Glyphosate Resistance in Weed Biotypes (Paspalumpaniculatum L.) in the Costa Rican Caribbean Region
DOI:
https://doi.org/10.15359/ru.30-2.6Keywords:
Glyphosate, weeds, resistance, Poaceae.Abstract
In order to determine the level of resistance , the growth response to increasing doses of glyphosate herbicide in biotypes of Paspalumpaniculatum (Poaceae) weed was studied in a Tambor de Alajuela greenhouse during the years 2012 and 2013. The Paspalum biotypes plants came from hearts of palm (pejibaye), conventional and organic banana farms at the Province of Limon, and from roadsides in Heredia and Guanacaste Provinces of Costa Rica. Plants were sprayed with increasing doses of glyphosate, harvested and their fresh weight was measured 21 days after treatment. In farms of conventional production of pejibaye and banana with over 12 years of applying glyphosate as a unique method of weed control, we found three (R) glyphosate-resistant biotypes, they need from 2.0 to 8.3 times more herbicide to suffer a reduction of 50% growth with respect to susceptible biotypes (S). S biotypes came from an organic banana farm and the roadsides, where the use of glyphosate was null or minimum.
References
Alarcón-Reverte, R., García, A., Watson, S., Abdallah, I., Sabaté, S., Hernández, M. J., Dayan, F. E. y Fischer, A. (2014). Concerted action of target-site mutations and hoghEPSPS activity in glyphosate-resistant junglkerice (Echinochloacolona) from California. Pest Management Science. Recuperado de https://www.researchgate.net/publication/264968558_Concerted_action_of_targetsite_mutations_and_high_EPSPS_activity_in_glyphosateresistant_junglerice_%28Echinochloa_colona%29_from_California
Brenes, S. y Agüero, R. (2007). Reconocimiento taxonómico de arvenses y descripción de su manejo, en cuatro fincas productoras de piña (Ananascomosus L.) en Costa Rica. Agronomía Mesoamericana, 18(2), 239-246.
Carvalho de, L. B., Da Costa Aguiar Alves P. L., González-Torralva, H. E. Cruz-Hipolito, A. M. Rojano-Delgado, R. de Prado J. Gil-Humanes, F., Barro, M. D., Luque de Castro. (2012). Pool of Resistance Mechanisms to Glyphosate in Digitariainsularis. Journal of Agric. and Food Chem, 60, 615-622.
Dinelli, G., Marotti, I., Bonetti, A., P. Catizone, Urbano, J., y Barnes, J. (2008). Physiological and molecular bases of glyphosate resistance in Conyzabonariensis biotypes from Spain. Weed Research, 48, 257-265.
Duke, S. y Powles, S. (2008). Glyphosate: A once-in-a-century herbicide. Pest Management Science 64, 319-325.
Espinoza, N., Díaz, J., Galdames, R., De Prado, R., Rodríguez, C. y Ruiz, E. (2009). Estrategias de manejo de malezas gramíneas resistentes a herbicidas en trigo y otros cultivos extensivos en el sur de Chile. In N. Espinoza (ed.), Seminario Internacional “Diagnóstico y Manejo de la Resistencia a Herbicidas”. Instituto Nacional de Investigación Agropecuaria, Serie de Actas de INIA Nº 44, Chile, pp. 92-105.
Fisher, A. J. (2013). Resistencia a herbicidas: Mecanismos y mitigación. Revista Especial de Malezas 29, 13-19.
Gargiullo, M., Magnuson, B., y Kimball, L. (2008). A Field Guide to Plants of Costa Rica. Zona Tropical publication. Oxford University Press. China.
Gómez, C. (2009). Mecanismos de resistencia de Partheniumhysterophorus L. a glifosato, Valle del Cauca, Colombia (Tesis de doctorado), Universidad Nacional de Colombia, Bogotá.
Heap, I. (2015). Glycines Resistant Weeds.International Survey of Resistant Weeds.Consultado el 12 de enero 2015, Recuperado de http://www.weedscience.org/Summary/UspeciesMOA.asp?lstMOAID=12
International Agency for Research in Cancer. (IARC). (2015). Evaluation of five organophosphate insecticides and herbicides. IARC Monographs Vol. 112. Lyon, France, 20 March 2015.
Jasieniuk, M., Ahmad, R., Sherwood, A., Firestone, J., Perez-Jones, A., Lanini, T., Mallory-Smith, C. y Stednick, Z. (2008). Glyphosate-Resistant Italian Ryegrass (Loliummultiflorum) in California: Distribution, Response to Glyphosate, and Molecular Evidence for an Altered Target Enzyme. Weed Science, 56, 496-502.
Kaundun, S. S., Dale, R. P., Zelaya, I. A., Dinelli, G., Marotti, I., McIndoe, E. y Cairns. A. (2011). A Novel P106L Mutation in EPSPS and an Unknown Mechanism(s) Act Additively To Confer Resistance to Glyphosate in a South African Loliumrigidum Population. Journal of Agricultural and Food Chemistry 59, 3227-3233.
Kaundun, S. S., Zelaya, I. A., Dale, R. P., Lycett, A. J., Carter, P., Sharpies K. R. y McIndoe, E. (2008). Importance of the P106S target-site mutation in conferring resistance to glyphosate in a goosegrass (Eleusineindica) population from the Philippines. Weed Science, 56, 637-646.
Lee, L. J y Ngim, J. (2000). A first report of glyphosate-resistant goosegrass (Eleusineindica (L) Gaertn) in Malaysia. Pest ManagSc, 56, 336-339.
Mortensen, D. A., Bastiaans, L. y Sattin, M. (2000).The role of ecology in the development of weed management systems: An outlook. Weed Research, 40, 49-62.
Nandula, V. K. (2010). Herbicide resistance: Definitions and concepts. In V. K. Nandula (Ed.), Glyphosate Resistance in Crops and Weeds: History, Development, and Management (pp 35-43). Hoboken, New Jersey: John Wiley and Sons.
Neve, P., Diggle, A. J., Smith, F. P., y Powles, S. B. (2003). Simulating evolution of glyphosate resistance in Loliumrigidum. I. Population biology of a rare resistance trait. Weed Research, 43, 404-417.
Ng, C. H., Wickneswari, R., Salmijah, S., Teng, Y. T. y Ismail, B. S. (2003). Gene polymorphisms in glyphosate-resistant and –susceptible biotypes of Eleusineindica from Malaysia. Weed Research, 43, 108–115.
Pacific Island Ecosystems at Risk (PIER). (2014). Paspalumpaniculatum. Consultado el 02 de mayo 2014. En: http://www.hear.org/pier/species/paspalum_paniculatum.htm
Perez, A. y Kogan, M. (2003). Glyphosate-resistant Loliummultiflorum in Chilean orchards. Weed Research Oxford, 43(1), 12-19.
Perez-Jones, A.; Park, K., Polge, N.; Colquhoun, J.; Mallory-Smith, C. (2007). Investigating the Mechanisms of Glyphosate Resistance in Loliummultiflorum. Planta, 226, 395-404.
Powles, S. B., Lorraine-Colwill, D. F., Dellow, J. J. y Preston, C. (1998). Evolved resistance to glyphosate in rigid ryegrass (Loliumrigidum) in Australia. Weed Science, 46, 604-607.
Powles, S. B. y Preston, C. (2006). Evolved glyphosate resistance in plants: Biochemical and genetic basis of resistance. Weed Technol, 20, 282–289.
Powles, S. B. y Yu, Q. (2010). Evolution in action: Plants resistant to herbicides. Annu Rev Plant Biol, 61, 317-347.
Pratley, J; Baines, P., Eberbach, P,.Incerti, M., y Broster, J. (1996). Glyphosate resistance in annual ryegrass, En J. Virgona y D. Michalk (Edit.), Proceedings of bthe (p. 126). 11th Annual Conference of the Grasslands Society of New South Wales, WaggaWagga, Australia.
Preston, C., Wakelin A. M., Dolman, F. C., Bostaman, Y. y Boutsalis, P. (2009). A decade of glyphosate-resistant Lolium around the worl: Mechanisms, genes, fitness and agronomic management. Weed Science, 57, 435-441.
Preston, C. y Wakelin, A. M. (2008). Resistance to glyphosate from altered herbicide trnslocation patterns. Pest Management Science, 64, 372-376.
R. Core Team (2013). R: A language and environment for statistical computing. R FoundationforStatistical Computing, Vienna, Austria. Consultado el 3 de junio 2013. Recuperado de http://www.R-project.org/.
Ramírez, F., Chaverri, F., de la Cruz, E., Wesseling, C., Castillo, L., Bravo, V. (2009). Importación de plaguicidas en Costa Rica. Periodo 1977–2006. En Serie Informes Técnicos N.° 6 (p. 58). Instituto Regional de Estudios en Sustancias Tóxicas, Universidad Nacional de Costa Rica.
Riar, D., Norsworthy, J., Johnson D, Scott, R. y Bagavathiannan, M. (2011). Glyphosate Resistance in a Johnsongrass (Sorghum halepense) Biotype from Arkansas. Weed Science, 59, 299-304.
Seefeldt, S. S; Jensen, J. E. y Fuerst, E. P. (april-june, 1995). Log-Logistic analysis of herbicide dose response relationships. Weed Technology, 9(2), 218-227.
SEPSA. (2014). Boletín Estadístico Agropecuario N.º 24, serie Cronológica 2010-2013. Departamento de Comunicaciones Agrícolas Ministerio de Agricultura y Ganadería (MAG). San José, Costa Rica. Recuperado de http://www.infoagro.go.cr/BEA/BEA24.pdf
SFE. (2014a). Centro de Consulta de Insumos. Recuperado dehttps://www.sfe.go.cr/insumosys/Principal.htm Consultado el 01 de agosto 2014.
SFE. (2014b). Importación de plaguicidas en Costa Rica. Recuperado dehttps://www.sfe.go.cr/perfiles/importacion/importacion_agroquimicos_equipos.html
Valverde, B. y Gressel, J. (2006). Dealing with the evolution and spread of Sorghum halepense glyphosate resistance in Argentina. Consultoría para SENASA, Argentina. Recuperado de http://www.weedscience.org/paper/Johnsongrass%20Glyphosate%20Report.pdf
Valverde, B. E. (2010). Glyphosate Resistance in Latin America. In V. K. Nandula (Ed.) Glyphosate Resistance in Crops and Weeds, History (pp. 249-280). Development and Management. Hoboken, New Jersey: John Wiley and Sons.
Vega de la, M. (2013). Resistencia de malezas a herbicidas. Revista Especial de Malezas 29, 29-34. Universidad Nacional de Tucumán, Argentina.
Wakelin, A. M., Lorraine-Colwill, D. F. y Preston, C. (2004). Glyphosate resistance in four different populations of Loliumrigidumis associated with reducetraslocation of glyphosate to meristematic zones. Weed Res 44, 453-459.
Woodburn, A. (2000). Glyphosate production, pricing and use worldwide. Pest Manag Sci. 56, 309-312.
Yanniccari, M. E., Istilart, M. C. y Gimenez, D. O. (2009). Evaluación de la resistencia a glifosato de una población de Lolium perenne del sur de la provincia de Buenos Aires. En Universidad Técnica de Lisboa (Ed.), Herbología e Biodiversida de Numa Agricultura Sustentavel (Vol. 2, pp. 521-524). XII Congreso de Sociedad Española de Malherbología (SEMh), XIX Congreso de la Asociación Latinoamericana de Malezas (ALAM), II Congreso Ibérico de Ciencias de las Malezas (IBCM). Lisboa, Portugal.
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