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Response of Pea (Pisum sativum L.) to Rhizobium Inoculation and Nitrogen Application in Soils of North East Alluvial Plains of Bihar
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Among legumes, pea (Pisum sativum L.) is the second most important legume, which is widely used both in human nutrition and as fodder. Currently, pre-sowing inoculation of pea seeds is a promising treatment and is one of agronomic solutions for sustainable agriculture. As per the objective of the research, to determine the effects of Rhizobium inoculation and different levels of nitrogen on the yield potential and growth attributes of pea, the research was conducted in Split Plot Design with 3 replications, at Research farm of RRS, Agwanpur, Saharsa. Nitrogen application had significant effect on the plant height, number of branches, ischolar_main and shoot dry weight, number of nodules, seed yield, biomass yield, harvest index, number of pods, as well as crude protein rate of seeds in both years. Plant height, number of pods, harvest index, number of nodules, crude protein rate and ischolar_main dry weight were higher with application of 20 kg N ha-1 while seed yield, shoot dry weight and number of branches were higher with application of 60 kg N ha-1, in the 2 seasons. The lowest values related to these parameters were obtained from the control treatment. Inoculation treatment had also significant effect on the all parameters investigated in both the years. The highest values regarding these parameters were obtained from inoculated plants, whereas the lowest values were obtained from the un-inoculated plants. Interactions of nitrogen and inoculation had significant effects on the all parameters investigated, except for number of nodules in 2009- 2010 and crude protein rate of seeds in both years. The highest seed yield was obtained under treatment 20 kg N ha-1+ inoculation with 1654.3 and 1625.0 kg ha-1 in 2009-10 and 2010-11, respectively.
Keywords
Pea, Rhizobium, Nitrogen, Nodulation, Yield.
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- Ali-Khan, S.T. and Zimmer, R.C. (1989). Production of field peas in Canada. Agric. Canada Publ., Ottawa, Canada, pp. 21.
- Azad, A.S., Manchanda, J.S. and Gill, A.S. (1992).Differential response and economics of nitrogen application to field pea (Pisum sativum L.) in soils of variable organic carbon status. Indian J. Agron., 37: 377-378.
- Bowren, K.E., Biederbeck,V.O., Bjorge, H.A., Brandt, S.A. and Goplen, B.P. (1986). Soil improvement with legumes. Saskatchewan Agriculture Soils and Crops Branch, Canada, pp. 24.
- Cristou, P. (1997). Biotechnology applied to grain legumes. Field Crops Res., 53 : 83-97.
- Cummings, S.P., Humphry, D.R. and Andrews, M. (2001). A review of the current taxonomy and diversity of symbiotic rhizosphere and bulk soil nitrogen-fixing bacteria, which are beneficial to plants. In : Aspects of applied biology 63 plant microbial interactions: Positive interactions in relation to crop production and utilization (Vol. 63, pp. 5-18), Wellesbourne, Warwick, UK. Association of Applied Biologists.
- Deaker, R., Roughley, R.J. and Kennedy, I.R. (2004). Legume seed inoculation technology-a review. Soil Biol. & Biochem., 36 : 1275-1288.
- Dobereiner, J., Baldani, V.L.D. and Reis, V.M. (1995). Endophytic occurrence of diazotrophic bacteria in nonleguminous crops. In : I. Fendric, M. del Gallo, J. Vanderleyden, M. de Zamaroczy (Eds.), Azospirillum VI and related microorganisms (pp. 3-14). Berlin, Heidelberg: Springer-Verlag.
- Duranti, M. and Guis, C. (1997). Legume seeds: protein content and nutritional value. Field Crops Res., 53 : 31-45.
- Gan, Y., Selles, F., Hanson, K.G., Zentner, R.P., McConkey, B. G. and McDonald, C.L. (2005). Effect of formulation and placement of Mesorhizobium inoculants for chickpea in the semiarid Canadian prairies. Canadian J. Plant Sci., 85 : 555560.
- Idris, M. and Sandhu, G.R. (1981). Effect of Rhizobium inoculation on the dry matter, pod yield, grain protein and N2 fixing efficiency of vegetable pea. J. Sci. Technol., 5: 17-22.
- Igbasan, F.A., Guenter,W., Warkentin, T.D. and Mcandrew, D.W. (1996). Protein quality of peas as influenced by location, nitrogen application and seed inoculation. Plant Foods Hum. Nutr., 49 : 93-105.
- Jha, S.K. and Singh, V.P. (1996). Correlation for effectiveness of Rhizobium leguminosarum in pea (Pisum sativum L.). J. Appl. Biol., 6 : 19-21.
- Jockson, M.L. (1973). Soil chemical analysis. (2 Ed.) Prentice Hall of India, Pvt. Ltd., NEW DELHI, INDIA.
- Kacar, B. and Ýnal, A. (2008). Plant analysis. Nobel Publication, Ankara.
- Kauskik, U.K., Dogra, R.C. and Dudeja, S.S. (1995).Effect of fertilizer N on nodulation, acetylene-reducing activity and N uptake in pigeonpea (Cajanus cajan). Trop. Agric., 72: 76-79.
- Kaya, M. ( 2000). The effects of different inoculation methods, nitrogen doses and sowing times on yield and yield components in winner variety of peas (Pisum sativum L.). Ph.D. Thesis, Ankara University, Ankara, Turkey.
- Rahman, M.H.H., Islam, M.Z., Bhuiyan, M.A.H., Khanam, D., Hossain, A.K.M. and Rahman, A.F.M. (1994). Effect of rhizobial inoculum with and without chemical fertilizers on chickpea in Haplaquepts. Bangladesh J. Agric. Sci., 21 : 273-277.
- Semu, E., Msumall, G.P. and Chowdhury, M.S. (1982). Nodulation and yield of affected by seed inoculation and nitrogen application. Soil Sci. Soc. East Afr., 1 : 56-65.
- Solaiman, A.R.M. and Rabbani, M.G. (2005). Effects of Rhizobium inoculant and nitrogen application of pea. Bangladesh J. Microbiol., 21: 36-40.
- Somasegaran, P. and Hoben, H.J. (1994). Handbook for rhizobia. Springer Verlag, New York, USA.
- Stephens, J.G.H. and Rask, H.M. (2000). Inoculant production and formulation. Field Crops Res., 65: 249-258.
- Vincent, J.M. (1982). Nitrogen fixation in legumes. 1st Edn., Academic Press, London, UNITED KINGDOM.
- White, J.G.H. (1989). Grain legumes in sustainable cropping systems: a review. Lincoln: Agron. Soc. New Zealand (Special Publication), 7 : 109-115.
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