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Quality Asset Ability of Rhizobium Spciese from Organic Base Bio Fertilizer Production Using Multiple Organic Waste as Carrier Base Inreadeness for Commercialization

Journal: INTERNATIONAL JOURNAL OF AGRICULTURE AND BIOLOGICAL SCIENCES (Vol.5, No. 01)

Publication Date:

Authors : ;

Page : 10-29

Keywords : Silas David Emmanuel; Barminas Jeffrey Tsware; I.M. Bugaje; R; A .Damau;

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Abstract

Microorganisms work incognito to maintain the ecological balance by active participation in carbon, nitrogen, sulphur and phosphorous cycles in nature. Soil samples were collected from 12 sites, four from each of the study areas viz; NARICT farm land, Yankusa Land fill, and Sakadadi agricultural farm land . The total chromium content was analyzed using atomic absorption spectrophotometry (AAS). Physiochemical analysis of the contaminated and control land fill were also determined. The parameters determined were colour, odour, pH, temperature, Nitrogen, % potassium and % phosphorus etc. All parameters were found to be higher than the WHO limit except % Nitrogen, % Potassium and % Phosphorus that falls beyond. Further investigations were carried out to checkmate the proximate analysis of some nutritional values of Chemical fertilizer A and B as control while C for biofertilzer ( treated) Most of the results computed shows there were significantly higher values in both macronutrient and micronutrient in Biofertilizer(C) production than those of the Chemical fertilizer (A and B). In view of the current investigation, bacteria isolates like those of (Rhizobium sp ) namely; Rhizobium Japonicum, Rhizobium lupine etc were isolated as nitrogen fixing bacteria from root nodules of soya bean. Thus identification, and characterization rhyzobial sp for the production of biofertilizer In selective modified (MYEMA) through which propagation of bacteria mass cells were accentuated insitu. To this effect, the propagated mass cells of the bacteria were therefore meticulously and circumspectively mixed with multiple carrier base materials; for further utilization in the soils to increase its nutrient quality naturally after combining it with the soil. For nitrogen is one of the important component which acts as a building blocks of most biomolecules, but this inert nitrogen cannot be utilized by plants so the Rhizobium bacteria helps to fix the atmospheric nitrogen to ammonia which can be utilized by plants. In view of this study the production of biofertilizer from nitrogen fixing bacterial strains as well as utilizing them in the organic farming

Last modified: 2021-03-31 18:28:21