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Formation Of Bacteria (Rhizobium Spp.) In The Roots Of Bean Plants Grown In Aquaponics System

Year 2017, Volume: 11 Issue: 2, 35 - 38, 31.08.2017

Abstract

Current research was conducted to determine formation of bacteria (Rhizobium spp) in the roots of bean plants grown in aquaponics system. Aquaponics systems is a form of production made of both plant and fish farming by integrating the plants used in hydroponics to the closed circulation system which water is used over and over again and intensive fish farming is made. Microorganisms such as Rhizobium spp. increasing plant growth are effective in nitrogen fixation and disease control in a symbiotic environment with legume crops.

Studies were done under the aquaponics system. Randomized plot desing has been used. The research was arranged in two group and three replications. Formation of nodules was observed in the roots of bean plants in all replication in groups inoculated bacteria (Rhizobium spp.). The highest nodule number was recorded in third group as 14.00±5.51 and the lowest one was recorded in second group as 12.33±3.53. The nodule number was determined as minimum 4 and maximum 23 in groups inoculated bacteria (Rhizobium spp.).

References

  • Allen, O. N. 1949. Inoculate legumes it pays. University of Wisconsin Agricultural Experiment station Madison. Bulletin 484.
  • Boonkerd, N., and Weaver, R.W. (1982). Survival of cowpea rhizobia in soil as affected by soil temperature and moisture. Appl. Environ. Microbiol. 43 (3), 585–589.
  • Carpenter, P. L. 1961. Microbilogy. W.B. Saunders company philadelphia. London 263-290.
  • Diver, S., 2000. Aquaponics—integration of hydroponics with aquaculture. www. Attar.Ncat.Org
  • Duc, G., Bao, S., Baum, M., Redden, B., Sadiki, M., Suso, M.J., Vishniakova, M., and Zong, X. (2010). Diversity maintenance and use of Vicia faba L. genetic resources. Field Crops Res. 115 (3), 270–278
  • Evans, A. and H.E. Gridley. 1979. Propect for the Improvement of Protein and Yield in Food Legumes, Curr. Adv. Plant Sci., 32, 1-47, Common Beans, C.I.A.T., 212, Colombia.
  • Flores, F., Hybl, M., Knudsen, J.C., Marget, P., Muel, F., Nadal, S., Narits, L., Raffiot, B., Sass, O., Solis, I., et al. (2013). Adaptation of spring faba bean types across European climates. Field Crops Res. 145,
  • Graham PH, Vance CP (2003) Legumes: importance and constraints to greater use. Plant Physiol 131:872–877.
  • Küçük, Ç. , Kıvanç, M. 2008. Preliminary Characterization of Rhizobium Strains Isolated from Chickpea Nodules. Afr. Journal of Biotechnology. 7(6): 772-775.
  • Lennard, W.A. and Leonard, B.V. 2004. A comparison of reciprocating flow versus constant flow in an integrated, gravel bed, aquaponic test system. Aquaculture International 12:539–553
  • Lennard, W.A. 2004. Aquaponics research at RMIT University, Melbourne Australia. Aquaponics Journal. Issue 35 (4th Quarter) pp18-24.
  • Nelson, R.L., 2008. Aquaponic Food Production. Nelson and Pade Inc. Press, Montello, WI, USA 218 pp
  • Önder, M. , Özkaynak, İ. 1994. Bakteri aşılaması ve azot uygulanmasının bodur kuru fasulye çeşitlerinin tane verimi ve bazı özellikleri üzerine etkileri. Tr. J. Agric. For. 18, 463- 471
  • Paull, J., Kimber, R., and van Leur, J. (2011). Faba bean breeding and production in Australia. Grain Legumes 56, 15–16.
  • Rakocy, J.E., Hargreaves, J.A., 1993. Integration of vegetable hydroponics with fish culture: a review. In: J.-K. Wang, Ed. Techniques for Modern Aquaculture. American Society of Agricultural Engineers, St. Joseph, MI, pp. 112–136.;
  • Resh, H.M. 2013. Hydroponic Food Production. A definitive guidebook for the advanced home gardener and commercial hydroponic grower. Seventh Edition. CRC Press August 9, 2012 by CRC Press Reference- 560 Pages - 479 B/W Illustrations ISBN 9781439878675 - CAT# K13679
  • Stewart, W.D.P. 1966. Soil Conditions and plant Growth Longmans, Green and Co. London, Newyork. 296-351.
  • Turan, Z.M. 1995. Araştırma ve Deneme Metodları. U.Ü.Zir.Fak. Ders Not. No: 62, 121 s.
Year 2017, Volume: 11 Issue: 2, 35 - 38, 31.08.2017

Abstract

References

  • Allen, O. N. 1949. Inoculate legumes it pays. University of Wisconsin Agricultural Experiment station Madison. Bulletin 484.
  • Boonkerd, N., and Weaver, R.W. (1982). Survival of cowpea rhizobia in soil as affected by soil temperature and moisture. Appl. Environ. Microbiol. 43 (3), 585–589.
  • Carpenter, P. L. 1961. Microbilogy. W.B. Saunders company philadelphia. London 263-290.
  • Diver, S., 2000. Aquaponics—integration of hydroponics with aquaculture. www. Attar.Ncat.Org
  • Duc, G., Bao, S., Baum, M., Redden, B., Sadiki, M., Suso, M.J., Vishniakova, M., and Zong, X. (2010). Diversity maintenance and use of Vicia faba L. genetic resources. Field Crops Res. 115 (3), 270–278
  • Evans, A. and H.E. Gridley. 1979. Propect for the Improvement of Protein and Yield in Food Legumes, Curr. Adv. Plant Sci., 32, 1-47, Common Beans, C.I.A.T., 212, Colombia.
  • Flores, F., Hybl, M., Knudsen, J.C., Marget, P., Muel, F., Nadal, S., Narits, L., Raffiot, B., Sass, O., Solis, I., et al. (2013). Adaptation of spring faba bean types across European climates. Field Crops Res. 145,
  • Graham PH, Vance CP (2003) Legumes: importance and constraints to greater use. Plant Physiol 131:872–877.
  • Küçük, Ç. , Kıvanç, M. 2008. Preliminary Characterization of Rhizobium Strains Isolated from Chickpea Nodules. Afr. Journal of Biotechnology. 7(6): 772-775.
  • Lennard, W.A. and Leonard, B.V. 2004. A comparison of reciprocating flow versus constant flow in an integrated, gravel bed, aquaponic test system. Aquaculture International 12:539–553
  • Lennard, W.A. 2004. Aquaponics research at RMIT University, Melbourne Australia. Aquaponics Journal. Issue 35 (4th Quarter) pp18-24.
  • Nelson, R.L., 2008. Aquaponic Food Production. Nelson and Pade Inc. Press, Montello, WI, USA 218 pp
  • Önder, M. , Özkaynak, İ. 1994. Bakteri aşılaması ve azot uygulanmasının bodur kuru fasulye çeşitlerinin tane verimi ve bazı özellikleri üzerine etkileri. Tr. J. Agric. For. 18, 463- 471
  • Paull, J., Kimber, R., and van Leur, J. (2011). Faba bean breeding and production in Australia. Grain Legumes 56, 15–16.
  • Rakocy, J.E., Hargreaves, J.A., 1993. Integration of vegetable hydroponics with fish culture: a review. In: J.-K. Wang, Ed. Techniques for Modern Aquaculture. American Society of Agricultural Engineers, St. Joseph, MI, pp. 112–136.;
  • Resh, H.M. 2013. Hydroponic Food Production. A definitive guidebook for the advanced home gardener and commercial hydroponic grower. Seventh Edition. CRC Press August 9, 2012 by CRC Press Reference- 560 Pages - 479 B/W Illustrations ISBN 9781439878675 - CAT# K13679
  • Stewart, W.D.P. 1966. Soil Conditions and plant Growth Longmans, Green and Co. London, Newyork. 296-351.
  • Turan, Z.M. 1995. Araştırma ve Deneme Metodları. U.Ü.Zir.Fak. Ders Not. No: 62, 121 s.
There are 18 citations in total.

Details

Primary Language English
Journal Section Research Article
Authors

Süleyman Bekcan

Hasan H. Atar

Hijran Yavuzcan This is me

Publication Date August 31, 2017
Published in Issue Year 2017 Volume: 11 Issue: 2

Cite

APA Bekcan, S., Atar, H. H., & Yavuzcan, H. (2017). Formation Of Bacteria (Rhizobium Spp.) In The Roots Of Bean Plants Grown In Aquaponics System. Journal of Applied Biological Sciences, 11(2), 35-38.
AMA Bekcan S, Atar HH, Yavuzcan H. Formation Of Bacteria (Rhizobium Spp.) In The Roots Of Bean Plants Grown In Aquaponics System. J.appl.biol.sci. August 2017;11(2):35-38.
Chicago Bekcan, Süleyman, Hasan H. Atar, and Hijran Yavuzcan. “Formation Of Bacteria (Rhizobium Spp.) In The Roots Of Bean Plants Grown In Aquaponics System”. Journal of Applied Biological Sciences 11, no. 2 (August 2017): 35-38.
EndNote Bekcan S, Atar HH, Yavuzcan H (August 1, 2017) Formation Of Bacteria (Rhizobium Spp.) In The Roots Of Bean Plants Grown In Aquaponics System. Journal of Applied Biological Sciences 11 2 35–38.
IEEE S. Bekcan, H. H. Atar, and H. Yavuzcan, “Formation Of Bacteria (Rhizobium Spp.) In The Roots Of Bean Plants Grown In Aquaponics System”, J.appl.biol.sci., vol. 11, no. 2, pp. 35–38, 2017.
ISNAD Bekcan, Süleyman et al. “Formation Of Bacteria (Rhizobium Spp.) In The Roots Of Bean Plants Grown In Aquaponics System”. Journal of Applied Biological Sciences 11/2 (August 2017), 35-38.
JAMA Bekcan S, Atar HH, Yavuzcan H. Formation Of Bacteria (Rhizobium Spp.) In The Roots Of Bean Plants Grown In Aquaponics System. J.appl.biol.sci. 2017;11:35–38.
MLA Bekcan, Süleyman et al. “Formation Of Bacteria (Rhizobium Spp.) In The Roots Of Bean Plants Grown In Aquaponics System”. Journal of Applied Biological Sciences, vol. 11, no. 2, 2017, pp. 35-38.
Vancouver Bekcan S, Atar HH, Yavuzcan H. Formation Of Bacteria (Rhizobium Spp.) In The Roots Of Bean Plants Grown In Aquaponics System. J.appl.biol.sci. 2017;11(2):35-8.