Biochemistry response of Paronychia microphylla Phil., Ambrosia artmisiodes Phil. and Crotón ruizianus Müll. Arg. against mercury for its bioprospecting in phytoremediation
ABSTRACT Mercury (Hg) is one of the most toxic heavy metals, and it is largely used in illegal gold extraction in Peru. We evaluated the tolerance to Hg in Paronychia microphylla Phil, Ambrosia artemisioides Willd and Croton ruizianus Müll. Arg. plants, using controlled concentrations (5, 10 and 80 mg Hg L-1). Two groups were identified according to the antioxidant enzymatic and bioaccumulation response, but the changes in the soluble protein suggest other tolerance mechanisms in the species. P. microphylla has an accumulator performance (BCF = 1.16 at 10 mg Hg L-1); in contrast, C. ruizianus has a exclusor behavior with low BCF and better antioxidant response. In that sense, the concentration of 5 mg Hg L-1 triggers the oxidative stress and increases the levels of malondialdehyde and proline, but when treatment concentration increases there is regulation in the antioxidant system. Among the three species, C. ruizianus Müll. Arg. has the better antioxidant response, but the lower bioaccumulation.
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Universidad de Tarapacá. Facultad de Ciencias Agronómicas
2022
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oai:scielo:S0718-342920220004000912024-03-06Biochemistry response of Paronychia microphylla Phil., Ambrosia artmisiodes Phil. and Crotón ruizianus Müll. Arg. against mercury for its bioprospecting in phytoremediationVilca Tisnado,Helen KimberlyDelgado Osorio,Melissa KarolynRomero Vargas,Frey FranciscoMestas Valdivia,Bertha RoxanaQuipuscoa Silwstre,VictorLima Coasaca,RaúlPortilla Llerena,Juan PabloNavarro Oviedo,Ronald Demetrio Bioaccumulation heavy metal mercury antioxidant enzymes tolerance ABSTRACT Mercury (Hg) is one of the most toxic heavy metals, and it is largely used in illegal gold extraction in Peru. We evaluated the tolerance to Hg in Paronychia microphylla Phil, Ambrosia artemisioides Willd and Croton ruizianus Müll. Arg. plants, using controlled concentrations (5, 10 and 80 mg Hg L-1). Two groups were identified according to the antioxidant enzymatic and bioaccumulation response, but the changes in the soluble protein suggest other tolerance mechanisms in the species. P. microphylla has an accumulator performance (BCF = 1.16 at 10 mg Hg L-1); in contrast, C. ruizianus has a exclusor behavior with low BCF and better antioxidant response. In that sense, the concentration of 5 mg Hg L-1 triggers the oxidative stress and increases the levels of malondialdehyde and proline, but when treatment concentration increases there is regulation in the antioxidant system. Among the three species, C. ruizianus Müll. Arg. has the better antioxidant response, but the lower bioaccumulation.info:eu-repo/semantics/openAccessUniversidad de Tarapacá. Facultad de Ciencias AgronómicasIdesia (Arica) v.40 n.4 20222022-12-01text/htmlhttp://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-34292022000400091en10.4067/S0718-34292022000400091 |
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Vilca Tisnado,Helen Kimberly Delgado Osorio,Melissa Karolyn Romero Vargas,Frey Francisco Mestas Valdivia,Bertha Roxana Quipuscoa Silwstre,Victor Lima Coasaca,Raúl Portilla Llerena,Juan Pablo Navarro Oviedo,Ronald Demetrio |
| spellingShingle |
Vilca Tisnado,Helen Kimberly Delgado Osorio,Melissa Karolyn Romero Vargas,Frey Francisco Mestas Valdivia,Bertha Roxana Quipuscoa Silwstre,Victor Lima Coasaca,Raúl Portilla Llerena,Juan Pablo Navarro Oviedo,Ronald Demetrio Biochemistry response of Paronychia microphylla Phil., Ambrosia artmisiodes Phil. and Crotón ruizianus Müll. Arg. against mercury for its bioprospecting in phytoremediation |
| author_facet |
Vilca Tisnado,Helen Kimberly Delgado Osorio,Melissa Karolyn Romero Vargas,Frey Francisco Mestas Valdivia,Bertha Roxana Quipuscoa Silwstre,Victor Lima Coasaca,Raúl Portilla Llerena,Juan Pablo Navarro Oviedo,Ronald Demetrio |
| author_sort |
Vilca Tisnado,Helen Kimberly |
| title |
Biochemistry response of Paronychia microphylla Phil., Ambrosia artmisiodes Phil. and Crotón ruizianus Müll. Arg. against mercury for its bioprospecting in phytoremediation |
| title_short |
Biochemistry response of Paronychia microphylla Phil., Ambrosia artmisiodes Phil. and Crotón ruizianus Müll. Arg. against mercury for its bioprospecting in phytoremediation |
| title_full |
Biochemistry response of Paronychia microphylla Phil., Ambrosia artmisiodes Phil. and Crotón ruizianus Müll. Arg. against mercury for its bioprospecting in phytoremediation |
| title_fullStr |
Biochemistry response of Paronychia microphylla Phil., Ambrosia artmisiodes Phil. and Crotón ruizianus Müll. Arg. against mercury for its bioprospecting in phytoremediation |
| title_full_unstemmed |
Biochemistry response of Paronychia microphylla Phil., Ambrosia artmisiodes Phil. and Crotón ruizianus Müll. Arg. against mercury for its bioprospecting in phytoremediation |
| title_sort |
biochemistry response of paronychia microphylla phil., ambrosia artmisiodes phil. and crotón ruizianus müll. arg. against mercury for its bioprospecting in phytoremediation |
| description |
ABSTRACT Mercury (Hg) is one of the most toxic heavy metals, and it is largely used in illegal gold extraction in Peru. We evaluated the tolerance to Hg in Paronychia microphylla Phil, Ambrosia artemisioides Willd and Croton ruizianus Müll. Arg. plants, using controlled concentrations (5, 10 and 80 mg Hg L-1). Two groups were identified according to the antioxidant enzymatic and bioaccumulation response, but the changes in the soluble protein suggest other tolerance mechanisms in the species. P. microphylla has an accumulator performance (BCF = 1.16 at 10 mg Hg L-1); in contrast, C. ruizianus has a exclusor behavior with low BCF and better antioxidant response. In that sense, the concentration of 5 mg Hg L-1 triggers the oxidative stress and increases the levels of malondialdehyde and proline, but when treatment concentration increases there is regulation in the antioxidant system. Among the three species, C. ruizianus Müll. Arg. has the better antioxidant response, but the lower bioaccumulation. |
| publisher |
Universidad de Tarapacá. Facultad de Ciencias Agronómicas |
| publishDate |
2022 |
| url |
http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-34292022000400091 |
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