Modeling annual discharge of six Mexico's northern rivers

Návar, Jose

doi:10.4136/ambi-agua.705

Abstracts

The overall goal of this report was to understand river discharge variability to improve conventional water management practices of Mexico's northern subtropical rivers. This report addresses whether: a) river discharge tendencies, patterns and cycles can be detected with proxy and instrumental records; and b) annual discharge can be forecasted by stochastic models. Eleven gauging stations of six major rivers; three lowland rivers discharging into the Pacific Ocean (Rios Santa Cruz, Acaponeta, and San Pedro); five upland rivers draining into the Pacific Ocean (Rio San Pedro: Peña del Aguila, Refugio Salcido, San Felipe, Vicente Guerrero and Saltito), one river flowing across the interior Basin (Rio Nazas: Salomé Acosta) and two more rivers discharging into the Northern Gulf of Mexico (Rio San Juan: El Cuchillo and Rio Ramos: Pablillos) were statistically analyzed. Instrumental recorded daily discharge data (1940-1999) and reconstructed time series data (1860-1940) using dendrochronological analysis delivered annual discharge data to be modeled using autoregressive integrated moving average, ARIMA models. Spectral density analysis, autocorrelation functions and the standardized annual discharge data evaluated annual discharge frequency cycles. Results showed ARIMA models with two autoregressive and one moving average coefficient adequately project river discharge for all gauging stations with four of them showing significant declining patterns since 1860. ARIMA models in combination with autocorrelation and spectral density techniques as well as standardized departures, in agreement with present (2002-2010) observations, forecast a wet episode that may last between 9 and 12 years thereafter entering again into a dry episode. Three dry-wet spell cycles with different time scales (1-2 years; 4-7 years; 9-12 years) could be discerned from these analyses that are consistent for all three northern Mexico's river clusters that emerged from a multivariate analysis test.

Cycles; patterns; tendencies; spectral density; drought and wet episodes

O objetivo geral deste trabalho foi a modelagem da variabilidade da vazão de rios para melhorar a gestão convencional das águas dos rios subtropicais do norte do México. Este artigo abordou as seguintes hipóteses: a) tendências das vazões do rio, padrões e ciclos podem ser detectados com base em registros de dados simulados e de instrumentos, e b) vazão anual pode ser prevista por modelos estocásticos. Onze estações hidrométricas de seis grandes rios; três rios de planície que drenam diretamente para o Oceano Pacífico (Rios Santa Cruz, Acaponeta, e San Pedro), cinco localizados nos trechos superiores desses rios (Rio San Pedro: Peña del Aguila, Refugio Salcido, San Felipe, Vicente Guerrero e Saltito) que drenam para bacia interior (Río Nazas: Salomé Acosta) e os dois últimos que drenam para o norte do Golfo México (Rio San Juan: El Cuchillo e Rio Ramos: Pablillos) foram analisadas estatisticamente. Dados armazenados de vazões diárias observadas (1940-1999) e dados reconstituídos a partir de série dendrocronológica histórica (1860-1940) resultou em dados de vazão anual a serem modelados usando médias móveis auto-regressivas integradas (modelos ARIMA). A análise de densidade espectral, funções de autocorrelação e os dados padronizados de vazão anual permitiram a avaliação dos ciclos de frequência anual de vazão. Os resultados mostraram que os modelos ARIMA com dois coeficientes e média móvel autorregressiva foram adequados para modelar a descarga do rio para todas as estações, em que quatro deles apresentaram tendências significativas de redução da vazão a partir de 1860. Modelos ARIMA em combinação com técnicas de autocorrelação e densidade espectral, bem como observações dos dados de vazão atuais (2002-2010), indicam que o norte do México está em um ciclo de cheias que pode durar de 9 a 12 anos antes de passar novamente por um período de seca. As estatísticas utilizadas mostraram a presença de três ciclos (anos 1-2, 4-6 e 9-12) consistentes para os três grupos de estações que surgiram a partir da análise multivariada.

ciclos; padrões; tendências; densidade espectral; episódios de seca e cheias

ARREOLA-ORTIZ, M. A.; NÁVAR-CHÁIDEZ, J. J. Análisis de sequía y productividad con cronologías de Pseudotsuga menziesii Rob. & Fern. Y su asociación con El Niño en el nordeste de México. Investigaciones geográficas, v. 71, p. 7-20, 2010.
CAVAZOS, T.; HASTENRATH, S. Convection and rainfall over Mexico and their modulation by the Southern Oscillation. International Journal of Climatology, v. 10, p. 377-386, 1990. http://dx.doi.org/10.1002/joc.3370100405
CLEAVELAND, M. K.; STAHLE, D. W.; THERRELL, M. D.; VILLANUEAVA-DIAZ, J.; BURNS, B. T. Tree-ring reconstructed winter precipitation in Durango, Mexico. Climatic Change, v. 59, p. 369-388, 2003. http://dx.doi.org/10.1023/A:1024835630188
COOK, E. R.; MEKO. D. M.; STAHLE, D. W.; CLEAVELAND, M. K. Drought reconstructions for the continental United States. Journal of Climate, v. 12, p. 1145-1162, 1999. http://dx.doi.org/10.1175/1520-0442(1999)012<1145:DRFTCU>2.0.CO;2
DÍAZ, S. C.; THERRELL, M. D.; STAHLE, D. W.; CLEAVELAND, M. K. Chihuahua (Mexico) winter-spring precipitation reconstructed from tree rings, 1647-1992. Climate Research, v. 22, p. 237-244, 2002. http://dx.doi.org/10.3354/cr022237
EINFIELD, D. B.; MESTAS-NUÑEZ, A. M.; TRIMBLE, P. J. The Atlantic Multidecadal Oscillation and its relationship to rainfall and river flows in the continental U.S. Geophysical Research Letters, v. 28, n. 10, p. 2077-2080, 2001. http://dx.doi.org/10.1029/2000GL012745
GONZÁLEZ-ELIZONDO, M.; JURADO, E.; NÁVAR, J.; GONZÁLEZ-ELIZONDO, M. S.; VILLANUEVA, J.; AGUIRRE, O. et al. Tree-rings and climate relationships for Douglas-fir chronologies from the Sierra Madre Occidental, México: a 1681-2001 rain reconstruction. Forest Ecology & Management, v. 213, p. 39-53, 2005.
HERNÁNDEZ-RODRÍGUEZ, H.; NÁVAR-CHÁIDEZ, J. J. Tendencias de los caudales en ríos de Michoacán, México. Tecnología y Ciencias del Agua, v. 1, p. 139-145, 2010.
JÁUREGUI, E.; KLAUS, D. Some aspects of climate fluctuations in Mexico in relation to drought. Geofisica Internacional, v. 16, n. 1, p. 45-61, 1976.
JÁUREGUI, E. Algunos aspectos de las fluctuaciones pluviométricas en México en los Últimos 100 años. (Aspects of rainfall fluctuations in Mexico during last 100 years). B. Int. de Geogr. UNAM, n. 9, p. 39-64, 1979.
JONES, D. L. El Niño, PDO, climatic cycles and drought in the Sierra Nevada Shingle Springs: El Dorado County Water Agency, Water Resources Development and Management Plan, 2003. Available in: < http://www.co.el-dorado.ca.us/water/water_plan_pdfs/Appendix_G.pdf>. Access in: 16 Jan. 2012.
KNIGHT, J. R.; FOLLAND, C. K.; SCAIFE, A. A. Climate impacts of the Atlantic multidecadal oscillation. Geophysical Research Letters, v. 33, n. LI7706, 2006. doi: 10.1029/2006GL026242. http://dx.doi.org/10.1029/2006GL026242
LARSEN, M. C. Analysis of 20th Century rainfall and streamflow to characterize drought and water resources in Puerto Rico. Physical Geography, v. 21, p. 494-521, 2000.
MANTUA, N. J.; HARE, S. R.; ZHANG, Y.; WALLACE, J. M.; FRANCIS, R. C. A Pacific interdecadal climate oscillation with impacts on salmon production. Bulletin of the american Meteorological Society, v. 78, p. 1069-1079, 1997. http://dx.doi.org/10.1175/1520-0477(1997)078<1069:APICOW>2.0.CO;2
MÉNDEZ-GONZÁLEZ, J.; NÁVAR-CHÁIDEZ, J. J.; GONZÁLEZ-ONTIVEROS, V. Análisis de tendencias de precipitación (1920-2004) en México. Investigaciones Geográficas, v. 65, p. 38-55, 2008.
MÉXICO. Comision Nacional Del Agua - CONAGUA. Estadísticas hidrológicas de México México, DF, 2000.
MÉXICO. Comision Nacional Del Agua - CONAGUA. Estadísticas hidrológicas de México. México, DF, 2001.
MÉXICO. Comision Nacional Del Agua - CONAGUA. Síntesis de las estadísticas del agua en México Mexico, DF, 2005.
MÉXICO. Comision Nacional Del Agua - CONAGUA. Estadísticas del Agua en México. México, DF, 2009.
MÉXICO. Instituto Nacional de Estadística, Geografia e Informática - INEGI. Censos de población y vivienda. México, DF, 2007.
MULHOLLAND, P. J.; BEST, G. R.; COUTANT, C. C.; HORNBERGER, G. M.; MEYER, J. L.; ROBINSON P. J. et al. Effects of climate change on freshwater ecosystems of United States and the Gulf of Mexico. Hydrological Processes, v. 11, p. 949-970, 1997. http://dx.doi.org/10.1002/(SICI)1099-1085(19970630)11:8<949::AID-HYP513>3.0.CO;2-G
NÁVAR, J. Agua y desarrollo sustentable en la cuenca baja del Río Bravo-San Juan. Ciencia UANL, v. 2, n. 4, p. 356-362, 1999.
NÁVAR, J. Probabilidades y estadísticas aplicadas al manejo de recursos naturales y medio ambiente. Linares: Facultad de Ciencias Forestales, 2003. Inédito.
NÁVAR, J.; HERNÁNDEZ, H.; RÍOS, J. C. Temporal tendencies of river discharge of five watersheds of northern México. In: USDA Forest Service. Proceedings RMRS-P-42CDN 2006. Available in: <http://www.treesearch.fs.fed.us/pubs/24524>. Access in: 16 Jan. 2012.
NÁVAR, J. Reconstrucción de las sequías en los últimos 10 mil años en el norte de México. AGROFAZ, v. 8, p. 41- 53, 2008.
NÁVAR, J. Tendencias espacio-temporales de variables climáticas en el estado de Durango. AGROFAZ, v. 9, p. 95-110, 2009.
O'HARA, S. L.; METCALFE, S. E. The climate of Mexico since the Aztec period. Quaternary International, v. 43/44, p. 25-31, 1997. http://dx.doi.org/10.1016/S1040-6182(97)00017-7
POSTEL, L. S. Entering an era of water scarcity: the challenges ahead. Ecological Applications, v. 10, n. 4, p. 941-948, 2000. http://dx.doi.org/10.1890/1051-0761(2000)010[0941:EAEOWS]2.0.CO;2
STATISTICAL ANALYSIS SYSTEM - SAS. V. 8.0. Raleigh, 1997.
STAHLE, D. W.; CLEAVELAND, M. K.; THERRELL, M. D.; VILLANUEVA-DIAZ, J. Tree ring reconstruction of winter and summer precipitation in Durango, Mexico, for the past 600 years. In: SYMPOSIUM GLOBAL CHANGE STUDIES, 10., 10-15 Jan. 1999, Dallas. Proceedings... Dallas: American Meteorological Society, 1999. p. 205-211.
TINGSTAD, A. H.; MACDONALD, G. M. Long-term relationships between ocean variability and water resources in northeastern Utah. Journal of the American Water Resources Association, v. 46, n. 5, p. 987-1002, 2010. http://dx.doi.org/10.1111/j.1752-1688.2010.00471.x

Publication Dates

Publication in this collection
16 Sept 2014
Date of issue
Mar 2012

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

[1] ARREOLA-ORTIZ, M. A.; NÁVAR-CHÁIDEZ, J. J. Análisis de sequía y productividad con cronologías de Pseudotsuga menziesii Rob. & Fern. Y su asociación con El Niño en el nordeste de México. Investigaciones geográficas, v. 71, p. 7-20, 2010.

[2] CAVAZOS, T.; HASTENRATH, S. Convection and rainfall over Mexico and their modulation by the Southern Oscillation. International Journal of Climatology, v. 10, p. 377-386, 1990. http://dx.doi.org/10.1002/joc.3370100405

[3] CLEAVELAND, M. K.; STAHLE, D. W.; THERRELL, M. D.; VILLANUEAVA-DIAZ, J.; BURNS, B. T. Tree-ring reconstructed winter precipitation in Durango, Mexico. Climatic Change, v. 59, p. 369-388, 2003. http://dx.doi.org/10.1023/A:1024835630188

[4] COOK, E. R.; MEKO. D. M.; STAHLE, D. W.; CLEAVELAND, M. K. Drought reconstructions for the continental United States. Journal of Climate, v. 12, p. 1145-1162, 1999. http://dx.doi.org/10.1175/1520-0442(1999)012<1145:DRFTCU>2.0.CO;2

[5] DÍAZ, S. C.; THERRELL, M. D.; STAHLE, D. W.; CLEAVELAND, M. K. Chihuahua (Mexico) winter-spring precipitation reconstructed from tree rings, 1647-1992. Climate Research, v. 22, p. 237-244, 2002. http://dx.doi.org/10.3354/cr022237

[6] EINFIELD, D. B.; MESTAS-NUÑEZ, A. M.; TRIMBLE, P. J. The Atlantic Multidecadal Oscillation and its relationship to rainfall and river flows in the continental U.S. Geophysical Research Letters, v. 28, n. 10, p. 2077-2080, 2001. http://dx.doi.org/10.1029/2000GL012745

[7] GONZÁLEZ-ELIZONDO, M.; JURADO, E.; NÁVAR, J.; GONZÁLEZ-ELIZONDO, M. S.; VILLANUEVA, J.; AGUIRRE, O. et al. Tree-rings and climate relationships for Douglas-fir chronologies from the Sierra Madre Occidental, México: a 1681-2001 rain reconstruction. Forest Ecology & Management, v. 213, p. 39-53, 2005.

[8] HERNÁNDEZ-RODRÍGUEZ, H.; NÁVAR-CHÁIDEZ, J. J. Tendencias de los caudales en ríos de Michoacán, México. Tecnología y Ciencias del Agua, v. 1, p. 139-145, 2010.

[9] JÁUREGUI, E.; KLAUS, D. Some aspects of climate fluctuations in Mexico in relation to drought. Geofisica Internacional, v. 16, n. 1, p. 45-61, 1976.

[10] JÁUREGUI, E. Algunos aspectos de las fluctuaciones pluviométricas en México en los Últimos 100 años. (Aspects of rainfall fluctuations in Mexico during last 100 years). B. Int. de Geogr. UNAM, n. 9, p. 39-64, 1979.

[11] JONES, D. L. El Niño, PDO, climatic cycles and drought in the Sierra Nevada Shingle Springs: El Dorado County Water Agency, Water Resources Development and Management Plan, 2003. Available in: < http://www.co.el-dorado.ca.us/water/water_plan_pdfs/Appendix_G.pdf>. Access in: 16 Jan. 2012.

[12] KNIGHT, J. R.; FOLLAND, C. K.; SCAIFE, A. A. Climate impacts of the Atlantic multidecadal oscillation. Geophysical Research Letters, v. 33, n. LI7706, 2006. doi: 10.1029/2006GL026242. http://dx.doi.org/10.1029/2006GL026242

[13] LARSEN, M. C. Analysis of 20th Century rainfall and streamflow to characterize drought and water resources in Puerto Rico. Physical Geography, v. 21, p. 494-521, 2000.

[14] MANTUA, N. J.; HARE, S. R.; ZHANG, Y.; WALLACE, J. M.; FRANCIS, R. C. A Pacific interdecadal climate oscillation with impacts on salmon production. Bulletin of the american Meteorological Society, v. 78, p. 1069-1079, 1997. http://dx.doi.org/10.1175/1520-0477(1997)078<1069:APICOW>2.0.CO;2

[15] MÉNDEZ-GONZÁLEZ, J.; NÁVAR-CHÁIDEZ, J. J.; GONZÁLEZ-ONTIVEROS, V. Análisis de tendencias de precipitación (1920-2004) en México. Investigaciones Geográficas, v. 65, p. 38-55, 2008.

[16] MÉXICO. Comision Nacional Del Agua - CONAGUA. Estadísticas hidrológicas de México México, DF, 2000.

[17] MÉXICO. Comision Nacional Del Agua - CONAGUA. Estadísticas hidrológicas de México. México, DF, 2001.

[18] MÉXICO. Comision Nacional Del Agua - CONAGUA. Síntesis de las estadísticas del agua en México Mexico, DF, 2005.

[19] MÉXICO. Comision Nacional Del Agua - CONAGUA. Estadísticas del Agua en México. México, DF, 2009.

[20] MÉXICO. Instituto Nacional de Estadística, Geografia e Informática - INEGI. Censos de población y vivienda. México, DF, 2007.

[21] MULHOLLAND, P. J.; BEST, G. R.; COUTANT, C. C.; HORNBERGER, G. M.; MEYER, J. L.; ROBINSON P. J. et al. Effects of climate change on freshwater ecosystems of United States and the Gulf of Mexico. Hydrological Processes, v. 11, p. 949-970, 1997. http://dx.doi.org/10.1002/(SICI)1099-1085(19970630)11:8<949::AID-HYP513>3.0.CO;2-G

[22] NÁVAR, J. Agua y desarrollo sustentable en la cuenca baja del Río Bravo-San Juan. Ciencia UANL, v. 2, n. 4, p. 356-362, 1999.

[23] NÁVAR, J. Probabilidades y estadísticas aplicadas al manejo de recursos naturales y medio ambiente. Linares: Facultad de Ciencias Forestales, 2003. Inédito.

[24] NÁVAR, J.; HERNÁNDEZ, H.; RÍOS, J. C. Temporal tendencies of river discharge of five watersheds of northern México. In: USDA Forest Service. Proceedings RMRS-P-42CDN 2006. Available in: <http://www.treesearch.fs.fed.us/pubs/24524>. Access in: 16 Jan. 2012.

[25] NÁVAR, J. Reconstrucción de las sequías en los últimos 10 mil años en el norte de México. AGROFAZ, v. 8, p. 41- 53, 2008.

[26] NÁVAR, J. Tendencias espacio-temporales de variables climáticas en el estado de Durango. AGROFAZ, v. 9, p. 95-110, 2009.

[27] O'HARA, S. L.; METCALFE, S. E. The climate of Mexico since the Aztec period. Quaternary International, v. 43/44, p. 25-31, 1997. http://dx.doi.org/10.1016/S1040-6182(97)00017-7

[28] POSTEL, L. S. Entering an era of water scarcity: the challenges ahead. Ecological Applications, v. 10, n. 4, p. 941-948, 2000. http://dx.doi.org/10.1890/1051-0761(2000)010[0941:EAEOWS]2.0.CO;2

[29] STATISTICAL ANALYSIS SYSTEM - SAS. V. 8.0. Raleigh, 1997.

[30] STAHLE, D. W.; CLEAVELAND, M. K.; THERRELL, M. D.; VILLANUEVA-DIAZ, J. Tree ring reconstruction of winter and summer precipitation in Durango, Mexico, for the past 600 years. In: SYMPOSIUM GLOBAL CHANGE STUDIES, 10., 10-15 Jan. 1999, Dallas. Proceedings... Dallas: American Meteorological Society, 1999. p. 205-211.

[31] TINGSTAD, A. H.; MACDONALD, G. M. Long-term relationships between ocean variability and water resources in northeastern Utah. Journal of the American Water Resources Association, v. 46, n. 5, p. 987-1002, 2010. http://dx.doi.org/10.1111/j.1752-1688.2010.00471.x

Brasil

Brasil

Modeling annual discharge of six Mexico's northern rivers

Modelagem da vazão anual de seis rios do norte do México

Abstracts

Publication Dates