Irrigation Water Volume and Water Efficiency of Walnut Orchards in As-Suwayda, Syria
محورهای موضوعی : Abiotic stress physiology
Hussam Abdullah Abbas
1
,
Ammar Dham
2
,
Hamza Radhi
3
,
Zainab Hussein Adhub
4
,
Majeed M. Abid
5
,
Noora M. Hameed
6
,
Hanan Askar Hussny
7
1 - Department of Dentistry, AlNoor University College, Iraq
2 - College of Medical Technology, Medical Lab techniques, Al-Farahidi University, Iraq
3 - College of MLT, University of Ahl Al Bayt, Kerbala, Iraq
4 - Department of Pharmacy, Al-Zahrawi University College, Kerbala, Iraq
5 - Al-Hadi University College, Baghdad,10011, Iraq
dr.majeed@huc.edu.iq
6 - Anesthesia techniques, Al–Nisour University College, Iraq
7 - National University of Science and Technology, Dhi Qar, Iraq
کلید واژه: water requirement, drip irrigation, Irrigation scheduling, Surface irrigation,
چکیده مقاله :
In recent years, the demand for walnuts has increased due to their recognition as a nutritious food and a versatile ingredient in cooking and baking. As a result, walnut production has become a significant industry in many countries, providing income and employment opportunities for growers and processors. Despite the fact that one of the most important products in the world and Syria is walnuts, there has been little research on irrigation and, in particular, water productivity. Therefore, the purpose of this study is to examine the irrigation status and water productivity in several walnut orchards in As-Suwayda province, which is a significant production area for this product. In the course of this research, water productivity, irrigation water volume, and the crop performance of walnut orchards in three of the most important producing locations of this commodity in the province of As-Suwayda (Sweida) were evaluated and compared. Drip irrigation and surface irrigation methods were investigated. The t-test was used to compare irrigation water levels in orchards with gross water requirements. Drip irrigation systems in orchards save around 1700 m3 ha-1 of irrigation water, reduce yields by an average of 145 kg ha-1, and boost water productivity by roughly 0.02 kg m3, according to the findings, but none of these differences were statistically significant at the 5% level. In general, there was not a discernible difference found between drip and surface irrigation systems in terms of performance values, amount of water applied, or water productivity.
Abou Zakhem B, Al Ain F, Hafez R (2019) Assessment of field water budget components for increasing water productivity under drip irrigation in arid and semi-arid areas, Syria. Irrigation and Drainage. 68, 452–463.
Akca Y, Sahin U (2022) Responses of ‘Chandler’ walnut variety grafted onto different rootstocks to salt stress. International Journal of Horticultural Science and Technology. 9, 1-13.
Apáti F, Kovács E, Kocsis M (2018) Effect of postharvest on the economic viability of walnut production. International Journal of Horticultural Science. 24, 28–38.
Baba A, Karem RA, Yazdani H (2021) Groundwater resources and quality in Syria. Groundwater for Sustainable Development. 14, 100617.
Banaeian N, Zangeneh M (2011) Modeling energy flow and economic analysis for walnut production in Iran. Research Journal of Applied Sciences, Engineering and Technology. 3, 194–201.
Ben-Gal A, Ityel E, Dudley L, Cohen S, Yermiyahu U, Presnov E, Zigmond L, Shani U (2008) Effect of irrigation water salinity on transpiration and on leaching requirements: A case study for bell peppers. Agricultural Water Management. 95, 587–597.
Çetin O, Kara A (2019) Assesment of water productivity using different drip irrigation systems for cotton. Agricultural Water Management. 223, 105693.
Chartres CJ, Noble A (2015) Sustainable intensification: overcoming land and water constraints on food production. Food Security. 7, 235–245.
Cullis JD, Rossouw N, Du Toit G, Petrie D, Wolfaardt G, De Clercq W, Horn A (2018) Economic risks due to declining water quality in the Breede River catchment. Water SA. 44, 464–473.
De Pascale S, Dalla Costa L, Vallone S, Barbieri G, Maggio A (2011) Increasing water use efficiency in vegetable crop production: from plant to irrigation systems efficiency. HortTechnology. 21, 301–308.
Dehghanipour AH, Schoups G, Zahabiyoun B, Babazadeh H (2020) Meeting agricultural and environmental water demand in endorheic irrigated river basins: A simulation-optimization approach applied to the Urmia Lake basin in Iran. Agricultural Water Management. 241, 106353.
Dhillon R, Rojo F, Upadhyaya SK, Roach J, Coates R, Delwiche M (2019) Prediction of plant water status in almond and walnut trees using a continuous leaf monitoring system. Precision Agriculture. 20, 723–745.
Di Baldassarre G, Wanders N, AghaKouchak A, Kuil L, Rangecroft S, Veldkamp TI, Garcia M, van Oel PR, Breinl K, Van Loon AF (2018) Water shortages worsened by reservoir effects. Nature Sustainability. 1, 617–622.
Farsi M, Fatahi Moghadam MR, Zamani Z, Hassani D (2018) Effects of scion cultivar, rootstock age and hormonal treatment on minigrafting of persian walnut. International Journal of Horticultural Science and Technology. 5, 185-197.
Fulton A (2013) Evaluating Water Requirements of Developing Walnut Orchards in the Sacramento Valley. Walnut Research Reports, California Walnut Board.
Gharaghani A, Javarzari AM, Vahdati K (2018) Kaolin particle film alleviates adverse effects of light and heat stresses and improves nut and kernel quality in Persian walnut. Scientia Horticulturae. 239, 35–40.
Hassankhah A, Vahdati K, Rahemi M, Hassani D, Sarikhani-Khorami S (2017) Persian walnut phenology: effect of chilling and heat requirements on budbreak and flowering date. International Journal of Horticultural Science and Technology. 4, 259-271.
Jiyuan Z, Jinghua Z, Wenxin Y, Youwei J, Kang L, Tuerdi H, Kuerban R (2022) Effects of Regulated Deficit Irrigation on Soil Temperature and Yield of Walnut Trees under Drip Irrigation. Xinjiang Agricultural Sciences. 59, 95.
Juranović Cindrić I, Zeiner M, Hlebec D (2018) Mineral composition of elements in walnuts and walnut oils. International Journal of Environmental Research and Public Health. 15, 2674.
Kamran G, Yousef G, Abdollah E, Seyed MN, Seyed FN, Mohammad AE, Fereshteh P (2011) Influence of environmental factors on antioxidant activity, phenol and flavonoids contents of walnut (Juglans regia L.) green husks. Journal of Medicinal Plants Research. 5, 1128–1133.
Lampinen B, Buchner R, Fulton A, Grant J, Mills N, Prichard T, Schwankl L, Shackel K, Gilles C, Little C (2004) Irrigation management in walnut using evapotranspiration, soil and plant based data. Report to the California Walnut Board. 113–136.
Lotfi N, Vahdati K, Amiri R, Kholdebarin B (2009) Drought-induced accumulation of sugars and proline in radicle and plumule of tolerant walnut varieties during germination phase. Acta Horticulturae. 861. 289–296.
Molajou A, Afshar A, Khosravi M, Soleimanian E, Vahabzadeh M, Variani HA (2021a) A new paradigm of water, food, and energy nexus. Environmental Science and Pollution Research. 1–11.
Molajou A, Pouladi P, Afshar A (2021b) Incorporating social system into water-food-energy nexus. Water Resources Management. 35, 4561–4580.
Paredes P, D’Agostino D, Assif M, Todorovic M, Pereira LS (2018) Assessing potato transpiration, yield and water productivity under various water regimes and planting dates using the FAO dual Kc approach. Agricultural Water Management. 195, 11–24.
Riaz F, Riaz M, Arif MS, Yasmeen T, Ashraf MA, Adil M, Ali S, Mahmood R, Rizwan M, Hussain Q (2020) Alternative and non-conventional soil and crop management strategies for increasing water use efficiency. Environment, Climate, Plant and Vegetation Growth. Springer. 323–338.
Roointan R, Yadollahi A, Sarikhani Khorami S, Arab MM, Vahdati K (2018) Rainfed fruit orchards in sloping lands: soil erosion reduction, water harvesting and fruit production. Acta Horticulturae. 1190, 107-112.
Rosa L, Chiarelli DD, Tu C, Rulli MC, D’Odorico P (2019) Global unsustainable virtual water flows in agricultural trade. Environmental Research Letters. 14, 114001.
Sadeghi-Majd R, Vahdati K, Roozban MR, Arab M, Sütyemez M (2022) Optimizing environmental conditions and irrigation regimes can improve grafting success in Persian walnut. Acta Scientiarum Polonorum Hortorum Cultus. 21, 43–51.
Sangirova U, Khafizova Z, Kurbanova D, Rakhmonova B, Kadirkhodjaeva F (2020) The special place of walnuts in the world market and their transportation (case study of Uzbekistan). IOP Conference Series: Materials Science and Engineering. IOP Publishing. 012141.
Sarikhani S, Vahdati K, Ligterink W (2021) Biochemical properties of superior persian walnut genotypes originated from southwest of Iran. International Journal of Horticultural Science and Technology. 8, 13-24.
Serazul-Islam MD (2023) Effects of raised bed furrow irrigation and various mulching techniques on the growth, yield and water use efficiency of tomato cultivation. International Journal of Horticultural Science and Technology. 10, 33-40.
Shah F, Wu W (2019) Soil and crop management strategies to ensure higher crop productivity within sustainable environments. Sustainability. 11, 1485.
Shahrokhnia MA, Abbasi N, Abbasi F (2022) Investigation of irrigation water volume and water productivity of walnut orchards in Fars province. Iranian Journal of Irrigation & Drainage. 15, 1361–1369.
Thapa R, Thapa P, Ahamad K, Vahdati K (2021) Effect of grafting methods and dates on the graft take rate of persian walnut in open field condition. International Journal of Horticultural Science and Technology. 8, 133-147.
Vahdati K, Sarikhani S, Arab MM, Leslie CA, Dandekar AM, Aletà N, Bielsa B, Gradziel TM, Montesinos Á, Rubio-Cabetas MJ (2021) Advances in rootstock breeding of nut trees: objectives and strategies. Plants.10, 2234.
Valleser VC, Dayondon G, Melencion A (2023) Impact of Irrigation and Decreased Light Level by Shade Crop on the Establishment of Cacao Plants. International Journal of Horticultural Science and Technology. 10, 17–24.
Wallace JS (2000) Increasing agricultural water use efficiency to meet future food production. Agriculture, Ecosystems & Environment. 82, 105–119.
Xue J, Fulton A, Kisekka I (2021) Evaluating the role of remote sensing-based energy balance models in improving site-specific irrigation management for young walnut orchards. Agricultural Water Management. 256, 107132.
Yun L, Bi H, Gao L, Zhu Q, Ma W, Cui Z, Wilcox BP (2012) Soil moisture and soil nutrient content in walnut-crop intercropping systems in the Loess Plateau of China. Arid Land Research and Management. 26, 285–296.
Zhang W, Ahanbieke P, Wang BJ, Gan YW, Li LH, Christie P, Li L (2015) Temporal and spatial distribution of roots as affected by interspecific interactions in a young walnut/wheat alley cropping system in northwest China. Agroforestry Systems. 89, 327–343.
