DISSIPATION OF THIAMETHOXAM AND ITS INFLUENCE ON PHENOL LEVELS IN HEDYCHIUM CORONARIUM J. KOENIG

Claudine Gonçalves Rocha, Silvia Cristina Heredia Vieira, Yzel Suarez Rondon, Claudia Andrea Lima Cardoso

Abstract


http://dx.doi.org/10.5902/2179460X17302

The growth of agriculture over natural environments has led to the exposition of several plant species to pesticides without the due knowledge of their effects on the physiology of these organisms. The objective of this study was to evaluate the effect of different levels of thiamethoxam on the levels of total phenols and on the chromatographic profile of Hedychium coronarium leaves and rhizomes. The plants of H. coronarium were exposed to two concentrations of thiamethoxam in a controlled environment with the application of spraying. The pesticide was detected in leaves during the first 26 days of experiment, but not in rhizomes. The levels of thiamethoxam showed an important reduction in the leaves during the experiment. The levels of total phenols were affected by the presence of thiamethoxam. The similarity in the frequency peaks in the chromatographic profile of the leaves and rhizomes showed the influence of the insecticide, in which this influence in rhizomes was more evident in the concentration of 190 mg L-1.


Keywords


Lírio-do-brejo. Inseticid. HPLC.

References


ALMEIDA, R. A.; ALMEIDA, N. A. M. Remoção de coliformes do esgoto por meio de espécies vegetais. Revista Eletrônica de Enfermagem, v.7, p.306-317, 2005.

ALMEIDA, R. DE A.; OLIVEIRA, L. F. C. DE; KLIEMANN, H. J. Eficiência de espécies vegetais na purificação de esgoto sanitário. Pesquisa Agropecuária Tropical, Goiânia, v.37, p. 1-9, 2007.

BARIK, A.; BHATTACHARYA, B.; LASKAR, S. BANERJEE; T.C. The determination of n-alkanes in the cuticular wax of leaves of Ludwigia adscendens L. Phytochemical Analysis, v.15, p.109-11, 2004.

BIERNACKI, M.; LOVETT-DOUST, J. Vallisneria americana (Hydrocharitaceae) as biomonitor of aquatic ecosystems: comparison of cloned genotypes. American Journal of Botany, v.84, p.1743-1751, 1997.

CARVALHO, N. L.; PERLIN, R. S.; COSTA, E. C. Thiamethoxam em tratamento de sementes. Monografias Ambientais, n. 2, p. 158-175, 2011.

CASTRO, N. R. A. Sorção, degradação e lixiviação do inseticida thiamethoxam em latossolo e argissolo. Lavras: UFLA, 2005. 161p. Tese Doutorado.

DAN, L. G. DE M.; DAN, H. DE A.; PICCININ, G. G.; RICCI, T. T.; ORTIZ, L. H. T. Tratamento de sementes com inseticida e a qualidade fisiológica de sementes de soja. Caatinga, v.25, p.45-51, 2012.

DJERIDANE, A., YOSFEI, M., NADJEMI, B, BOUTASSOUNA, D., STOCKER, P.; VIDAL, N. Antioxidant activity of some segerium medicinal plants extracts containing phenolic compounds. Food Chemistry, v.97, p.654-660,. 2006.

EVERARD, P.; DENNY, P. Flux of lead in submerged plants and its relevance to a freshwater system. Aquatic Botany, v.21, p.181-193, 1985.

GUPTA, S.; GAJBHIYE, V. T.; GUPTA, R. K. Effect of ultraviolet and sunlight on persistence of thiamethoxam in soil. Pesticide Resarch Journal, v.18, p.211–214. 2006.

KARMAKAR, R.; KULSHRESTHA, G. Persistence, metabolism and safety evaluation of thiamethoxam in tomato crop. Pest Management Science, v.65, p.931–937, 2009.

KATAGI, T. Photodegradation of pesticides on plant and soil surfaces. Reviews of Environmental Contamination and Toxicology, v.182, p.1–195, 2004.

KIMA, H-J; SHELVER, W. L.; HWANG, E-C; XUA, TING; LI, Q. X. Automated flow fluorescent immunoassay for part per trillion detection of the neonicotinoid insecticide thiamethoxam. Analytica Chimica Acta, v.571, p. 66–73, 2006.

LAMEGO, F. P.; VIDAL, A. V. Fitorremediação: plantas como agentes de despoluição? Pesticidas: Revista de Ecotoxicologia e Meio Ambiente, v.17, p.9-18, 2007.

LIQING, Z.; GUOGUANG, L.; DEZHI, S.; KUN, Y. Hydrolysis of thiamethoxam. Bulletin of Environmental Contamination and Toxicology, v.76, p. 942-949, 2006.

MACEDO, W. R.; CASTRO, P. R. DE C. Thiamethoxam: Molecule moderator of growth, metabolism and production of spring wheat. Pesticide Biochemistry and Physiology, v.100, p.299–304, 2011.

MATSUDA, H.; MORIKAWA, T.; SAKAMOTO, Y.; TOGUCHIDA, I.; YOSHIKAWA, M. Labdane-type diterpenes with Inhibitory effects on Increase in vascular permeability and nitric oxide production from Hedychium coronarium. Bioorganic & Medicinal Chemistry, v.10, p.2527–2534, 2002.

PEÑA, A.; RODRÍGUEZ-LIÉBANA, J. A.; MINGORANCE, M. D. Persistence of two neonicotinoid insecticides in wastewater, and in aqueous solutions of surfactants and dissolved organic matter. Chemosphere, v.84, p.464–470, 2011.

PEREIRA, J. M.; FERNANDES, P. M.; VELOSO, V. R. S. Efeito fisiológico do inseticida thiamethoxam na cultura da cana-de-açúcar. Arquivo do Instituto Biológico, v.1, p. 154-164. 2010.

PERES, L. E. P. Metabolismo secundário. Piracicaba: ESALQ/USP, 2004. p.1-10.

PUSSENTE, I. G. Extração sólido-líquido e partição em baixa temperatura (ESL-PBT) de Clorpiriflós, thiamethoxam e deltramitrina em maça e análise por cromatografia gasosa. Viçosa : UFV, 20083. 62p. Dissertação Mestrado

RANCAN, M.; ROSSI, S.; SABATINI, A. G. Determination of Thiamethoxam residues in honeybees by high performance liquid chromatography with an electrochemical detector and post-column photochemical reactor. Journal of Chromatography, v. 1123, p.60–65, 2006.

R DEVELOPMENT CORE TEAM. R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria, 2011. ISBN 3-900051-07-0. Disponível em:

SANTOS, S. B.; PEDRALLI, G; MEYER, S. T. Aspectos da fenologia e ecologia de Hedychium coronarium (Zingiberaceae) na Estação ecológica do Tripuí, Ouro Preto-MG. Planta Daninha, v.23, p.175-180, 2005.

SCHWARTZ, B. J.; SPARROW, F. K.; HEART, N. E.; THEDE, B. M. Simultaneous, derivatization and trapping of volatile products from aqueous photolysis of thiamethoxam insecticide. Journal Agricultural and Food Chemistry, v.48, p.4671-4675, 2000.

TORRES, F. Z. V. Translocação do inseticida thiamethoxam no floema de mamoeira e cafeeira. Lavras: UFLA, 2009. 105p. Tese Doutorado

TREUTTER, D. Managing Phenol Contents in Crop Plants by Phytochemical Farming and Breeding—Visions and Constraints. International Journal of Molecular Sciences, v.11, p. 807-857, 2010.




DOI: https://doi.org/10.5902/2179460X17302

Copyright (c)



Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

 

DEAR AUTHORS,

PLEASE, CHECK CAREFULLY BEFORE YOUR SUBMISSION:

1. IF ALL AUTHORS "METADATA" (ORCID, LINK TO LATTES, SHORT BIOGRAPHY, AFFILIATION) WERE ADDED,

2. THE CORRECT IDIOM YOUR SECTION,

3 IF THE HIGHLIGHTS WERE ADDED,

4. IF THE GRAPHIC ABSTRACTS WAS ADDED,

5. IF THE REVIEWERS INDICATION WAS DONE,

6. IF THE REFERENCES FORMAT ARE CORRECT(ABNT)

7. IF THE RESOLUTION YOUR FIGURES (600 DPI) ARE SUITABLE

8.  IF THE STATEMENT BY THE ETHICS COMMITTEE (IF IT INVOLVES HUMANS) WAS ADDED;

9. IF THE DECLARATION OF ORIGINALITY WAS ADDED.

10. IF THE TEXT IS ORIGINAL. IF THE IDEA HAS ALREADY BEEN REGISTERED IN SUMMARY FORM, OR PUBLISHED IN CONGRESS ANNUALS, PLEASE INFORM THE EDITOR.