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
Kumar, Sushil
- Estimation of Runoff Losses under Differential Topographical Situations in Plateau Region of Garhwa
Abstract Views :240 |
PDF Views:27
Authors
Affiliations
1 Krishi Vigyan Kendra (B.A.U.) Garhwa (JHARKHAND), IN
2 Crop Improvement Division, Central Soil Salinity Research Institute, Karnal (HARYANA), IN
3 Department of Agriculture Chemistry and Soil Science, Ch. Chotu Ram (P.G.) College, Muzaffarnagar(U.P.), IN
1 Krishi Vigyan Kendra (B.A.U.) Garhwa (JHARKHAND), IN
2 Crop Improvement Division, Central Soil Salinity Research Institute, Karnal (HARYANA), IN
3 Department of Agriculture Chemistry and Soil Science, Ch. Chotu Ram (P.G.) College, Muzaffarnagar(U.P.), IN
Source
An Asian Journal of Soil Science, Vol 8, No 1 (2013), Pagination: 140-142Abstract
No AbstractKeywords
Plateau, Garhwa, Topography, Soil Loss, Run off LossReferences
- Dhyani, S.K. and Tripathi, R.S. (1999). Tree growth and crop yield under agrisilviculture practices in north-east India. Agroforestry Systems, 44:1-12.
- Jha, V.C. and Kapat, S. (2003). Assessment of soil erosion and degraded land: A CaseStudy of Dumka Subdivision, Jharkhand. InV.C. Jha (Ed.), Land degradation and desertification (pp. 156- 178).
- Jaipur: Rawat Publications.
- Konig, D. (1992). The potential of agroforestry methods for erosion control in Rwanda. Soil Technol., 5:167-176.
- Schwab, G.O., Fangmeier, D.D., Elliot, W.J. and Frevert, R.K. (1993). Soil and water conservation engineering. John Wiley and Sons, NEW YORK, pp. 68-90.
- Sundriyal, R.C. (2002) Potential of contour hedgerow farming system technology in watershed management in the Himalaya. In: Srivastava, S.K., Sahu, A.K. (eds) Integrated watershed development and management. North Eastern Regional Institute of Science and Technology, Nirjuli, Itanagar, ARUNACHAL PRADESH, INDIA, pp. 155-157.
- Effect of Sewage Sluge and Inorganic Fertilizer Application on Physico-chemical Properties of Soil and Yield of Carrot (daucus Carota l.)
Abstract Views :522 |
PDF Views:0
Authors
Affiliations
1 School of Forestry and Environmental, Sam Higginbottom Institute of Agriculture Technolgy and Sciences, Allahabad (U.P.), IN
2 Allahabad School of Agriculture, Sam Higginbottom Institute of Agriculture Technolgy and Sciences, Allahabad (U.P.), IN
3 Department of Agricultural Chemistry and Soil Science, Ch. Chhotu Ram (P.G.) College, Muzaffarnagar(U.P.), IN
4 School of Forestry and Environmental, Sam Higginbottom Institute of Agriculture Technolgy and Sciences, Allahabad, IN
1 School of Forestry and Environmental, Sam Higginbottom Institute of Agriculture Technolgy and Sciences, Allahabad (U.P.), IN
2 Allahabad School of Agriculture, Sam Higginbottom Institute of Agriculture Technolgy and Sciences, Allahabad (U.P.), IN
3 Department of Agricultural Chemistry and Soil Science, Ch. Chhotu Ram (P.G.) College, Muzaffarnagar(U.P.), IN
4 School of Forestry and Environmental, Sam Higginbottom Institute of Agriculture Technolgy and Sciences, Allahabad, IN
Source
An Asian Journal of Soil Science, Vol 8, No 2 (2013), Pagination: 202-207Abstract
No AbstractKeywords
Sewage Sludge, Physico-chemical Properties of Soil, Npk, Carrot YieldSewage Sludge, Physico-chemical Properties of Soil, Npk, Carrot YieldReferences
- Bhattacharyya, R., Kundu, S., Prakash, V., Gupta, H.S. (2008). Sustainability under combined application of mineral and organic fertilizers in a rain fed soybean–wheat system of the Indian Himalayas. Eur. J. Agron., 28 : 33-46.
- Black, C.A. (1965). Method of soil analysis, Part 2 Chemical and microbiological properties (Ed. C.A. Black), American society of Agronomy, Inc., Publisher, Madison, Wisconsin, USA, pp. 861-864.
- Blanco–Canqui, H. and Lal, R. (2007). Soil structure and organic carbon relationships following 10 years of wheat straw management in no-till. Soil Till. Res., 95 : 240-254.
- Chaney, R.L. (1980). Health risks associated with toxic metals in Municipal sludge. In : Sludge-health risks of land application, G. Bitton, B. L. Damron, G. T. Edds, and J. M. Davidson, editors, pp. 59-84.
- Ann Arbor, Michigan: Ann Arbor Science Publication. Chander, K. and Brookest, P.C. (1991). Effect of heavy metals from past applications of sewage sludge on microbial biomass and organic matter accumulation in a sandy loam and silty loam UK soil. Soil Biol. & Biochem., 23(10) : 927-932.
- Cunningham, J.D., Ryan, J.A. and Keeney, D.R. (1975). Phytotoxicity and metal uptake from soil treated with metal-amended sewage sludge. J. Environ. Quality, 4 : 455–460.
- Dorn, C.R., Reddy, C.S., Lamphere, D.N., Gaeuman, J.V. and Lanese, R. (1985). Municipal sewage sludge application on Ohio farms: Health effects. Environ., Res., 38 : 332-359.
- Dhameja, S.K. (2006). Text book of environmental studies. S.K Kataria & Sons Publishers and Distributors 3rd Reviesed Edition: 2006- 2007. 30 pp.
- Du Preez La, Van Der Merwe, W. and Terblanche, J.S. (1999). Biosolids management at 18 wastewater treatment plants in South Africa - optimisation strategies. Proc. Specialized Conference on Disposal and Utilization of Sewage Sludge: Treatment Methods and Application Modalities. Athens, Greece. 13-15 October.
- Henry, C.L. and Cole, D.W. (1997). Use of biosolids in the forest: technology, economics and regulations. Biomass Bioenergy, 13 (4-5) : 269–277.
- Hulugalle, N.R. and Weaver, T.B. (2005). Short-term variations in chemical properties of Vertisols as affected by amounts, carbon/ nitrogen ratio, and nutrient concentration of crop residues. Commun. Soil Sci. Plant Anal. 36 : 1449-1464.
- Jackson, M.L. (1958). Soil chemical analysis. Prentice Hall of India. Private Ltd. New Delhi.
- Keller, C., McGrath, S.P. and Dunham, S.J. (2002). Trace metal leaching through a soil grassland system after sewage sludge application. J. Environ. Qual., 31 : 1550-1560.
- Kirkham, M.B. (1977). Trace elements in sludge on land: Effect on plants, soils, and ground water. In : Land as a waste management alternative, R. C. Loehr, editor. Symposium Proceedings, 1976 Cornell Agricultural Waste Management Conference. Ann Arbor, Michigan: Ann Arbor Science Publications, Inc.
- Korentajer, L. (1991). A review of the agricultural use of sewage sludge: Benefits and potential hazards. Water SA., 17(3) : 189-196.
- Kumar, J.C., Sharma, B.N., Sharma, P.B. and Paul, Y. (1974). Effect of nitrogen levels and sowing methods on nutritive value of carrot (Daucus Carota L.) ischolar_mains. Indian. J. Horti., 31: 262-267.
- Malla, R. and Totawat, K.L. (2006). Effect of municipal sewage on soil properties and chemical build up in vegetable crops grown on Haplustepts of sub-humid southern plain of Rajasthan. J. Indian Soc. Soil Sci., 54 : (2) 226-231.
- Mendoza, J., Tatiana, G., Gabriela, C. and Nilsa, S.M. (2006). Metal availability and uptake by sorghum plant grown in soils amended with sludge from different treatmets Chemosphere, 65: 2304-2312.
- Olsen, S.R., Cole, C.V., Watnahe, F.S. and Dean, L. (1954). Estimation of available phosphorus in soils by extraction with sodium bicarbonate U.S. Deott. Agr. Circ. 939.
- Ogbodo, E.N. (2010). Effect of crop residue on soil physical properties and rice yield on an acid ultisol at Abakaliki, Southeastern Nigeria. Res. J. Agric. Biol. Sci., 6 : 647-652.
- Pattanayak, S.K., Mishra, K.N., Jena, M.K. and Nayak, R.K. (2001). Evaluation of green manure crops fertilized with various phosphorus sources and their effect on subsequent rice crop. J. Indian Soc. Soil Sci., 49(2) : 285-291.
- Pedreno, J.N., Gomez, I., Moral, R. and Mataix, J. (1996). Improving the agricultural value of a semi arid soil by addition of sewage sludge and almond residue. Agric., Ecosystems & Environ., 58 : 115-119.
- Parmer, D.K. and Sharma, V. (2002). Studies on long-term application of fertilizers and manure on yield of maize-wheat rotation and soil properties under rain-fed conditions in Western- Himalayas. J. Indian Soc. Soil Sci., 50(3) : 311-312.
- Rezig, F.A.M., Elhadi, E.A. and Mubarak, A.R. (2012a). Effect of incorporation of some wastes on a wheat-guar rotation system on soil physical and chemical properties. Internat. J. Recycling Organic Wastes Agric., 1 : 1-17.
- Rezig, F.A.M., Elhadi, E.A. and Mubarak, A.R. (2012b). Impact of organic residues and mineral fertilizer application on soil-crop systems I: yield and nutrients content. Archives Agron. & Soil Sci., (1) : 1-15.
- Sarwar, G., Hussain, N., Mujeeb, F., Schmeisky, H. and Hassan, G. (2003). Biocompost application for the improvement of soil characteristics and dry matter yield of Lolium perenne (Grass). Asian J. Plant Sci., 2(2): 237-241.
- Selvakumari, G., Baskar, M., Jayanthi, D. and Mathan, K.K. (2000). Effect of integration of flyash with fertilizers and organic manures on nutrient availability, yield and nutrient uptake of rice in alfisols. J. Indian Soc. Soil Sci., 48(2) : 268-278.
- Singh, S., Singh, R.N., Prasad, J. and Kumar, B. (2002). Effect of green manuring, FYM and biofertilizer in relation to fertilizer nitrogen on yield and major nutrient uptake by upland rice. J. Indian Soc. Soil Sci., 50(3) : 313-314.
- Sigua, G.C. (2005). Current and future outlook of dredged and sewage sludge materials in agriculture and environment, J. Soils & Sediments, 5(1) : 50–52.
- Subbiah, B.V. and Asija, C.L. (1956). A rapid procedure for the estimation of available nitrogen in soils. Curr. Sci., 25: 256-260.
- Toth, S.J., Prince, A.L., Wallace, A. and Mikkelsen, D.S. (1949). Rapid quantitative determination of eight mineral elements in plant tissue by a systematic procedure involving use of a flame photometer. Soil Sci., 66: 459-466.
- Walkley, A. and Black, I.A. (1947). An examination of the deferent method for determining soil organic matter and a proposed modification of the chromic acid titration method. Soil Sci., 37: 29- 38.
- Paresh, H.R., Jyotindra, Patel, C., Shah, M.R. and Jhala, A.J. (2009). Recycling gamma irradiated sewage sludge as fertilizer:A case study using onion (Alium cepa) J. homepage: www.elsevier.com/locate/ apsoil.
- Impact of Nitrogen and Phosphorus on Growth and Yield of Chickpea (cicer Arietinum l.)
Abstract Views :453 |
PDF Views:0
Authors
Affiliations
1 Department of Soil Science, Allahabad School of Agriculture, Sam Higginbottom Institute of Agriculture, Technology and Sciences, , Allahabad (U.P.), IN
2 Department of Soil Science, Allahabad School of Agriculture, Sam Higginbottom Institute of Agriculture, Technology and Sciences, Allahabad (U.P.), IN
3 Department of Agricultural Chemistry and Soil Science, Ch. Chhotu Ram (P.G.) College, Muzaffarnagar(U.P.), IN
1 Department of Soil Science, Allahabad School of Agriculture, Sam Higginbottom Institute of Agriculture, Technology and Sciences, , Allahabad (U.P.), IN
2 Department of Soil Science, Allahabad School of Agriculture, Sam Higginbottom Institute of Agriculture, Technology and Sciences, Allahabad (U.P.), IN
3 Department of Agricultural Chemistry and Soil Science, Ch. Chhotu Ram (P.G.) College, Muzaffarnagar(U.P.), IN
Source
An Asian Journal of Soil Science, Vol 8, No 2 (2013), Pagination: 260-263Abstract
No abstractReferences
- Agricultural and Agri-food Canada variance (2004). Chickpeas situation and outlook bi-weekly Bulletin. September 14, 17(15) : Agriculture Statistics (2006) Directorate of Economics and Statistics Department of agriculture and Cooperation. pp. 16-17.
- Ali, A., Ali, Z., Iqbal, J., Nadeem, A. M., Akhtar, N., Akram, H. M. and Sattar, A. (2010) Impact of nitrogen and phosphorus on seed yield of chickpea. J. Agric. Res., 48 : 335.
- Ali, Y., Haq, M. A., Tahir, G. R. and Ahmad, N. (1999). Effect of inter and intra row spacing on the yield and yield components of chickpea. Pak. J. Boi. Sci., 2 : 305-307.
- Duschak, M. (1871). ZurBotanik des Talmud. I. Neuer, Pest: pp. 105-106.
- Ghassemi -Golezani, K. P., Sheikhzadeh-Mosaddegh and Valizadeh (2008). Effect of hydropriming duration and limited irrigation on field performance of chickpea. Res.J. Seed Sci., 1 : 34-40.
- Kumar, S. and Kadian, V. S. (2006). Response of chickpea genotypes to planting density and fertility levels. National J. Plant Improve., 8(1) : 58-61.
- Khamssi, N.N. (2011). Grain yield and protein of chickpea (Cicer arietinum) cultivar under gradual water deficit condition. Res J. Environ. Sci., 5 : 611-616.
- Saxena, M.C. and Yadav, D.S. (1975). Some agronomic considerations of pigeon pea and Chickpeas. pp31-62 in Proceedings of the International Workshop on Grain Legumes, 13-16 Jan 1975, ICRISAT Centre, Hyderabad, India. Patancheru, A.P. 502 324, India: International Crops Research Institute for the Semi-Arid Tropics.
- Shukla, O. P., Singh, P. K. and Deshbhratar, P. B. (2010). Impact of phosphorus on biochemical changes in (Hordeum vulgare L.) in mixed cropping with chickpea. J. Environ. Biol., 31(5) : 575-580.
- Valimohammadi, F., Tajbakhsh, M. and Saeid, A. (2007). Comprision of winter and spring sowning dates and effect of plant density on yield, yield components and some quality, morphological traits of chickpea (Cicer arietinum) under environmental condition of Urmia Iraq J. Agron., 6 : 571-575.
- Study on the Accumulation of Pb and Ni Content in Soil near the National Highways in Allahabad
Abstract Views :338 |
PDF Views:0
Authors
Affiliations
1 Department of Environmental Science, Sam Higginbottom Institute of Agriculture Technology and Sciences Allahabad (U.P.), IN
2 Deparment of Soil Science, Sam Higginbottom Institute of Agriculture Technology and Sciences, Allahabad (U.P.), IN
3 Department of Agricultural Chemistry and Soil Science, Ch. Chhotu Ram (P.G.) College, Muzaffarnagar(U.P.), IN
4 Department of Environmental Science, Sam Higginbottom Institute of Agriculture Technology and Sciences, Allahabad (U.P.), IN
1 Department of Environmental Science, Sam Higginbottom Institute of Agriculture Technology and Sciences Allahabad (U.P.), IN
2 Deparment of Soil Science, Sam Higginbottom Institute of Agriculture Technology and Sciences, Allahabad (U.P.), IN
3 Department of Agricultural Chemistry and Soil Science, Ch. Chhotu Ram (P.G.) College, Muzaffarnagar(U.P.), IN
4 Department of Environmental Science, Sam Higginbottom Institute of Agriculture Technology and Sciences, Allahabad (U.P.), IN
Source
An Asian Journal of Soil Science, Vol 8, No 2 (2013), Pagination: 439-444Abstract
No AbstractKeywords
Heavy Metals, National Highway, Soil, Vehicular PollutionReferences
- Adiloglu, A., Adiloglu, S., Bellitürk, K., Karakas, Ö., Sümer, A., Gönülsüz, E. and Sari, H. (2011). Tekirdag Ili k1y1eridi topraklar1nda ag1r metal kirliligi. 1. Kýyý Bölgelerinde Çevre Kirliliđi ve Kontrolu Sempozyumu, Tekirdag. 351-365 (in Turkish).
- Akan, J.C., Audu, S.I., Mohammed, Z. and Ogugbuaja, V. O. (2013). Assessment of heavy metals, pH, organic matter and organic carbon in roadside soils in Makurdi Metropolis, Benue State, Nigeria Department of Chemistry, University of Maiduguri, Nigeria. J. Environ. Prot., 4 : 618-628.
- Arsalan, M.H., Kazmi, S.J.H. and Mehdi, M.R. (2004). A GIS appraisal of heavy metals concentration in soil, GIS Development, Land Information System, 2004, pp. 76- 81.
- Allahabad Agricultural Institute (2012). The Allahabad transportation 32. Agricultural Institute,University of Allahabad. p. 68. Retrieved 3 August, 2012.
- Bi, X., Feng, X., Yang, Y., Li, X., Shin, G.P.Y. and Li, F. (2009) Allocation and source attribution of lead and cadmium in maize (Zea mays L.) impacted by smelting emissions. Environ. Pollu., 157(3): 834–839.
- Black, C.A. (1965). Method of soil analysis, Part 2 Chemical and microbiological properties (Ed. C.A. Black), American society of Agronomy, Inc., Publisher, Madison, Wisconsin, USA, 861-864.
- Banerjee, A.D.K. (2003) Heavy metal levels and solid phase speciation in street dusts of Delhi, India, Environ. Pollu., 123(1): 95-105.
- Colle, C., Madoz, C. and Leclerc, E. (2009). Foliar transfer into the biosphere: review of translocation factors to cereal grains. J. Environ. Radioactivity, 100(9): 683–689.
- Chen, T.B., Wong, J.W.C., Zhou, H.Y., and Wong, H.Y. (1997). Assessment of trace metal distribution and contamination in surface soils of Hong Kong. Environ. Pollut., 96 : 61–68.
- Caselles, J., Colliga, C. and Zornozar, P. (2002). Evaluation of trace elements pollution from vehicle emissions in Petunia plants. Water Air Soil Pollu., 136(1-4): 1-9.
- Davis, E.B. (2006). Trends in environment research, Nova Science Publishers, Inc., New York, USA.
- Emongor, V. (2007). Biosorption of lead from aqueous solutions of varied pH by kale plants (Brasicca oleraceae var. acephala) J. Agric. Food Environ. Sci., 1(2): 1-8.
- Fakayode, S.O. and Olu-Owolabi, B.I. (2003). Heavy metal contamination of roadside topsoil in Osogbo, Nigeria: its relationship to traffic density and proximity to highways. Environ. Geol., 44 : 150–157.
- Fisher, R. A. (1950). Technique of analysis of variance. Hand book of agricultural statistics. B-29- 110.
- Falahi-Ardakani, A. (1984). Contamination of environment with heavy metals emitted from automobiles. Ecotoxicol. & Environ. Safety, 8 : 152–161.
- Hewitt, C.N. and Candy, G.B. (1990). Soil and street dust heavy metal concentrations in and around Cuenca, Equador.Environ. pollut., 63 (2) : 129-136.
- HN 60 (1996). Hazard substances. Maximum permitted and temporarily permitted concentration in soil (Kenksmingos medžiagos. Didžiausia leidžiama ir laikinai leidžiama koncentracija dirvožemyje). Vilnius, Health Protection Ministry of Lithuanian Republic.
- Hares, R.J. and Ward, N.I. (2004). Sediment accumulation in newly constructed vegetative treatment facilities along a new major road. Science of the total environment, 334-335 : 473-479.
- Imperato, M., Adamo, P., Naimo, D., Arienzo, M., Stanzione, D. and Violante, P. (2003). Spatial distribution of heavy metals in urban soils of Naples city, Italy. Environ. Pollu., 124 : 247–256.
- Johansson, C., Norman, M. and Burman, L. (2009). Road traffic emission factors for heavy metals. Atmospheric Environ., 43(31): 4681–4688.
- Jaradat, Q.M., Kamal, A., Moman, K.M. (1999). Contamination of roadside soil, plants and air with heavy metals in Jordan, a comparative study. Turk. J. Chem. 23: 209-220.
- Kacar, B. (1996). Toprak Analizleri, Ankara Universitesi Ziraat Fak Egitim Arastýrma Gelistirme Vakfi Yay, Ankara, Turkey (in Turkish).
- Lee, P., Yu, Y., Yun, S. and Mayer, B. (2005). Metal contamination and solid phase partitioning of metals in urban roadside sediments, Chemosphere, 60(5) : 672-689.
- Li, X.D., Lee, S.L., Wong, S.C., Chi, W.Z. and Thornton, I. (2004). The study of metal contamination in urban soils of Hionk using a GIS based approach, Environ. Pollu., 129(1) : 113-124.
- Lindsay, W.L. and Norwell, W.A. (1978). Development of a DTPA soil test for zinc, iron, manganese, and copper. J. American Soc. Soil Sci., 42 : 421.
- Mashi, S.A., Yaro, S.A. and Galadanci, K.M. (2005). Lead accumulation in surface soils and components of balenites Aegyptica specie in a Katsina urban area, Nigeria Department of Geography, University of Abuja, PMB 117 Abuja, Nigeria.Biomedical & Environ. Sci., 18 : 15-20.
- Ministry of Agriculture and Rural Development (2001). Report on the monitoring of the quality of soil, plants, agricultural and food products in the year 2000., Warszawa, 252 pp., 2001 (in Polish). Merian, E. (1991). Metals and their compounds in the environmentoccurrence, analysis and biological relevance, VCH, Weinheim, Germany.
- Nabulo, G., Oryem-Origa, H. and Diamond, M. (2006). Assessment of lead, cadmium, and zinc contamination of roadside soils, surface films and vegetables in Kampala City, Uganda. Environ. Res., 101(1): 42–52.
- Rayson, M.J.T. (1990). An investigation into the effects of vehicular pollution on the U.K. and North American environments. MSc. Dissertation. Department of Chemical Sciences, University of Surrey, UNITED KINGDOM.
- Vaicys, M. (1999). Results of forest soil monitoring In: Monitoring of forest ecosystems in Lithuania. Ed. Ozolincius R., pp. 122-142.
- Sharma, R.K., Agrawal, M. and Marshall, F.M. (2008). Heavy metal (Cu, Zn, Cd and Pb) contamination of vegetables in urban India: A case study in Varanasi. Environ. Pollut., 154(2): 254–263.
- Response of Tillage Practices and Farm Yard Manure on Soil Health, Growth, Yield and Nutrient Uptake by Potato (Solanum tuberosum L.) Cv. Kufri Badshah
Abstract Views :276 |
PDF Views:0
Authors
Affiliations
1 Department of Soil Science, Allahabad School of Agriculture, Sam Higginbottom Institute of Agriculture, Technology and Sciences, Allahabad (U.P.), IN
2 Department of Agricultural Chemistry and Soil Science, C.C.R. (P.G.) College, Muzaffarnagar (U.P.), IN
1 Department of Soil Science, Allahabad School of Agriculture, Sam Higginbottom Institute of Agriculture, Technology and Sciences, Allahabad (U.P.), IN
2 Department of Agricultural Chemistry and Soil Science, C.C.R. (P.G.) College, Muzaffarnagar (U.P.), IN
Source
An Asian Journal of Soil Science, Vol 10, No 1 (2015), Pagination: 108-113Abstract
The field experiment was conducted during Rabi season 2011-12. This study evaluated the effects of tillage and FYM on soil health, growth and yield in south Allahabad, Uttar Pradesh. The experimental consisted of 9 treatments laid out in Randomized Block Design with three replications, three levels of tillage (10, 20 and 30 cm) and FYM (0, 15 and 30 t ha-1). The observations of crop were taken at 30, 60 and 90 DAS (Days after sowing). All levels of tillage and FYM, improved the soil physical and chemical properties but best performance was recorded in T8 (Depth of tillage at 30 cm + FYM at 30 t ha-1). All growth parameter and yield was found statistically significant. The maximum plant height (18.40, 38.63 and 56.86 cm, respectively), number of branches (5.16, 11.30 and 13.86) and leaves plant-1 (21.30, 68.63 and 91.76) was found in treatment 8 (T8) and maximum tuber yield (44.83 t ha-1) was also recorded in T8,where depth of tillage at 30 cm + FYM at 30 t ha-1.Keywords
Tillage Practices, FYM, Potato, Soil Properties, Yield Attributes.- Monitoring and Modeling of Baghin River Basin Part of Uttar Pradesh Using Remote Sensing and GIS Techniques
Abstract Views :152 |
PDF Views:0
Authors
Affiliations
1 Remote Sensing Application Centre, Uttar Pradesh, Lucknow (U.P.), IN
2 Central Soil Salinity Research Institute, Karnal (Haryana), IN
3 Central Research Institute for Dryland Agriculture (CRIDA), Hyderabad (A.P.), IN
4 Ch. Chhotu Ram (P.G.) College, Muzaffarnagar (U.P.), IN
1 Remote Sensing Application Centre, Uttar Pradesh, Lucknow (U.P.), IN
2 Central Soil Salinity Research Institute, Karnal (Haryana), IN
3 Central Research Institute for Dryland Agriculture (CRIDA), Hyderabad (A.P.), IN
4 Ch. Chhotu Ram (P.G.) College, Muzaffarnagar (U.P.), IN
Source
An Asian Journal of Soil Science, Vol 7, No 2 (2012), Pagination: 392-395Abstract
The study of satellite images topographic maps supported by ground truth survey revealed that the study has a network of interlinked subsurface fractures. In according with the nature, potential and problem with the bet amount of interference, watershed management approach is aimed to make entire development. For surface water resources and ground water resources, the proper evaluation of water potential helps in additional exploration at optional level. The river basin objective of watershed management involves geological, hydrological consideration and economic, political, financial aspect. For the formulize of proper management program, a reliable and up to date information about various factor viz., size and shape of river basin, topography, soil, slope, elevation and their characteristics, land use/land cover, drainage parameters etc. are required. To obtain a synoptic view of respective coverage, Remote sensing and GIS techniques provide a powerful input media, unbiased reproduction of the natural features in the form of photography/imagery and their by economizing the process of multi-displinary approach for planning and decision of land and water resource in a watershed for integrated development. Resource information system is makes in a stabile GIS environment for the selected area. In this system evolves a subsistence plan for optimum development of the water resources and for finding solutions for different management problem related to natural resources.Keywords
Remote Sensing, GIS, GPS, DEM, Land Use, Modeling, Water Resources, Slope.- Effect of Different Levels of Sewage Sludge (City-Waste) and Inorganic Fertilizers on the Yield Attribute and Quality of Mustard (Brassica juncea L.)
Abstract Views :189 |
PDF Views:0
Authors
Affiliations
1 Department of Soil Science, Allahabad School of Agriculture, Sam Higginbottom Institute of Agricultural Technology and Sciences, Allahabad (U.P.), IN
2 Department of Agriculture Chemistry and Soil Science, Ch. Chhotu Ram Degree College, Muzaffarnagar (U.P.), IN
1 Department of Soil Science, Allahabad School of Agriculture, Sam Higginbottom Institute of Agricultural Technology and Sciences, Allahabad (U.P.), IN
2 Department of Agriculture Chemistry and Soil Science, Ch. Chhotu Ram Degree College, Muzaffarnagar (U.P.), IN
Source
An Asian Journal of Soil Science, Vol 9, No 2 (2014), Pagination: 256-260Abstract
The influence of sewage-sludge and inorganic fertilizers (NPK) on growth, yield and quality of mustard was assessed from a field experiment on loamy soil in Rabi season of 2010-11. The levels of sewage sludge and inorganic fertilizers (NPK). The plant height (cm), seed yield (q ha-1) and content of oil and protein were significantly increased by the application of both sewage-sludge and inorganic fertilizer. The maximum growth and yield was obtained by the sewage-sludge application @12 t ha-1 and by the 75 per cent inorganic fertilizer. The interaction between sewage-sludge and inorganic fertilizer was found significant and the maximum increase in the growth, yield, oil (%) and protein (%) was obtained by applied sewage-sludge @ 12 t ha-1 and 75 per cent NPK. Four level of sewage-sludge (@ 0, 4, 8 and 12 t ha-1) through city waste and four level of inorganic fertilizers (@ 0, 50, 75 and 100 per cent of recommended dose were evaluated.Keywords
Sewage-Sludge, Inorganic Fertilizers, Yield, Quality and Mustard.- Assessment of the Quality of Canal Water Used for Irrigation Purpose in Muzaffarnagar District of Uttar Pradesh
Abstract Views :224 |
PDF Views:0
Authors
Affiliations
1 Department of Soil Science and Agricultural Chemistry, C.C.R.D. College, Muzaffarnagar (U.P.), IN
2 Department of Soil Science, Chaudhary Charan Singh Haryana Agricultural University, Hisar (Haryana), IN
3 Krishi Vigyan Kendra, Baghra, Muzaffarnagar (U.P.), IN
1 Department of Soil Science and Agricultural Chemistry, C.C.R.D. College, Muzaffarnagar (U.P.), IN
2 Department of Soil Science, Chaudhary Charan Singh Haryana Agricultural University, Hisar (Haryana), IN
3 Krishi Vigyan Kendra, Baghra, Muzaffarnagar (U.P.), IN
Source
An Asian Journal of Soil Science, Vol 12, No 2 (2017), Pagination: 257-264Abstract
Water is the most important natural resource which needs to be properly and scientifically utilized for improving the productivity, environment and economic condition of the rural area. The present study was conducted to canal water quality status in district of Muzaffarnagar, Uttar Pradesh, for irrigation purpose. The canal water samples were analyzed for their chemical properties total salt (electrical conductivity), pH, anions (Cl, HCO3, SO4, NO3, F, B), cations (Ca2++Mg2+, Na+, K+). In water samples total salt (EC) ranged from 0.20 to 0.64 dSm-1, pH7.2 to 8.1, potassium 1.95 to 12.12 mg L-1, sodium 2.80 to 65.55 mg L-1, Ca+Mg 22.80 to 96.40 mg L-1, bicarbonate 82.96 to 269.01 mg L-1, chloride 12.60 to 44.38 mg L-1, sulphate 12.81 to 105.71 mg L-1, nitrate 2.50 to 25.42 mg L-1, fluoride 0.21 to 0.86 mg L-1 and boron 0.10 to 3.51 mg L-1. Correlation was also works out between different parameters. The correlation co-efficient (r) among nine canal water quality parameter namely total salt (electrical conductivity), pH, anions (Cl, HCO3, SO4, NO3, F, B), cations (Ca2++Mg2+, Na+, K+) were calculated for correlation analysis which showed chemical facies of canal irrigation water samples. The EC showed good positive correlation with chloride, sulphate, Ca + Mg, nitrate, bicarbonate, potassium, sodium and negative correlation with pH. The Muzaffarnagar district is safe for irrigation purpose.Keywords
Canal Water Analysis, Cations and Anions, Correlation, Irrigation Purpose.References
- Acharya, G.D., Mathi, M.V., Patel, Asha D. and Parmar, K.C. (2008). Chemical properties of groundwater in Bhiloda taluka region, North Gujarat, India. E-J. Chem., 5 (4) : 792-796.
- APHA (2002). Standard methods for the examination of water and waste waters. American. Public Health Association, 21st Edn. Wasington, D.C., USA.
- BIS (Bureau of Standard (2009). 10500 Indian standard drinking water - specification (Second Revision) Manak Bhawan, 9 Bahadur Zafar Marg, NEW DELHI, INDIA.
- Chaudhary, O.P. and Ghuman, B.S. (2008). Cyclic use of sodic and non-sodic canal waters for irrigation in cotton-wheat cropping system in a semi-arid region. J. Sustain. Agric., 32 (2): 269-286.
- Das, J. and Acharya, B.C. (2003). Hydrology and assesment of lotic water quality in Cuttack city, India. Water, Air, Soil Pollution., 150 : 163-175.
- Deutsch, W.J. (1997). Groundwater geochemistry; fundamentals and applications to contamination, Lewis Publishers, New-York, 221 pp.
- Drever, J.J. (1982). The geochemistry of natural waters. Prentice-Hall Englewood Cliffs, NJ, 388 pp
- Gill, M. S. (2005). Ground water quality in MiDs. IRFC Farmer’ Newsleter. 170 : 10-14.
- Jackson, M.L. (1973). Soil chemical analysis, Prentice Hall Of India Pvt. Ltd. NEW DELHI, INDIA.
- Joshi, D. M., Kumar, A. and Agrawal, N. (2009).Assessment of irrigation water quality of river Ganga in Haridwar district. Rasayan. J. Chem., 2 : 285 – 292.
- Parashar, Charu, Verma, N., Dixit, S. and Shrivastav, R. (2008). Multivariate analysis of drinking water quality parameters in Bhopal, India. Environ Monit Assess.,140 (1-3) : 119-122.
- Patil, V.T. and Patil, P. R. (2011). Groundwater quality of open wells and tube wells around Amalner Town of Jalgaon district, Maharashtra, Indian E-J. Chem., 8(1) : 53-58.
- Raju, N.J. (2007). Hydrogeo-chemical parameters for assesment of ground water quality in the Gunjanaeru River Basin, Cuddapah district, Andhra Pradesh, South India. Environ. Geo., 52 : 1067-1074.
- Subramani, T., Elango, L. and Damodarasamy, S.R. (2005). Ground water quality and its suitability for drinking and agriculture use In Chithar river basin, Tamil Nadu, India. Environ. Geol., 47 : 1099-1110.
- Tank, D.K. and Chandel, C.P. Singh (2010). The analysis of the major Ion constituents in ground water of Jaipur City. Report & Opinion, 2(5) : 1-7 (ISSN: 1553-9873.
- Tondon, H.L.S. (1993). Methods of analysis of soils, plants, waters and fertilizers. Fertilizer Development and Consultation Organisation. 204-204A Bnot Corner, 1-2 Pamposh Enclave, NEW DELHI (INDIA).
- Umadevi, A.G., George, M.,Dharmalingam, Jose, P., Abraham, Rajagopalan, M., Dhanya Balakarishna., Haridasan, P.P. and Pilai, P.M.B. (2010). An investigation of the quality of underground water at Elor in Erankulum district of Kerala, India. E-J. Chem., 7 (3) : 908-914.
- Umar, Rashid and Alam, Fakhre (2011). Assessment of Hydrogeo-chemical characteristics of ground water in parts of Hidon - Yamuna interfluves region, Baghpat district, Western Uttar Pradesh. Enviorn. Monit. Assess. DOI 10. 1007/s10661-011-2120-9.
- WHO’ s (World Health Organization) (1993)WHO’s guideline for drinking quality, set up in Geneva, The international reference point for standard setting and drinking water safety.