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Furrow-irrigated chufa crops in Valencia (Spain).II: Performance analysis and optimization

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Furrow-irrigated chufa crops in Valencia (Spain).II: Performance analysis and optimization

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Pascual Seva, N.; San Bautista Primo, A.; López Galarza, SV.; Maroto Borrego, JV.; Pascual España, B. (2013). Furrow-irrigated chufa crops in Valencia (Spain).II: Performance analysis and optimization. SPANISH JOURNAL OF AGRICULTURAL RESEARCH. REVISTA DE INVESTIGACION AGRARIA. 11(1):268-278. doi:10.5424/sjar/2013111-3384

Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10251/29288

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Title: Furrow-irrigated chufa crops in Valencia (Spain).II: Performance analysis and optimization
Author:
UPV Unit: Universitat Politècnica de València. Departamento de Producción Vegetal - Departament de Producció Vegetal
Issued date:
Abstract:
Chufa (Cyperus esculentus L. var. sativus Boeck.) is a traditional crop in the Mediterranean region of Spain, where it is only furrow irrigated. This article analyzes the irrigation performance for this crop, conducting ...[+]
Subjects: Application efficiency , Cut-off time , Distribution uniformity , Furrow inflow rate , Irrigation management , Vegetable crop.
Copyrigths: Reconocimiento (by)
Source:
SPANISH JOURNAL OF AGRICULTURAL RESEARCH. REVISTA DE INVESTIGACION AGRARIA. (issn: 1695-971X )
DOI: 10.5424/sjar/2013111-3384
Publisher:
Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA)
Publisher version: http://dx.doi.org/10.5424/sjar/2013111-3384
Thanks:
This study was funded by the Regulatory Council of Denomination of Origin Chufa of Valencia of Spain. The authors would like to thank Dr. E. Bautista for his help with the use of the Win SRFR 3.1 software.
Type: Artículo

References

ALARC, 2009. WinSRFR 3.1 User Manual. US Department of Agriculture - Agricultural Research Service – Arid Land Agricultural Research Center. Maricopa, AZ, USA. 188 pp.

Ayers RS, Westcot DW, 1994. Water quality for agriculture. FAO Irrig Drain Paper No 29, FAO, Rome. 97 pp.

Bautista, E., & Wallender, W. W. (1993). Identification of Furrow Intake Parameters from Advance Times and Rates. Journal of Irrigation and Drainage Engineering, 119(2), 295-311. doi:10.1061/(asce)0733-9437(1993)119:2(295) [+]
ALARC, 2009. WinSRFR 3.1 User Manual. US Department of Agriculture - Agricultural Research Service – Arid Land Agricultural Research Center. Maricopa, AZ, USA. 188 pp.

Ayers RS, Westcot DW, 1994. Water quality for agriculture. FAO Irrig Drain Paper No 29, FAO, Rome. 97 pp.

Bautista, E., & Wallender, W. W. (1993). Identification of Furrow Intake Parameters from Advance Times and Rates. Journal of Irrigation and Drainage Engineering, 119(2), 295-311. doi:10.1061/(asce)0733-9437(1993)119:2(295)

Bautista, E., Clemmens, A. J., Strelkoff, T. S., & Schlegel, J. (2009). Modern analysis of surface irrigation systems with WinSRFR. Agricultural Water Management, 96(7), 1146-1154. doi:10.1016/j.agwat.2009.03.007

Bautista, E., Clemmens, A. J., Strelkoff, T. S., & Niblack, M. (2009). Analysis of surface irrigation systems with WinSRFR—Example application. Agricultural Water Management, 96(7), 1162-1169. doi:10.1016/j.agwat.2009.03.009

Bondurant JA, 1957. Developing furrow infiltrometer. Agric Eng 38: 602-604.

Bos MG, 1980. Irrigation efficiencies at crop production level. International Commission on Irrigation and Drainage 29: 18-25.

Burt, C. M., Clemmens, A. J., Strelkoff, T. S., Solomon, K. H., Bliesner, R. D., Hardy, L. A., … Eisenhauer, D. E. (1997). Irrigation Performance Measures: Efficiency and Uniformity. Journal of Irrigation and Drainage Engineering, 123(6), 423-442. doi:10.1061/(asce)0733-9437(1997)123:6(423)

Clemmens, A. J., & Bautista, E. (2009). Toward Physically Based Estimation of Surface Irrigation Infiltration. Journal of Irrigation and Drainage Engineering, 135(5), 588-596. doi:10.1061/(asce)ir.1943-4774.0000092

Clemmens A, Walker WR, Fangmeier DD, Hardy LA, 2007. Design of surface systems. In: Design and operation of farm irrigation systems (Hoffman GJ, Evans RG, Jensen ME, Martin DL, Elliot RL, eds). ASABE, St. Joseph, MI, USA. pp: 499-531.

Elliot RL, Walker WR, 1982. Field evaluation of furrow infiltration and advance functions. T ASAE 25: 396-400.

Hart WE, Collins HG, Woodward G, Humpherys AS, 1980. Design and operation of gravity or surface systems. In: Design and operation of farm irrigation systems (Jensen ME, ed). ASAE, St. Joseph, MI, USA. pp: 499-579.

Horst, M. G., Shamutalov, S. S., Pereira, L. S., & Gonçalves, J. M. (2005). Field assessment of the water saving potential with furrow irrigation in Fergana, Aral Sea basin. Agricultural Water Management, 77(1-3), 210-231. doi:10.1016/j.agwat.2004.09.041

Jurriëns M, Zerihun D, Boonstra J, Feyen J, 2001. SURDEV: Surface irrigation software. Design, operation and evaluation of basin, border and furrow irrigation. ILRI, Wageningen, Holland. 194 pp.

Khatri, K. L., & Smith, R. J. (2006). Real-time prediction of soil infiltration characteristics for the management of furrow irrigation. Irrigation Science, 25(1), 33-43. doi:10.1007/s00271-006-0032-1

Kruse EG, Heermann DF, 1977. Implications of irrigation system efficiencies. J Soil Water Cons 32: 465-470.

Lord JM, Ayars JE, 2007. Evaluating performance. In: Design and operation of farm irrigation systems (Hoffman GJ, Evans RG, Jensen ME, Martin DL, Elliot RL, eds). ASABE, St. Joseph, MI, USA. pp: 791-803.

Maheshwari, B. L., & McMahon, T. A. (1993). Performance Evaluation of Border Irrigation Models for South-East Australia: Part 2, Overall Suitability for Field Applications. Journal of Agricultural Engineering Research, 54(2), 127-139. doi:10.1006/jaer.1993.1008

Mateos, L., & Oyonarte, N. A. (2005). A spreadsheet model to evaluate sloping furrow irrigation accounting for infiltration variability. Agricultural Water Management, 76(1), 62-75. doi:10.1016/j.agwat.2005.01.013

McClymont DJ, Smith RJ, Raine SR, 1999. An integrated numerical model for the design and management of furrow irrigation. Int Conf on Multi-Objective Decision Support Systems, Brisbane, Australia. 11 pp.

Merriam JL, Keller J, 1978. Farm irrigation system evaluation: a guide for Management. Utah St. Univ, Logan, UT, USA. 271 pp.

Merriam JL, Shearer MN, Burt CM, 1980. Evaluating irrigation systems and practices In: Design and operation of farm irrigation systems (Jensen ME, ed). ASAE, St. Joseph, MI, USA. pp: 721-759.

Neira, X. X., Álvarez, C. J., Cuesta, T. S., & Cancela, J. J. (2005). Evaluation of water-use in traditional irrigation. Agricultural Water Management, 75(2), 137-151. doi:10.1016/j.agwat.2004.12.007

Oyonarte, N. A., Mateos, L., & Palomo, M. J. (2002). Infiltration Variability in Furrow Irrigation. Journal of Irrigation and Drainage Engineering, 128(1), 26-33. doi:10.1061/(asce)0733-9437(2002)128:1(26)

Pascual B, Maroto JV, López-Galarza S, Alagarda J, Castell Zeising V, 1997. El cultivo de la chufa (Cyperus esculentus L. var. sativus Boeck.). Estudios realizados. Generalitat Valenciana, Conselleria de Agricultura, Pesca y Alimentación, Valencia, Spain. 95 pp. [In Spanish].

Pascual-Seva, N., San Bautista, A., Lopez-Galarza, S., Maroto, J. V., & Pascual, B. (2013). Furrow-irrigated chufa crops in Valencia (Spain). I: Productive response to two irrigation strategies. Spanish Journal of Agricultural Research, 11(1), 258. doi:10.5424/sjar/2013111-3385

Pereira, L. S., Oweis, T., & Zairi, A. (2002). Irrigation management under water scarcity. Agricultural Water Management, 57(3), 175-206. doi:10.1016/s0378-3774(02)00075-6

Playán, E., & Mateos, L. (2006). Modernization and optimization of irrigation systems to increase water productivity. Agricultural Water Management, 80(1-3), 100-116. doi:10.1016/j.agwat.2005.07.007

Playán, E., Slatni, A., Castillo, R., & Faci, J. . (2000). A case study for irrigation modernisation: II. Agricultural Water Management, 42(3), 335-354. doi:10.1016/s0378-3774(99)00051-7

Schmitz, G. H. (1993). Transient Infiltration from Cavities. I: Theory. Journal of Irrigation and Drainage Engineering, 119(3), 443-457. doi:10.1061/(asce)0733-9437(1993)119:3(443)

Smith RE, Warrick AW, 2007. Soil water relationships. In: Design and operation of farm irrigation systems (Hoffman GJ, Evans RG, Jensen ME, Martin DL, Elliot RL, eds). ASABE, St. Joseph, MI, USA. pp: 120-159.

Smith, R. J., Raine, S. R., & Minkevich, J. (2005). Irrigation application efficiency and deep drainage potential under surface irrigated cotton. Agricultural Water Management, 71(2), 117-130. doi:10.1016/j.agwat.2004.07.008

Soil Survey Staff, 2010. Keys to soil taxonomy, 11th ed. USDA-NRCS, Washington DC, USA. 338 pp.

Solomon KH, El-Gindy AM, Ibatullin SR, 2007. Planning and system selection. In: Design and operation of farm irrigation systems (Hoffman GJ, Evans RG, Jensen ME, Martin DL, Elliot RL, eds). ASABE, St. Joseph, MI, USA. pp: 57-75.

Strelkoff TS, Clemmens A J, 2007. Hydraulics of surface systems. In: Design and operation of farm irrigation systems (Hoffman GJ, Evans RG, Jensen ME, Martin DL, Elliot RL, eds). ASABE, St. Joseph, MI, USA. pp: 436-498.

Tabuada, M. A., Rego, Z. J. C., Vachaud, G., & Pereira, L. S. (1995). Modelling of furrow irrigation. Advance with two-dimensional infiltration. Agricultural Water Management, 28(3), 201-221. doi:10.1016/0378-3774(95)01177-k

VEIHMEYER, F. J., & HENDRICKSON, A. H. (1931). THE MOISTURE EQUIVALENT AS A MEASURE OF THE FIELD CAPACITY OF SOILS. Soil Science, 32(3), 181-194. doi:10.1097/00010694-193109000-00003

Walker WR, 1989. Guidelines for designing and evaluating surface irrigation systems. FAO Irrig Drain Paper No 45, FAO, Rome. 137 pp.

Walker WR, 2003. SIRMOD III. Surface irrigation simulation, evaluation and design. Guide and technical documentation. Utah St. Univ, Logan, UT, USA. 138 pp.

Walker WR, Skogerboe GV, 1987. Surface irrigation. Theory and practice. Prentice-Hall, Englewood Cliffs, NJ, USA. 386 pp.

Wöhling, T., & Schmitz, G. H. (2007). Physically Based Coupled Model for Simulating 1D Surface–2D Subsurface Flow and Plant Water Uptake in Irrigation Furrows. I: Model Development. Journal of Irrigation and Drainage Engineering, 133(6), 538-547. doi:10.1061/(asce)0733-9437(2007)133:6(538)

Camacho E, Pérez C, Roldán J, Alcaide M, 1997. Modelo de manejo y control en tiempo real del riego por surcos. Ingeniería del agua 4(4): 11-18 [In Spanish].

Elías F, Ruiz L, 1977. Agroclimatología de España. Cuadernos INIA nº 7, Madrid. 565 pp. [In Spanish].

Keller J, 1965. Effect of irrigation method on water conservation. J Irrig Drain Division 91(IR 2): 61-72.

Pascual-Seva N, 2011. Estudios agronómicos sobre el cultivo de la chufa (Cyperus esculentus L. var. sativus Boeck.): estrategias de riego, tipos de plantación, absorción de nutrienes, y análisis fitoquímico. Doctoral thesis. Univ Politècnica de València, Valencia, Spain. 353 pp. [In Spanish].

Simunek J, Sejna M, van Genuchten M Th, 1999. The HYDRUS-2D software package for simulating the two-dimensional movement of water, heat, and multiple solutes in variably-saturated media. US Salinity Laboratory, USDA, ARS, Riverside, CA, USA. 225 pp.

USDA-SCS, 1991a. Border irrigation. Section 15. National Engineering Handbook. US Department of Agriculture, Soil Conservation Service, Washington DC, USA. Chapter 4, 251 pp.

USDA-SCS, 1991b. Furrow irrigation. Section 15. National Engineering Handbook. US Department of Agriculture, Soil Conservation Service, Washington DC, USA. Chapter 5, 103 pp.

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