Chemical effect of pesticide application on soils: evidence from rare earth elements
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The main objective of this study is to investigate the distribution of rare earth elements (REEs) in Lolium perenne L. plant species which has been grown on vineyard soils treated with pesticide commonly used in the study area. These plants have been grown on two types of soils: (1) brown calcareous soils developed on loess and (2) brown to calcic brown soils developed on conglomerates. The significant correlation observed between the concentrations of phosphorus and the total amount of REEs, in addition to the enrichment in middle REEs (MREEs), suggests the complexation of REEs with phosphates and organic matter. The soils were enriched in REEs due to pesticide application but the plants were depleted. The ratio of REEs in plant over REEs in soil before application of pesticides is higher than that after application of pesticides. Application of pesticides to crops did not affect the fractionation of REEs neither in leaves nor in roots. No selectivity in uptake of REEs occurred because of pesticides except for Ce and Eu which show a negative anomaly relative to the other REEs.
KeywordsRare earth elements Fractionation Grass Soil Pesticides
The authors wish to thank the Agricultural and Viticulture College of Rouffach, the farmers of the Hohrain domain, Rouffach (France), and F. Huber, A. Aubert, and J.L. Cézard from the mineralogy laboratory of LHYGES. The authors would also like to thank the anonymous reviewer for his constructive comments.
This research was funded by the Research Program EC2CO (CNRS-INSU).
- Aide MT, Aide C (2012) Rare earth elements: their importance in understanding soil genesis. ISRN Soil Science. 2012, 11 pagesGoogle Scholar
- Babcsányi I, Imfeld G, Duplay J, Chabaux F (Paper in preparation) Copper stable isotopes to evaluate copper in soils and runoff in vineyardsGoogle Scholar
- Bhupander K, Richa G, Gargi G, Meenu M, Kumar SS, Dev P, Sanjay K, Sekhar SC (2011) Residues of pesticides and herbicides in soils from agriculture areas of Delhi Region, India. J Environ Earth Sci 1(2) 9 pagesGoogle Scholar
- Carlos G, Joaquin Ramos-Miras J, Rodríguez Martín JA, Boluda R, Roca N, Bech Jaume (2013) EGU general assembly 2013, held 7-12 April, in Vienna, Austria, id EGU2013–7419Google Scholar
- Hughes JM (1994) Refinement of the structure of gagarinite-(Y)Na, (Cax,REEx-2) F6. Can Mineral 32:563–565Google Scholar
- IUSS Working Group WRB (2006) World reference base for soil resources. World Soil Resources Reports. FAO, Rome, p 103Google Scholar
- Lepland A, Arrhenius G, Cornell CD (2002) Apatite in early Archean Isua supracrustal rocks, southern West Greenland: its origin, association with graphite and potential as a biomarker. Precambrian Res 118(2002):221/241Google Scholar
- Lima e Cunha MC, Pereira VP, Stoll Nardi LV, Bastos Neto AC, Vedana LA, Formoso MLL (2012) REE distribution pattern in plants and soils from Pitinga Mine—Amazon, Brazil. Open J Geol 2:253–259Google Scholar
- Matini L, Ossebi JG, MBedi R, Moutou JM (2012) Rare earth elements in soil on spoil heap of an abandoned lead ore treatment plant in the District of Mfouati, Congo-Brazzaville. Int Res J Environ Sci 1(2):33–40Google Scholar
- Samuel J, Rouault R, Besnus Y (1985) Standardized multi-element analysis of geological material by inductively coupled plasma atomic emission spectrometry and mass spectrometry. Analusis 13:312–317Google Scholar
- Spanoghe P, Maes A, Steurbaut W (2004) Limitation of point source pesticide pollution: results of bioremediation system. Commun Agric Appl Biol Sci 69(4):719–732Google Scholar
- Squier TC, Bigelow DJ, Fernandez-Belde FJ et al (1990) Calcium and lanthanide binding in the sarcoplasmic reticulum ATPase. J Biol Chem 265(23):13713–13720Google Scholar
- Tournebize J (2001) Impact of grass cover in Alsacian vineyard on nitrate transfer. MSc Thesis, Louis Pasteur University, Strasbourg, FranceGoogle Scholar
- Tricca A, Stille P, Steinmann M, Kiefel B, Samuel J, Eikenberg J (1998) Rare earth elements and Sr and Nd isotopic compositions of dissolved and suspended loads from small river systems in the Vosges Mountains (France), the River Rhine and groundwater. Chem Geol 160(1):139–158Google Scholar
- Wang Z, Lu P, Liu D (1997) Initial assessment of the effects of rare earth elements on soil intigrity. In Guicherit R, Zhu W (eds) Proc. of the 2nd Sino–Dutch Workshop on the Environ. Behavior and Ecotoxicology of Rare Earth Elements and Heavy Metals. Oct.. TNO Publ., La Delft, the Netherlands, p 1–5Google Scholar
- Zaharescu DG, Burghelea CI, Dontsova K, Presler JK, Maier RM, Huxman T, Domanik KJ, Hunt EA, Amistadi MK, Gaddis EE, Palacios-Menendez MA, Vaquera-Ibarra MO and Chorover J (2017) Ecosystem Composition Controls the Fate of Rare Earth Elements during Incipient Soil Genesis. Sci Rep. 7: 43208. https://doi.org/10.1038/srep43208