Visión del regadío
- Braz-Tangerino, Fernando 1
- Ferreira, Maria Isabel 2
- Moreno-Hidalgo, Miguel Angel 3
- Playán, Enrique 4
- Pulido-Calvo, Inmaculada 5
- Rodríguez-Sinobas, Leonor 6
- Tarjuelo, José María 3
- Serralheiro, Ricardo 7
- 1 Universidad Stadual Paulista, UNESP Ilha Solteira
- 2 Instituto Superior de Agronomia, Universidade de Lisboa
-
3
Universidad de Castilla-La Mancha
info
- 4 Departamento Suelo y Agua, Centro experimental Aula Dei, Zaragoza
- 5 Departamento de Ciencias Agroforestales, ETSI, Campus La Rábida, Universidad de Huelva
- 6 Grupo de Investigación Hidráulica del Riego, Escuela Técnica Superior de Ing. Agrónomos de la Universidad Politécnica de Madrid
- 7 Instituto de Ciências Agrárias e Ambientais, Universidade de Évora
ISSN: 1134-2196
Year of publication: 2014
Volume: 18
Issue: 1
Pages: 39-53
Type: Article
More publications in: Ingeniería del agua
Abstract
El regadío ha sido, sigue siendo y será uno de los pilares básicos para el desarrollo y mantenimiento de la población humana. Su evolución pasada ha ido al unísono del avance de los conocimientos en materias propias de agronomía e ingeniería del agua y de la tecnología (desarrollo de materiales plásticos, elementos electrónicos …) llegando a un estado actual en el que todavía están por resolver muchos interrogantes que quedan como retos para el futuro. Aprovechando el relanzamiento de la revista Ingeniería del Agua se presenta una visión del regadío que incluye algunas de la líneas de investigación actuales con el fin de motivar la publicación en Ingeniería del Agua de artículos relacionados con la variada temática que integra el estudio del regadío.
Bibliographic References
- Adamo, F., Andria, G., Attivissimo, F. y Giaquinto, N. 2004. An Acoustic Method for Soil Moisture Measurement. IEEE Transactions on Instruments and Measurements, 891-898. https://doi.org/10.1109/TIM.2004.831126
- Bautista, E., Clemmens, A.J., Strelkoff, T.S y Schlegel, J.. 2009. Modern analysis of surface irrigation systems with WinSRFR Agricultural Water Management 96 (7), 1146–1154. https://doi.org/10.1016/j.agwat.2009.03.007
- Benitez-Buelga, J. 2014. The implentation of the heated pulsed theory using actively heated fiber optics: measurements of soil volumetric water content and soil volumetric heat capacity. PhD Dissertation. Tech. University of Madrid, Madrid, Spain.
- Bjornlunda,H., Nicolc, L. y Kleind, K.K. 2009. The adoption of improved irrigation technology and management practices—A study of two irrigation districts in Alberta, Agricultural Water Management 96 (1)121–131. https://doi.org/10.1016/j.agwat.2008.07.009
- Bos, M. G.; Burton, M. A. hy Molden, D. J.Eds. 2005. Irrigation and drainage performance assessment: practical guidelines. International Institute for Land Reclamation and Improvement Alterra-ILRI, Wageningen, Netherlands.
- Ederra, I. y Murugarren, N. 2010. La nueva tarifa eléctrica. La escalada de precios del agua de riego. Navarra agrarian.
- EDIA (s/d) – Empresa de Desenvolvimento e Infraestruturas de Alqueva. http://www.edia.pt.
- Evett, S.R. y Parking, G.W. 2005. Advances in soil water content sensing. The continuing maturation of technology and theory. Vadose Zone Journal, 4, 986-991. D.O.I.:10.2136/vzj2005.0099.
- Ferré, Ty P. A. y Kluitenberg, G.J. 2003. Advances in Measurement and Monitoring Methods. Vadose Zone Journal (2):443 doi:10.2136/vzj2003.4430
- Ferreira MI, Conceição N, David TS, Nadezhdina N. 2013. Role of lignotuber versus roots in the water supply of rainfed olives. Acta Horticulture, 991:181-188. https://doi.org/10.17660/ActaHortic.2013.991.22
- Ferreira MI, Conceição N, Pacheco CA, Green S. 2012. O que fazem as oliveiras de noite ou redistribuição hidráulica num olival de sequeiro no Alentejo. Actas do VI Simpósio Nacional de Olivicultura (Mirandela, 15-17 Novembro 2012), 67-76.
- Gil-Rodríguez, M., Rodríguez-Sinobas, L., Benitez-Buelga, J., y Sánchez-Calvo, R. 2013. Application of active heat pulse method with fiber optic temperature sensing for estimation of wetting bulbs and water distribution in drip emitters. Agricultural Water Management, 120, 72-78. https://doi.org/10.1016/j.agwat.2012.10.012
- Grote, K., Anger, C., Kelly, B., Hubbard, S., and Rubin, Y. (2010). ”Characterization of Soil Water Content Variability and Soil Texture using GPR Groundwave Techniques.” JEEG, 15(3), 93–110. https://doi.org/10.2113/JEEG15.3.93
- INE (2011) – Recenseamento Agrícola 2009. Dados definitivos. Informação à Comunicação Social. Lisboa, INE (Instituto Nacional de Estatística), 17 Maio 2011, 13 pp.
- Jackson T.M., Khan S., Hafeez M. 2010. A comparative analysis of water application and energy consumption at the irrigated field level. Agricultural Water Management 97 1477–1485. https://doi.org/10.1016/j.agwat.2010.04.013
- Koecha, R.K., Smithb, R.J. y Gilliesb, M.H.. 2014. Evaluating the performance of a real-time optimisation system for furrow irrigation. Agricultural Water Management 142, 77–87. https://doi.org/10.1016/j.agwat.2014.04.020
- Kluitenberg, G.J., T.E. Oschner and R. Horton. 2007. Improved analysis of heat pulse signals for soil water flux determination. Soil Science Society of American Journal 71(1): 53-55. https://doi.org/10.2136/sssaj2006.0073N
- Jiménez-Aguirre M.T., Isidoro D. 2012. Efecto de la modernización de la comunidad de regantes de Almudévar (Huesca) sobre el cultivo del maíz. Tierras 193, 102-109
- Marti, P., Manzano, J., Royuela, A. 2012. Assessment of a 4-input artificial neural network for ETo estimation through data set scanning procedures. Irrigation Science 29(3), 181-195.
- Michot, D., Benderitter, Y., Dorigny, A., Nicoullaud, B., King, D., Tabbagh, A., 2003.Spatial and temporal monitoring of soil water content with an irrigated corn crop cover using surface electrical resistivity tomography. Water Resources Research, 39, 1138.doi:10.1029/2002WR001518
- Molden D. 2007. Water for food.Water for life. A Comprehensive Assessment of Water Management in Agriculture. International Water Management Institute (IWMI) and FAO.
- Moreno, M.A., Planells, P., Corcoles, J.I., Tarjuelo, J.M., Carrión, P. 2009. Development of a new methodology to obtain the characteristic pump curves that minimize the total cost at pumping stations. Biosystems Engineering 102(1), 95-105. https://doi.org/10.1016/j.biosystemseng.2008.09.024
- Nadezhdina N, David TS, David JS, Ferreira MI, Dohnal M,Tesar M, Gartner K, Leitgeb E, Nadezhdin V, Cermak J, Jimenez MS, Morales D 2010. Trees never rest: the multiple facets of hydraulic redistribution. Ecohydroly SI 3 (4): 431-444. DOI: 10.1002/eco.148
- Nadezhdina N, Ferreira MI , Silva R, Pacheco CA 2008. Seasonal variation of water uptake of a Quercus suber tree in Central Portugal. Plant and Soil 305: 105-119. https://doi.org/10.1007/s11104-007-9398-y
- Ortega, J.F.; de Juan, J.A.; Tarjuelo, J.M. 2005. Improving water management: the Irrigation Advisory Service of Castilla-La Mancha (Spain). Agricultural Water Management 77, 37-58. https://doi.org/10.1016/j.agwat.2004.09.028
- Parker, D., Cohen-Vogel., D.R., Vanderbilt, D.R., Osgood, D.E., Zilberman, D., 2000. Publicly funded weather database benefits users statewide. California Agriculture 54(3):21-25. https://doi.org/10.3733/ca.v054n03p21
- Pereira, L.S. 1999. Higher performance through combined improvements in irrigation methods and scheduling: a discussion. Agricultural Water Management 40( 2–3) 153–169. https://doi.org/10.1016/S0378-3774(98)00118-8
- Planells, P., Carrión, P., Ortega, J., Moreno, M.A., Tarjuelo, J.M. 2005. Pumping selection and regulation for wáter-distribution networks. Journal of Irrigation and Drainage Engineering 131(3), 273-281. https://doi.org/10.1061/(ASCE)0733-9437(2005)131:3(273)
- Pulido-Calvo, I., Gutiérrez-Estrada, J.C. 2009. Improved irrigation water demand forecasting using a soft-computing hybrid model. Biosystems Engineering 102(2), 201-218. https://doi.org/10.1016/j.biosystemseng.2008.09.032
- Pulido-Calvo, I., Gutiérrez-Estrada, J.C., López-Luque, R., Roldán, J. 2006. Regulating reservoirs in pressurized irrigation water supply systems. Journal of Water Supply Research and Technology-AQUA 55(5), 367-381. https://doi.org/10.2166/aqua.2006.056b
- Reca, J., García-Manzano, A., Martínez, J. 2014. Optimal pumping scheduling for complex irrigation water distribution systems. Journal of Water Resources Planning and Management 140(5), 630-637. https://doi.org/10.1061/(ASCE)WR.1943-5452.0000360
- Rodríguez Díaz J.A., Pérez Urrestarazu L., Camacho Poyato E., Montesinos P. (2012) Modernizing water distribution networks – lessons from the Bembézar MD irrigation district, Spain. In: Outlook on Agriculture 29 (4): 229-236, IP Publishing Ltd. https://doi.org/10.5367/oa.2012.0105
- Renault, D., Facon, T y Wahaj, R. 2007. Modernizing Irrigation Management: The MASSCOTE Approach--Mapping System and Services for Canal Operation Techniques. FAO Irrigation and Drainage Paper 63, 177 pgs, Roma.
- Santos, F.D.; Miranda, P. 2006 – Alterações climáticas em Portugal. Cenários, Impactos e Medidas de Adaptação – Projeto SIAM II. Lisboa, Gradiva.
- Sayde. C., Gregory, C., Gil-Rodriguez, M.,Tufillaro, N.. Tyler, S., .van de Giesen,N., English, M., Cuenca, R. y Selker,J.S. 2010.
- Feasibility of soil moisture monitoring with heated fiber optics. Water Resources Research, vol. 46, W06201, doi:10.1029/2009WR007846, 2010.
- Sayde, C. 2012. Improving soil water determination in spatially variable field using fiber optic technology and Bayesian decision theory. PhD Dissertation Oregon State University, Corvallis, USA.
- Sayde, C., Benitez-Buelga, J., Rodriguez-Sinobas, L., El Khoury, L., English, M., van de Giesen,N. Y Selker, J.S. 2014. Mapping Variability of Soil Water Content and Flux across 1-1,000 m scales using the Actively Heated Fiber Optic Method. Acepted in Water Resources Research. https://doi.org/10.1002/2013WR014983
- Selker, J.S., L. Thévenaz, H. Huwald, A. Mallet, W. Luxemburg, N. van de Giesen, M. Stejskal, J.Zeman, and M. Westhoff, and M.B. Parlange. Distributed Fiber Optic Temperature Sensing for Hydrologic Systems. Water Resources Research. doi:10.1029/2006WR005326. 2006.
- Serralheiro, R.P. 2002. A sustentabilidade do regadio e a conservação do solo e da água em condições mediterrâneas. In Água, Recurso a Preservar, Anais da Universidade de Évora, Dez 2002, pp. 209 – 248.
- Steele-Dunne, S. C., Rutten, M. M., Krzeminska, D. M., Hausner, M., Tyler, S. W., Selker, J. S., Bogaard, T. y T. A. van de Giesen T. A. 2010. Feasibility of soil moisture estimation using passive distributed temperature sensing, Water Resourcess Research, 46 (3).doi:10.1029/2009WR008272.
- Valverde, P.; Serralheiro, R.; Carvalho, M.; Shahidian, S.; Rodrigues, C. 2014. Efeitos das alterações climáticas nas necessidades hídricas e de rega na bacia do Guadiana. Lisboa, Revista Recursos Hídricos, Vol. 35, Nº 1, maio de 2014. © APRH, ISSN 0870-1741 | DOI 10.5894/rh35n1.
- Zapata, N., Playán, E., Skhiri, A. y Burguete, J. 2009. Simulation of a Collective Solid-Set Sprinkler Irrigation Controller for Optimum Water Productivity. Journal of Irrigation and Drainage Engineering 135(1), 13–24. https://doi.org/10.1061/(ASCE)0733-9437(2009)135:1(13)
- Zreda, M., Desilets, D., Ferré, T.P.A., Scott, R.L., 2008. Measuring soil moisture content non-invasively at intermediate spatial scale using cosmic-ray neutrons. Geophys. Research Lett. 35, L21402. https://doi.org/10.1029/2008GL035655