ارزیابی عملکرد زهکش زیرزمینی در رشد گیاه لوبیا محلی (Phaseolus vulgaris L. ) در کشت دوم اراضی شالیزاری ) مقیاس مدل فیزیکی)

Abdel Dayem, S., Hoevenaars, J., Mollinga, P., Scheumann, W., Slootweg, R. and Van Steenbergen, F. (2005). Agriculture drainage towards an integrated approach. Journal of Irrigation and Drainage System, 19(2), 71-87

Alizadeh, M., Afrasiab, P., Yazdani, M. R., liaghat, A. M. and Delbari, M. (2016). The effect of depth and space subsurface drainage on paddy field drainage intensity (Case study: Fields of Rice Research Institute of Iran). Journal of Water and Soil Conservation, 23(4), 219-233. (In Farsi)

Aslani, F., Nazemi, A.H., Ashrafsadrodini, S. A., Fakherifard, A. and Ghorbani, M. A. (2010). Depth and space estimation based on quality effluent suitable for subsurface drainage. Journal Research Soil Water Iran, 41(2), 139-141. (In Farsi)

Bagheri A., Zand E., and Parsa M. (1997). Beans, the bottlenecks and strategies. Jahad of Mashhad University Press, 94 pages. (In Farsi).

Bahceci, I., Tari, A. F., Agar, A. I. and Sonmez, B. (2006). Water and salt balance studuest using saltmod, to improve subsurface drainage design in the Konya-Cumra Plain, Turky. Agricultural Water Management, 85(3), 261-271.

Balkaya, A. and Odabas M. S. (2002). Determination of the seed characteristics in some significant snap bean varieties grown in Samsun, Turkey, Pak. Journal of Biological Science, 5(1), 382-387.

Christen, E. and Skehan, D. (2001). Design and management of subsurface horizontal drainage to reduce salt loads. Journal of Irrigation and Drainage Engineering, 127(3), 148-155.

Darzi-Naftchali, A.,  Mirlatifi, S.M., Shahnazari, A., Ejlali, F. and  Mahdian, M.H. (2013). Effect of subsurface drainage on water balance and water table in poorly drained paddy fields. Agricultural Water Management, 130, 61-68. (in Farsi)

Dori, H. R., Shahbazi, V. M. and Saeedi, R. A. (2013). Identification and Distribution of Pachloobi species in Guilan province. The 5th Iranian Bean Conference. March 7, 715-713. (In Farsi)

Drainage Department, Iranian National Irrigation and Drainage Committee, (2002). Attitudes to problems and problems of underground drainage studies and implementation. Iranian National Irrigation and Drainage Committee press, No. 59. (In Farsi)

Manjunatha, M. V., Oosterbaan, R. J., Gupta, S. K., Rajkumar, H. and Jansen, H. (2004). Performance of subsurface drains for reclaiming waterlogged saline lands under rolling topography in Tungabhadra irrigation project in India. Journal of Agricultural Water Management, 69(1), 69-82.

Mansoori Sarinjaneh, F. (2005). Investigating the design parameters of drainage systems in the irrigation and drainage project of the sugar cane development center. Master’s thesis for irrigation and drainage. Irrigation and rehabilitation group. University of Tehran water and soil Engineering, 111 pages. (In Farsi)

Mathew, E. K., Panda, R. K. and Nair, M. (2001). Influence of subsurface drainage on crop production and soil quality in a low-lying acid sulphate soil. Journal of Agriculture Water Management, 47(3), 191-209.

Moazeni, S. M. R., Navabian, M., and Esmaeili Varaki, M. (2016). Evaluate of subsurface drainage performance at second crop of paddy field (Case study: Triticale in physical model scale). Iranian Journal of Soil and Water Research, 47(2), 397-405. (In Farsi)

Momen Nejad, Z. (2017). Comparing the performance of DRAINMOD and SWAP models to simulate controlled subsurface drainge in a physical model scale in paddy field. Master Science Thesis in Irrigation and Drainage, University of Guilan. (In Farsi)

Nangia, V., Gowda, P. H., Mulla, D. J. and Sands, G. R. (2010). Modeling impacts of tile drain spacing and depth on nitrate-nitrogen losses, Vadose Zone Journal, 1, 61-72.

Naseri, A. and Arvahi, A. (2009). Underground drainage systems in the design of new foundations and their impact on local procedures. Proceeding Technical Workshop Drainage and Environmental, 67-82.

Nazari, B., Liaghat, A., Parsinezhad, M. and Naseri, A. (2008). Optimization the installation of subsurface drainage depth with economic and environmental considerations. Technical Workshop and Drainage and Environment, 107-123.

Ranjkesh ziabari, D. Navabian, M. Bigloyi, M. H. and Esmaili varaki, M. (2015). Investigating the Effect of Controlled Drainage Management on Rice Cod Shear Coverage on Nitrate and Nitrate Wastewater in Conditions Similar to paddy lands. Iranian Jurnal of Soil and Water Research, 46(2), 273-282. (In Farsi)

Razi, F., Sotoodehnia, A., Daneshkar Arasteh, P. and Akram, M. (2012). A Laboratoru Test on the Effect of Drain Installation Depth on Drain  Water Salinity (from a Clay-Loam soil profile). Journal of Water Research, 43(3), 281-288.

Romero-Arenas O., Damian Huato M.A., Rivera Tapia J.A., Baez Simon A., Huerta Lara M. and Cabrera Huerta E. (2013). The Nutritional value of Beans (Phaseoluse vulgaris L.,) and its importance for feeding of rural communities in Puebla-Mexico. International Research Journal of Biological Sciences. 2(8), 59-65.

Sotodehnia, A., Noroziasil, E. and Daneshkar Arasteh P. (2015). A Laboratory Test on the Effect of Subsurface Drain Installation Depth on Nitrate Leaching from a Loamy Sand Soil. Water Research in Agriculture, 28(3), 625-634.

Smedma, L. K. (2007). Revising currently applied drain depth for water logging and salinity control of irrigated land in Semi arid zone. Journl of Irrigation and Drainage. 56(4), 379-387.

Snackin V. V., Prisyazhanaya A. A., and Kovasc-Lang E. (2001). Soil liquid phase composition. Elsevier Science B. V., Amsterdam, the Netherlands. 88 pages.

Standard Methods for the Examinition of Water and Wastwater. (2017). American Public Health Association, American Water Works Association, Water Environment Federation, 23rd Edition, 1504 pages.

Unger, I. M., Motavalli, P. P.,and Muzika, R. M. (2009). Changes in soil chemical properties with flooding: A field laboratory approach. Journal of Agriculture, Ecosystems & Environment, 131(1-2), 105-110.