Persistence of pentolite (PETN and TNT) in soil microcosms and microbial enrichment cultures

Ziv Arbeli; Erika Garcia-Bonilla; Cindy Pardo; Kelly Hidalgo; Trigal Velásquez; Luis Peña; Eliana Ramos C; Helena Avila-Arias; Nicolás Molano-Gonzalez; Pedro F.B. Brandão; Fabio Roldan

doi:10.1007/s11356-016-6133-3

Persistence of pentolite (PETN and TNT) in soil microcosms and microbial enrichment cultures

Ziv Arbeli, Erika Garcia-Bonilla, Cindy Pardo, Kelly Hidalgo, Trigal Velásquez, Luis Peña, Eliana Ramos C, Helena Avila-Arias, Nicolás Molano-Gonzalez, Pedro F.B. Brandão, Fabio Roldan

Escuela de Medicina y Ciencias de la Salud

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

8 Citas (Scopus)

Resumen

Pentolite is a mixture (1:1) of 2,4,6-trinitrotoluene (TNT) and pentaerythritol tetranitrate (PETN), and little is known about its fate in the environment. This study was aimed to determine the dissipation of pentolite in soils under laboratory conditions. Microcosm experiments conducted with two soils demonstrated that dissipation rate of PETN was significantly slower than that of TNT. Interestingly, the dissipation of PETN was enhanced by the presence of TNT, while PETN did not enhanced the dissipation of TNT. Pentolite dissipation rate was significantly faster under biostimulation treatment (addition of carbon source) in soil from the artificial wetland, while no such stimulation was observed in soil from detonation field. In addition, the dissipation rate of TNT and PETN in soil from artificial wetland under biostimulation was significantly faster than the equivalent abiotic control, although it seems that non-biological processes might also be important for the dissipation of TNT and PETN. Transformation of PETN was also slower during establishment of enrichment culture using pentolite as the sole nitrogen source. In addition, transformation of these explosives was gradually reduced and practically stopped after the forth cultures transfer (80 days). DGGE analysis of bacterial communities from these cultures indicates that all consortia were dominated by bacteria from the order Burkholderiales and Rhodanobacter. In conclusion, our results suggest that PETN might be more persistent than TNT.

Idioma original	Inglés estadounidense
Páginas (desde-hasta)	9144-9155
Número de páginas	12
Publicación	Environmental Science and Pollution Research
Volumen	23
N.º	9
DOI	https://doi.org/10.1007/s11356-016-6133-3
Estado	Publicada - may. 1 2016

Áreas temáticas de ASJC Scopus

Contaminación
Salud, toxicología y mutagénesis
Química ambiental

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10.1007/s11356-016-6133-3

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Arbeli, Z., Garcia-Bonilla, E., Pardo, C., Hidalgo, K., Velásquez, T., Peña, L., Ramos C, E., Avila-Arias, H., Molano-Gonzalez, N., Brandão, P. F. B., & Roldan, F. (2016). Persistence of pentolite (PETN and TNT) in soil microcosms and microbial enrichment cultures. Environmental Science and Pollution Research, 23(9), 9144-9155. https://doi.org/10.1007/s11356-016-6133-3

@article{8e3c4c6d43464c63b4136a4f5013adb3,

title = "Persistence of pentolite (PETN and TNT) in soil microcosms and microbial enrichment cultures",

abstract = "Pentolite is a mixture (1:1) of 2,4,6-trinitrotoluene (TNT) and pentaerythritol tetranitrate (PETN), and little is known about its fate in the environment. This study was aimed to determine the dissipation of pentolite in soils under laboratory conditions. Microcosm experiments conducted with two soils demonstrated that dissipation rate of PETN was significantly slower than that of TNT. Interestingly, the dissipation of PETN was enhanced by the presence of TNT, while PETN did not enhanced the dissipation of TNT. Pentolite dissipation rate was significantly faster under biostimulation treatment (addition of carbon source) in soil from the artificial wetland, while no such stimulation was observed in soil from detonation field. In addition, the dissipation rate of TNT and PETN in soil from artificial wetland under biostimulation was significantly faster than the equivalent abiotic control, although it seems that non-biological processes might also be important for the dissipation of TNT and PETN. Transformation of PETN was also slower during establishment of enrichment culture using pentolite as the sole nitrogen source. In addition, transformation of these explosives was gradually reduced and practically stopped after the forth cultures transfer (80 days). DGGE analysis of bacterial communities from these cultures indicates that all consortia were dominated by bacteria from the order Burkholderiales and Rhodanobacter. In conclusion, our results suggest that PETN might be more persistent than TNT.",

author = "Ziv Arbeli and Erika Garcia-Bonilla and Cindy Pardo and Kelly Hidalgo and Trigal Vel{\'a}squez and Luis Pe{\~n}a and {Ramos C}, Eliana and Helena Avila-Arias and Nicol{\'a}s Molano-Gonzalez and Brand{\~a}o, {Pedro F.B.} and Fabio Roldan",

note = "Funding Information: This work was funded by a grant from INDUMIL (the Colombian Military Industry) and was done under MADS contract No. 151, 2013 and Scientific Research Permit on Biodiversity No. 545 of September 18, 2009, as amended by Resolution No. 450 (15-05-2013). We are grateful to Ira Fogel for his editorial services. The authors have no conflict of interest to declare. Publisher Copyright: {\textcopyright} 2016, Springer-Verlag Berlin Heidelberg.",

year = "2016",

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doi = "10.1007/s11356-016-6133-3",

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Arbeli, Z, Garcia-Bonilla, E, Pardo, C, Hidalgo, K, Velásquez, T, Peña, L, Ramos C, E, Avila-Arias, H, Molano-Gonzalez, N, Brandão, PFB & Roldan, F 2016, 'Persistence of pentolite (PETN and TNT) in soil microcosms and microbial enrichment cultures', Environmental Science and Pollution Research, vol. 23, n.º 9, pp. 9144-9155. https://doi.org/10.1007/s11356-016-6133-3

TY - JOUR

T1 - Persistence of pentolite (PETN and TNT) in soil microcosms and microbial enrichment cultures

AU - Arbeli, Ziv

AU - Garcia-Bonilla, Erika

AU - Pardo, Cindy

AU - Hidalgo, Kelly

AU - Velásquez, Trigal

AU - Peña, Luis

AU - Ramos C, Eliana

AU - Avila-Arias, Helena

AU - Molano-Gonzalez, Nicolás

AU - Brandão, Pedro F.B.

AU - Roldan, Fabio

N1 - Funding Information: This work was funded by a grant from INDUMIL (the Colombian Military Industry) and was done under MADS contract No. 151, 2013 and Scientific Research Permit on Biodiversity No. 545 of September 18, 2009, as amended by Resolution No. 450 (15-05-2013). We are grateful to Ira Fogel for his editorial services. The authors have no conflict of interest to declare. Publisher Copyright: © 2016, Springer-Verlag Berlin Heidelberg.

PY - 2016/5/1

Y1 - 2016/5/1

N2 - Pentolite is a mixture (1:1) of 2,4,6-trinitrotoluene (TNT) and pentaerythritol tetranitrate (PETN), and little is known about its fate in the environment. This study was aimed to determine the dissipation of pentolite in soils under laboratory conditions. Microcosm experiments conducted with two soils demonstrated that dissipation rate of PETN was significantly slower than that of TNT. Interestingly, the dissipation of PETN was enhanced by the presence of TNT, while PETN did not enhanced the dissipation of TNT. Pentolite dissipation rate was significantly faster under biostimulation treatment (addition of carbon source) in soil from the artificial wetland, while no such stimulation was observed in soil from detonation field. In addition, the dissipation rate of TNT and PETN in soil from artificial wetland under biostimulation was significantly faster than the equivalent abiotic control, although it seems that non-biological processes might also be important for the dissipation of TNT and PETN. Transformation of PETN was also slower during establishment of enrichment culture using pentolite as the sole nitrogen source. In addition, transformation of these explosives was gradually reduced and practically stopped after the forth cultures transfer (80 days). DGGE analysis of bacterial communities from these cultures indicates that all consortia were dominated by bacteria from the order Burkholderiales and Rhodanobacter. In conclusion, our results suggest that PETN might be more persistent than TNT.

AB - Pentolite is a mixture (1:1) of 2,4,6-trinitrotoluene (TNT) and pentaerythritol tetranitrate (PETN), and little is known about its fate in the environment. This study was aimed to determine the dissipation of pentolite in soils under laboratory conditions. Microcosm experiments conducted with two soils demonstrated that dissipation rate of PETN was significantly slower than that of TNT. Interestingly, the dissipation of PETN was enhanced by the presence of TNT, while PETN did not enhanced the dissipation of TNT. Pentolite dissipation rate was significantly faster under biostimulation treatment (addition of carbon source) in soil from the artificial wetland, while no such stimulation was observed in soil from detonation field. In addition, the dissipation rate of TNT and PETN in soil from artificial wetland under biostimulation was significantly faster than the equivalent abiotic control, although it seems that non-biological processes might also be important for the dissipation of TNT and PETN. Transformation of PETN was also slower during establishment of enrichment culture using pentolite as the sole nitrogen source. In addition, transformation of these explosives was gradually reduced and practically stopped after the forth cultures transfer (80 days). DGGE analysis of bacterial communities from these cultures indicates that all consortia were dominated by bacteria from the order Burkholderiales and Rhodanobacter. In conclusion, our results suggest that PETN might be more persistent than TNT.

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Persistence of pentolite (PETN and TNT) in soil microcosms and microbial enrichment cultures

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