Abstract
The effect of coffee processing on aquatic insects in three rivers from the Central Valley (Alajuela) of Costa Rica. In Costa Rica one of the greatest sources of organic pollution in the rivers has been the residual material generated from the processing of coffee beans. In this study, the usefulness of aquatic insects as bioindicators is examined in order to measure the effect of spills of coffee processing plants into two rivers of the Central Valley. The study was conducted at three different coffee processing plants at the three most important moments of the harvest, at the beginning, the peak and at the end. On each of the three dates, biological samples were taken 50m up- and 50m down-stream from the point where the coffee processing plants discharge their liquid wastes. The following physical and chemical factors were also measured: DBO, DQO, pH, temperature, fats and oils, sedimentable solids, dissolved oxygen and the discharge of the river. Systematic samples of aquatic insects were taken in order to obtain relative abundance, taxa richness, diversity (Shannon-Wiener), similarity (Bray-Curtis) and biological index B.M.W.P.’ (Biological Monitoring Working Party) adapted for Costa Rica. Physical-chemical results showed a decrease in the amount of dissolved oxygen and in the discharge of the rivers. In addition, in some cases very high values of DBO and DQO were reached as the season advanced; nevertheless, the majority of the measurements taken were within the limits established by the laws of Costa Rica. Populations of insects increased down stream as the season advanced, due mainly to an increase in the density of Chironomus larvae (Diptera) which became the dominant group. At the same time other pollution sensitive taxa diminished or disappeared. This was reflected by decreasing taxonomic richness and a low diversity index. Similarity between samples taken up and down stream was less than half (0,41), and comparing the three main harvest moments, the highest point was very similar to the end of the harvest (0,81) and both were very different from the beginning of the harvest (0,26). According to the modified biological index BMWP’, water quality diminished to category “strongly contaminated” at the highest point of the harvest. The results indicate that there is an important effect on the populations of aquatic insects caused by the period of harvest, which is not necessarily detected by the standard analysis required by law. Therefore we recommend that the fauna of aquatic macroinvertebrates should be included as a mandatory procedure in water quality testing, the capacity of the treatment plants should be evaluated, and the standard limits established by present laws in Costa Rica, should be critically analyzed. Rev. Biol. Trop. 56 (Suppl. 4): 237-256. Epub 2009 June 30.References
Alba-Tercedor, J. & A. Sánchez-Ortega. 1988. Un método rápido y simple para evaluar la calidad biológica de las aguas corrientes basada en el de Hellawell (1978). Limnética 4: 51-56.
Alba-Tercedor, J. 1996. Macroinvertebrados acuáticos y calidad de las aguas de los ríos. IV Simposio del agua en Andalucía (SIAGA), Almeria. Vol. II: 203-213.
Álvarez, J.A. 1996. Utilización de macroinvertebrados acuáticos como indicadores de la calidad del agua, Río Jaba, Cantón de Coto Brus, Costa Rica. Memorias Curso Agroecología, OET 7-96. Organización de Estudios Tropicales, San José, Costa Rica. 105-115.
Astorga, Y. & R.W. Flowers 1997. Desarrollo de un índice biológico para Centro América. Centro de Investigación en Contaminación Acuática, Universidad de Costa Rica. Informe técnico. 29 p.
Astorga, Y. & J.M. Coto 1996. Situación de los recursos hídricos en Costa Rica, pp.127-132. En: J. Reynolds (ed.) Utilización y manejo sostenible de los recursos hídricos. Editorial Fundación UNA, Heredia, Costa Rica.
Carrera, C. & K. Fierro. 2001. Manual de monitoreo. Los macroinvertebrados acuáticos como indicadores de la calidad del agua. EcoCiencia. Quito, Ecuador. 64pp.
Chow, V.T., D. Maidment & L.W. Mays. 1994. Hidrología aplicada. McGraw Hill Interamericana S.A., Bogotá, Colombia. p. 34-36.
Danse, M. & F. Bolaños. 2002. Reconversión del beneficiado de café en procura de la sostenibilidad. Ambientico 101: 10-12.
De la Lanza, G., S. Hernández & J.L. Carbajal (eds.). 2000. Organismos indicadores de la calidad del agua y de la contaminación (Bioindicadores). Plaza y Valdés, México. 663 p.
Fenoglio, S., G. Badino & F. Bona. 2002. Benthic macroinvertebrate communities as indicators of river environment quality: an experience in Nicaragua. Rev. Biol. Trop. 50(3/4): 1125-1131.
Fernández, L. 2002. Uso de los insectos acuáticos como bioindicadores de la calidad de agua de ríos utilizados por beneficios de café en la provincia de Alajuela, Costa Rica. Tesis de Licenciatura en Biología, Universidad de Costa Rica. 69p.
Fiatt, M. 1994. Uso del agua y disposición de aguas residuales en el Beneficio Río Grande. Tesis Ingeniería Civil, Universidad de Costa Rica. San José, Costa Rica. 88p.
Figueres, J. M., H. Weinstock & R. Castro. 1997. Costa Rica. Reglamento de vertido y reuso de aguas residuales. Decreto Ejecutivo 26042-S-MINAE. Diario Oficial La Gaceta 14 de abril de 1997. 24 p.
Hauer, F.R. & W.R. Hill. 1996. Temperature, light and oxygen, p. 93. En: F.R. Hauer & G.A. Lamberti (eds.). Methods in Stream Ecology. Academic Press, Inc. San Diego, California, E.U.A.
Hellawell, J.M. 1978. Biological surveillance of rivers. Water Research Center, Stevenage. 332pp.
Jackson, J.K. & B.W. Sweeney. 1995. Present status and future directions of tropical stream research. J. N. Am. Benthol. Soc. 14(1): 5-11.
Johnson, R., T. Wiederholm, & D. Rosenberg. 1993. Freshwater biomonitoring using individual organisms, populations, and species assemblages of benthic macroinvertebrates, pp. 234-286. En: D.M. Rosenberg & V.H. Resh (eds.). Freshwater biomonitoring and benthic macroinvertebrates. Chapman and Hall, New York.
Krebs, C. J. 1998. Ecological methodology. Benjamin/ Cummings. Menlo Park, Canadá. p. 444.
Mafla Herrera, M. 2005. Guía para evaluaciones ecológicas rápidas con indicadores biológicos en ríos de tamaño mediano, Talamanca, Costa Rica. Serie técnica. Manual Técnico No.61. CATIE, Turrialba, Costa Rica. 90p.
Marques, M.M.G.S.M., F.A.R. Barbosa & M. Callisto. 1999. Distribution and abundance of Chironomidae (Diptera, Insecta) in an impacted watershed in southeast Brazil. Rev. Brasil. Biol. 59(4): 553-561.
Merritt, R.W. & K.W. Cummins (eds.). 1996. An Introduction to the Aquatic Insects of North America. Kendall / Hunt Publ., Dubuque, Iowa. 862p.
Norris, R. & A. Georges. 1993. Analysis and interpretation of benthic macroinvertebrate surveys, pp. 234-286. En: D.M. Rosenberg & V.H. Resh (eds.). Freshwater biomonitoring and benthic macroinvertebrates. Chapman & Hall, Nueva York, E.U.A.
Ospina, R. 1995. Chironomidae (Diptera), pp. 75-84. En: Seminario invertebrados acuáticos y su utilización en estudios ambientales. Editora Guadalupe Ltda. Bogotá, Colombia.
Paaby, P., A. Ramírez & C. Pringle. 1998. The benthic macroinvertebrate community in Caribbean Costa Rican streams and the effect of two sampling methods. Rev. Biol. Trop. 46 Supl.6: 185-199.
Posada, J. A., G. Roldán & J. Ramírez. 2000 Caracterización fisicoquímica y biológica de la calidad de aguas en la cuenca Piedras Blancas, Antioquia, Colombia. Rev. Biol. Trop. 48(1): 59-70.
Pringle, C.M. & F.N. Scatena. 1999. Freshwater Resource Development. Case Studies from Puerto Rico and Costa Rica, pp. 114-121. En: L.U. Hatch & M.E. Swisher (eds.). Managed Ecosystems. The Mesoamerican Experience. Oxford University Press, New York.
Ramírez, A., P. Paaby, C. Pringle & G. Agüero. 1998. Effect of habitat type on benthic macroinvertebrates in two lowland tropical streams, Costa Rica. Rev. Biol. Trop. 46 Supl.6: 201-213.
Roldán, G. 1996. Guía para el estudio de los macroinvertebrados acuáticos del Departamento de Antioquia. Fondo FEN, Medellín, Colombia. 217 p.
Roldán, G. 1997. Macroinvertebrados acuáticos como indicadores de calidad del agua. En: Rincón et al. (eds.). Invertebrados acuáticos y su utilización en estudios ambientales. Memorias. Colombia. 211 p.
Roldan, G. 2003. Bioindicación de la calidad del agua en Colombia. Propuesta para el uso del método BMWP/ Col. Colección Ciencia y Tecnología, Universidad de Antioquia. 170p.
Rosenberg, D. & V. Resh. 1993. Introduction to freshwater biomonitoring and benthic macroinvertebrates, p. 2. En: D.M. Rosenberg & V.H. Resh (eds.). Freshwater biomonitoring and benthic macroinvertebrates. Chapman and Hall. Nueva York, E.U.A.
Rosenberg, D. & V. Resh. 1996. Use of aquatic insects in biomonitoring, pp. 87-97. En: R.W. Merritt & K.W. Cummins (eds.). An Introduction to the Aquatic Insects of North America. Kendall / Hunt Publ., Iowa, E.U.A.
Sandoval, J.C. & I. Molina. 2000. Insectos, pp.405. En: G. De la Lanza, S. Hernández & J.L. Carvajal (eds.). Organismos indicadores de la calidad del agua y de la contaminación (bionindicadores). Plaza y Valdez, S.A. México. 663p
Springer, M. 2008. Aquatic insect diversity of Costa Rica: State of knowledge. Rev. Biol. Trop. 56, Suppl. 56: 291-313.
Vargas, J. 1999. Distribución y morfología de adultos e inmaduros de moscas califóridas (Diptera) de importancia forense en Costa Rica. Tesis de Licenciatura en Biología. Universidad de Costa Rica, Escuela de Biología. San José, Costa Rica. p. 45.
Vázquez, R. 1997. Costa Rica. El beneficiado ecológico del café, pp. 51-64. En: Memorias XVIII Simposio Latinoamericano de Caficultura. IICA / PROMECAFE Editorama. San José, Costa Rica.
Zúñiga, M., A. Rojas & G. Calcedo. 1993. Indicadores ambientales de la calidad de agua en la cuenca del Río Cauca. Revista Ainsa Año XIII (2): 17-28.
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