Integration Of Sodium Alginate With Bacillus Subtilis As Microbial Composite For Fertilizer Coating Towards Green Agriculture

Coating is a protective material that is applied to an object's surface such as fertilizer for various purposes. In this research, microbial composite film was fabricated by integrating sodium alginate with different mass of Bacillus subtilis. The films were tested on its physical, mechanical,...

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Main Author: Charles, Ng Wai Chun
Format: Thesis
Language:English
Published: 2022
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Online Access:http://eprints.usm.my/59251/1/CHARLES%20NG%20WAI%20CHUN%20-%20TESIS24.pdf
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spelling my-usm-ep.592512023-08-24T04:26:06Z Integration Of Sodium Alginate With Bacillus Subtilis As Microbial Composite For Fertilizer Coating Towards Green Agriculture 2022-06 Charles, Ng Wai Chun T1-995 Technology(General) Coating is a protective material that is applied to an object's surface such as fertilizer for various purposes. In this research, microbial composite film was fabricated by integrating sodium alginate with different mass of Bacillus subtilis. The films were tested on its physical, mechanical, chemical, and microbial properties. Then, study was conducted to improve the conductivity, moisture content and added micronutrient of microbial composite films for plants as supplement. Subsequently, organic goat manures as fertilizers were coated with different layers of microbial composite films coating via different drying techniques. Next, plant growth analysis and soil nutrients analysis were conducted by applying fertilizers of no coating, sodium alginate coating, and microbial composite coating (1-layer coating and 2-layer coating) to the plants to see its effect on the nutrients transfer. Furthermore, mathematical modelling was developed for soil nutrients analysis. It is found that 0.5 g bacterial cell mass from log phase had the most significant effect on the properties of the films. Then, by mixing microbial composite solution with 40 ppm copper ions and 1% glycerol render the highest conductivity to the films which is helpful in plant growth. It is also found that both 30-minutes drying and 24-hour drying technique did not give significant difference on the thickness of films and hence, 30-minutes drying technique was chosen as it saved time and cost in the process. 2022-06 Thesis http://eprints.usm.my/59251/ http://eprints.usm.my/59251/1/CHARLES%20NG%20WAI%20CHUN%20-%20TESIS24.pdf application/pdf en public phd doctoral Universiti Sains Malaysia Pusat Pengajian Teknologi Industri
institution Universiti Sains Malaysia
collection USM Institutional Repository
language English
topic T1-995 Technology(General)
spellingShingle T1-995 Technology(General)
Charles, Ng Wai Chun
Integration Of Sodium Alginate With Bacillus Subtilis As Microbial Composite For Fertilizer Coating Towards Green Agriculture
description Coating is a protective material that is applied to an object's surface such as fertilizer for various purposes. In this research, microbial composite film was fabricated by integrating sodium alginate with different mass of Bacillus subtilis. The films were tested on its physical, mechanical, chemical, and microbial properties. Then, study was conducted to improve the conductivity, moisture content and added micronutrient of microbial composite films for plants as supplement. Subsequently, organic goat manures as fertilizers were coated with different layers of microbial composite films coating via different drying techniques. Next, plant growth analysis and soil nutrients analysis were conducted by applying fertilizers of no coating, sodium alginate coating, and microbial composite coating (1-layer coating and 2-layer coating) to the plants to see its effect on the nutrients transfer. Furthermore, mathematical modelling was developed for soil nutrients analysis. It is found that 0.5 g bacterial cell mass from log phase had the most significant effect on the properties of the films. Then, by mixing microbial composite solution with 40 ppm copper ions and 1% glycerol render the highest conductivity to the films which is helpful in plant growth. It is also found that both 30-minutes drying and 24-hour drying technique did not give significant difference on the thickness of films and hence, 30-minutes drying technique was chosen as it saved time and cost in the process.
format Thesis
qualification_name Doctor of Philosophy (PhD.)
qualification_level Doctorate
author Charles, Ng Wai Chun
author_facet Charles, Ng Wai Chun
author_sort Charles, Ng Wai Chun
title Integration Of Sodium Alginate With Bacillus Subtilis As Microbial Composite For Fertilizer Coating Towards Green Agriculture
title_short Integration Of Sodium Alginate With Bacillus Subtilis As Microbial Composite For Fertilizer Coating Towards Green Agriculture
title_full Integration Of Sodium Alginate With Bacillus Subtilis As Microbial Composite For Fertilizer Coating Towards Green Agriculture
title_fullStr Integration Of Sodium Alginate With Bacillus Subtilis As Microbial Composite For Fertilizer Coating Towards Green Agriculture
title_full_unstemmed Integration Of Sodium Alginate With Bacillus Subtilis As Microbial Composite For Fertilizer Coating Towards Green Agriculture
title_sort integration of sodium alginate with bacillus subtilis as microbial composite for fertilizer coating towards green agriculture
granting_institution Universiti Sains Malaysia
granting_department Pusat Pengajian Teknologi Industri
publishDate 2022
url http://eprints.usm.my/59251/1/CHARLES%20NG%20WAI%20CHUN%20-%20TESIS24.pdf
_version_ 1776101272570560512