Volume 8, number 2
 Views: (Visited 102 times, 1 visits today)    PDF Downloads: 889

Rajbhoj B. G, Baig M. M. V. Performance of Local Rhizobial strain from Marathwada Region of Maharashtra state as Inoculant of Urd bean (Vigna mungo (L.) Hepper) with Different Carriers. Biosci Biotech Res Asia 2011;8(2)
Manuscript received on : August 10, 2011
Manuscript accepted on : September 17, 2011
Published online on:  --
How to Cite    |   Publication History    |   PlumX Article Matrix

Performance of Local Rhizobial strain from Marathwada Region of Maharashtra state as Inoculant of Urd bean (Vigna mungo (L.) Hepper) with Different Carriers

B. G. Rajbhoj2 and M. M. V. Baig¹*

2Department of Botany, Sundarrao More Arts, Commerce and Science College Poladpur, Dist .Raigad - 402 403 India.

1Department of Botany and Biotechnology, Yeshwant Mahavidyalya, Nanded - 431 602 India.

Corresponding Author E-mail: mmvb@indiatimes.com

ABSTRACT: A locally isolated strain of Rhizobia (UR5) of Urd bean from Marathwada region of Maharashtra state was assessed for its efficacy to be used as an inoculant. various carriers were inoculated with this strain in the pot trials. The assessment was done by the counting the number of nodules per plant plant and increase in weight of the plant. The newly isolated strain UR5 worked better with jaggery slurry medium in Urd bean.

KEYWORDS: Local strain specific Rhizobia UR5; Vigna mungo; carrier

Download this article as: 
Copy the following to cite this article:

Rajbhoj B. G, Baig M. M. V. Performance of Local Rhizobial strain from Marathwada Region of Maharashtra state as Inoculant of Urd bean (Vigna mungo (L.) Hepper) with Different Carriers. Biosci Biotech Res Asia 2011;8(2)

Copy the following to cite this URL:

Rajbhoj B. G, Baig M. M. V. Performance of Local Rhizobial strain from Marathwada Region of Maharashtra state as Inoculant of Urd bean (Vigna mungo (L.) Hepper) with Different Carriers. Biosci Biotech Res Asia 2011;8(2). Available from: https://www.biotech-asia.org/?p=9821

Introduction

Biological nitrogen fixation is an important aspect of nutrition in crop production throughout the world .The process saves a huge sum of money which otherwise would have to be pumped  agricultural productivity to consistently sustain an increasing world population. Among various symbiotic association of biological nitrogen fixation, the Rhizobium legume association is the most common in both temperate and tropical climates.  Rhizobia  plays a great role in nature as they are greatest N2 fixers, particularly in leguminous plants and leguminous plants are the predominant source of supplying protein to the population of developing countries like India. (1,2).

Looking to the need of location specific strain of Rhizobia to increase yield of pulses and other leguminous plants the investigations were concentrated on isolation and identifying these local strains for effective nodulation. (3). The performance of these locally isolated strains of Rhizobia depends up on soil environment, competitor microbes and other rhizospheric factors. In the present study most efficient local strain of Rhizobia (UR5) from Marathwada region of Maharashtra state was assessed for its nodulation capacity per plant, Urd bean is cultivated on a large scale now a days in this region and carrier based inoculants are widely used in the recent times. However, various factors on efficacy of this strain are already studied (4). This paper describes the performance of the locally isolated strain of Rhizobium with different carriers on Urd bean nodulation and increase in dry weight.  

Materials and Methods

Isolation and maintenance of Rhizobium

The Urd bean seeds cv.AU4 were collected from local market. The strain RhizobiumUR5 isolated from Chudawa, Parbhani Dist .of Maharashtra state (5) of Marathwada.  Rhizobia were isolated and maintained on YEMA medium either by sub-culturing at frequent intervals or as lyophilized cultured kept at 5 °C this system maximizes the storage period and minimizes genetic variations and contamination. The culture was also dried on porcelain beads over a desiccant in screw cap bottles. The authenticity check was carried out regularly. Their effectiveness on nodulation capacity and dry matter of Urd bean was tested. In earlier studies, strain Rhizobium UR5 from Chudawa village of Dist. Parbhani, Maharashtra, India was found very much effective .Their capacity to nodulate along with some carrier such as lime pelleting, Jaggery, lignite, sawdust, sterilized cow dung powder was tested by usual methods(3). The number of nodules and dry matter of plant along with different inoculants were evaluated in a pot culture experiment for three years i.e. 2008-2011.

Screening and culturing of Rhizobium

Cryema Test: 5 ml. of Congo red dye was mixed with a one litre of YEMA medium to prepare CRYEMA medium. Bacterial colonies on the YEMA medium were streaked on the CRYEMA medium and the petriplates were incubated at 28+ 20 C for 5-7 days. Rhizobial cells forms white circular, entire, raised, convex colonies, The white colonies were picked up to produce Rhizobium inoculants.

Microscopic Observation: Bacterial cells in the CRYEMA medium were stained with carbol fuschin and visualized under a compound microscope. This dye stains the B-polyhdroxybutyrate granule in the The cells of those colonies having B-polyhdroxybutyrate granule were picked up to establish Rhizobium inoculants.

Glucose Peptone Agar Test (GPA Test): Rhizobial colonies were streaked on YEMA medium and a master plate was made. colonies in the master plates were transferred to GPA medium by replica plating .Those colonies in the master plates fail to grow GPA medium belong to rhizobia .This test was confirmative test to test the purity of Rhizobial (4)

Inoculation: The surface sterilized seeds were used for inoculation. The seeds were dried in shade and sown in earthen pots of respective treatments. These pots were watered with an interval of two days or on when required. After 15 days of sowing the thinning was done and five plants were maintained in each pot.

The observations were recorded for number of nodules and dry matter. Plants were uprooted carefully washed and number of nodules per plant were recorded, The nitrogen content was determined by Microkjaldhal’s method .To identify the best method of inoculation, a pot culture experiment was conducted using different method of inoculation. The strain UR5 which was found superior was used. Medium type of soil was sterilized in autoclove at 30 lbs for two hours and used in the experiments. The Urd bean seeds were surface sterilized by treating with 0.1% mercuric chloride.

Carriers

The Urd bean seeds were inoculated using following carriers –

Lime pelleting

The seeds of Urdbean were inoculated with Rhizobium species coated with lime to form a pellets.

Rhizobium culture and jaggery

Seeds were dipped in the slurry of jaggery and Rhizobia broth and dried in shade and used for sowing.

Rhizobium culture alone

Broth culture of Rhizobium was diluted with sterile distilled water and the seeds were soaked in it. The seeds were air dried in shade and used for sowing.

Rhizobium culture and jaggery with saw dust/cow dung/lignite

The Rhizobium broth culture was grown for seven days. The cow /cow dung /lignite/saw dust was grinded to fine powder of 0.01mm size. The powder was mixed with the Rhizobium broth culture separately .After thorough mixing the powder was dried in shade under aseptic conditions and was used separately for inoculation.In control treatment the seeds were soaked in sterile water, dried in shade and were sown in pots. The observations were recorded on nodule number and dry weight of whole plant on 40th day of sowing. The plants were grown for 40 days in uniform condition along with different inoculants. After 40 days the number of nodules per plants was recorded and the dry matter of plant was estimated by usual method. The experiment was done in three sets each and for three consecutive years i.e. 2008-2011,

Data were subjected to Analysis of Variance(ANOVA) depending upon experimental design following the procedure as given by Gomez and Gomez(6).

Result and Discussion

The effect of the Rhizobium UR5 inoculation on nodulation of Urd bean by using various carrier is presented in table 1. The result indicated that the local Rhizobium strain UR5 performed well when jaggery was used as carrier and the number of nodules was significantly higher than other carriers used. The trend in results recorded during 2008-2009, 2009-2010, 2010-2011 was similar.

Table 1: Effect Of Carrier By Strain Rhizobium Ur5 On Nodulation Of Urd Bean.

Sr.

No.

Method of inoculation Number of Nodules per plants Pooled Analysis
2008-2009 2009-2010 2010-2011
1 Rhizobium culture with Lime pelleting 19.59 18.86 17.89 18.87
2 Rhizobium culture with Jaggery 20.94 20.44 19.43 20.27
3 Rhizobium culture with lignite 15.52 14.09 14.65 14.75
4 Rhizobium culture with saw dust 12.39 13.24 12.88 12.52
5 Rhizobium culture with sterlized cow dung powder 11.25 11.74 14.58 12.52
6 Rhizobium culture with saw dust and cowdung powder 10.32 12.79 12.18 11.76
7 Control 7.78 8.21 9.84 8.61
S E+_ 0.97 0.45 1.15 1.33
CD at 5% 2.83 2.83 3.53 4.01

The effect of the Rhizobium UR5 inoculation on dry weight of Urd bean by using various carrier is presented in table 2. The result showed that the local Rhizobium strain UR5 performed well when jaggery was used as carrier. The dry weight recorded was significantly higher than other carriers used. The trend in results recorded during three consecutive years was similar.

Table 2:  Effect Of Carrier By Strain Rhizobium Ur5 On Dry Weight Of Urd Bean Plants.

Sr.

No.

Method of inoculation Dry weight of  plants gms/plants. Pooled Analysis
2008-2009 2009-2010 2010-2011
1 Rhizobium culture with Lime pelleting 0.30 0.39 0.45 0.38
2 Rhizobium culture with Jaggery 0.35 0.53 0.34 0.40
3 Rhizobium culture with lignite 0.31 0.41 0.44 0.38
4 Rhizobium culture with saw dust 0.25 0.20 0.20 0.23
5 Rhizobium culture with sterlized cow dung powder 0.22 0.20 0.18 0.20
6 Rhizobium culture with saw dust and cowdung powder 0.32 0.30 0.25 0.29
7 Control 0.23 0.23 0.18 0.21
S E+_ 0.02 0.01 0.02 0.02
CD at 5% 0.08 0.04 0.07 0.06

 Thus the results showed that this local strain seems to be very effective in Urd bean when it is used for inoculation along with jaggery. The process of infection of plants by Rhizobia is very much competitive (7). The jaggery slurry method was more successful for inoculation, because in some plants the invasion of bacteria requires synthesis of important exo-polysaccharides (Marketoni.et.al., 2002) .Further investigation on local strains of bacteria and determining biodiversity of microbes is essential so that Rhizobia can be effectively utilized as Bio-fertilizers.

References 

  1. Patil., R,P,, Chaudhari, A.,B,, Mendki., P.S., Maheshwari,. V.L., Kothari, R.,M. (2002) Soybean cultivation: A panacea for soil fertility and sustainable productivity. Physiology and Molecular Biology of Plants 8, 221-39.
  2. Randhawa, G.S., Shubha, Singh, N.,K., Kumar, A, Bhalla, A. (2003). Recent advances in Rhizobium-legume symbiosis. Indian J Exp Biol. 41(10):1184-97.
  3. Rajbhoj B.G. and O.S.Rathor. (2011) Diversity of Rhizobium and effects on nodulation of Urd bean. Bioinfolet. 08: 93-95.
  4. Rajbhoj B.G. and O.S.Rathor.(2010) Bioprospecting potential of some local Rhizobia from Marathwada, Mahrashtra state. The Biosphere. 2(2):161-162.
  5. Rajbhoj B.G. and O.S.Rathor. (2011) Diversity of Rhizobium and effects on nodulation of Urd bean. Bioinfolet. 08: 93-95.
  6. Gomez K.A.et al[1984].Statistical procedures for agricultural research.2nd Ed. Wiley, New York.680 pp.
  7. Campbell, G.R., Sharypova, L.A., Scheidle H, Jones, K.M., Niehaus, K., Becker, A., Walker, G.C. (2003) Striking complexity of lipopolysaccharide defects in a collection of Sinorhizobium meliloti mutants. J. Bacteriol. 185(13):3853-62.
  8. Marketon, M. M., Glenn, S. A., Eberhard, A. and González, J. E. (2002) Quorum sensing controls exopolysaccharide production in Sinorhizobium meliloti. Journal of Bacteriology, January 2003, p. 325-331, Vol. 185, No. 1.
(Visited 102 times, 1 visits today)

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.