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
Wagh, N. S.
- Available Micronutrient Status of Sunflower Growing Soils of Nagpur District (Maharashtra)
Abstract Views :226 |
PDF Views:0
Authors
Affiliations
1 Department of Soil Science and Agricultural Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola (M.S.), IN
2 Division of Land Use Planning, National Bureau of Soil Survey and Land Use Planning, Nagpur (M.S.), IN
1 Department of Soil Science and Agricultural Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola (M.S.), IN
2 Division of Land Use Planning, National Bureau of Soil Survey and Land Use Planning, Nagpur (M.S.), IN
Source
An Asian Journal of Soil Science, Vol 11, No 1 (2016), Pagination: 225-229Abstract
The present investigation was carried out to study the status of major micronutrients in sunflower growing soils of Nagpur district during the year 2009-2010. For this purpose in 6 profile 32 soil samples were collected from two tehsils (2 villages from each tehsil) of sunflower growing soils of Nagpur district. From each village soil sample was collected and subjected to laboratory for analyzing for some chemical properties and status of available micronutrients viz., Zn, Fe, Mn and Cu. The correlation co-efficient between chemical properties and available nutrients were worked out. The study revealed that the soils are neutral to alkaline in reaction, safe in limit of electrical conductivity low to high in content of organic carbon and noncalcareous to calcareous in nature. The soil samples were deficient in available Zn, medium to sufficient in available Mn and sufficient in available Fe and Cu. The data showed that available Zn had significant negative relationship with pH (-0.125*) and CaCO3 (-0.97*) and significant positive with EC (0.149**). Available Fe had significant and positive correlation with EC (0.135**) and O.C. (0.106*) and significant negative with CaCO3 (-0.141*). Available Mn had negative and significant correlation with EC (-0.130**) while Cu had positive significant relation with EC (0.101*) and O.C. (0.170**).Keywords
Available Zn, Fe, Mn, Cu, Soil.References
- Bhogal, N.S., Sakal, R., Singh, A.P. and Sinha, R.B. (1993). Micronutrient status in aquicustifluvents and udifluvents as related to certain soil properties. J. Indian Soc. Soil Sci., 41 (1) : 75-78.
- Chavan, D.P., Bangar, A.R. and Shingte, A.K. (1980). Zn, Mn, B and Mo distribution in soil profiles of different agroclimatic zones of Maharashtra. J. Indian Soc. Soil Sci.,5 (3) : 183-189.
- Dwivedi, S.K., Shrama,V.K. and Bhardwaj, V. (2005). Status of available nutrients soils of cold arid region of Ladakh. J. Indian Soc. Soil Sci., 53 (3) : 421-423.
- Ekbote, A.P. (1992). Area and production of sunflower in M.S. 1990-91. Development of sunflower hybrids in M.S. Joint Agresco (1991-92) held at Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola (M.S.) INDIA.
- Gupta, N., Trivedi, S.K., Bansal, K.N. and Kaul, R.K. (2003). Vertic distribution of micronutrient cations in some soil series of Northen Madhya Pradesh. J. Indian Soc. Soil Sci., 51 (4) : 517-522.
- Hegde, D.M. (2005). Balanced fertilization for nutritional quality in oilseeds. Fertil. News, 49(4): 57-67.
- Hundal, H.S., Rajkumar, Singh, Dhanwindar and Machandra, J.S. (2006).Available nutrient and heavy metal status of soils of Punjab, North-west India.J. Indian Soc. Soil Sci.,54 (1): 50-56.
- Jackson, M.L.(1973). Soil chemical analysis, Prentis Hall of India Pvt. Ltd. NEW DELHI, INDIA.
- Joplin, C., Lyngdoh and Shukla, L.M. (1993). Fertility status of some Alfisols. J. Indian Soc. Soil Sci., 41 (4) : 707-709.
- Lindsay, W.L. and Narvell, W.A. (1978).Development of DTPA soil test for Zn, Fe, Mn and Cu. Soil. Sci. Amer. J., 42 :421-428.
- Malewar, G.U. (1995). Micronutrient availability as influenced by cropping pattern Marathwada region of Maharashtra. J. Maharashtra Agric. Univ., 20 (3) : 330-333.
- Mali, C.V. and Raut, P.D. (2001). Available sulphur and physico-chemical characteristics of oilseed dominated area of Nagpur district. J. Maharashtra Agric.Univ.,26(1):117-118.
- Panse, V.G. and Sukhatme, P.V. (1967).Statistical methods for agricultural workers. IARI, NEW DELHI, INDIA.
- Pathe, U.K. (1996). Evaluation of soil-site suitability and moisture use efficiency of sunflower crop in different soils of Waranga Watershed, Nagpur district (M.S.) M.Sc. (Ag.) Thesis, Panjabrao Deshmukh Krishi Vidyapeeth, Akola (M.S.) INDIA.
- Patil, J.D. and Shingte, A.K. (1982). Micronutrient status of soils from drought prone area of Pune region (Maharashtra).J. Indian Soc. Soil Sci., 7 (3) : 216-218.
- Patil, K.D. and Meisheri, M.B. (2004). Mineralogical studies and DTPA extractable Zn, Cu, Mn and Fe in representative soils of Konkan regions. J. Maharashtra Agric. Univ., 29 (1): 04-08.
- Pharande, A.L., Raskar, B.N. and Nipunage, M.V. (1996). Micronutrients status of important vertisol and alfisol soils series of western Maharashtra. J. Maharashtra Agric. Univ, 21 (2) : 182-185.
- Piper, C.S. (1966). Soil and plant analysis. Hans Publication, Bombay (M.S.) INDIA.
- Saha, P.K., Adhikari, S. and Chatterjee, D.K. (1996). Available iron copper, zinc and manganesein some fresh water pond soils of orrisa in relation to soil characteristics. J. Indian Soc. Soil Sci., 44 (4) : 681-684.
- Takkar, P.N. (1996). Micronutrient reaserch and sustainable Agril. productivity in Inidia. J. Indian Soc. Soil Sci.,44(4): 562-581.
- Tisdale, S.L., Nelson, W.L., Beaton, J.D. and Halvin, J.L. (1997). Soil fertility and fertilizers, 5th Ed., Macmillan Publishing Co., New Delhi.pp : 144, 180, 198, 201pp.
- Tiwari, J.R. and Mishra, B.B. (1990). Distribution of micronutrients in Tal land soils (Udicchromusterts) of Bihar.J. Indian Soc. Soil Sci., 38 : 319-321.
- Walkley, A. and Black, I.A. (1934). An examination of the degtlarelt method for determining soil organic matter proposed modification of the method. Soil Sci. 34 : 29-38.
- Effect of Tillage and Nutrient Management on Seed Cotton Yield, Yield Contributing Characters and Total Uptake by Cotton
Abstract Views :292 |
PDF Views:0
Authors
Affiliations
1 Department of Soil Science and Agricultural Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola (M.S.), IN
1 Department of Soil Science and Agricultural Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola (M.S.), IN
Source
An Asian Journal of Soil Science, Vol 11, No 2 (2016), Pagination: 277-285Abstract
The field experiment was conducted at the Research farm, Department of Soil Science and Agricultural Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola to study the effect of integrated nutrient management on soil quality and cotton productivity under different tillage practices in vertisol. The treatments thus involved two main treatments and eight sub treatments. The experiment main plot comprised of two treatments i.e. conservation tillage (CNS) and CNV. In which one harrowing and two weeding and in conventional tillage (CNV) one ploughing and one harrowing, two hoeing and two hand weeding operations were carried out in eight sub plot treatments of nutrient management. The seed cotton yield was slightly higher under conservation tillage as compared to conventional tillage. Highest seed cotton yield was recorded in the treatment receiving 100 % RDF (60:30:30 NPK kg ha-1 (15.57 q ha-1) followed by 50 % RDF + 50% N (FYM) (14.84 q ha-1).Significantly highest bolls per plant in conservation tillage (19.95 bolls per plant) than in CNV (17.51 bolls per plant) while bolls per plant was recorded in the treatment receiving 100 % RDF (60:30:30 NPK kg ha-1 (20.38 bolls per plant) followed by 50% RDF + 50% N (FYM) (T3) (19.47 bolls per plant).Significantly higher uptake of major and micronutrients was recorded under conservation over conventional tillage. Significantly higher content of macronutrients viz., N, P, K, S and Mg were recorded in the treatment receiving 100 % RDF (60:30:30 NPK kg ha-1) followed by 50 % RDF + 50 % N (FYM). The total uptake of macronutrients at boll development stage was found to be significantly higher in the treatment receiving 100 % RDF (60:30:30 NPK kg ha-1) followed by 50 % RDF + 50 % N (FYM). It was also noticed that the total uptake of nutrients increased from square initiation to boll development stage as the age of the crop advances towards maturity.Keywords
Conservation Tillage, Yield, Uptake, Nutrient Management.References
- Awasya, H.L., Johnson, P.L., Sarawgi, S.K., Nanda, H.C. and Kulkarni, A. (2006). Integrated nutrient management in upland cotton (Gossypium hirsutam L.) under vertisols of Chhattisgarh. J. Agril. ,11(2) : 67-70.
- Bablad, H.B and Itnal, C.J. (2004). Integrated nutrient management in cotton and soybean inter cropping system on vertic inceptisols under rainfed condition. In : International symposium on “ Strategies for sustainable, 2. Crop Production – A global vision” 23-25, Nov. 2004, University of Agricultural Sciences, Dharwad (Karnataka) India: 92-97pp.
- Basavanneppa, M.A. and Biradar, D.P. (2002). Effect of integrated nutrient management practices on the production of cotton-maize-bengal gram sequence under irrigated ecosystem in Tungabhadra project area. J. Cotton Res. Dev., 16 (2) : 125-129.
- Bhalerao, P.D., Patil, B.R., Katkar, R.N. and Ghatol, P.U. (2007). Effect of integrated nutrient management on seed cotton yield and economics of hybrid cotton. PKV Res. J., 31(2) : 259-262.
- Blaise, D. and Ravindran, C.D. (2003). Yield of cotton grown on a vertisol over 5 years in a semi-arid region of India. Soil & Till. Res., 70 : 163–173.
- Blaise, D., Majumdar, G. and Tekale, K.U. (2005). On-farm evaluation of fertilizer application and conservation tillage on productivity of cotton + pigeonpea strip intercropping on rainfed vertisols of central India. Soil & Till. Res., 84 : 108– 117.
- Constable, G.A., Rochesrer, I.J. and Daniells, I.G. (1992). Cotton yield and nitrogen requirement as modified by crop rotation and tillage method. Soil & Till. Res., 23 : 41-59.
- Deshmukh, A.V. and Dahatonde, B.N. (1999).Water use studies in pre-monsoon hybrid cotton as affected by moisture regimes and plant density under drip irrigation. Ann. Plant Physiol., 13 (2) : 190-191.
- Deshmukh, R.K., Rao, M.R.K., Rajendran, T.P., Meshram, M.K. and Santhy, V. (2004). Seed cotton yield and quality as influenced by irrigation management in cotton. In: International symposium on “ Strategies for sustainable cotton production – A global vision” 2. Crop Production, 23-25, Nov. 2004, University of Agricultural Sciences, Dharwad (Karnataka) India: 253pp.
- Hongal, M.M., Chittapur, B.M. and Nooli, S.S. (2004). Effect of green manures and nitrogen levels on the performance of cotton in chilli+cotton intercropping system. In: International symposium on “ Strategies for sustainable cotton production – A global vision” 2. Crop Production, 23-25, Nov. 2004, University of Agricultural Sciences, Dharwad (Karnataka) India 181-184pp.
- Hulihalli, U.K. and Patil, V.C. (2006). Effect of integrated nutrient management practices on yield and nutrient uptake by cotton. PKV Res. J., 30 (2) : 146-150.
- Kairon, M.S., Blaise, D. and Venugopalan, M.V. (2002). Cotton, In : Prasad, R. (Ed,) Text book of field crops production, Indian Council of Agricultural Research, New Delhi, India, 646-674pp.
- Katkar, R.N. (2008). Effect of crop residue management and moisture regimes on soil properties, plant growth, seed cotton yield, water use efficiency and fibre quality Ph.D Thesis, Dr. Panjabrao Deshmukh Krishi Vidyapeeth Akola, M.S.(INDIA).
- Kochetkov, V.V. (1976). Effect of different pre irrigation soil moisture contents on flower and boll formation and shedding in cotton cv. TASHKENT-1. Sbornik nauchnykh trudov Andizhan skogofiliala Soyuz NIKhI., 100-106pp.
- Moursi, M.A., Din, E.l., Salam, A.M. and Hussein, M.M. (1978). Effect of available soil moisture on cotton plant. 3. Effect on dry matter content and yield. Egyptian J. Agron., 3(1): 99-108.
- Pasricha, N.S. and Bansal, S.K. (2002). Potassium fertility of Indian benchmark soils. In: Pasricha, N.S., Bansal, S.K., (Eds.), Potassium for sustainable crop production. International Potash Institute, Basel, Switzerland and Potash Research Institute of India, Gurgaon, Haryana, India, pp. 124–150.
- Patil, B.C., Adarsha, T.S. and Kareekatti, S.R. (2004).Growth phenology and yield of hybrid cotton as influenced by nutrient and moisture regimes. In International symposium on “Strategies for sustainable cotton production – A global vision” 2. Crop Production, 23-25, Nov. 2004, University of Agricultural Sciences, Dharwad (Karnataka) India, 369-372pp.
- Patil, S.L., Sheelavantar, M. N. and Surkod, V. S. (2000). Grain yield and economics of Rabi sorghum as influenced by in situ moisture conservation practices and integrated nutrient management in semi-arid vertisols. Indian J. Dryland Agric. Res & Dev., 15 (2) : 98-103.
- Patil, V.S., Ansari, M.R., Reddy, M.R. and Panchal, Y.C. (1977). Effect of soil moisture regimes, nitrogen levels and skip row planting on yield and water use efficiency of cotton. Mysore J. Agril. Sci., 11 (4) : 481-485.
- Pettigrew, W.T. (2004).Moisture deficit effects on cotton lint yield, yield components and boll distribution. Agron. J., 96 (2) : 377 - 383.
- Prasad, M. and Prasad, R. (1998). Nutrient management in cotton (Gossypium hirsutum). Indian J. Agron., 43 : 162–164.
- Rao, A.V. and Tak, Richa (2001). Influence of organic amendments on the growth of different trees and nutrient uptake in gypsum minespoils. J. Indian Soc. Soil Sci., 49(2) : 386-390.
- Selvaraj, K.V. and Palaniappan, S.P. (1977). Studies on ischolar_main growth and penetration of cotton in relation to soil strength and moisture regimes. Curr. Res., 6 (1) :10-11.
- Sethi, H.N. (1988). Studies on biomass production and water use efficiency of cotton varieties as influenced by intercrops and irrigation levels. Ph.D Thesis, Dr. Panjabrao Deshmukh Krishi Vidyapeeth Akola, M.S.(INDIA).
- Shanmugam, K. and Bhatt, J.G. (1991). Effect of potassium on fibre properties of high quality cotton varieties. J. Indian Soc. Cotton Improv., 16: 31-15.
- Subramanian, S., Rajeswari, M. and Chitdeswari, T. (2000). Effect of organic fertilizers on soil moisture conservation in rainfed vertisol. Madras Agril. J., 87 (4-6) : 345-347.
- Swarup, A., Reddy, D.D. and Prasad, R. N. (1998).Long-term fertility management through integrated plant nutrient supply system. Indian Institute of Soil Science, Bhopal (M.P.) INDIA.
- Tandon, H.L.S. (1994). Fertilizers and integrated nutrient recommendations for balance and efficiency. Fertilizer Development and Consultation Organization, NEW DELHI, INDIA.
- Tomar,R.S. (2005). Productivity of upland cotton (Gossypium hirsutum) genotypes under different levels of fertility and spacing. Indian J.Agron., 45 (4) : 776-777.
- Barwale, R.B., Gadwal, V.R., Zehr, U. and Zehr, B. (2004). Prospects for Bt cotton technology in India. Ag. Bio. Forum., 7(1&2) : 23-26. Available on the World Wide Web: http:// www.agbioforum.org.
- Characterization of Selected Cotton Growing Soils of Wardha District, Maharashtra
Abstract Views :198 |
PDF Views:1
Authors
Affiliations
1 Department of Soil Science and Agricultural Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola (M.S), IN
1 Department of Soil Science and Agricultural Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola (M.S), IN
Source
An Asian Journal of Soil Science, Vol 12, No 1 (2017), Pagination: 174-180Abstract
Nine cotton growing soils located on Deoli, Wardha, Karanja, Ashti tehsils of Wardha district, Maharashtra was characterized. Horizon-wise soil samples were collected and studied for morphological, physical and chemical properties. The soils were brown to very dark gray in colour, shallow (31 cm) to very deep (150 cm), silty clay loam to clay in texture, imperfectly to well drained and most of the soils had sub-angular blocky structure in the B horizon with a few of them having pressure faces and slickensides. The soil had mildly alkaline to strongly alkaline, all these soils were non-saline, organic carbon was low and decreased with depth, high CEC with calcium as dominant cation on exchange complex. These soils were classified as Typic Haplusterts, Typic Calciusterts, Typic Haplustepts, Typic Calciustepts and Lithic Ustorthents at subgroup level.Keywords
Cotton Growing Soils, Soil Characterization, Classification.References
- Aggarwal, P.K., Hebbar, K.B., Venugopalan, M.V., Rani, S., Bala, A., Biswal, A. and Wani, S.P. (2008). Quantification of yield gaps in rain-fed rice, wheat, cotton and mustard in India. Global Theme on Agro-ecosystems-Report no. 43. Patancheru 502324, Andhra Pradesh, India. International Crops Research Institute for the Semi-Arid Tropics, 36 pp.
- Black, C.A. (1965). Methods of soil analysis I and II. American Society of Agronomy, Inc. Madison, Wisonisin, U.S.A.
- FAO, UNESCO (1973). Irrigation, drainage and salinity, An International Source Book, FAO-UNESCO/Hutchinson, LONDON, UNITED KINGDOM.
- Gupta, R.K. and Gupta, U.S. (1978). Volume change in a swelling clay and its influence on soil-moisture relations. J. Indian Soc. Soil Sci., 26: 323-327.
- Jackson, M.L. (1967). Soil chemical analysis , Advanced Course 2nd Edn. University of Wisconsin, Madison.
- Jackson, M.L. (1973). Soil chemical analysis. Prentice Hall of India pvt. Ltd., New Delhi, India, 452.
- Kadao, S.H. (1997). Studies on soil-site characteristics of Banana growing soils and their evaluation for suitability in Vidarbha M.Sc. Thesis, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola, M.S.(INDIA).
- Krishnan, M.S. (1982). Geology of India and Burma. Publs. and Distributors, India. 536 p.
- Kumar, P. (1998). Food demand and supply projection for India. Agricultural Economics Policy paper 98-01. Indian Agricultural Research Institute, NEW DELHI, INDIA.
- Pal, D.K. and Deshpande, S.B. (1987). Characteristics and genesis of minerals in some benchmark Vertisols of India. Pedology, 37: 259-275.
- Piper, C.S. (1950). Soil and plant analysis. The University of Adelaide, Adelaide, pp. 368.
- Pustole, S.S. (1988). Characterization and evaluation of land qualities in orange growing red and black soils of Katol tahsil, district Nagpur. M.Sc. (Ag.) Thesis, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola, M.S.(INDIA).
- Ramasundaram, P. and Gaibhiye, H.I. (2003). Economic analysis of cotton cultivation in India, in CICR Annual Report 2002-03, Central Institute for Cotton Research (ICAR), Nagpur, (M.S.) INDIA.
- Richards, L.A. (1954). Diagnosis and improvement of saline and alkaline soils. Agricultural handbook 60, USDA, Washington, D.C. 60.
- Soil Survey Staff (1992). Key to soil taxonomy-A basic system of soil classification for making and interpreting soil survey, USDA Agriculture Hand Book No. 436, Washington, D.C.
- Evaluation of Soil Characteristics of Sunflower Growing Shrink-Swell Soils of Eastern Vidarbha
Abstract Views :160 |
PDF Views:0
Authors
Affiliations
1 Department of Soil Science and Agricultural Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola (M.S.), IN
2 National Bureau of Soil Survey and Land Use Planning (NBSS & LUP), Nagpur (M.S.), IN
1 Department of Soil Science and Agricultural Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola (M.S.), IN
2 National Bureau of Soil Survey and Land Use Planning (NBSS & LUP), Nagpur (M.S.), IN
Source
An Asian Journal of Soil Science, Vol 9, No 2 (2014), Pagination: 187-191Abstract
The sunflower growing soils of eastern Vidarbha region have been investigated for assessing the agro environmental suitability. Six pedons from high intensity area of Bhiwapur and Umred of Nagpur district were selected for study. Crop yield data were collected during field survey and other physical and chemical properties were studied in the laboratory and yields were correlated with soil properties. The investigation revealed that high intensity sunflower growing soils belonged to Typic Haplusterts, alkaline in reaction (pH 8.2 to 8.7) and low to medium in organic carbon content (0.24 to 0.79 %) and high cation exchange capacity (47.91 to 58.71 %), calcium carbonate were < 5 per cent, Ca : Mg ratio varied from 1.8 to 2.6 indicating moderate drainability and base saturation (85 to 89 %). Among the DTPA- extractable micronutrients, zinc was low while the soils were medium to high in manganese and iron and low to high in copper content. The sunflower yield when correlated with agro edaphic parameters it was found that rainfall and major soil physical and chemical characteristics influenced the crop yield. The stepwise regression analysis of sunflower yield with agroenvironment properties reveal that Typic Haplusterts distributed over four villages of Bhiwapur and Umred tahsils of Nagpur district that pH, Ca, Na, sum of cations, CEC, ESP, Mn, sand, clay and water retention at 1500 kPa had positive correlation. The high correlation co-efficient obtained with water retention at 33 kPa (0.91), post Kharif rainfall (0.90), clay (0.87) and water retention at 1500 kPa (0.72) indicating yield influencing factors.Keywords
Shrink-Swell Soils, Oilseed, Vidarbha.- Evaluation of Micronutrient Status of Soils and Their Relation With Some Chemical Properties of Soils of Wardha District, Maharashtra
Abstract Views :233 |
PDF Views:0
Authors
Affiliations
1 Department of Soil Science and Agricultural Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola (M.S), IN
1 Department of Soil Science and Agricultural Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola (M.S), IN
Source
An Asian Journal of Soil Science, Vol 12, No 2 (2017), Pagination: 271-274Abstract
The present investigation was carried out for evaluation of the status of DTPA-Fe, Mn, Cu and Zn in relation with physico-chemical properties in soils of Wardha district. Total 75 surface soil samples were collected and analysed for soil properties and fertility status of study area. The results revealed that the soils are neutral to strongly alkaline in soil reaction, safe in electrical conductivity, low to high in organic carbon content and high cation exchange capacity.Soils were sufficient in DTPA-extractable micronutrient cations except zinc which was found deficient in nearly 44 per cent of the samples. Pearson correlation co-efficients indicated positive correlation of DTPA-extractable micronutrient cations with organic carbon and negative correlation with pH, EC and no significant relationship of DTPA-Mn, Cu, Zn was found with CEC.Keywords
Soil Fertility, DTPA-Extractable Micronutrient.References
- Bante, R. Rashmi, Srivastava, Rajeev, Nagaraju, M.S.S. and Prasad, Jagdish (2012). Characterization and evaluation of land resources for watershed management inVidharbha region of Maharashtra using RS and GIS. J. Indian Soc. Soil Sci., 60 (4) : 261-268.
- Chetana, K. Likhar and Prasad, Jagdish (2011). Characteristics and classification of orange growing soils developed from different parent materials in Nagpur district, Maharashtra. J. Indian Soc. Soil Sci., 59: 209-217.
- Chinchmalatpure, A.R., Brijlal, R., Challaand, O. and Sehgal, J. (2000). Available micronutrient status of soils on different parent materials and landforms in a micro-watershed of Wunna catchment near Nagpur (Maharashtra).Agropedology, 10: 53-58.
- Hamza, S., Srinivasan, V. and Dinesh, R. (2009). Nutrient diagnosis of cardamom (Elettaria cardamom) gardens in south India. Indian J. Agric. Sci., 79 (6) : 429-432.
- Jackson, M.L. (1973). Soil chemical analysis, Prentice Hall India Pvt. Ltd., NEW DELHI, INDIA.
- Kadao, S.H., Prasad, J. and Gajbhiye, K.S. (2002). Micronutrient status in banana growing soils of Wardha district of Maharashtra. J. Maharashtra Agri. Univ., 27 (1) : 117-119.
- Katkar, R.N., Lakhe, S.R., Kharche, V.K., Laharia, G.S., Sadavarte, S.G., Chaudhari, R.D. and Obi Reddy, G.P. (2013). Micronutrient mapping in soils of Wardha district, Maharashtra. Agropedology, 23(2): 113-117.
- Likhar, C.K. and Prasad, Jagdish (2011).Characteristics and classification of orange growing soils developed from different parent materials in Nagpur district, Maharashtra. J. Indian, Soc, Soil Sci., 57 (1): 11-17.
- Lindsay, W.L. and Norvell, W.A. (1978).Development of DTPA soil test for Fe, Mn, Zn and Cu. Soil Sci. Soc. America J., 42: 421-427.
- Mali, C.V. and Raut, P.D. (2001). Available sulphur and physico-chemical characteristics of oil seed dominated area of Nagpur district. J. Maharashtra Agric. Univ., 26 (1):117-118.
- Mandavgade, R.R., Waikar, S.L., Dhamak, A.L. and Patil, V.D. (2015. Evaluation of micronutrient status of soils and their relation with some chemical properties of soils of Northern tahsils (Jintur, Selu and Pathri) of Parbhani district. J. Agric. Veter. Sci., 8 (2) : 38-41.
- Meena, H.B., Sharma, R.P. and Rawat, U.S. (2006). Status of macro and micronutrientsin some soils of Tonk district of Rajasthan. J. Indian Soc. Soil Sci., 54 : 508-512.
- Srivastava, Rajeev,Solanke, P.C., Nagaraju, M.S.S., Prasad, J., Nasre, R.A., Mohekar, D.S. and Barthwal, A.K. (2014). Status of available micronutrient cations and their relationship with soil properties in Nagpur district, Maharashtra. Indian J. Dryland Agric. Res & Dev., 29 (1) : 68-72.
- Shukla, A.K., Behera, S.K., SubhaRao, A. and Singh, A.K. (2012). State wise micro and secondary nutrients recommendations for different crops and cropping systems. Research Bulletin No. 1/2012. All India Co-ordinated Research Project of Micro and Secondary Nutrients and Pollutant Elements in Soils and Plants, Indian Institute of Soil Science, Bhopal. 40p.
- VijayaKumar, M., Lakshmi, G.V. and Madhuvani, P. (2013). Appraisal of soil fertility status in salt affected soils of ongole division, Prakasam district of Andhra Pradesh. J. Indian Soc. Soil Sci., 61 : 333-340.
- Yadav, R.L. and Meena, M.C. (2009).Available micronutrient statusand their relation with soil properties of Dengana soil series of Rajasthan. J. Indian Soc. Soil Sci., 57 : 90-92.
- Effect of Tillage and Nutrient Management on Seed Cotton Yield and Nutrient Content of Cotton
Abstract Views :219 |
PDF Views:0
Authors
Affiliations
1 Department of Soil Science and Agricultural Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola (M.S.), IN
2 National Bureau of Soil Survey and Land Utilisation Planning, Nagpur (M.S.), IN
1 Department of Soil Science and Agricultural Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola (M.S.), IN
2 National Bureau of Soil Survey and Land Utilisation Planning, Nagpur (M.S.), IN
Source
An Asian Journal of Soil Science, Vol 12, No 2 (2017), Pagination: 338-345Abstract
The field experiment was conducted to study the effect of integrated nutrient management on soil quality and cotton productivity under different tillage practices in vertisol at the Research Farm, Department of Soil Science and Agricultural Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola.The treatments thus, involved two main treatments and eight sub treatments. The experiment main plot comprises of two treatments i.e. conservation tillage (CNS) and CNV. The seed cotton yield was slightly higher under conservation tillage as compared to conventional tillage. Highest seed cotton yield was recorded in the treatment receiving 100% RDF (60:30:30 NPK kg ha-1 (15.57 q ha-1) followed by 50% RDF+50% N (FYM) (14.84 q ha-1). The macronutrient content was noticed higher in conservation tillage as compared to conventional tillage at square, boll development and harvest stage. The content of N, P and K was observed higher in reproductive parts than that of leaves and stem. Further, it was also observed that the N, P and K content decreased from square initiation to boll development stage in reproductive parts, leaves and stem as the age of the cotton advances towards maturity. The nitrogen content pooled data indicated that 3.08 to 3.10, 2.78 to 2.79 and 1.77 to 1.80 per cent during square initiation stage of study whereas in the boll development stage it ranged from 2.18 to 2.20, 1.88 to 1.89 and 1.37 to 1.40 per cent and in the harvest stage it ranged 1.54 to 1.56, 1.28 to 1.29 and 1.11 to 1.14 per cent in reproductive parts, leaves and stem, respectively.Keywords
Tillage, Nutrient Management, Nutrient Content, Yield.References
- Babalad, H.B. and Itnal, C.J. (2004). Integrated nutrient management in cotton and soybean intercropping system on vertic inceptisols under rainfed condition. In : International symposium on “ Strategies for sustainable, 2. Crop Production - A global vision” 23-25, Nov. 2004, University of Agricultural Sciences, Dharwad (Karnataka) India, pp. 92-97.
- Basavanneppa, M.A. and Biradar, D.P. (2002). Effect of integrated nutrient management practices on the production of cotton-maize-bengalgramsequence under irrigated ecosystem in Tungabhadra project area. J. Cotton Res. Dev., 16 (2) : 125-129.
- Blaise, D., Majumdar, G. and Tekale, K.U. (2005). On-farm evaluation of fertilizer application and conservation tillage on productivity of cotton + pigeonpea strip intercropping on rainfed Vertisols of central India. Soil Till Res., 84 :108-117.
- Constable, G.A., Rochesrer, I.J. and Daniells, I.G. (1992). Cotton yield and nitrogen requirement as modified by crop rotation and tillage method. Soil & Tillage Res., 23: 41-59.
- Deshmukh, A.V. and Dahatonde, B.N. (1999). Water use studies in pre-monsoon hybrid cotton as affected by moisture regimes and plant density under drip irrigation. Annl. Plant Physiol., 13(2):190-191.
- Deshmukh, R.K., Rao, M.R.K.,Rajendran, T.P., Meshram, M.K. and Santhy, V. (2004). Seed cotton yield and quality as influenced by irrigation management in cotton. In: International symposium on “ Strategies for sustainable cotton production - A global vision” 2. Crop Production, 23-25, Nov. 2004, University of Agricultural Sciences, Dharwad (Karnataka) India, pp. 253.
- Halemani, H.L., Hallikeri, S.S., Nooli, S.S., Nandagavi, R.A. and Kumar, H.S. Harish (2004a). Effect of organics on cotton productivity and physico-chemical properties of soil. In: International symposium on “Strategies for sustainable cotton production – A global vision” 2. Crop Production, 23-25, Nov. 2004, UAS, Dharwad : 123-129 pp.
- Halemani, H.L., Hallikeri, S.S., Nandagavi, R.A., Nooli, S.S. and Kumar, G. Mohan (2004b). Influence of organics, inorganics and their combinations on soil properties and crop productivity in cotton based cropping system. In: International symposium on “ Strategies for sustainable cotton production - A global vision” 2. Crop Production, 23-25, Nov. 2004, University of Agricultural Sciences, Dharwad (Karnataka) India, pp.174-180.
- Hongal, M.M., Chittapur, B.M. and Nooli, S.S. (2004).Effect of green manures and nitrogen levels on the performance of cotton in chilli+cotton intercropping system. In: International symposium on “ Strategies for sustainable cotton production – A global vision” 2. Crop Production, 23-25, Nov. 2004, University of Agricultural Sciences, Dharwad (Karnataka) India, pp.181-184.
- Hulihalli, U.K. and Patil, V.C. (2004). Response of rainfed cotton cv. JAYDHAR to NPK levels and organic manures. In: International symposium on “ Strategies for sustainable cotton production – A global vision” 2. Crop Production, 23-25, Nov. 2004,University of Agricultural Sciences, Dharwad (Karnataka) India, pp. 163-168.
- Hulihalli, U.K. and Patil, V.C. (2006). Effect of in situ moisture conservation practices and organic manures on yield and quality of cotton grown on Vertisol. PKV Res. J., 30 (2) :135-140.
- Kalra, Y.P. (1998). Handbook of reference methods for plant analysis. Taylor and Francis Group, LLC, New York. PP. 1-24.
- Katkar, R.N. (2008). Effect of crop residue management and moisture regimes on soil properties, plant growth, seed cotton yield, water use efficiency and fibre quality (Ph.D.) Thesis, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola, M.S. (INDIA).
- Khare, A.K., Singh, Chokhey and Ratnaparkhe, B.R. (1970). Uptake of nitrogen, its relation to yield of rainfed cotton in black cotton soils. J. Indian Soc. Soil Sci., 18 : 685-88.
- Kochetkov, V.V. (1976). Effect of different pre irrigation soil moisture contents on flower and boll formation and shedding in cotton cv. TASHKENT-1. S borniknauchny khtrudov Andizhanskogofiliala Soyuz NIKhI., 100-106. (Crop CD).
- Mehata, A.K., Thakral, S.K. and Saharan, H.S. (2009). Effect of organic and inorganic sources of nutrition on yield and fiber quality of cotton (Gossypium hirsutam). J. Cotton Res. Dev., 23 (2) : 255-257.
- Moursi, M.A., El. Din, Salam, A.M. and Hussein, M.M. (1978). Effect of available soil moisture on cotton plant. 3. Effect on dry matter content and yield. Egyptian J. Agron., 3(1): 99-108.
- Ogunwole, J.O., Alabi, S. O. and Onu, I. (2003). Evaluation of three long staple lines of cotton to levels of fertilizer under moisture stressed and unstressed conditions. Crop Res., 25 (1) : 50-57.
- Patil, B.C., Adarsha, T.S. and Kareekatti, S.R. (2004a). Growth phenology and yield of hybrid cotton as influenced by nutrient and moisture regimes. In: International symposium on “Strategies for sustainable cotton production – A global vision” 2. Crop Production, 23-25, Nov. 2004, University of Agricultural Sciences, Dharwad (Karnataka) India, pp. 369-372.
- Patil, V.S., Ansari, M.R., Reddy, M.R. and Panchal, Y.C. (1977). Effect of soil moisture regimes, nitrogen levels and skip row planting on yield and water use efficiency of cotton. Mysore J. Agril. Sci., 11 (4) : 481-485.
- Praharaj, C.S., Rajendran, T.P. and Sankaranarayanan, K. (2004). Studies on the incorporation of various organic sources to soil on the performance of hirsutum cotton. In : International symposium on “ Strateties for sustainable cotton production – A global vision” 2. Crop Production, 23-25, Nov. 2004, University of Agricultural Sciences, Dharwad (Karnataka) India, pp.130-132.
- Sarode, S.S., Dahatonde, B.N.,Patke, N.K., Lawale, S.K. and Dahatonde, Shilpa (2003). Studies on growth and yield of pre monsoon hybrid cotton in response to moisture regimes, planting patterns and intra-row distances under drip irrigation. Res. on Crops., 4 (1) : 131-132.
- Selvaraj, K.V. and Palaniappan, S.P. (1977). Studies on ischolar_main growth and penetration of cotton in relation to soil strength and moisture regimes. Curr. Res., 6 (1) :10-11.
- Sethi, H.N. (1988). Studies on biomass production and water use efficiency of cotton varieties as influenced by intercrops and irrigation levels. Ph. D. Thesis, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola, M.S. (INDIA).
- Sharma, A.P., Taneja, A.D., Lather, B.P.S. and Kaushik, R.D. (1993). Chemical composition of healthy and drying plant. J. Cotton Res. Dev., 7 (1) : 95-100.
- Subramanian, S., Rajeswari, M. and Chitdeswari, T. (2000). Effect of organic fertilizers on soil moisture conservation in rainfed Vertisol. Madras Agril.J., 87(4-6) : 345-347.
- Taneja, A.D., Sharma, A.P., Singh, D.P. and Chhabra, B.S. (1997). Biochemical composition of different genotypes of Hirsutum and Arboreum cotton. J. Cotton Res. Dev., 11(1): 37-43.
- Tiwari, R.J., Dwivedi, K. and Verma, S.K. (1994). Effect of gypsum application on nutrient content in cotton leaves grown on sodicVertisol. Crop Res., 7 (2) : 193-196.
- Thompson, A.C., Lane, H.C., Jones, J.W. and Hesketh, J.D. (1976). Nitrogen concentration of cotton leaves, buds and bolls in relation to age and nitrogen fertilization. Agron. J., 68 (4): 614-621.
- Wankhade, S.G., Dakhore, R.C., Wanjari, S.S. and Deshpande, R.M. (1997a). Micronutrient nutrition of cotton varieties as influenced by genetic variability. Indian J. Agric. Res., 31(2) : 127-132.
- Wankhade, S.G., Wanjari, S.S., Potdukhe, N.R., Patil, D.R. and Ingle, R.W. (1997b). Nutrient uptake behaviour of field crops. Agric. Sci. Digest, 17 (1) : 67-65.