Author Details

Scroll

Refine your search

Collections

Co-Authors

Journals

Year

Authors

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

Mairan, N. R.

Evaluation of Botanicals and Bioagents to Record the Root, Shoot Length and Vigour Index of Chickpea

Abstract Views :170 | PDF Views:1

Authors

P. S. More ¹, R. L. Parate ¹, N. R. Mairan ¹

Affiliations
1 Department of Plant Pathology, College of Agriculture (Dr., P.D.K.V.), Nagpur (M.S.), IN

Source

International Journal of Plant Protection, Vol 9, No 2 (2016), Pagination: 483-488

Abstract

Effect of six botanicals plants extract, one fungicide and three bio-agents were studied on seed germination and seedling vigour index in chickpea (var. chaffa-816). A pot culture experiment was conducted to record the pre and post-emergence seedling mortality caused by three pathogens Fusarium oxysporum f. sp. ciceri, Rhizoctonia bataticola, Sclerotium rolfsii, in in vitro. Maximum germination, shoot length, ischolar_main length and seedling vigour index recorded in carbendazim followed by Trichoderma viride and Azadirachta indica. Lowest pre and post-emergence seedling mortality recorded in Carbendazim followed by Trichoderma viride, Azadirachta indica, Eucalyptus spp.

Keywords

Botanicals, Bioagents, Fusarium oxysporum f. sp. Ciceri, Rhizoctonia bataticola, Sclerotium rolfsii, Seed Germination, Shoot Length, Root Length, Seedling Vigour Index, Seedling Mortality.

Full Text

References

Bharathi, B. and Raut, J.G. (2009). Detection of seed borne fungi and efficacy of different fungicides against seed borne fungi of rice. J. Pl. Dis., 4(2) : 193-198.

Chaudhary, H.S. Walia and Kumar, P. (2002). Effect of azadirachtin and aquesus Neem seed kernel concentrate on germination and seedling growth of soybean, maize. Pesticide Res. J., 14(1) : 120 – 124.

Dastur, J.F. (1935). Gram wilt in the central provinces. Agric. & Live Stock India, 5 : 615- 627.

Hedge, D.G. and Hiremath, R.V. (1987). Seed mycoflora of cowpea and its control by fungicides. Seed Res., 15(1): 60-65.

Lokesh, M.S. and Hiremath, R.V. (1988). Antagonism of Trichoderma spp. against seed mycoflora of red gram (Cajanus cajan) Plant Path. News Letter, 6(1-2): 31-32.

Nene (1985). Management of chickpea ischolar_main rot and collar rot by integration of biological and chemical seed treatment. Indian Phytopath., 56(1) : 39-42.

Patil, M.J. (1987). Studies on wilt of gram. Thesis, Panjabrao Deshmukh Krishi Vidhyapeeth, Akola, M.S.(INDIA) pp. 78.

Prajapati, R.K., Srivastava, S.L. and Chaudhary, R.G. (2003). Incidence of chickpea dry ischolar_main rots in Uttar Pradesh and Uttaranchal and efficacy of seed dressing fungicides on seed germination of seedling infection. Farm. Sci. J., 12(2): 170-172.

Ramanathan, A. and Sivaprakasam, K. (1992). Effect of seed treatment with antagonists and fungicides of seed viability and seedling vigour of chilli. Seed Res., 20(2) : 134-137.

Raut, J.G., Wangikar, P.D. and Sangitrao, C.S. (1980). Effect of different concentrations of wet treatment of thiram on seed-borne fungi and germination of sorghum. PKV Res. J., 4(1): 103-106.

Sarkar, S.K. and Saxena, S.C. (2007). Pathogenic potential and management of seed mycoflora of sunhemp. J. Myco Pl. Pathol., 37(3): 452-455.

Sarvamangal, W.S., Govindalah and Datta, R.K. (1993). Evaluation of plant extracts for the control of fungal disease of mulberry. Indian Phytopath., 46(4) : 398-401.

Shukla (1980). Fungi associated with triticale seeds, their influence on emergence of seedlings and control. Indian J. Mycol Pl. Pathol., 19(1): 48-52.

Sindhan, G.S. and Katwasra (2002). Biological control of dry ischolar_main rot of chickpea caused by Rhizoctonia bataticola. Pl.Dis.Res.,17(91): 68-71.

Singh, D. P. and Agarwal, V. K. (1986). Purple stain of soybean and seed viability. Seed Res.,14 : 184-190.

Solanke, R.B., Deosarkar, D.B. and Jawale, L.N. (2001). Seed borne fungi of chilli and response of Fusarium moniliformi to various seed dressers. J. Maharashtra Agric. Univ., 26 (2): 187-188.

Srivastava, S.N. and Tripathi, R.C.(1998). Management of sugarbeet seedling disease complex by combination of fungicides. Indian Phytopath., 51 (1) : 75-77.

Microbial Population in Soil as Influenced by Organic and Inorganic Fertilizers under Different Cropping Systems

Abstract Views :323 | PDF Views:2

Authors

N. R. Mairan ¹, A. S. Dhawan ¹

Affiliations
1 Department of Agricultural Chemistry and Soil Science, Marathwada Agricultural University, Parbhani (M.S.), IN

Source

Asian Journal of Bio Science, Vol 11, No 2 (2016), Pagination: 250-255

Abstract

Studies were undertaken to evaluate the impact of application of organic and inorganic on soil microbial population under different cropping systems such as soybean-pigeonpea and sorghum-pigeonpea. After these two cycles, the soil microbial properties were significantly influenced due to various combinations of manurial treatments. The population of bacteria, fungi and actinomycetes decreased in higher proportion in control followed by farmer's practice, however, highest population of microbes was observed in the treatment receiving FYM. Fertilizer application alone showed relatively less increase in population of microbes. However, application of organics in the form of FYM, glyricidia, vermi-compost, plant and weed residues, bio-fertilizers, neem seed cake, press mud etc. helped to increase bacteria, actinomycetes, fungi and total microbes after these two cycles of cropping systems.

Keywords

Organics, Inorganic, Soil Biological Components, Microbes.

Full Text

References

Badole, S.B. and More, S.D. (2000). Soil organic carbon status as influenced by organic and inorganic nutrient sources in vertisols. J. Maharashtra Agric. Univ., 25 (2) : 220- 222.

Chowksey (1994). Paper presented in conference of international federation in organic agricultural movement held in USA.

Dhingra, O.D. and Sinclair, J.B. (1993). Basic plant pathology methods CBS, Publisher, New Delhi. pp. 179-180.

Hasnabade, A.R. (1992). Effect of integrated nutrient management on soil fertility, soil biology and crop yield in sorghum-wheat sequence. Ph.D. Thesis, Marathwada Agriculture University, Parbhani, M.S. (INDIA).

Manna, M.C. and Hazra, J.N. (1996).Comparative performance of cow dung slurry, microbial inoculation and inorganic fertilizer on maize. J. Indian Soc. Soil Sci., 44 (3) : 526-528.

Manna, M.C. and Ganguly, T.K. (2001). Influence of FYM and fertilizer N on soil micro biomass dynamics turn over and activity of enzymes in a Typic Haplustert under soybean-wheat fallow system. Indian J. Agric. Res., 35 (1):48-51.

Mishra, M.M., Yadav, S.K., Chander, K. and Laura, R.D. (1991). Effect of FYM with nitrogen on the microbial population. Indian J. Agric. Sci., 52 (10) : 674-678.

Patil, R.B. and Varade, P.A. (1998).Microbial population in rhizosphere as influenced by high input rates of fertilizer application to sorghum on vertisols. J. Indian Soc. Soil Sci., 46 (2) : 223-227.

Radha, D.K. and Mallesh, B.C. (1992). Influence of vermicompost application on the microbial population in paddy field. Soil Biol. Biochem., 24 (12) :1317-1320.

Selvi, D., Santhy, P., Dhakshinamoorthy, M. and Maheshwari, M.(2004). Microbial population and biomass in rhizospheres in rhizode as influenced by continues intensive cultivation and fertilization in an Inceptisols. J. Indian Soc. Soil Sci., 52 (3) : 254-257.

Sharma, C.P., Gupta, B.R. and Bajpai, P.D. (1986). Residual effect of legumineous crops on some chemical and microbiological properties of soil. J. Indian Soc. Soil Sci., 34:206-208.

Sharma, H.L., Singh, C.M. and Modgal, S.C. (1987). Use of organic in rice-wheat sequence. Indian J. Agric. Sci., 57 (3) :163-168.

Suistova, I.D. and Diuvelikawkah, A.(1992). Regulation of the activity of microflora in leached cheronzem by sewage sludges. Soils & Fert. 55 (11) : 1383.

Suresh, S., Velu, V. and Vijulan, Harruis (1995). Influence of nitrogen sources on total bacterial population, nutrient availability and yield of rice on wetland soil. J. Indian Soc, Soil Sci., 43(3) : 470-471.

Thakur, S.S., Bilolikar , P. P. and Deshpande, D.P. (1998). Integrated nutrient management in hybrid cotton (NHH-44) under dry land condition . A paper presented during seminar on sustainable crop production in Vertisols organized by Parbhani. chapter of Indian Soc. of Agronomy, Marathwada Agriculture University, Parbhani, M.S. (INDIA).

Tiwari, V.N., Lehri, L.K., Tiwari, K.V. and Upadhyay, R.M. (2001). Integrated nitrogen management through natural green manuring under wheat-mungbean cropping sequence. J. Indian Soc. Soil Sci., 49 : 271-275.

Tompe, S.V. and More, S.D. (1996). Effect of press mud cake on uptake of nutrient by sunflower. J. Maharashtra Agric. Univ., 21(1): 139-140.

Fractions of Phosphorus as Influenced by Organic and Inorganic Sources of Nutrients under Different Cropping Systems in Vertisol

Studies on Nitrogen Fractions as Influenced by Organic and Inorganic Sources of Nutrients under Different Cropping Systems in Vertisol

Abstract Views :158 | PDF Views:0

Authors

N. R. Mairan ¹, A. S. Dhawan ¹, H. K. Kausadikar ¹

Affiliations
1 Department of Soil Science and Agricultural Chemistry, Vasantrao Naik Marathwada Krishi Vidyapeeth, Parbhani (M.S.), IN

Source

An Asian Journal of Soil Science, Vol 9, No 1 (2014), Pagination: 67-72

Abstract

A field experiment was conducted at Dry land Research Station,Vasantrao Naik Marathwada Krishi Vidyapeeth, Parbhani during 2003-04 and 2004-05 in Vertisol with application of organics and inorganics sources of nutrients under different cropping system viz., soybean-pigeonpea and sorghum-pigeonpea. The results revealed that, all nitrogen fractions like total hydrolysable nitrogen., amino acid nitrogen, organic ammonium nitrogen, acid insoluble nitrogen and total nitrogen were increased significantly in all treatment combinations. The combined application of organic and inorganic fertilizers caused significant increase in available nutrient status of soil. The relationship as simple and multiple regressions between available N and different N fractions was interdependent to each other.

Keywords

Nitrogen Fractions, Relationship, Cropping Systems.

Full Text

Studies on Anther Culture in Tomato

Abstract Views :242 | PDF Views:0

Authors

U. B. Shere ¹, N. R. Mairan ²

Affiliations
1 Department of Genetics and Plant Breeding, Vasantrao Naik Marathwada Agricultural University, Parbhani (M.S.), IN
2 Department of Genetics and Plant Breeding, Agriculture Technical School, Buldana (M.S.), IN

Source

International Journal of Plant Sciences, Vol 12, No 2 (2017), Pagination: 131-134

Abstract

Anther or pollen culture have been used in mutation and F₁ hybrid breeding programme in many plant species. In order to get haploid plants, three tomato varieties were used in this study. Anther were removed from 2-4 mm, 5-6 mm and 8-10 mm length tomato flowers. Two different nutrient media were investigated to get callus. N₆ medium+2 mg/L NAA+1 mg/L Kinetin was most efficient medium for anther callus growth. Calluses were subcultured but calli did not show any response for further callus growth and haploid plantlets were not obtained.

Keywords

Anther Culture, Callus Formation, Tomato.

Full Text

References

Bajaj, Y.P.S. (1983). In vitro production of haploids in D.A. Evans, W.R. Sharp, P.V.Ammirato and Y.Yamada (eds.) Handbook of Plant Cell Culture Vol.1. Techniques for propagation by Ethrel. Nature, 240 : 566-568.

Brasileiro, A.C.R., Willadina, L., Carvalheira, G.G. and Guerra, M. (1999). Callus induction and plant regeneration of tomato (Lycopersicon esculentum cv. IPA) via anther culture, 29 (4) : 619-623.

Cappadocia, M. and Sree Ramulu , K. (1980). Plant regeneration from in vitro culture of anthers and stem internodes in an interspecific hybrid Lycopersicon esculentum L. × L. peruvianum Mill and cytogenetic analysis of the regenerated plants. Plant Sci. Lett., 20 : 157-166.

Gresshoff, P.M. and Doy, C.H. (1972). Development and differentiation of haploid Lycopersicon esculentum (tomato). Planta, 107 : 161-170.

Gu, S.R. (1979). Plantlets from isolated eggplant pollen cultures. Hort Abs., 49 (8) : 5891.

Guha, S. and Maheshwari, S.C. (1964). In vitro production of embryos from anthers of Datura. Nature, 204-497.

Gulshan, T.M., Varghese and D.R. Sharma (1982). Studies on anther cultures of tomato Lycopersicon esculentum M. Hort. Abs., 52 (6) : 3921.

Jaramillo, J. and Summers, W. (1990). Tomato anther callus production : Solidifying agent and concentration influence induction of callus. J. Amer. Soc. Hort. Sci., 115 : 1047-1050.

Karakullukcu, S. and Abak, K. (1992). Farkli Sicaklik Saklarinin partilicanda embriyo olusumu uzerine etkisi. Turkive I. Bahce Bit. Kong. Cilt II. 237-240.

Ma YouHui, Kato K. and Masuda, M. (1999). Efficient callus induction and shoot regeneration by anther culture in male sterile mutants of tomato (Lycopersicon esculentumMill Cv. First). J.Japanese Soc. Hort.Sci., 68 (4) : 768-773.

Maheshwari, S.C., Rashid, A. and Tyagi, A.K. (1982). Haploids from pollen grains-retrospects and prospect. Amer. J. Bot., 69: 865-879.

Nitsch, J.P. (1969). Experimental androgenesis in Nicotiana, Phytomorphology, 19 : 389-404.

Ozzambak, E. (1994). Anther culture of tomatoes and egg plants. Acta Hort., 366:229-231.

Summers, W.I., Jaramillo, J. and Bailey, T. (1992). Microspore developmental stage and anther length inflence the induction of tomato anther callus. Hort. Sci., 27(7): 838-840.

Zamir, D., Tanksley, S.D. and Jones, R.A. (1981). Genetic analysis of the origin of plants regerated from anther tissue of Lycopersicon esculentum Mill. Plant Sci. Lett., 21: 223-227.

Anonymous (2002).FAOWebsite http://apps.fao.org/cgi-bin/nphdb.pl?subset=agriculture.

Soil Productivity as Influenced by Integrated Nutrient Management and Cropping System

Influence of Potassium and Sulphur Levels on Concentration and Uptake of Nutrients by Groundnut at Harvest Stage

Abstract Views :229 | PDF Views:0

Authors

S. M. Kharwade ¹, N. R. Mairan ¹, S. D. More ¹

Affiliations
1 Department of Soil Science and Agricultural Chemistry, Vasantrao Naik Marathwada Krishi Vidyapeeth, Parbhani (M.S.), IN

Source

An Asian Journal of Soil Science, Vol 14, No 1&2 (2019), Pagination: 13-19

Abstract

A field experiment was conducted in the plot no. A -8 at college farm Department of Agronomy, VNMAU, Parbhani during Rabi season of year 2001-2002 .The experiment was laid in a split plot design with 16 treatment combination. Four levels of each potassium and sulphur were taken each treatment was replicated three times. From these experiment the results concluded that the concentration of N, P and S was increased at 60kg S ha^-1 in plant. The K concentration was recorded at 75 kg K₂O ha^-1 level . The uptake of N, P, K and S increased with the increasing levels of K and S.

Keywords

Potassium, Sulphur, Concentration, Uptake in Groundnut.

Full Text

References

Barhanpure, P.B. (1976). To study the effect of sulphur bearing compounds and elemental sulphur on the yield , uptake and quality of groundnut (Arachis hypogaea L.). M.Sc.(Ag.) Thesis, Agriculture Soil Science and Agriculture Chemistry, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola, Maharashtra (India).

Basith, M.A., Satyanarayana, V., Latchana, A. and Vara Prasad, P.V. (1995). Response of groundnut genotype to levels of potassium and plant stands in rainy season. J. Potassium Res., 11(3 and 4) : 385-388.

Deshmukh V.N., Atre, A.H., Rangachrya, R.R. and Rewatkar, S.S. (1993). Effect of phosphorus and potassium application on growth, yield, quality and nutrient uptake by groundnut. J. Potassium Res., 9 (1) : 72-75

Deshmukh, V.N., Warokar, R.T. and Kanakpure B.T. (1993). Yield quality and nutrient uptake by groundnut as influenced by potash fertilization and time of application . J.Potassium Res., 8 (4) : 367-370.

Dijkshroom, W. and Van Vijk, A.L. (1969). The sulphur requirement of plant as evidenced by the sulphur – nitrogen ratio in the organic matter. Plant & Soil, 26 : 129.

Dimree, S. and Dwivedi, K.N. (1994). Response of sulphur and phosphorus to groundnut. J.Oilseed Res., 11 (2) : 193-195.

Dube, O.P. and Khan, R.A. (1993). Effect of nitrogen and sulphur on sulphur content in Indian mustard (Brassica Juncoa) and their residue balance in soil. Indian J. Agron., 38 (4) : 582-587.

Dube, S.D. and Mishra, P.H. (1970). Effect of sulphur deficiency on growth, yield and quality in some of the leguminous crops. J. Indian Soc. Soil Sci.,18 : 375.

Dubey, S.K. and Shinde, D.A. (1986). Effect of phosphate and potash application on pod yield and uptake of macronutrients by groundnut. J. Indian Soc. Soil Sci., 34 (2) : 302-304.

Jackson, M.L. (1967). Soil chemical analysis. Prentice Hall of India Pvt. Ltd., New Delhi, India.

Jain, N.K., Vyas, A.K. and Singh, A.K. (1995). Effect of phosphorus and sulphur fertilization on growth and nutrient uptake by mustard [Brassica juncea (L.) Czern and Coss] Ann.Agric.Res., 16 (3) : 389-390.

Meera ,V.S., Singh, Vinay and Singh, R.B.(1988).Effect of sulphur and zinc application on onion yield and sulphur and zinc uptake in three soil orders. J. Indian Soc. Soil Sci., 46 (4) : 636.

Mengel, K.M. and Kirkby, E.R. (1982). Principles of plant nutrition (3^rd Ed.). International Potash Institute, Berne, Switzerland.

Patel, G.R. and Patel, R.B. (1988).Yield quality and nutrient uptake by groundnut as influenced by potassium fertilization at different levels of phosphate. J. Indian Soc. Soil Sci., 36 (4) : 816-891.

Sagar, B.N. (1987).Effect of applied sulphur and phosphorus on chorophyll content, yield S:P and N:S ratios in peanut (Arachis hypogaea L.) Ann.Plant Physio.,1:151-157.

Singh, R.P. and Singh, V. (1990). Effect of S, Mg and K on yield and uptake by linseed. J. Indian Soc. Soil Sci., 38 : 169-170.

Singh, V., Singh, R.P. and Rathore, S.S. (1991). Effect of N and K application on oil content, nutrient uptake and periodicity of sesame. J. Potassium Res.,7(2):116-119.

Tabatabai, M.A. and Bremner, J.M. (1970). A simple turbidimetric method of determination of total sulphur in plant. Agron. J., 62 : 805-808.

Tisdale, S.L. and Nelson, W.L.(1966). Soil fertility and fertilizers. pp. 288; Mac-millon Company, London, United Kingdom.

Effect of Potassium and Sulphur Levels on Available K₂O and Available Sulphur at Critical Growth Stages at Harvest of Groundnut

Abstract Views :202 | PDF Views:0

Authors

S. M. Kharwade ¹, N. R. Mairan ¹, S. D. More ¹

Affiliations
1 Department of Soil Science and Agricultural Chemistry, Vasantrao Naik Marathwada Krishi Vidyapeeth, Parbhani (M.S.), IN

Source

An Asian Journal of Soil Science, Vol 14, No 1&2 (2019), Pagination: 46-48

Abstract

A field experiment was conducted in the plot no. A -8 at college farm Deparment of Agronomy, VNMAU, Parbhani during Rabi season of year 2001-2002 .The experiment was laid in a split plot design with 16 treatment combination. Four levels of each potassium and sulphur were taken each treatment was replicated three times .The availability of K and S in soil at critical growth stages was increased with their graded levels of application. Residual K and S status in soil was also maintained due to their application.

Keywords

Potassium, Sulphur, Groundnut.

Full Text

References

Chapman, H.D. and Pratt, P.F. (1961). Methods of analysis for soils, plants and waters. University of California, Los Angeles, 60-61, 150-179pp.

Chaudhary, H. P. and Das, S. K. (1996). Effect of P, S and Mo application on yield of rainted black gram and their residual effect n safflower and soil and water conservation in al eroled soil. J. Indian Soc. Soil Sci., 44 : 741-745

Jackson, M. L. (1967). Soil chemical analysis. Prentice Hall of India Pvt. Ltd., New Delhi, India.

Jackson, M. L. (1973). Soil chemical analysis. Prentirce Hall of Indian Private Ltd. New Delhi, India.

Jadhav, A.S. (1992). Effect of fertrilizers management of nutrients uptake by sorghum and groundant under double cropping system.Madras Agric J., 79 (2) : 66-71.

Nigam, S.N. and Dwivedi, S.L. and Gibbons, R.W. (1991). Groundnut breeding: constraints, achievements and future possibilities. Plant Breeding Abstracts, 61 (10) : 1127-1136.

Sharma, P. K. and Dixit, S.P. (1994). Effect of lime and potassium on the yield of crops and different forms of K in soil under wheat – Soybean linseed cropping sequence. J. Potassium Res., 10 (2): 178 – 183.

Singh, M. (1988). Sulphur management in coarse textured alluvial soil Proc. TSI –FAI symp. sulphur in Indian Agriculture New Delhi, 5 (3) :1-19.

Effect of Potassium and Sulphur Levels on Nodulation Quality Aspects and Yield Attributes of Rabi Groundnut

Abstract Views :217 | PDF Views:0

Authors

S. M. Kharwade ¹, N. R. Mairan ¹

Affiliations
1 Department of Soil Science and Agricultural Chemistry, Vasantrao Naik Marathwada Krishi Vidyapeeth, Parbhani (M.S.), IN

Source

An Asian Journal of Soil Science, Vol 14, No 1&2 (2019), Pagination: 57-62

Abstract

A field experiment was conducted in the plot no. A -8 at college farm Department of Agronomy, VNMAU, Parbhani during Rabi season of year 2001-2002 .The experiment was laid in a split plot design with 16 treatment combination. Four levels of each potassium and sulphur were taken each treatment was replicated three times. The quality parameter i.e. oil content, oil yield and crude protein content of groundnut kernel also showed significant response to potassium and sulphur levels. The response in term of pod and kernel yield was maximum at 50 kg k₂O /ha.

Keywords

Potassium, Sulphur, Groundnut Quality Aspect.

Full Text

References

Anulakh M.S. and Passecha, N.S. (1978). Interrelationship between S, In rapeseed. Indian J. Agric. Sci., 48 (3) : 143-148.

Chevalier, H. (1979).The response of soybeans to potassium fertilizer in fertilizer use in production of carbohydrates and lipids. Proc.Colloq Inst., 13 : 329-334.

Chopra, S.L. and Kanwar, J.S. (1966). Effect of sulphur fertilization on the chemical composition and nutrient uptake by legumes. J.Indian Soc.Soil Sci., 14 : 69-76.

Dimree, S. and Dwivedi, K.N. (1994). Response of sulphur and phosphorus to groundnut. J.Oilseed Res., 11 (2): 193-195.

Gaw, H.Z. and Soong, P.N. (1942).Nodulation and dry weight of garden peas as affected by sulphur and sulphates. J. Am. Soc. Agron., 34:100-103.

Joshi, M. and Rudraradhya, M.(1993). Effect of differential doses of potassium, J. Potassium Res., 9(4) : 388-391.

Locher, J.T. and Brouwer, R. (1964). Preliminary plant Biochemistry, Academy Press, New York, U.S.A.

Nair, N.P. and Sadanandan, N. (1981). Quality of kernel in groundnut varieties TMV-2 and TMV-9 as influenced by phosphorus and potassium fertilization. Agric. Res. J. Kerala, 19 (2) : 123 -125.

Nigam, S.N. and Dwivedi, S.L. and Gibbons, R.W. (1991). Groundnut breeding: constraints, achievements and future possibilities. Plant Breeding Abstracts, 61 (10) : 1127-1136.

Patil, J.D., Shinde, P.H., More, D.A. and Zende, G.K. (1981). Effect of the application of boron, sulphur and FYM on the yield and quality of groundnut. J. Maha. Agric. Univ., 6 (1):17-18.

Rami Reddy, S. and Sankara Reddi, G.H. (1981).Response of rice, groundnut and sunflower and sunflower to potassium on sandy loam soils. Indian Potash J., 6 : 6-10.

Sakal, R.B., Sinha, A.P., Singh and Bhogal, N.S. (1993). Relative performance of some sulphur sources on the sulphur nutrition of groundnut in calcarious soil. Ann.Res., 14 : 329-330.

Singh, Jogendra P., Tarafdar, J.C. and Gupta, B.R. (1997). Sulphur fertilization for increased production of summer Moong (Vigna radiate L.) J. Indian Soc. Soil Sci., 45:526-528.

Singh, Nanak, Subbaih, B.U. and Gupta, Y.P. (1970). Composition of groundnut and mustard. Indian J. Agron., 15 (1) : 24-28.

Singh, Surendra, Sinha, S.K., Singh, R.N., Sahu, P.B. and Gupta, B.P. (2000). Yield S uptake and oil content of niger as influenced by applied sulphur on acidic soils of Bihar Plateau. J. Indian Soc. Soil Sci., 48 (1) : 121-124.

Tiwari, R.C. and Pandey, D.D. (1993). Yield and quality of unirrigated lentil as affected by different levels of sulphur and phosphorus application. Recent advances in Dry land Agriculture Scientific Publications, Jodhpur I^st Ed., pp.391-402.

Wooding, K.J., Paulson, G.H. and Murphy, L.S. (1970). Response of nodulated and non-nodulated soybean seedlings to sulphur nutrition. Indian J. Agron., 62 : 271-280.

Username
Password
Remember me

Informatics Publishing Limited

Author Details

Mairan, N. R.

Evaluation of Botanicals and Bioagents to Record the Root, Shoot Length and Vigour Index of Chickpea

Authors

Source

Abstract

Keywords

Full Text

References

Microbial Population in Soil as Influenced by Organic and Inorganic Fertilizers under Different Cropping Systems

Authors

Source

Abstract

Keywords

Full Text

References

Fractions of Phosphorus as Influenced by Organic and Inorganic Sources of Nutrients under Different Cropping Systems in Vertisol

Authors

Source

Abstract

Keywords

Full Text

Studies on Nitrogen Fractions as Influenced by Organic and Inorganic Sources of Nutrients under Different Cropping Systems in Vertisol

Authors

Source

Abstract

Keywords

Full Text

Studies on Anther Culture in Tomato

Authors

Source

Abstract

Keywords

Full Text

References

Soil Productivity as Influenced by Integrated Nutrient Management and Cropping System

Authors

Source

Abstract

Keywords

Full Text

Influence of Potassium and Sulphur Levels on Concentration and Uptake of Nutrients by Groundnut at Harvest Stage

Authors

Source

Abstract

Keywords

Full Text

References

Effect of Potassium and Sulphur Levels on Available K2O and Available Sulphur at Critical Growth Stages at Harvest of Groundnut

Authors

Source

Abstract

Keywords

Full Text

References

Effect of Potassium and Sulphur Levels on Nodulation Quality Aspects and Yield Attributes of Rabi Groundnut

Authors

Source

Abstract

Keywords

Full Text

References

Effect of Potassium and Sulphur Levels on Available K₂O and Available Sulphur at Critical Growth Stages at Harvest of Groundnut