TY - JOUR
T1 - Assessing the effect of multiple variables on the production of bioflocculant by Serratia marcescens
T2 - Flocculating activity, kinetics, toxicity, and flocculation mechanism
AU - Kurniawan, Setyo Budi
AU - Imron, Muhammad Fauzul
AU - Sługocki, Łukasz
AU - Nowakowski, Kacper
AU - Ahmad, Azmi
AU - Najiya, Dhuroton
AU - Abdullah, Siti Rozaimah Sheikh
AU - Othman, Ahmad Razi
AU - Purwanti, Ipung Fitri
AU - Hasan, Hassimi Abu
N1 - Publisher Copyright:
© 2022 Elsevier B.V.
PY - 2022/8/25
Y1 - 2022/8/25
N2 - Bioflocculants gain attention as alternatives to chemical flocculants because they are more environmentally friendly and highly biodegradable. This study aims to improve the bioflocculant production by Serratia marcescens using one-variable-at-a-time (OVAT) analysis and analyze its flocculating activity performance, toxicity, and the flocculation mechanism. The effect of multiple variables including initial inoculum size, pH, mixing speed, temperature, growth medium, and incubation period was assessed through OVAT. Flocculating activity was then determined via jar test analysis, and toxicity test was performed using Daphnia magna and Daphnia pulex. The flocculation mechanism was determined via particle size distribution and zeta potential analysis. The optimum conditions for the improved bioflocculant production were as follows: 10% v/v initial inoculum size, pH 7, mixing speed of 150 rpm, room temperature, nutrient broth medium, and 72 h of incubation period. Scanning electron microscopy showed flake-like intact structure with coarse surface. The produced bioflocculant showed flocculating activity of 48% in 5227 ± 580 NTU initial kaolin turbidity with 1 mg/L concentration and 5% v/v dosage of bioflocculant, following the second-order kinetics. Toxicity test to D. magna and D. pulex showed the 48 h LC50 values of 8.06 and 6.42 g/L, respectively; these values are greatly higher than the fabricated chemical flocculants. The flocculation process using bioflocculant produced by S. marcescens was suggested to occur via bridging mechanism because it greatly affected the particle size distribution. Results indicated that bioflocculant produced by S. marcescens is much environmentally friendly and has great potential for turbidity removal in water/wastewater.
AB - Bioflocculants gain attention as alternatives to chemical flocculants because they are more environmentally friendly and highly biodegradable. This study aims to improve the bioflocculant production by Serratia marcescens using one-variable-at-a-time (OVAT) analysis and analyze its flocculating activity performance, toxicity, and the flocculation mechanism. The effect of multiple variables including initial inoculum size, pH, mixing speed, temperature, growth medium, and incubation period was assessed through OVAT. Flocculating activity was then determined via jar test analysis, and toxicity test was performed using Daphnia magna and Daphnia pulex. The flocculation mechanism was determined via particle size distribution and zeta potential analysis. The optimum conditions for the improved bioflocculant production were as follows: 10% v/v initial inoculum size, pH 7, mixing speed of 150 rpm, room temperature, nutrient broth medium, and 72 h of incubation period. Scanning electron microscopy showed flake-like intact structure with coarse surface. The produced bioflocculant showed flocculating activity of 48% in 5227 ± 580 NTU initial kaolin turbidity with 1 mg/L concentration and 5% v/v dosage of bioflocculant, following the second-order kinetics. Toxicity test to D. magna and D. pulex showed the 48 h LC50 values of 8.06 and 6.42 g/L, respectively; these values are greatly higher than the fabricated chemical flocculants. The flocculation process using bioflocculant produced by S. marcescens was suggested to occur via bridging mechanism because it greatly affected the particle size distribution. Results indicated that bioflocculant produced by S. marcescens is much environmentally friendly and has great potential for turbidity removal in water/wastewater.
KW - Daphnia
KW - Extracellular polymeric substances
KW - Particle size distribution
KW - Wastewater treatment
KW - Water treatment
KW - Zeta potential
UR - http://www.scopus.com/inward/record.url?scp=85129546270&partnerID=8YFLogxK
U2 - 10.1016/j.scitotenv.2022.155564
DO - 10.1016/j.scitotenv.2022.155564
M3 - Article
C2 - 35504385
AN - SCOPUS:85129546270
SN - 0048-9697
VL - 836
JO - Science of the Total Environment
JF - Science of the Total Environment
M1 - 155564
ER -