Referencias

1. Achiorno, C. L., Villalobos, C. de, & Ferrari, L. (2008). Toxicity of the herbicide glyphosate to Chordodes nobilii (Gordiida, Nematomorpha). Chemosphere, 71, 1816–1822. Doi : 10.1016/J.CHEMOSPHERE.2008.02.001
2. Bai, S. H., & Ogbourne, S. M. (2016). Glyphosate: environmental contamination, toxicity and potential risks to human health via food contamination. Environmental Science and Pollution Research, 23, 18988–19001. Doi :10.1007/s11356-016-7425-3
3. Birch, H., Mikkelsen, P. S., Jensen, J. K., & Lützhøft, H.-C. H. (2011). Micropollutants in stormwater runoff and combined sewer overflow in the Copenhagen area, Denmark. Water Science and Technology : A Journal of the International Association on Water Pollution Research, 64, 485–93. Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/220970247
4. Brahushi, F., Kengara, F. O., Song, Y., Jiang, X., Munch, J. C. and Wang, F. (2017) 'Fate Processes of Chlorobenzenes in Soil and Potential Remediation Strategies: A Review', Pedosphere, 27, 407-420
5. Bricheux, G., Le Moal, G., Hennequin, C., Coffe, G., Donnadieu, F., Portelli, C., Forestier, C. (2013). Characterization and evolution of natural aquatic biofilm communities exposed in vitro to herbicides. Ecotoxicology and Environmental Safety, 88, 126–134. Doi:10.1016/J.ECOENV.2012.11.003
6. Bringolf, R. B., Cope, W. G., Mosher, S., Barnhart, M. C., & Shea, D. (2007). Acute and chronic toxicity of glyphosate compounds to glochidia and juveniles of lampsilis siliquoidea (unionidae). Environmental Toxicology and Chemistry, 26, 2094. Doi:10.1897/06-519R1.1
7. Chekan, J. R., Cogan, D. P., & Nair, S. K. (2016). Molecular basis for resistance against phosphonate antibiotics and herbicides. Med. Chem. Commun., 7, 28–36. Doi:10.1039/C5MD00351B
8. Daouk, S., Copin, P.-J., Rossi, L., Chèvre, N., & Pfeifer, H.-R. (2013). Dynamics and environmental risk assessment of the herbicide glyphosate and its metabolite AMPA in a small vineyard river of the Lake Geneva catchment. Environmental Toxicology and Chemistry, 32, 2035–2044.Doi:10.1002/etc.2276
9. de Brito Rodrigues, L., de Oliveira, R., Abe, F. R., Brito, L. B., Moura, D. S., Valadares, M. C., de Oliveira, G. A. R. (2017). Ecotoxicological assessment of glyphosate-based herbicides: Effects on different organisms. Environmental Toxicology and Chemistry, 36, 1755–1763. Doi:10.1002/etc.3580
10. Grandcoin, A., Piel, S., & Baurès, E. (2017). AminoMethylPhosphonic acid (AMPA) in natural waters: Its sources, behavior and environmental fate. Water Research, 117, 187–197. https://doi.org/10.1016/J.WATRES.2017.03.055
11. Guilherme, S., Gaivão, I., Santos, M. A., & Pacheco, M. (2009). Tissue specific DNA damage in the European eel (Anguilla anguilla) following a short-term exposure to a glyphosate-based herbicide. Toxicology Letters, 189, S212. Doi:10.1016/J.TOXLET.2009.06.550
12. Kelly, D. W., Poulin, R., Tompkins, D. M., & Townsend, C. R. (2010). Synergistic effects of glyphosate formulation and parasite infection on fish malformations and survival. Journal of Applied Ecology, 47, 498–504.Doi :10.1111/j.1365-2664.2010.01791.x
13. Koch, C. and Sures, B. (2018) 'Environmental concentrations and toxicology of 2,4,6-tribromophenol (TBP)', Environmental Pollution, 233,706-713.
14. Kreutz, L. C., Gil Barcellos, L. J., de Faria Valle, S., de Oliveira Silva, T., Anziliero, D., Davi dos Santos, E., Zanatta, R. (2011). Altered hematological and immunological parameters in silver catfish (Rhamdia quelen) following short term exposure to sublethal concentration of glyphosate. Fish & Shellfish Immunology, 30, 51–57. Doi:10.1016/J.FSI.2010.09.012
15. Li, M.-H., Ruan, L.-Y., Zhou, J.-W., Fu, Y.-H., Jiang, L., Zhao, H., & Wang, J.-S. (2017). Metabolic profiling of goldfish (Carassius auratis) after long-term glyphosate-based herbicide exposure. Aquatic Toxicology, 188, 159–169. Doi:10.1016/J.AQUATOX.2017.05.004
16. Lindhardt, B., Abildtrup, C., Vosgerau, H., Olsen, P., Torp, S., Iversen, B. V, Gravesen, P. (2013). The danish pesticide leaching assessment programme. Site Characterization and monitoring design, Geological survey of Denmark and Greeland.
17. Mamy, L., Barriuso, E., & Gabrielle, B. (2016). Glyphosate fate in soils when arriving in plant residues. Chemosphere, 154, 425–433. Doi:10.1016/j.chemosphere.2016.03.104
18. Maqueda, C., Undabeytia, T., Villaverde, J., & Morillo, E. (2017). Behaviour of glyphosate in a reservoir and the surrounding agricultural soils. Science of the Total Environment, 593–594, 787–795. Doi:10.1016/j.scitotenv.2017.03.202
19. Mistretta, P., & Durkin, P. R. (2011). Human Health and Ecological Risk Assessment. Retrieved from https://www.fs.fed.us/foresthealth/pesticide/pdfs/Glyphosate_SERA_TR-052-22-03b.pdf
20. Monsanto. Backgrounder – Glyphosate and Water Quality. (2014). Retrieved from https://monsanto.com/app/uploads/2017/06/glyphosate-and-water-quality.pdf
21. Moore, D. R. J., Greer, C. D., Manning, G., Wooding, K., Beckett, K. J., Brain, R. A. and Marshall, G. (2017) 'A weight-of-evidence approach for deriving a level of concern for atrazine that is protective of aquatic plant communities', Integrated Environmental Assessment and Management, 13, 686-701.
22. Pavlidis, G. and Tsihrintzis, V. A. (2018) 'Environmental Benefits and Control of Pollution to Surface Water and Groundwater by Agroforestry Systems: a Review', Water Resources Management, 32, 1-29.
23. Pérez, G. L., Torremorell, A., Mugni, H., Rodríguez, P., Solange Vera, M., do Nascimento, M., … Zagarese, H. (2007). Effects of the herbicide Roundup on freshwater microbial communities: a mesocosm study. Ecological Applications : A Publication of the Ecological Society of America, 17, 2310–22. Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/18213971
24. Pizarro, H., Vera, M. S., Vinocur, A., Pérez, G., Ferraro, M., Menéndez Helman, R. J., & dos Santos Afonso, M. (2016). Glyphosate input modifies microbial community structure in clear and turbid freshwater systems. Environmental Science and Pollution Research, 23, 5143–5153.Doi:10.1007/s11356-015-5748-0
25. Prosser, R. S., Rodriguez-Gil, J. L., Solomon, K. R., Sibley, P. K., & Poirier, D. G. (2017). Effects of the herbicide surfactant MON 0818 on oviposition and viability of eggs of the ramshorn snail (Planorbella pilsbryi). Environmental Toxicology and Chemistry, 36, 522–531. Doi:10.1002/etc.3571
26. Rendon-von Osten, J., & Dzul-Caamal, R. (2017). Glyphosate Residues in Groundwater, Drinking Water and Urine of Subsistence Farmers from Intensive Agriculture Localities: A Survey in Hopelchén, Campeche, Mexico. International Journal of Environmental Research and Public Health, 14, 595. Doi:10.3390/ijerph14060595
27. Rodriguez-Gil, J. L., Prosser, R., Hanta, G., Poirier, D., Lissemore, L., Hanson, M., & Solomon, K. R. (2017). Aquatic hazard assessment of MON 0818, a commercial mixture of alkylamine ethoxylates commonly used in glyphosate-containing herbicide formulations. Part 2: Roles of sediment, temperature, and capacity for recovery following a pulsed exposure. Environmental Toxicology and Chemistry, 36, 512–521. Doi:10.1002/etc.3558
28. Roy, N. M., Carneiro, B., & Ochs, J. (2016). Glyphosate induces neurotoxicity in zebrafish. Environmental Toxicology and Pharmacology, 42, 45–54. Doi:10.1016/J.ETAP.2016.01.003
29. Sandrini, J. Z., Rola, R. C., Lopes, F. M., Buffon, H. F., Freitas, M. M., Martins, C. de M. G., & da Rosa, C. E. (2013). Effects of glyphosate on cholinesterase activity of the mussel Perna perna and the fish Danio rerio and Jenynsia multidentata: In vitro studies. Aquatic Toxicology, 130–131, 171–173. Doi:10.1016/J.AQUATOX.2013.01.006
30. Sihtmäe, M., Blinova, I., Künnis-Beres, K., Kanarbik, L., Heinlaan, M., & Kahru, A. (2013). Ecotoxicological effects of different glyphosate formulations. Applied Soil Ecology, 72, 215–224. Doi:10.1016/J.APSOIL.2013.07.005
31. Stachowski-Haberkorn, S., Becker, B., Marie, D., Haberkorn, H., Coroller, L., & de la Broise, D. (2008). Impact of Roundup on the marine microbial community, as shown by an in situ microcosm experiment. Aquatic Toxicology, 89, 232–241. Doi:10.1016/J.AQUATOX.2008.07.004
32. Szarek, J., Siwicki, A., Andrzejewska, A., Terech-Majewska, E., & Banaszkiewicz, T. (2000). Effects of the herbicide RoundupTM on the ultrastructural pattern of hepatocytes in carp (Cyprinus carpio). Marine Environmental Research, 50, 263–266. Doi:10.1016/S0141-1136(00)00088-X
33. Tromas, N., Fortin, N., Bedrani, L., Terrat, Y., Cardoso, P., Bird, D.,Shapiro, B. J. (2017). Characterising and predicting cyanobacterial blooms in an 8-year amplicon sequencing time course. The ISME Journal, 11, 1746–1763. Doi:10.1038/ismej.2017.58
34. Van Bruggen, A. H. C., He, M. M., Shin, K., Mai, V., Jeong, K. C., Finckh, M. R., & Morris, J. G. (2018). Environmental and health effects of the herbicide glyphosate. Science of The Total Environment, 616–617, 255–268. Doi:10.1016/J.SCITOTENV.2017.10.309
35. Wang, C., Lin, X., Li, L., & Lin, S. (2016). Differential growth responses of marine phytoplankton to herbicide glyphosate. PLoS ONE, 11, e0151633. Doi:10.1371/journal.pone.0151633
36. Wang, S., Seiwert, B., Kästner, M., Miltner, A., Schäffer, A., Reemtsma, T., Nowak, K. M. (2016). (Bio)degradation of glyphosate in water-sediment microcosms – A stable isotope co-labeling approach. Water Research, 99, 91–100. Doi:10.1016/J.WATRES.2016.04.041
37. Zhang, C., Hu, X., Luo, J., Wu, Z., Wang, L., Li, B., Sun, G. (2015a). Degradation dynamics of glyphosate in different types of citrus orchard soils in China. Molecules, 20, 1161–1175. Doi:10.3390/molecules20011161
38. Zhang, S., Xu, J., Kuang, X., Li, S., Li, X., Chen, D., Feng, X. (2017). Biological impacts of glyphosate on morphology, embryo biomechanics and larval behavior in zebrafish (Danio rerio). Chemosphere, 181, 270–280. Doi.org/10.1016/J.CHEMOSPHERE.2017.04.094