An outlook on microbial behavior: Mimicking a biodiesel (B100) spill in sandy loam soil

•The three types of biodiesel used in this study showed a high level of biodegradability.•The high rate of CO2 released by the mineralization of these biocomposites can be a worrying factor.•The change in the soil microbial community contaminated with the three types of biodiesel can affect soil qua...

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Veröffentlicht in:	Fuel (Guildford) 2019-01, Vol.235, p.589-594
Hauptverfasser:	Silva, Gislaine Santos da, Rezende, Rachel Passos, Romano, Carla Cristina, Dias, João Carlos Teixeira, Marques, Eric de Lima Silva, Lobo, Ivon Pinheiro, da Cruz, Rosenira Serpa
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Sprache:	eng
Schlagworte:	Air pollution Biodegradability Biodegradation Biodiesel fuels Biofuels Biomedical materials Carbon dioxide Composite materials Diesel Environmental impact Fatty acids Greenhouse effect Greenhouse gases Lipid degradation Loam Loam soils Microbial biodegradation Microbial contamination Microcosms Microorganisms Mineralization Oil spills Rapeseed Rapeseed biodiesel Sandy loam Sandy soils Sediment pollution Soil contamination Soil pollution Soybean biodiesel Soybeans Sunflower biodiesel
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description	•The three types of biodiesel used in this study showed a high level of biodegradability.•The high rate of CO2 released by the mineralization of these biocomposites can be a worrying factor.•The change in the soil microbial community contaminated with the three types of biodiesel can affect soil quality. Although different types of biodiesel are marketed worldwide, studies on their environmental impact are scarce. Therefore, we selected pure biodiesels (B100) from rapeseed (BR), sunflower (BF), and soybean (BS) to mimic their contamination of sandy loam soil and then studied their biodegradation by the soil microcosms. All the biodiesel samples presented significant values (p
doi_str_mv	10.1016/j.fuel.2018.08.056
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Although different types of biodiesel are marketed worldwide, studies on their environmental impact are scarce. Therefore, we selected pure biodiesels (B100) from rapeseed (BR), sunflower (BF), and soybean (BS) to mimic their contamination of sandy loam soil and then studied their biodegradation by the soil microcosms. All the biodiesel samples presented significant values (p < 0.05) of CO2 release. The fatty acid profiles revealed that they all had high rates of degradation. After 56 days of study, the BR- and BF-contaminated samples had the most altered microbial profile, presenting a similarity of 75% with the uncontaminated sample. The results showed the high biodegradable potential of these three types of biodiesel, indicating that their compositions favored the degradation process. However, the high CO2 level released by the mineralization of these biocomposites and the alteration in the soil microbial profile can be worrying factors. 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Although different types of biodiesel are marketed worldwide, studies on their environmental impact are scarce. Therefore, we selected pure biodiesels (B100) from rapeseed (BR), sunflower (BF), and soybean (BS) to mimic their contamination of sandy loam soil and then studied their biodegradation by the soil microcosms. All the biodiesel samples presented significant values (p < 0.05) of CO2 release. The fatty acid profiles revealed that they all had high rates of degradation. After 56 days of study, the BR- and BF-contaminated samples had the most altered microbial profile, presenting a similarity of 75% with the uncontaminated sample. The results showed the high biodegradable potential of these three types of biodiesel, indicating that their compositions favored the degradation process. However, the high CO2 level released by the mineralization of these biocomposites and the alteration in the soil microbial profile can be worrying factors. 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subjects	Air pollution Biodegradability Biodegradation Biodiesel fuels Biofuels Biomedical materials Carbon dioxide Composite materials Diesel Environmental impact Fatty acids Greenhouse effect Greenhouse gases Lipid degradation Loam Loam soils Microbial biodegradation Microbial contamination Microcosms Microorganisms Mineralization Oil spills Rapeseed Rapeseed biodiesel Sandy loam Sandy soils Sediment pollution Soil contamination Soil pollution Soybean biodiesel Soybeans Sunflower biodiesel
title	An outlook on microbial behavior: Mimicking a biodiesel (B100) spill in sandy loam soil
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