]. Madras Agric. J., 73(4) : 199-202. Kang, B.T. and Nangju, D. (1983). Phosphorus response of cowpea [Vigna unguiculata (L.) Walp]. Tropi. Grain Legume Bull., 27:11- 16.
- Khan, I.M., Prasad, V.M., Aakim, S.A. and Prasad, F.M. (2007). Effect of seed treatment with molebdenum and cobalt on nodulation and yield of black gram. Ann. Pl. Soil Res., 9(1): 101-102.
- Kudikeri, C.B., Patil, R.V. and Karishnamurthy, K. (1973). Response of cowpea varieties under varying levels of phosphorus. Mysore J. Agric., 7(2) : 170 177.
- Luse, R.I., Kang, B.T., Fox, R.I. and Nangju, D. (1975). Protein quality in grain legumes grown in the lowland humid tropics, with special reference to West Africa, Pages 193 201. In : Fertilizer use and protein production. Xith Colloquium, International Potash Institute, 1975, Ronne Born holm, Denmark.
- Mokwunye, A.U., Chien, S.H. and Rhodes, E. (1986). Phosphorus reaction with tropical Africa soils, pages 253 281. In: Management of nitrogen and phosphorus fertilizers in Sub Saharan Africa, edited by Mokwunye, A.U and Vlek, P.L.G. Martinus Nijhoff Publishers, Dordrecht, The Netherlands.
- Muleba, N. and Ezumah, H.C. (1985). Optimizing cultural practices for cowpea in Africa. Pages 289 295. In: Cowpea research, production, and utilization, edited by Singh, S.R. and Rachie, K.O. John Wiley and Sons Ltd, Chichester, UNITED KINGDOM.
- Nayak, S.K., Singh, P.L., Ahmed, P. and Long Kumar, L.T. (2006). Effect of phosphorus and FYM on yield, quality and nutrient uptake of soybean. Ann. Pl. Soil Res. 8(1): 88-89.
- Odedina, S.A., Odedina, J.N., Ayeni, S.O., Arowofolu, S.A., Adeyeye, S.D. and Ojeniyi, S.O. (2003). Effect of types of ash on soil fertility nutrient availability and yield of tomato and paper. Nig. J. Soil Sci., 13 : 61-67.
- Okeleye, K.A. and Okelana, M.A.O. (1997). Effect of phosphorus fertilizer on nodulation, growth, and yield of Cowpea (Vigna Unguiculata) varieties. Indian J. Agric. Sci., 67(1) :10-12.
- Omueti, J.O. and Oyenuga, V.A. (1970). Effect of phosphorus fertilizer on the protein and essential components of the ash of groundnut and Cowpeas. West African Biology & Applied Chem. J. 13(1): 299 305.
- Patel, A., Namdeo, K.N. and Saraiya, A.B. (2005). Ann. Pl. Soil Res., 7(1): 41-43.
- Sample, E.C., Soper, R.J. and Racz, G.J. (1980). Reactions of phosphorus fertilizers in soils. Pages 263 310 In: The role of phosphorus in agriculture, Edited by Khasawneh, F.E., Sample, E.C. and Kamprath, E.J. American Society of Agronomy, Madison, Wisconsin, U.S.A.
- Sanginga, N., Lyasse, O. and Singh, B.B. (2000). Phosphorus use efficiency and nitrogen balance of cowpea breeding lines in a low P soil of the derived Savanna zone in West Africa. Plant & Soil, 220: 119-128. Sellschop, J.P.F. (1962). Cowpeas. (Vigna unguiculata [L] Wallp). Field Crops Abstracts, 15 : 259 266.
- Singh, R.M. and Jain, T.C. (1966). Effect of phosphate and molybdate on the growth caracters of Russian Giant cowpea in: cowpea: Abstract World Literature, 1: 46.
- Singh, J.P. and Singh, H. (2006). Effect of micronutrient and FYM on yield and nutrients uptake by urdbean. Ann. Pl. Soil Res., 8(1): 100-101.
- Tarilla, A.G.I., Ormond, D.P. and Adedipe, N.C. (1977). Effect of phosphorus nutrition and light intensity on growth and yield components of cowpea [Vigna Unguiculata (L.)]. Ann. Bot., 41:75-83.
- Tenebe, V.A. (1987). Effect of sources of phosphorus on the yield and yield components of cowpea varieties. Unpublished M.Sc Thesis, Ahmadu Bello University, Zaria, Nigeria.
- Tenebe, V.A., Yusuf, Y., Kaigama, B.K. and Aseime, I.O.E., (1995). The effects of sources and levels of phosphorus on the growth and yield of cowpea [Vigna unguiculata (L.) Walp] Varieties. Trop. Sci. 35 : 223 228.
- Tripathi, S., Singh, T. and Tripathi, P.N. (2006). Effect of nitrogen, phosphorus and Rhizobium on yield and quality of cowpea. Ann. Pl. Soil Res., 8(1): 14-17.
- Uma and Agrawal, R.L. (2005). Ann. Pl. Soil Res. 7(1) : 68-71.
- Yusuf, Y. (1987). Effect of P levels on yield and yield components of cowpea at samaru. Cropping scheme meeting, institute for agricultural research, Ahmadu Bello University, Zaria, Nigeria, pp. 161.
- Effect of Different Fertility Level and Micronutrients on Nodulation and Nutrient Uptake by Chickpea
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Authors
Affiliations
1 Department of Soil Science and Agricultural Chemistry, College of Agriculture, N.D. University of Agriculture and Technology, Kumarganj, Faizabad (U.P.), IN
1 Department of Soil Science and Agricultural Chemistry, College of Agriculture, N.D. University of Agriculture and Technology, Kumarganj, Faizabad (U.P.), IN
Source
An Asian Journal of Soil Science, Vol 11, No 1 (2016), Pagination: 62-66Abstract
The field experiment was conducted during Rabi season 2013-14 to evaluate the effect of different fertility level and micronutrients on nodulation and nutrient uptake of chickpea (Cicer arietinum L.) to fertility levels and micronutrients. Twelve treatments combinations was comprised with three fertility levels -F1:40 kg P2O5ha-1, F2:60 kg P2O5 + 20 kg S ha-1and F3:80 kg P2O5 + 40 kg S ha-1 and four micronutrient levels- M0: control, M1:3 kg Zn ha-1, M2:0.3 per cent B spray ha-1 and M3:3 kg Zn + 0.3 per cent B spray ha-1 were laid out in Spilt Plot Design. The maximum growth, yield, nodulation and nutrient uptake were recorded with higher level of fertility application F3: 80 kg P2O5 and 40 kg which was significantly superior over lower level of fertility F1 and statistically at par with F2. The minimum response was recorded with the application of lower fertility level F1 with micronutrient application.Keywords
Chickpea, Fertility Level,Micronutrients, Nodulation, Nutrient Uptake.References
- Ahalwat, I.P.S., Gangaiah, B. and Zadid, A.M. (2007). Nutrient management in chickpea. In: Chickpea breeding and management (Yadav, S.S.; Redden, R.; Chen, W. and Sharma, B. eds.) CAB International, Wallingford, Oxon, United Kingdom, 213-232pp.
- Ali, M.Y., Krishnamurthy, L., Saxena, N.P., Rupela, O.P., Kumar, J. and Johansen, C. (2002). Scope for genetic manipulation of mineral acquisitions in chickpea. Plant Soil, 24 (5): 123-134.
- Anonymous (2013). Annual report (Rabi, 2012-13) All India Co-ordinated Research Project (ICAR).
- Chesnin, L. and Yien, C.H. (1951).Turbidimetric determination of available sulphate. Soil Sci. Soc. America Proc., 14 : 149-151
- Chopra, S.L. and Kanwar, J. S. (1991).Analytical agricultural chemistry, Kalyani Publishers, NEW DELHI, INDIA.
- Jeckson, M.L. (1973). Soil chemical analysis. Prentice hall of India Pvt. Ltd, NEW DELHI, INDIA.
- Kharol, S., Sharma, M., Lal, M. and Sumeriya, H.K. (2014). Productivity of chickpea (Cicer arietinum L.) as influenced by sulphur and zinc under agroclimatic zone IV-A of Rajsthsn. Ann. Biol., 30 (4): 676-680
- Lal, B., Rana, K.S., Rana, D.S., Gautam, P., Shivay, Y.S., Ansari, M.A., Meena, B.P. and Kumar, K. (2014). Influence of intercropping, moisture conservation practice and P and S levels on growth, nodulation and yield of chickpea (Cicer arietinum L.) under rainfed condition. Leg. Res., 37 (3): 300-305.
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- Neenu, S., Ramesh, K., Ramana, S., Biswas, A.K. and Rao, A.S. (2014). Growth and yield of different varieties of chickpea (Cicer arietinum L.) as influenced by the phosphorus nutrition under rainfed conditions on vertisols. Internat. J. Bio-resour. & Stress Mgmt., 5 (1): 53-57.
- Olsen, S.R., Cole, C.V., Watanable, F.S. and Dean, L.A. (1956). Estimation of available phosphorus in soil by extraction with sodium bicarbonate. USDA, Cric 930: 19-23 (C.F. methods of soil analysis. Ed. Black: C.A. Agronomy, No. 9 Am. Soc. Agron. Inc. Madison, Wisconsin, 1044-1046pp.
- Patel, H.K., Patel, P.M. and Patel, M.R. (2013). Effect of sulphur and phosphorus management on growth and yield of chickpea. Adv. Res. J. Crop Improv., 4 (2): 103-105
- Rao, R.N., Finck, A., Blair, G.J. and Tondan, H.L.S. (2006). Plant nutrition for food security. A guide for integrated nutrient management. Fertilizer and plant nutrition Bulletin 16. Food and Agriculture Organization of the United Nations, Rome Italy, 368.
- Sasode, N.K. and Patil, D.S.A. (2003). Yield, nutrient uptake and economics of gram (Cicer arietinum L.) as influenced by P and S levels and PSB inoculation under irrigated conditions. Leg. Res., 23 (2): 125-127.
- Sharma, A.K., Raghubanshi, P.B.S. and Siorothia, P. (2014). Response of chickpea to levels of zinc and phosphorus. Ann. Plant & Soil Res., 16 (2): 172.173 .
- Sharma, S.K. and Jain, N.K. (2012). Effect of balanced fertilization on productivity and soil fertility status of clusterbean. Leg. Res., 35 (1): 32-35.
- Singh, Y., Singh, B. and Kumar, D. (2014). Effect of phosphorus levels and biofertilizers on yields attributes, yield and nutrient uptake of chickpea (Cicer arietinum L.) under rainfed condition. Res. Crops, 15 (1): 90-95.
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- Characterization of Salt-Affected Soils of Faizabad District
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Authors
Affiliations
1 Department of Soil Science and Agricultural Chemistry, College of Agriculture, Narendra Deva University of Agriculture and Technology, Kumarganj, Faizabad (U.P.), IN
2 Department of Soil Science and Agricultural Chemistry, College of Agriculture, Narendra Deva University of Agriculture and Technology, Kumarganj, Faizabad (U.P.), IN
1 Department of Soil Science and Agricultural Chemistry, College of Agriculture, Narendra Deva University of Agriculture and Technology, Kumarganj, Faizabad (U.P.), IN
2 Department of Soil Science and Agricultural Chemistry, College of Agriculture, Narendra Deva University of Agriculture and Technology, Kumarganj, Faizabad (U.P.), IN
Source
An Asian Journal of Soil Science, Vol 11, No 1 (2016), Pagination: 98-102Abstract
A study was undertaken to characterize the soils of Faizabad district, Uttar Pradesh in order to assess their land capability. The soils were described in the morphology, characteristics. Themorphological properties of soils were studied and later on analyzed in laboratory for their physical and chemical properties. Thickness of Ap horizon was less in pedon number 1(20 cm), pedon number 2 and 3 (22 cm) and pedon number 4 and 5 (25 cm). The solum depth of all the profiles ranged from 85 to 100 cm. The colour of surface soil of pedons 1, 2, 3, 4 and 5 were light gray (10 YR 7/1 and 10YR 7/2) when dry and light yellowish brown (10 YR 6/4) when moist.The soil colour of sub-surface horizons was strong brown (7.5YR 5/6). Surface soil structure of the pedon was fine prismatic while it was fine sub-angular blocky of other pedons. The consistency of surface and sub-surface soils varied from slightly hard to very hard, friable to extremely firm.It was non-sticky, non-plastic to sticky, plastic in dry, moist and wet conditions, respectively in all the pedons.Keywords
Pedon, Horizon, Structure.References
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- Effect of Different Nutrient Resources on Yield and Quality of Basmati/Aromatic Rice in Inceptisol of Eastern Uttar Pradesh
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Authors
Affiliations
1 Department of Soil Science and Agricultural Chemistry, College of Agriculture, N. D. University of Agriculture and Technology, Kumarganj, Faizabad (U.P.), IN
1 Department of Soil Science and Agricultural Chemistry, College of Agriculture, N. D. University of Agriculture and Technology, Kumarganj, Faizabad (U.P.), IN
Source
An Asian Journal of Soil Science, Vol 11, No 1 (2016), Pagination: 230-234Abstract
A field experiment was conducted at Crop Research Station, Masodha under Narendra Deva University of Agriculture and Technology, Kumarganj, Faizabad, (U.P.) during Kharif season 2008-2009 to evaluate the productivity and quality of aromatic/basmati rice variety under different nutrient parameters which included the application of nutrients through only chemical fertilizer, only organic source and combination of organic manure and fertilizer, besides the foliar spray of a plant growth retardant (Cycocel) in combination with inorganic fertilizer to reduce plant height. An improved basmati variety vasumathi, a traditional culture, tarori basmati and local non-basmati aromatic rice, Kalanamak were included as a test variety. A significant response of different nutrient resources @ 100:50:50 kg NPK ha-1 on rice production and their quality was observed. Use of inorganic fertilizer with cycocel produced maximum grain (3.77 t ha-1) and straw (5.93 t ha-1) yield followed by inorganic fertilizer alone treatment which recorded 3.68 grain and 5.32 straw yield t ha-1. Organic sources applied alone produced minimum grain (3.31 t ha-1) and straw (4.94 t ha-1) whereas integrated use of organic and inorganic fertilizer treatment significantly improved grain (3.60 t ha-1) and straw (5.03 t ha-1) over organic treatment alone. Among varieties, the improved basmati (Vasumathi) recorded higher grain (3.76 t ha-1) and straw (4.62 t ha-1) yield than traditional tarori basmati which recorded 2.30 t grain/ha and 4.04 t straw/ha. Whereas maximum grain (4.01 t ha-1) and straw (5.18 t ha-1) yield was produced by non-basmati aromatic variety Kalanamak. The influence of nutrients sources on grain quality was significant for kernel dimensions, amylase content and gell consistency. Organic sources in general, were superior to fertilizers in improving grain and the quality parameters and recorded maximum hilling (78.6%), millimg (67.79%), KL (6.74mm), KB (1.84mm), amylase content 26 per cent and gell consistency (61.6 mm). Among varieties, improved basmati (Vasumathi) recorded maximum hilling (79.5%) and milling (68.6%) fallowed by Kalanamak which recorded 78.2 per cent hulling and 67.6 per cent milling. The minimum grain quality parameters were recorded by traditional tarori basmati grown in Inceptisol of Eastern U.P.Keywords
Basmati Rice, Aromatic Rice, INM in Rice Production.References
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