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Responses of unheated greenhouse grown green bean to buried drip tape placement depth and watering levels

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  • Bozkurt, Sefer
  • Mansuroglu, Gulsum Sayilikan

Abstract

Subsurface Drip Irrigation (SDI) is a professional water distribution system for improved crop water use and conserving water. Selecting drip tape installation depths for different crops is the most critical decision with these systems. Hence, the aim of this research was to examine the effects of different SDI depths and water amounts on the yield components and water use characteristics of green bean crop under unheated greenhouse conditions during two crop-growing cycles. Three irrigation methods [Traditional Drip Irrigation (DI), SDI at 10cm soil depth (SDI10) and SDI at 20cm soil depth (SDI20)] and six irrigation water levels (I) based on crop-pan coefficients (I20:Kcp=0.20, I40:Kcp=0.40, I60:Kcp=0.60, I80:Kcp=0.80, I100:Kcp=1.00 and I120:Kcp=1.20) were evaluated. In each growing cycle, adequately watered crops (I100) were accepted as control. The seasonal evapotranspiration changed from 235 to 374mm in autumn and from 270 to 566mm in spring season. Different placement depths of drip tape had significant effects on green bean yields in spring growing cycle. Maximum yield (5.97kgm−2) was obtained in SDI10 irrigation method. Irrigation water levels also significantly (p<0.001) affected green bean yield in both growing cycles. The highest yield (1.66kgm−2 in autumn and 6.81kgm−2 in spring) was obtained in I100 treatment. SDI techniques improved Water Use Efficiency (WUE) and Irrigation Water Use Efficiency (IWUE). The values of WUE and IWUE increased as the watering level was reduced. Maximum yield response factor in DI method in autumn and spring seasons (Ky) was found as 0.96 and 1.66, respectively. General evaluation of the water management, crop yield components and growth variables showed that the SDI10I100 treatment appears to be the most favorable irrigation practice for the green bean grown under greenhouse conditions. Water savings of up to 13% of seasonal irrigation water could be achieved using SDI method.

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  • Bozkurt, Sefer & Mansuroglu, Gulsum Sayilikan, 2018. "Responses of unheated greenhouse grown green bean to buried drip tape placement depth and watering levels," Agricultural Water Management, Elsevier, vol. 197(C), pages 1-8.
    • Handle: RePEc:eee:agiwat:v:197:y:2018:i:c:p:1-8
    DOI: 10.1016/j.agwat.2017.11.009
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    References listed on IDEAS

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    1. Ertek, Ahmet & Sensoy, Suat & Gedik, Ibrahim & Kucukyumuk, Cenk, 2006. "Irrigation scheduling based on pan evaporation values for cucumber (Cucumis sativus L.) grown under field conditions," Agricultural Water Management, Elsevier, vol. 81(1-2), pages 159-172, March.
    2. Sezen, S. Metin & Yazar, Attila & Eker, Salim, 2006. "Effect of drip irrigation regimes on yield and quality of field grown bell pepper," Agricultural Water Management, Elsevier, vol. 81(1-2), pages 115-131, March.
    3. Sezen, S. Metin & Yazar, Attila & Canbolat, Muzaffer & Eker, Salim & Celikel, Gulendam, 2005. "Effect of drip irrigation management on yield and quality of field grown green beans," Agricultural Water Management, Elsevier, vol. 71(3), pages 243-255, February.
    4. Patel, Neelam & Rajput, T.B.S., 2007. "Effect of drip tape placement depth and irrigation level on yield of potato," Agricultural Water Management, Elsevier, vol. 88(1-3), pages 209-223, March.
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    Cited by:

    1. Malika Mahmoudi & Mohamed Naceur Khelil & Sarra Hechmi & Basma Latrech & Rim Ghrib & Abdelhamid Boujlben & Samir Yacoubi, 2022. "Effect of Surface and Subsurface Drip Irrigation with Treated Wastewater on Soil and Water Productivity of Okra ( Abemoschus esculentus ) Crop in Semi-Arid Region of Tunisia," Agriculture, MDPI, vol. 12(12), pages 1, November.
    2. Mo, Yan & Li, Guangyong & Wang, Dan & Lamm, Freddie R. & Wang, Jiandong & Zhang, Yanqun & Cai, Mingkun & Gong, Shihong, 2020. "Planting and preemergence irrigation procedures to enhance germination of subsurface drip irrigated corn," Agricultural Water Management, Elsevier, vol. 242(C).
    3. Wang, Haidong & Wang, Naijiang & Quan, Hao & Zhang, Fucang & Fan, Junliang & Feng, Hao & Cheng, Minghui & Liao, Zhenqi & Wang, Xiukang & Xiang, Youzhen, 2022. "Yield and water productivity of crops, vegetables and fruits under subsurface drip irrigation: A global meta-analysis," Agricultural Water Management, Elsevier, vol. 269(C).
    4. Ren, ChangJiang & Zhao, Yong & Dan, Bai & Wang, Jianhua & Gong, JiaGuo & He, GuoHua, 2018. "Lateral hydraulic performance of subsurface drip irrigation based on spatial variability of soil: experiment," Agricultural Water Management, Elsevier, vol. 204(C), pages 118-125.

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