Lactic acid fermentation of food waste as storage method prior to biohydrogen production: Effect of storage temperature on biohydrogen potential and microbial communities
This study aims to investigate the impact of utilizing lactic acid fermentation (LAF) as storage method of food waste (FW) prior to dark fermentation (DF). LAF of FW was carried out in batches at six temperatures (4 �C, 10 �C, 23 �C, 35 �C, 45 �C, and 55 �C) for 15 days followed by biological hydrog...
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my.uniten.dspace-341722024-10-14T11:18:16Z Lactic acid fermentation of food waste as storage method prior to biohydrogen production: Effect of storage temperature on biohydrogen potential and microbial communities Roslan E. Magdalena J.A. Mohamed H. Akhiar A. Shamsuddin A.H. Carrere H. Trably E. 57189299886 57201977815 57136356100 57192410921 35779071900 7003438084 6506445171 Biohydrogen Dark fermentation Energy Lactic acid fermentation Mixed culture Fermentation Food Hydrogen Lactic Acid Microbiota Refuse Disposal Temperature Bacteriology Food storage Hydrogen production Hydrogen storage Lactic acid Metabolites alcohol hydrogen lactic acid Bio-hydrogen Bio-hydrogen production Biological hydrogen Dark fermentation Energy Food waste Lactic acid bacteria Lactic acid fermentation Mixed cultures Storage temperatures bacterium fermentation food waste microbial community temperature gradient Article Bacillus Clostridium controlled study fermentative hydrogen production food storage food waste lactic acid bacterium lactic acid fermentation Lactobacillus Lactococcus microbial community nonhuman storage temperature Streptococcus fermentation food metabolism microflora temperature waste disposal Fermentation This study aims to investigate the impact of utilizing lactic acid fermentation (LAF) as storage method of food waste (FW) prior to dark fermentation (DF). LAF of FW was carried out in batches at six temperatures (4 �C, 10 �C, 23 �C, 35 �C, 45 �C, and 55 �C) for 15 days followed by biological hydrogen potential (BHP) tests. Different storage temperatures resulted in different metabolites distribution, with either lactate or ethanol being dominant (159.2 � 20.6 mM and 234.4 � 38.2 mM respectively), but no negative impact on BHP (averaging at 94.6 � 25.1 mL/gVS). Maximum hydrogen production rate for stored FW improved by at least 57%. Microbial analysis showed dominance of lactic acid bacteria (LAB) namely Lactobacillus sp., Lactococcus sp., Weisella sp., Streptococcus sp. and Bacillus sp. after LAF. Clostridium sp. emerged after DF, co-existing with LAB. Coupling LAF as a storage method was demonstrated as a novel strategy of FW management for DF, for a wide range of temperatures. � 2023 Elsevier Ltd Final 2024-10-14T03:18:16Z 2024-10-14T03:18:16Z 2023 Article 10.1016/j.biortech.2023.128985 2-s2.0-85151819906 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85151819906&doi=10.1016%2fj.biortech.2023.128985&partnerID=40&md5=4d982278d64a67353d00d72918ade7ba https://irepository.uniten.edu.my/handle/123456789/34172 378 128985 All Open Access Green Open Access Elsevier Ltd Scopus |
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Biohydrogen Dark fermentation Energy Lactic acid fermentation Mixed culture Fermentation Food Hydrogen Lactic Acid Microbiota Refuse Disposal Temperature Bacteriology Food storage Hydrogen production Hydrogen storage Lactic acid Metabolites alcohol hydrogen lactic acid Bio-hydrogen Bio-hydrogen production Biological hydrogen Dark fermentation Energy Food waste Lactic acid bacteria Lactic acid fermentation Mixed cultures Storage temperatures bacterium fermentation food waste microbial community temperature gradient Article Bacillus Clostridium controlled study fermentative hydrogen production food storage food waste lactic acid bacterium lactic acid fermentation Lactobacillus Lactococcus microbial community nonhuman storage temperature Streptococcus fermentation food metabolism microflora temperature waste disposal Fermentation |
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Biohydrogen Dark fermentation Energy Lactic acid fermentation Mixed culture Fermentation Food Hydrogen Lactic Acid Microbiota Refuse Disposal Temperature Bacteriology Food storage Hydrogen production Hydrogen storage Lactic acid Metabolites alcohol hydrogen lactic acid Bio-hydrogen Bio-hydrogen production Biological hydrogen Dark fermentation Energy Food waste Lactic acid bacteria Lactic acid fermentation Mixed cultures Storage temperatures bacterium fermentation food waste microbial community temperature gradient Article Bacillus Clostridium controlled study fermentative hydrogen production food storage food waste lactic acid bacterium lactic acid fermentation Lactobacillus Lactococcus microbial community nonhuman storage temperature Streptococcus fermentation food metabolism microflora temperature waste disposal Fermentation Roslan E. Magdalena J.A. Mohamed H. Akhiar A. Shamsuddin A.H. Carrere H. Trably E. Lactic acid fermentation of food waste as storage method prior to biohydrogen production: Effect of storage temperature on biohydrogen potential and microbial communities |
| description |
This study aims to investigate the impact of utilizing lactic acid fermentation (LAF) as storage method of food waste (FW) prior to dark fermentation (DF). LAF of FW was carried out in batches at six temperatures (4 �C, 10 �C, 23 �C, 35 �C, 45 �C, and 55 �C) for 15 days followed by biological hydrogen potential (BHP) tests. Different storage temperatures resulted in different metabolites distribution, with either lactate or ethanol being dominant (159.2 � 20.6 mM and 234.4 � 38.2 mM respectively), but no negative impact on BHP (averaging at 94.6 � 25.1 mL/gVS). Maximum hydrogen production rate for stored FW improved by at least 57%. Microbial analysis showed dominance of lactic acid bacteria (LAB) namely Lactobacillus sp., Lactococcus sp., Weisella sp., Streptococcus sp. and Bacillus sp. after LAF. Clostridium sp. emerged after DF, co-existing with LAB. Coupling LAF as a storage method was demonstrated as a novel strategy of FW management for DF, for a wide range of temperatures. � 2023 Elsevier Ltd |
| author2 |
57189299886 |
| author_facet |
57189299886 Roslan E. Magdalena J.A. Mohamed H. Akhiar A. Shamsuddin A.H. Carrere H. Trably E. |
| format |
Article |
| author |
Roslan E. Magdalena J.A. Mohamed H. Akhiar A. Shamsuddin A.H. Carrere H. Trably E. |
| author_sort |
Roslan E. |
| title |
Lactic acid fermentation of food waste as storage method prior to biohydrogen production: Effect of storage temperature on biohydrogen potential and microbial communities |
| title_short |
Lactic acid fermentation of food waste as storage method prior to biohydrogen production: Effect of storage temperature on biohydrogen potential and microbial communities |
| title_full |
Lactic acid fermentation of food waste as storage method prior to biohydrogen production: Effect of storage temperature on biohydrogen potential and microbial communities |
| title_fullStr |
Lactic acid fermentation of food waste as storage method prior to biohydrogen production: Effect of storage temperature on biohydrogen potential and microbial communities |
| title_full_unstemmed |
Lactic acid fermentation of food waste as storage method prior to biohydrogen production: Effect of storage temperature on biohydrogen potential and microbial communities |
| title_sort |
lactic acid fermentation of food waste as storage method prior to biohydrogen production: effect of storage temperature on biohydrogen potential and microbial communities |
| publisher |
Elsevier Ltd |
| publishDate |
2024 |
| _version_ |
1814060066351874048 |
| score |
13.214268 |