Kesintili Damla Sulama
References
Gönen E, et al. Bitkiye dayalı ölçümler kullanılarak gün içerisinde en uygun sulama zamanının belirlenmesi. Isparta Uygulamalı Bilimler Üniversitesi, Ziraat Fakültesi Dergisi, 2018. 281-289.
Warrick AW. Time-dependent linearized infi ltration: I. Point sources. Soil Sci. Soc. Am. J. 1974.38: 383–386.
Bresler E. Analysis of trickle irrigation with application to design problems. Irrig. Sci. 1978.1: 3–17.
Cote CM., Bristow KL., Charlesworth PB. et al. Analysis of soil wetting and solute transport in subsurface trickle irrigation. Irrig. Sci. 2003. 22:143–156.
Thorburn PJ., Cook FJ., and Bristow KL. Soil-dependent wetting from trickle emitters: Implications for system design and management. Irrig. Sci. 2003.22:121–127.
Gärdenäs AI., Hopmans JW., Hanson BR. et al. Twodimensional modeling of nitrate leaching for various fertigation scenarios under micro-irrigation. Agric. Water Manage. 2005.74: 219–242.
Li J., Zhang J., and Rao M. Wetting patterns and nitrogen distributions as aff ected by fertigation strategies from a surface point source. Agric. Water Manage. 2004.67:89–104.
Brouwer C., Prins C., Kay M. et al. Irrigation water management: Irrigation methods. Training manual no. 5. Provisional ed. FAO, 1988. Rome.
Skaggs TH., Trout TJ., Šimůnek J. et al. Comparison of HYDRUS-2D simulations of drip irrigation with experimental observations. J. Irrig. Drain. Eng. 2004.130:304–310.
Zur B. The pulsed irrigation principle for controlled soil wetting. Soil Sci. 1976.122:282–291.
Zur B., and D. Savaldi. Infi ltration under a pulsed water application: 1. Th e nature of the fl ow system. Soil Sci. 1977.124:127–134.
Assouline S., Möller M., Cohen S. et al. Soil–plant system response to pulsed drip irrigation and salinity: Bell pepper case study. Soil Sci. Soc. Am. J. 2006.70:1556–1568.
Wang F. Kang Y. and Liu SP. Effects of drip irrigation frequency on soil wetting pattern and potato growth in North China Plain. Agric. Water Manage.2006.79: 248–264.
Gönen E, Tanrıverdi C., Colak YB., et al. Çukurova koşullarında yüzeyüstü ve yüzeyaltı damla sulama yöntemiyle farklı su düzeylerinde sulanan patlıcan bitkisinin azot kullanım randımanının belirlenmesi. Mustafa Kemal Üniversitesi Tarım Bilimleri Dergisi, 2019.
Camp CR., et al. Subsurface drip irrigation–Past, present and future. In Proc. Fourth Decennial Nat’l Irrigation Symp., 2000.Nov (pp. 14-16)
Lamm FR. Advantages and disadvantages of subsurface drip irrigation. In International Meeting on Advances in Drip/Micro Irrigation, Puerto de La Cruz, Tenerife, Canary Islands 2002. (p. 13)
Mohammed AK., and Abed BS. Water distribution and interference of wetting front in stratified soil under a continues and an intermittent subsurface drip irrigation. Journal of Green Engineering, 2020.10(2): 268-286.
Vyrlas P., and Sakellariou-Makrantonaki, M. Intermittent water application through surface and subsurface drip irrigation. In 2005 ASAE Annual Meeting (p. 1). American Society of Agricultural and Biological Engineers, 2005.
Bakeer GAA., et al. Effect of pulse drip irrigation on yield and water use efficiency of potato crop under organic agriculture in sandy soils. Misr Journal of Agricultural Engineering, 2009.26(2): 736-765
Eric S., S. David, and Robert H. (2004). To pulse or not to pulse drip irrigation that is the question UF/IFAS Horticultural Sciences Department. Florida,USA NFREC-SV-Vegetarian (04-05).
Segal, E., Ben-Gal, A. and Shani, U. Water availability and yield response to high frequency micro-irrigation in sunflowers. 6th International Micro-irrigation Congress. Micro-irrigation Technology for Developing Agriculture’. South Africa, 2000.22 – 27 October E-mail alonben-gal@rd.ardom.co.il
Sharmasarkar FC., Sharmasarkar SD., Miller GF. et al. Assessment of drip irrigation and flood irrigation on water and fertilizer use efficiencies for sugar beets. Agric. Water Manage, 2001.46: 241-251.
Dole JM. Comparing poinsettia irrigation methods. The Poinsettia, 1994.10: 4-9.
Oron G. Simulation of water flow in the soil under sub-surface trickle irrigation with water uptake by roots. Agric. Water Mange. 1981. 3:179-193.
Silber A., Bruner M., Kenig E. et al. High fertigation frequency andphosphorus level: Effects on summer-grown bell pepper growth and blossom-end rot incidence. Plant Soil, 2005.270(1-2): 135-146.
Fraisse CW, Duke HR, Heermann DR. Laboratory evaluation of variable water application with pulse irrigation. Am. Soc. Agric. Eng. 1995;38(5):1363-1369.
García-Prats A, Guillem-Picó S. Adaptation of pressurized irrigation networks to new strategies of irrigation management: Energy implications of low discharge and pulsed irrigation. Agric. Water Manag.,Volume 2016;169:52-60.28.
Elmaloglou S, Diamantopoulos E. Effects of hysteresis on redistribution of soil moisture and deep percolation at continuous and pulse drip irrigation. Agric. Water Manag. 2009a;96(3):533-538.
Rank PH, Unjia YB, Kunapara AN. Soil Wetting Pattern under Point and Line Source of Trickle Irrigation. Int. J. Curr. Microbiol. App. Sci. 2019;8(07):785-792.
Rank PH, Vishnu B. Automation of Pulsed Drip Irrigation. International Journal of Engineering Science and Computing 2019;9(7):23265-23276.
Skaggs TH, Trout TJ, Rothfuss Y. Drip irrigation water distribution patterns: effects of emitter rate, pulsing, and antecedent water. Soil Sci. Soc. Am. J. 2010;74(6):1886-1896.
El-Mogy MM, Abuarab ME, Abdullatif AL. 2012. Response of green bean to pulse surface drip irrigation. J Hortic Sci Ornam Plants. 4:329–334.https://doi.org/10.5829/idosi.jhsop.2012.4.3.263
Almeida WF., Lima LA., Pereira GM. Drip pulses and soil mulching effect on american crisphead lettuce yield. Engenharia Agrícola. 2015., 35, pp 1009-1018.
Xu G, Levkovitch I, Soriano S, et al. Integrated effect of irrigation frequency and phosphorus level on lettuce: P uptake,root growth and yield. Plant Soil. 2004. 263:297–309. https://doi.org/10.1023/B:PLSO.0000047743. 19391.42.
El-Abedin TKZ. Effect of pulse drip irrigation on soil moisture distribution and maize production in clay soil. Misr J Ag Eng. 2006.23: 1032–1050.
Madane DA, Mane MS, Kadam ES, et al. Study of white onion (Alium [sic] cepa L.) on yield and economics under pulsed irrigation (drip) for different irrigation levels. Int J Agric Eng. 2018.11:128–134. https://doi.org/10.15740/ HAS/IJAE/11.1/128-134.
Abdelraouf RE, Ahmed A, Tarabye HHH, et al. Effect of pulsed drip irrigation and organic mulching by rice straw on yield, water productivity and quality of orange under sandy soils conditions. Plant Arch. 2019.19:2613–2621.
Eid AR, Bakry AB, Taha MH. Effect of pulse drip irrigation and mulching systems on yield, quality traits and irrigation water use efficiency of soybean under sandy soil conditions. Agro Sci. 42013: 249–261. https://doi.org/10.4236/as.2013.45036.
Gendron L, Letourneau G, Cormier J, et al. Using pulsed water application and automation technology to improve irrigation practices in strawberry production. Hort. Technology. 2018.28:642–650. https:// doi.org/10.21273/HORTTECH04001-18.
Letourneau G, Caron J. Irrigation management scale and water application method to improve yield and water productivity of fieldgrown strawberries. Agronomy. 2019. 9(6): 286. https:// doi.org/10.3390/agronomy9060286
Carroll JL, Orr ST, Benedict CA, et al. Feasibility of using pulse drip irrigation for increasing growth, yield, and water productivity of red raspberry. Hort. Science. 2024. 59: 332–339. https://doi.org/10.21273/HORTSCI17467-23.
Levin I, Assaf R, Bravdo B. Soil moisture and root distribution in an Apple orchard irrigated by tricklers. Plants and Soil .1979. 52(1): 31-40.
Abdelraouf RE, Abou-Hussein SD, Abd-Alla AM, et al. Effect of short irrigation cycles on soil moisture distribution in root zone, fertilizers use efficiency and productivity of potato in new reclaimed lands. J Appl. Sci. Res. 2012.8(7): 3823-3833.
Sesveren S., Sakar S. Kesikli damla sulama altında bazı böğürtlen çeşitlerinin göstermiş olduğu verimsel tepki, International Symposium on Advanced Engineering Technologies, (Tam metin bildiri) 1305-1310. 2019, Kahramanmaraş/Türkiye
Nosenko VF., Balabanand EI. and Landes GA. Aspects of Agrobiological and Environmental Assessment of Irrigation Technologies with Different Volumes of Water Delivery. Land Reclamation and Water Management. Central Bureau of Scientific and Technical Information, Moscow, 1991.p: 7
Gültekin R, Ertek A. Effect of Pulse Subsurface Drip Irrigaton on Yield and Quality Parameters of Sillage Maize (Zea Mays L.). ANAJAS. 2022.37(3): 459-478. doi:10.7161/omuanajas.1000915
Phogat V, Skewes MA, Cox JW, et al. Modelling the impact of pulsing of drip irrigation on the water and salinity dynamics in soil in relation to water uptake by an almond tree. WIT Transactions on Ecology and Environment.2012a.168:101-113.
Phogat V, Mahadevan M, Cox JW, et al. Modelling soil water and salt dynamics under pulsed and continuous surface drip irrigation of almond and implications of system design. Irrig. Sci., 2012b.30: 315-333.
Phogat V, Skewes MA, Mahadevan M, et al. Evaluation of soil plant system response to pulsed drip irrigation of an almond tree under sustained stress conditions. Agric. Water Manag. 2013. 118: 1-11.
Maller AE, Rezende R, Freitas PS, et al. Growth and production of a Japanese cucumber crop under pulse irrigation. Afr. J. Agric. Res. 2016.11(42): 4250-4261.
Elwin AR. Irrigation guide. Natural Resources Conservation Service. United States Department of Agriculture. Natl. Eng. Handb. 1997, p. 652.
Mostaghimi S, Mitchell JK. Pulse trickling effects on soil moisture distribution. J the Am. Water Resour. Assoc. 1983;19(4):605-612.
Goodwin I, Boland AM. Scheduling deficit irrigation of fruit trees for optimizing water use efficiency. Dep. Nat. Resour. and Env., Institute of Sustainable Irrigated Agriculture, Tatura, Australia. 2001, pp. 11-25.
Bouma JR, Brown B, Rao SC. Movement of water: basics of soil water relationships – part III. UFAS extension fact sheet SL. 2003, 39.
Scott C. Pulse Irrigation. Water savings indian flower growers association. Cooperating with the Department of Horticulture and Landscape Architecture Cooperative Extension Service. Purdue University West Lafayette 2000.14(1):120.
Ismail S, EL-Abdeen T, Omara AA. et al. Modeling the soil wetting pattern under pulse and continuous drip irrigation. Am.-Eur. J. Agric. & Environ. Sci .2014.14(9): 913-922.
Elmaloglou S, Diamantopoulos E. Wetting front advance patterns and water losses by deep percolation under the root zone as influenced by pulsed drip irrigation. Agric. Water Manag. 2007. 90:160-163.
Zhou L, Feng H, Zhoa Y, et al. Drip irrigation lateral spacing and mulching affects the wetting pattern, shoot-root regulation, and yield of maize in a sand-layered soil. Agric. Water Manag. 2017;184:114-123.
Yardeni A. Pulsation for better drip irrigation. Water and Irrig. Review. 1989. 9(2): 8-12.
Al-Amoud AI, Saeed M. The effect of pulsed drip irrigation on water management. Proc. 4th Int. Micro- Irrig. Cong .1988, pp. 120-144.
Jackson RC, Kay MG. Use of pulse irrigation for reducing clogging problems in trickle emitters. J. of Agric. Eng. Res .1987. 37(3-4): 223-227.
Warrick AW. Time-dependent linearized infi ltration: I. Point sources. Soil Sci. Soc. Am. J. 1974.38: 383–386.
Bresler E. Analysis of trickle irrigation with application to design problems. Irrig. Sci. 1978.1: 3–17.
Cote CM., Bristow KL., Charlesworth PB. et al. Analysis of soil wetting and solute transport in subsurface trickle irrigation. Irrig. Sci. 2003. 22:143–156.
Thorburn PJ., Cook FJ., and Bristow KL. Soil-dependent wetting from trickle emitters: Implications for system design and management. Irrig. Sci. 2003.22:121–127.
Gärdenäs AI., Hopmans JW., Hanson BR. et al. Twodimensional modeling of nitrate leaching for various fertigation scenarios under micro-irrigation. Agric. Water Manage. 2005.74: 219–242.
Li J., Zhang J., and Rao M. Wetting patterns and nitrogen distributions as aff ected by fertigation strategies from a surface point source. Agric. Water Manage. 2004.67:89–104.
Brouwer C., Prins C., Kay M. et al. Irrigation water management: Irrigation methods. Training manual no. 5. Provisional ed. FAO, 1988. Rome.
Skaggs TH., Trout TJ., Šimůnek J. et al. Comparison of HYDRUS-2D simulations of drip irrigation with experimental observations. J. Irrig. Drain. Eng. 2004.130:304–310.
Zur B. The pulsed irrigation principle for controlled soil wetting. Soil Sci. 1976.122:282–291.
Zur B., and D. Savaldi. Infi ltration under a pulsed water application: 1. Th e nature of the fl ow system. Soil Sci. 1977.124:127–134.
Assouline S., Möller M., Cohen S. et al. Soil–plant system response to pulsed drip irrigation and salinity: Bell pepper case study. Soil Sci. Soc. Am. J. 2006.70:1556–1568.
Wang F. Kang Y. and Liu SP. Effects of drip irrigation frequency on soil wetting pattern and potato growth in North China Plain. Agric. Water Manage.2006.79: 248–264.
Gönen E, Tanrıverdi C., Colak YB., et al. Çukurova koşullarında yüzeyüstü ve yüzeyaltı damla sulama yöntemiyle farklı su düzeylerinde sulanan patlıcan bitkisinin azot kullanım randımanının belirlenmesi. Mustafa Kemal Üniversitesi Tarım Bilimleri Dergisi, 2019.
Camp CR., et al. Subsurface drip irrigation–Past, present and future. In Proc. Fourth Decennial Nat’l Irrigation Symp., 2000.Nov (pp. 14-16)
Lamm FR. Advantages and disadvantages of subsurface drip irrigation. In International Meeting on Advances in Drip/Micro Irrigation, Puerto de La Cruz, Tenerife, Canary Islands 2002. (p. 13)
Mohammed AK., and Abed BS. Water distribution and interference of wetting front in stratified soil under a continues and an intermittent subsurface drip irrigation. Journal of Green Engineering, 2020.10(2): 268-286.
Vyrlas P., and Sakellariou-Makrantonaki, M. Intermittent water application through surface and subsurface drip irrigation. In 2005 ASAE Annual Meeting (p. 1). American Society of Agricultural and Biological Engineers, 2005.
Bakeer GAA., et al. Effect of pulse drip irrigation on yield and water use efficiency of potato crop under organic agriculture in sandy soils. Misr Journal of Agricultural Engineering, 2009.26(2): 736-765
Eric S., S. David, and Robert H. (2004). To pulse or not to pulse drip irrigation that is the question UF/IFAS Horticultural Sciences Department. Florida,USA NFREC-SV-Vegetarian (04-05).
Segal, E., Ben-Gal, A. and Shani, U. Water availability and yield response to high frequency micro-irrigation in sunflowers. 6th International Micro-irrigation Congress. Micro-irrigation Technology for Developing Agriculture’. South Africa, 2000.22 – 27 October E-mail alonben-gal@rd.ardom.co.il
Sharmasarkar FC., Sharmasarkar SD., Miller GF. et al. Assessment of drip irrigation and flood irrigation on water and fertilizer use efficiencies for sugar beets. Agric. Water Manage, 2001.46: 241-251.
Dole JM. Comparing poinsettia irrigation methods. The Poinsettia, 1994.10: 4-9.
Oron G. Simulation of water flow in the soil under sub-surface trickle irrigation with water uptake by roots. Agric. Water Mange. 1981. 3:179-193.
Silber A., Bruner M., Kenig E. et al. High fertigation frequency andphosphorus level: Effects on summer-grown bell pepper growth and blossom-end rot incidence. Plant Soil, 2005.270(1-2): 135-146.
Fraisse CW, Duke HR, Heermann DR. Laboratory evaluation of variable water application with pulse irrigation. Am. Soc. Agric. Eng. 1995;38(5):1363-1369.
García-Prats A, Guillem-Picó S. Adaptation of pressurized irrigation networks to new strategies of irrigation management: Energy implications of low discharge and pulsed irrigation. Agric. Water Manag.,Volume 2016;169:52-60.28.
Elmaloglou S, Diamantopoulos E. Effects of hysteresis on redistribution of soil moisture and deep percolation at continuous and pulse drip irrigation. Agric. Water Manag. 2009a;96(3):533-538.
Rank PH, Unjia YB, Kunapara AN. Soil Wetting Pattern under Point and Line Source of Trickle Irrigation. Int. J. Curr. Microbiol. App. Sci. 2019;8(07):785-792.
Rank PH, Vishnu B. Automation of Pulsed Drip Irrigation. International Journal of Engineering Science and Computing 2019;9(7):23265-23276.
Skaggs TH, Trout TJ, Rothfuss Y. Drip irrigation water distribution patterns: effects of emitter rate, pulsing, and antecedent water. Soil Sci. Soc. Am. J. 2010;74(6):1886-1896.
El-Mogy MM, Abuarab ME, Abdullatif AL. 2012. Response of green bean to pulse surface drip irrigation. J Hortic Sci Ornam Plants. 4:329–334.https://doi.org/10.5829/idosi.jhsop.2012.4.3.263
Almeida WF., Lima LA., Pereira GM. Drip pulses and soil mulching effect on american crisphead lettuce yield. Engenharia Agrícola. 2015., 35, pp 1009-1018.
Xu G, Levkovitch I, Soriano S, et al. Integrated effect of irrigation frequency and phosphorus level on lettuce: P uptake,root growth and yield. Plant Soil. 2004. 263:297–309. https://doi.org/10.1023/B:PLSO.0000047743. 19391.42.
El-Abedin TKZ. Effect of pulse drip irrigation on soil moisture distribution and maize production in clay soil. Misr J Ag Eng. 2006.23: 1032–1050.
Madane DA, Mane MS, Kadam ES, et al. Study of white onion (Alium [sic] cepa L.) on yield and economics under pulsed irrigation (drip) for different irrigation levels. Int J Agric Eng. 2018.11:128–134. https://doi.org/10.15740/ HAS/IJAE/11.1/128-134.
Abdelraouf RE, Ahmed A, Tarabye HHH, et al. Effect of pulsed drip irrigation and organic mulching by rice straw on yield, water productivity and quality of orange under sandy soils conditions. Plant Arch. 2019.19:2613–2621.
Eid AR, Bakry AB, Taha MH. Effect of pulse drip irrigation and mulching systems on yield, quality traits and irrigation water use efficiency of soybean under sandy soil conditions. Agro Sci. 42013: 249–261. https://doi.org/10.4236/as.2013.45036.
Gendron L, Letourneau G, Cormier J, et al. Using pulsed water application and automation technology to improve irrigation practices in strawberry production. Hort. Technology. 2018.28:642–650. https:// doi.org/10.21273/HORTTECH04001-18.
Letourneau G, Caron J. Irrigation management scale and water application method to improve yield and water productivity of fieldgrown strawberries. Agronomy. 2019. 9(6): 286. https:// doi.org/10.3390/agronomy9060286
Carroll JL, Orr ST, Benedict CA, et al. Feasibility of using pulse drip irrigation for increasing growth, yield, and water productivity of red raspberry. Hort. Science. 2024. 59: 332–339. https://doi.org/10.21273/HORTSCI17467-23.
Levin I, Assaf R, Bravdo B. Soil moisture and root distribution in an Apple orchard irrigated by tricklers. Plants and Soil .1979. 52(1): 31-40.
Abdelraouf RE, Abou-Hussein SD, Abd-Alla AM, et al. Effect of short irrigation cycles on soil moisture distribution in root zone, fertilizers use efficiency and productivity of potato in new reclaimed lands. J Appl. Sci. Res. 2012.8(7): 3823-3833.
Sesveren S., Sakar S. Kesikli damla sulama altında bazı böğürtlen çeşitlerinin göstermiş olduğu verimsel tepki, International Symposium on Advanced Engineering Technologies, (Tam metin bildiri) 1305-1310. 2019, Kahramanmaraş/Türkiye
Nosenko VF., Balabanand EI. and Landes GA. Aspects of Agrobiological and Environmental Assessment of Irrigation Technologies with Different Volumes of Water Delivery. Land Reclamation and Water Management. Central Bureau of Scientific and Technical Information, Moscow, 1991.p: 7
Gültekin R, Ertek A. Effect of Pulse Subsurface Drip Irrigaton on Yield and Quality Parameters of Sillage Maize (Zea Mays L.). ANAJAS. 2022.37(3): 459-478. doi:10.7161/omuanajas.1000915
Phogat V, Skewes MA, Cox JW, et al. Modelling the impact of pulsing of drip irrigation on the water and salinity dynamics in soil in relation to water uptake by an almond tree. WIT Transactions on Ecology and Environment.2012a.168:101-113.
Phogat V, Mahadevan M, Cox JW, et al. Modelling soil water and salt dynamics under pulsed and continuous surface drip irrigation of almond and implications of system design. Irrig. Sci., 2012b.30: 315-333.
Phogat V, Skewes MA, Mahadevan M, et al. Evaluation of soil plant system response to pulsed drip irrigation of an almond tree under sustained stress conditions. Agric. Water Manag. 2013. 118: 1-11.
Maller AE, Rezende R, Freitas PS, et al. Growth and production of a Japanese cucumber crop under pulse irrigation. Afr. J. Agric. Res. 2016.11(42): 4250-4261.
Elwin AR. Irrigation guide. Natural Resources Conservation Service. United States Department of Agriculture. Natl. Eng. Handb. 1997, p. 652.
Mostaghimi S, Mitchell JK. Pulse trickling effects on soil moisture distribution. J the Am. Water Resour. Assoc. 1983;19(4):605-612.
Goodwin I, Boland AM. Scheduling deficit irrigation of fruit trees for optimizing water use efficiency. Dep. Nat. Resour. and Env., Institute of Sustainable Irrigated Agriculture, Tatura, Australia. 2001, pp. 11-25.
Bouma JR, Brown B, Rao SC. Movement of water: basics of soil water relationships – part III. UFAS extension fact sheet SL. 2003, 39.
Scott C. Pulse Irrigation. Water savings indian flower growers association. Cooperating with the Department of Horticulture and Landscape Architecture Cooperative Extension Service. Purdue University West Lafayette 2000.14(1):120.
Ismail S, EL-Abdeen T, Omara AA. et al. Modeling the soil wetting pattern under pulse and continuous drip irrigation. Am.-Eur. J. Agric. & Environ. Sci .2014.14(9): 913-922.
Elmaloglou S, Diamantopoulos E. Wetting front advance patterns and water losses by deep percolation under the root zone as influenced by pulsed drip irrigation. Agric. Water Manag. 2007. 90:160-163.
Zhou L, Feng H, Zhoa Y, et al. Drip irrigation lateral spacing and mulching affects the wetting pattern, shoot-root regulation, and yield of maize in a sand-layered soil. Agric. Water Manag. 2017;184:114-123.
Yardeni A. Pulsation for better drip irrigation. Water and Irrig. Review. 1989. 9(2): 8-12.
Al-Amoud AI, Saeed M. The effect of pulsed drip irrigation on water management. Proc. 4th Int. Micro- Irrig. Cong .1988, pp. 120-144.
Jackson RC, Kay MG. Use of pulse irrigation for reducing clogging problems in trickle emitters. J. of Agric. Eng. Res .1987. 37(3-4): 223-227.
Pages
171-190
Published
January 14, 2025
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