Comparison of platinum, rhodium, and palladium bioaccumulation by Sinapis alba and their influence on phytochelatin synthesis in plant tissues

• Autorzy: Kinska K. , Kowalska J.
• Języki publikacji: EN

Abstrakty

EN

Phytochelatins are known to play an essential role in xenobiotic detoxification in some plants. Until now, their synthesis in plants exposed to platinum group elements (PGEs), especially Pd and Rh, has not been directly proven. The influence of PGEs on the natural environment, especially on living organisms, is particularly important in view of increasing emissions of these elements from automotive catalytic converters. This paper describes studies related to the identification of the presence of phytochelatins in tissues of white mustard (Sinapis alba L.) exposed to Pt, Rh, and Pd salts. Phytochelatins were identified by high-performance liquid chromatography with two types of detection: fluorescence (FLD) for thiols after derivatization, and electrospray ionization mass spectrometry (ESI MS) for thiols in fresh extracts. Our study confirmed the synthesis of phytochelatins in some plant organs under the influence of PGEs, and illustrated the differences in plant response to stress caused by Pt, Rh, or Pd.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2019
• Tom: 28
• Numer: 3
• Opis fizyczny: p.1735-1740,fig.,ref.

Twórcy

autor

Kinska K.

• Faculty of Chemistry, University of Warsaw, Pasteura 1, 02-093, Warsaw, Poland

autor

Kowalska J.

• Faculty of Chemistry, University of Warsaw, Pasteura 1, 02-093, Warsaw, Poland

Bibliografia

• 1. RUCHTER N., SURES B. Distribution of platinum and other traffic related metals in sediments and clams (Corbicula sp.). Water Res 70, 313, 2015.
• 2. WANG Y., LI X. Health Risk of Platinum Group Elements from Automobile Catalysts. Procedia Eng 45, 1004, 2012.
• 3. SOBROVA P., ZEHNALEK J., ADAM V., BEKLOVA M., KIZEK R. The effects on soil/water/plant/animal systems by platinum group elements. Cent Eur J Chem 10, 1369, 2012.
• 4. LEOPOLD K., WÖRLE K., SCHINDL R., HUBER L., MAIER M., SCHUSTER M. Determination of traffic-related palladium in tunnel dust and roadside soil. Sci Total Environ 583, 169, 2017.
• 5. WISEMAN C.L.S., HASSAN POUR Z., ZEREINI F. Platinum group element and cerium concentrations in roadside environments in Toronto, Canada. Chemosphere 145, 61, 2016.
• 6. LYUBOMIROVA V., DJINGOVA R. Accumulation and Distribution of Pt and Pd in Roadside Dust, Soil and Vegetation in Bulgaria. In, Platinum Metals in the Environment, 243, Springer, Berlin, Heidelberg, 2015.
• 7. SPADA N., BOZLAKER A., CHELLAM S. Multielemental characterization of tunnel and road dusts in Houston, Texas using dynamic reaction cell-quadrupole-inductively coupled plasma–mass spectrometry: Evidence for the release of platinum group and anthropogenic metals from motor vehicles. Anal Chim Acta 735, 1, 2012.
• 8. ZHITENKO L.P., KISELEVA I.N., KHOMUTOVA E.G. Methods for studying anthropogenic environmental pollution with platinum group metals (Review). Inorg Mater 52, 1370, 2016.
• 9. ZEREINI F., WISEMAN C.L.S., VANG M., ALBERS P., SCHNEIDER W., SCHINDL R., LEOPOLD K. Geochemical behaviour of palladium in soils and Pd/PdO model substances in the presence of the organic complexing agents L-methionine and citric acid. Environ Sci Process Impacts 18, 22, 2016.
• 10. GAWROŃSKA H., PRZYBYSZ A., SZALACHA E., PAWLAK K., BRAMA K., MISZCZAK A., STANKIEWICZ-KOSYL M., GAWROŃSKI S.W. Platinum uptake, distribution and toxicity in Arabidopsis thaliana L. plants. Ecotoxicol Environ Saf 147, 982, 2018.
• 11. RONCHINI M., CHERCHI L., CANTAMESSA S., LANFRANCHI M., VIANELLI A., GEROLA P., BERTA G., FUMAGALLI A. Palladium uptake by Pisum sativum: partitioning and effects on growth and reproduction. Environ Sci Pollut Res 22, 7600, 2015.
• 12. PAWLAK J., ŁODYGA-CHRUŚCIŃSKA E., CHRUSTOWICZ J. Fate of platinum metals in the environment. J Trace Elem Med Biol 28, 247, 2014.
• 13. NOVO L.A.B., ONISHI V.C., BERNARDINO C.A.R., DA SILVA E.F. Metal Bioaccumulation by Plants in Roadside Soils: Perspectives for Bioindication and Phytoremediation. In, Enhancing Cleanup of Environmental Pollutants, 215, Springer, Cham, 2017.
• 14. ALMÉCIJA C., COBELO-GARCÍA A., SANTOS-ECHEANDÍA J., CAETANO M. Platinum in salt marsh sediments: Behavior and plant uptake. Mar Chem 185, 91, 2016.
• 15. FEICHTMEIER N., LEOPOLD K. Bioavailability of Platinum Group Elements to Plants - A Review. In, Platinum Metals in the Environment, 311, Springer, Berlin, Heidelberg, 2015.
• 16. SCHÄFER J., HANNKER D., ECKHARDT J-D., STÜBEN D. Uptake of traffic-related heavy metals and platinum group elements (PGE) by plants. Sci Total Environ 215, 59, 1998.
• 17. EMAMVERDIAN A., DING Y., MOKHBERDORAN F., XIE Y. Heavy Metal Stress and Some Mechanisms of Plant Defense Response. Sci World J 2015, 1, 2015.
• 18. HASAN M.K., CHENG Y., KANWAR M.K., CHU X-Y., AHAMMED G.J., QI Z-Y. Responses of Plant Proteins to Heavy Metal Stress - A Review. Front Plant Sci 8 (1492), 1, 2017.
• 19. RAJEWSKA I., TALAREK M., BAJGUZ A. Brassinosteroids and Response of Plants to Heavy Metals Action. Front Plant Sci 7 (629), 1, 2016.
• 20. RODRIGO M.A.M., ANJUM N.A., HEGER Z., ZITKA O., VOJTECH A., PEREIRA E., KIZEK R. Role of Phytochelatins in Redox Caused Stress in Plants and Animals, Abiotic and Biotic Stress in Plants - Recent Advances and Future Perspectives, InTech, 395, 2016.
• 21. KOWALSKA J., KIŃSKA K., SADOWSKA M., BIESAGA M., KRASNODĘBSKA-OSTRĘGA B. The role of phytochelatins in Sinapis alba L. response to stress caused by two toxic elements As and Tl. Int J Environ Anal Chem 95, 1148, 2015.
• 22. NGUYEN X-V., LE-HO K-H., PAPENBROCK J. Phytochelatin 2 accumulates in roots of the seagrass Enhalus acoroides collected from sediment highly contaminated with lead. BioMetals 30, 249, 2017.
• 23. MIKULASKOVA H., MERLOS M.A.R., ZITKA O., KOMINKOVA M., HYNEK D., ADAM V., BEKLOVA M., KIZEK R. Employment of Electrochemical Methods for Assessment of the Maize (Zea mays L.) and Pea (Pisum sativum L.) Response to Treatment with Platinum(IV). Int J Electrochem Sci 8, 4505, 2013.
• 24. KOWALSKA J., KIŃSKA K., BIESAGA M., ASZTEMBORSKA M. Application of selective extraction and reverse phase chromatography with three detectors – PAD, FLD and ESI MS for characterization of platinum metabolites and identification of phytochelatins in Sinapis alba L. tissues. Microchem J 132, 198, 2017.
• 25. LEŚNIEWSKA B.A., MESSERSCHMIDT J., JAKUBOWSKI N., HULANICKI A. Bioaccumulation of platinum group elements and characterization of their species in Lolium multiflorum by size-exclusion chromatography coupled with ICP-MS. Sci Total Environ 322, 95, 2004.
• 26. JEDYNAK L., KOWALSKA J. Stability of arsenic species in hydroponic media and its influence on arsenic uptake and distribution in White mustard (Sinapis alba L.). Microchem J 98, 163, 2011.
• 27. BLUEMLEIN K., RAAB A., MEHARG A.A., CHARNOCK J.M., FELDMANN J. Can we trust mass spectrometry for determination of arsenic peptides in plants: comparison of LC–ICP–MS and LC–ES-MS/ICP–MS with XANES/EXAFS in analysis of Thunbergia alata. Anal Bioanal Chem 390, 1739, 2008.
• 28. KRASNODĘBSKA-OSTRĘGA B., SADOWSKA M., OSTROWSKA S. Thallium speciation in plant tissues - Tl(III) found in Sinapis alba L. grown in soil polluted with tailing sediment containing thallium minerals. Talanta 93, 326, 2012.
• 29. MAZUR R., SADOWSKA M., KOWALEWSKA Ł., ABRATOWSKA A., KALAJI H.M., MOSTOWSKA A., GARSTKA M., KRASNODĘBSKA-OSTRĘGA B. Overlapping toxic effect of long term thallium exposure on white mustard (Sinapis alba L.) photosynthetic activity. BMC Plant Biol 16 (191), 1, 2016.
• 30. SADOWSKA M., BIADUŃ E., KRASNODĘBSKA-OSTRĘGA B. Stability of Tl(III) in the context of speciation analysis of thallium in plants. Chemosphere 144, 1216, 2016.

Identyfikatory

DOI

10.15244/pjoes/89507