Fermentation of white and brown rice water increases plant nutrients and beneficial microbes

The wastewater after washing rice grains is known as washed rice water (WRW). WRW is often recommended for reuse as plant fertilizer, but little is known about the difference in the nutrient and microbial contents of WRW between white and brown rice. The study aims to answer this question and determ...

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Main Authors: Nabayi, Abba, Boon, Christopher Sung Teh, Kee, Ali Zuan Tan, Ngai, Paing Tan
Format: Article
Language:English
Published: Universiti Putra Malaysia 2022
Online Access:http://psasir.upm.edu.my/id/eprint/107998/1/04%20JTAS-2511-2022.pdf
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author Nabayi, Abba
Boon, Christopher Sung Teh
Kee, Ali Zuan Tan
Ngai, Paing Tan
author_facet Nabayi, Abba
Boon, Christopher Sung Teh
Kee, Ali Zuan Tan
Ngai, Paing Tan
author_sort Nabayi, Abba
collection UPM
description The wastewater after washing rice grains is known as washed rice water (WRW). WRW is often recommended for reuse as plant fertilizer, but little is known about the difference in the nutrient and microbial contents of WRW between white and brown rice. The study aims to answer this question and determine how much the nutrient contents in the WRW would change with fermentation and how fermentation would affect the phosphorus (P)- and potassium (K)-solubilization bacteria in the WRW. Medium-grained rice was washed at a volumetric rice-to-water ratio of 1:3 for 90 seconds at 0.357 × g. WRW was then fermented for 0 (fresh), 3, 6, and 9 days. The rice grains and WRW were analyzed for pH, electrical conductivity (EC), carbon (C), nitrogen (N), sulfur (S), ammonium (NH4+), nitrate (NO3-), phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), copper (Cu), zinc (Zn), and boron (B), as well as for total microbial population and P- and K-solubilizing bacteria. Brown rice grains had 26 to 324% higher P, K, Mg, and Zn than white rice. Nutrient contents in the WRW increased with increasing fermentation, except for C, which decreased with fermentation. At 9 days of fermentation, P, Ca, Mg, Cu, and B in the white rice water increased by 4 to 207%, which were also higher than in the brown rice water. The microbial population increased with fermentation for 3 days, then decreased after that, following the same C trend in the WRW from both rice types. P-and K-solubilization by bacteria in the WRW from both rice types increased with fermentation. The P solubilization was 25% higher in brown rice water, while the K solubilization was 67% higher in white rice water. Fermented rice water from white and brown rice was revealed to potentially improve plant growth and increase overall soil health due to their plant nutrient and microbial contents.
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spelling upm.eprints-1079982024-09-26T04:40:53Z http://psasir.upm.edu.my/id/eprint/107998/ Fermentation of white and brown rice water increases plant nutrients and beneficial microbes Nabayi, Abba Boon, Christopher Sung Teh Kee, Ali Zuan Tan Ngai, Paing Tan The wastewater after washing rice grains is known as washed rice water (WRW). WRW is often recommended for reuse as plant fertilizer, but little is known about the difference in the nutrient and microbial contents of WRW between white and brown rice. The study aims to answer this question and determine how much the nutrient contents in the WRW would change with fermentation and how fermentation would affect the phosphorus (P)- and potassium (K)-solubilization bacteria in the WRW. Medium-grained rice was washed at a volumetric rice-to-water ratio of 1:3 for 90 seconds at 0.357 × g. WRW was then fermented for 0 (fresh), 3, 6, and 9 days. The rice grains and WRW were analyzed for pH, electrical conductivity (EC), carbon (C), nitrogen (N), sulfur (S), ammonium (NH4+), nitrate (NO3-), phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), copper (Cu), zinc (Zn), and boron (B), as well as for total microbial population and P- and K-solubilizing bacteria. Brown rice grains had 26 to 324% higher P, K, Mg, and Zn than white rice. Nutrient contents in the WRW increased with increasing fermentation, except for C, which decreased with fermentation. At 9 days of fermentation, P, Ca, Mg, Cu, and B in the white rice water increased by 4 to 207%, which were also higher than in the brown rice water. The microbial population increased with fermentation for 3 days, then decreased after that, following the same C trend in the WRW from both rice types. P-and K-solubilization by bacteria in the WRW from both rice types increased with fermentation. The P solubilization was 25% higher in brown rice water, while the K solubilization was 67% higher in white rice water. Fermented rice water from white and brown rice was revealed to potentially improve plant growth and increase overall soil health due to their plant nutrient and microbial contents. Universiti Putra Malaysia 2022 Article PeerReviewed text en http://psasir.upm.edu.my/id/eprint/107998/1/04%20JTAS-2511-2022.pdf Nabayi, Abba and Boon, Christopher Sung Teh and Kee, Ali Zuan Tan and Ngai, Paing Tan (2022) Fermentation of white and brown rice water increases plant nutrients and beneficial microbes. Pertanika Journal of Tropical Agricultural Science, 46 (1). pp. 49-65. ISSN 1511-3701; ESSN: 2231-8542 http://www.pertanika.upm.edu.my/pjtas/browse/regular-issue?article=JTAS-2511-2022 10.47836/pjtas.46.1.04
spellingShingle Nabayi, Abba
Boon, Christopher Sung Teh
Kee, Ali Zuan Tan
Ngai, Paing Tan
Fermentation of white and brown rice water increases plant nutrients and beneficial microbes
title Fermentation of white and brown rice water increases plant nutrients and beneficial microbes
title_full Fermentation of white and brown rice water increases plant nutrients and beneficial microbes
title_fullStr Fermentation of white and brown rice water increases plant nutrients and beneficial microbes
title_full_unstemmed Fermentation of white and brown rice water increases plant nutrients and beneficial microbes
title_short Fermentation of white and brown rice water increases plant nutrients and beneficial microbes
title_sort fermentation of white and brown rice water increases plant nutrients and beneficial microbes
url http://psasir.upm.edu.my/id/eprint/107998/1/04%20JTAS-2511-2022.pdf
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