Response of Tow Fodder Crops" Barley & Sesbania" to Water Stress under Treated Wastewater Irrigation in Salamiah Region

References 1. Abd El-Lattief. E. A. & Khalaphallah, R. (2017). Water resources development by applying modern techniques in wastewater treatment and reuse for barley irrigation. International Journal of Research in Engineering and Applied Sciences (IJREAS). Vol. 7, No. 4, pp: 45-52. 2. Abd-Elwahed, M. S. (2018). Influence of Long-Term Wastewater Irrigation on Soil Quality and its Spatial Distribution. Annals of Agricultural Sciences. Vol. 63, pp: 191-199. https://doi.org/10.1016/j.aoas.2018.11.004. 3. Adriano, D.C. (1986). Trace element in the terrestrial environment. 1st ed. New York: USA. Springer–Verlag Berlin Heidelberg. 4. Alghabari F. & Ihsan M. Z. (2018). Effects of Drought Stress on Growth, Grain Filling Duration, Yield and Quality Attributes of Barley (Hordeum Vulgare L.). Bangladesh Journal of Botany. Vol.47, No. 3, pp: 421-428. 5. Al-Ghazawi, Z., Amayreh, J., Rousan, L., Hijazi, A. (2008). Waste Water Reuse for Agriculture-Pilot Project at the Jordan University of Science and Technology. International Conference on Construction and Building Tecnology. Jordan. D: 40, pp: 425-438. 6. Ali, M., & Narciso, J. H. (1993). The perception and reality of GM use in rice: an economic evaluation. IRRI Social Science Division Paper Series. Los Bafios: Philippines. P. 42. The International Rice Research Institute. 7. Alinezhad, S., Sinaki, J., M., Zarei, M., & Abadi, M., B., F. (2013). Effects of organic fertilizers and drought stress on Physiological traits in barley. International journal of Agronomy and Plant Production. Vol. 4, no. 2, pp: 300-306. 8. Al-Karaki, G. N. (2011). Utilization of treated sewage wastewater for green forage production in a hydroponic system. Emirats Journal of Food and Agriculture. Vol. 23, No. 1, pp: 80-94. 9. Allen, R., G., Luis, S. P., Raes, D., & Smith, M. (1998). Crop Evapotranspiration (Guidelines for Computing Crop Water Requirements). FAO Irrigation and Drainage Paper No. 56. Irrigation and Drainage. Vol. 300. 10. Alloway, B. J. (1995). Heavy metals in soil. Blackie Academic and Professional, Chapman and Hall. London: United Kingdom. P. 368. 11. Al-Rashidi, R., Rusan, M., & Obaid, K. (2013). Changes in Plant Nutrients and Microbial Biomass in Different Soil Depths After Long-Term SurfaceApplication of Secondary Treated Wastewater. Environmental and Climate Technologies. Vol. 11, pp: 28-33. DOI: 10.2478/rtuect-2013-0004. 12. AL-solaimani, S. G., ALghabari, F., Ihsan, M. Z., & Fahad, Sh. (2017). Water Deficit Irrigation and Nitrogen Response of Sudan Grass under Arid Land Drip Irrigation Conditions. Irrigation and Drainage. Vol. 66, pp. 365-376. DOI: 10.1002/ird.2110. 13. Alvarez-Holguin, A., Sosa-Perez, G., Ponce-Garcia, O.C., Lara-Macias, C.R., Villarreal- Guerrero, F., Monzon-Burgos, C.G., Ochoa-Rivero, J.M. (2022). The Impact of Treated Wastewater Irrigation on the Metabolism of Barley Grown in Arid and Semi-Arid Regions. International Journal of Environmental Research and Public Health. Vol. 19, 2345, pp: 1-16. 14. Al-Zoubi, M. M., Arslan, A., Abdelgawad, G., Pejon, N., Tabba, M. & Jouzdan, O. (2008). Theeffect of sewage sludge on productivity of a crop rotation of wheat, maize and vetch and heavymetals accumulation in soil and plant in Aleppo Governorate. Amer-Eur. J. Agric. & Environ. Sci. Vol.3, pp: 618-625. 15. Andreas, S. P., & Frenken, K. (2002). Crop Water Requirements and Irrigation Scheduling. Irrigation Manual, Module 4. FAO Sub-Regional Office for East and Soutern Africa. 16. APHA. (1998). Standard methods for the examination of waters and wastewaters. Washington: USA. 20th Edition. American Public Health Association, American Water Works Association and Water Environmental Federation. 17. Aulakh, M. S., Khera, T. S., Doran, J. W., Singh, K., & Singh, B. (2000). Yields and Nitrogen Dynamics in a Rice–Wheat System Using Green Manure and Inorganic Fertilizer. Soil Sci. Soc. Am. J. Vol. 64, pp:1867-1876. 18. Bagues, M., Souli, I., Boussora, F., Lachiheb, B., & Nagaz, K. (2017). Response of two barley accessions “Ardhaoui” to deficit irrigation using saline water in southern Tunisia. Journal of new sciences, Agriculture and Biotechnology. Vol. 37, no.1, pp: 2013-2023. 19. Balázs, H., Opara-Nadi, O., & Beese, F. (2005). A Simple Method for Measuring the Carbonate Content of Soils. Soil Science Society of America Journal. Vol. 69, Iss. 4, pp: 1066-1068. 20. Balkhair, K. S., El-Nakhlawi, F. S., Ismail, S. M., & Al-Solimani, S. G. (2013). Treated wastewater use and its effect on water conservation, vegetative yield, yield components and water use efficiency of some vegetable crops grownunder two different irrigation systems in Western Region, Saudi Arabia. Eur. Sci. J. Vol. 3, pp: 395-402. 21. Becker, M., Ladha, J. K., & Ali, M. (1995). Green manure technology: potential, usage, and limitations. A case study for lowland rice. Plant Soil. Vol. 174, pp: 181-194. 22. Bedbabis, S., Rouina, B., Boukhris, M., & Ferrara, G. (2014). Effects of Irrigation with Treated Wastewater on Root and Fruit Mineral Elements of Chemlali Olive Cultivar. The scientific World Journal. 8 pages, http://dx.doi.org/10.1155/2014/973638. 23. Berg, H., Kiibus, M., & Kautsky, N. (1995). Heavy metals in tropical kariba, Zimbabwe. Water, Air and Soil Pollution. Vol. 83, pp: 237-252. 24. Boltz, D. F., & Mellon, M. G. (1948). Spectrophotometric determination of phosphate as molydiphosphoric acid. Analytical chemistry. Vol. 20, no.8, pp: 749-751. 25. Bouwer, H. (2000). Integrated Water Management: Emerging Issues and Challenges. Agricultural Water Management. Vol. 45, pp: 217-228. 26. Branzini, A., González, R. S., & Zubillaga, M. (2012). Absorption and translocation of copper, zinc and chromium by Sesbania virgate. Journal of Environmental Management. Vol. 102, pp: 50-54. 27. Bremner, J. M. (1996). Nitrogen-total. Ed. D. L. Sparks. Methods of Soils Analysis: Chemical Methods. Madison: USA. Pp: 1085-1121. American Society of Agronomy, Soil Science Society of America. 28. Bremner, J. M., & Breitenbeck, G. A. (1983). A simple method for determination of ammonium in semimicro-Kjeldahl analysis of soils and plant materials using a block digester. Commun. Soil Sci. Plant Anal. Vol. 14, pp: 905-913. 29. Bulut, E., & Aksoy, A. (2008). Impact of fertilizer usage on phosphorus loads to Lake Uluabat. Desalination. Vol. 226, pp: 289-297. 30. Buragohain, S., Sharma, B., Nath, D. J., Gogaoi, N., Meena, R. S., & Lal, R. (2018). Effect of ten years of bio-fertilizer use on soil quality and rice yield on an inceptisol in Assam, India. Soil Research. Vol. 56, pp: 49-58. 31. Castro, E., Man˜ as, M. P., & De Las Heras, J. (2011). Effects of wastewater irrigation on soil properties and turfgrass growth, Water Science & Technology: a journal of the International Association on Water Pollution Research. IWA Publishing. Vol. 63, no. 8, pp: 1678-1688. DOI: 10.2166/wst.2011.335.32. Chaganti, V. N., Ganjegunte, G., Niu, G., Ulery, A., Flynn, R., Enciso, J. M. & et al. (2020). Effects of treated urban wastewater irrigation on bioenergy sorghum and soil quality. Agricultural Water Management. Vol. 228. 33. Chaw, R., & Reves, A. S. (2001). Effect of wastewater on Mentha piperita and Spinacia oleracea. J. Environ. Biol. Vol. 51, pp: 131-145 34. Cheremisinoff, N. P., & Davletshin, A. (2015). Water Quality Standards and Wastewater. Chapter: 4. Hydraulic Fracturing Operations: Handbook of Environmental Management Practices. Scrivener Publishing LLC. P. 792. 35. Choi, B., Ohe, M., Harada, J., & Daimon, H. (2008). Role of Belowground Parts of Green Manure Legumes, Crotalaria spectabili sand Sesbania rostrata, in N Uptake by the Succeeding Tender green Mustard Plant .Plant Prod. Sci. Vol. 11, No.1, pp: 116-123. 36. Chopra, A. K., & Pathak, C. (2015). Accumulation of heavy metals in the vegetables grown in wastewater irrigated areas of Dehradun, India with reference to human health. Environ. Monit. Assess. Vol. 187, pp:1-8. 37. Conway, T. (2001). Plant materials & techniques for brine site reclamation. Plant Materials Technical Note, NO 26. Manhattan: USA. USDA. Natural Resources Conservation Service. Plant Materials Center. 38. Dan, T. H., Quang, L. H., Chiem, N. H., & Brix, H. (2011). Treatment of high-strength wastewater in tropical constructed wetlands planted with Sesbania sesban: Horizontal subsurface flow versus vertical downflow. Ecological Engineering. Vol. 37, pp:711-720. 39. Day, W., Legg, B., J., French, B., K., Johnston, A., E., Lawlor D., W., & Jeffers, W., DE C. (1978). A Drought Experiment Using Mobile Shelters: The Effect of Drought on Barley Yield, Water Use And Nutrient Uptake. J. agric. Sci. Camb. Vol. 1978, no. 91, pp: 599-623. 40. Dghaim, R., Al-Khatib, S., Rasool, H., & Khan, M. A. (2015). Determination of Heavy Metals Concentration in Traditional Herbs Commonly Consumed in the United Arab Emirates. Journal of Environmental and Public Health. Article ID 973878. 6 pages. http://dx.doi.org/10.1155/2015/973878. 41. Dheri, G. S., Brar, M. S., & Malhi, S. S. (2007). Heavy‐Metal Concentration of Sewage‐Contaminated Water and Its Impact on Underground Water, Soil, and Crop Plants in Alluvial Soils of Northwestern India. Communications in Soil Science & Plant Analysis. Vol. 38, pp: 1353-1370.42. Dhyan, S., Chhonkar, P. K., & Pandey, R. N. (1999). Soil, plant & water analysis - a method manual. New Delhi: India. IARI. 43. Dotaniya, M. L., Rajendiran, S., Meena, V. D., Coumar, M. V., Saha, J. K., Kundu, S., & Patra, A. K. (2018). Impact of long-term application of sewage on soil and crop quality in vertisols of Central India. Bull Environ Contam Toxicol. Vol. 101, pp: 779-786. 44. El-Shawadfy, M., A., Abdelraouf, R.,E., Marwa, M. A., & El-Shafie, A., F. (2020). Effect of deficit irrigation scheduling and minimum tillage on the water stress, water application efficiency, yield and water productivity of barley under sandy soil conditions. Plant Archives. Vol. 20, Supplement 2, pp: 3138-3148. 45. English, M. J., Musick, J. T., & Murty, V.V. (1990). Deficit irrigation. (eds) G. J. Hoffman, T. A. Howell, & K. H. Solomon. Management of Farm Irrigation System. Pp: 631-666. 46. Eugenio. R. N., McLaughlin, M. & Pennock, D. (2018). Soil Pollution: A Hidden Reality. Rome: Italy. FAO Food and Agriculture Organization. P. 142. 47. FAO Food and Agriculture Organization. (1980). Soil testing and plant analysis. No. 38/1. Rome: Italy. Food and Agriculture Organization. 48. FAO Food and Agriculture Organization. (2003). Users Manual For Irrigation With Treated Wastewater. Cairo: Egypt. Regional Office for the Near East. 49. FAO Food and Agriculture Organization. (2007). Methods of analysis for soils of arid and semiarid regions. Rome: Italy. Food and Agriculture Organization. 50. FAO. (2012). aquastat. Fao database statistical databases. http://www.fao.org/aquastat/en/databases/ 51. FAO/WHO Standard. (1992). Wastewater Treatment and use in agriculture. Irrigation and Drainage Papers No. 47. Rome: Italy. Food and Agriculture Organization. 52. Fereres, E., & Soriano, M. A. (2007). Deficit irrigation for reducing agricultural water use. Journal of Experimental Botany. Vol. 58, No. 2, pp. 147-159. 53. Flörke, M., Kynast, E., Bärlund, I., Eisner, S., Wimmer, F., & Alcamo J. (2013). Domestic and industrial water uses of the past 60 years as a mirror of socio-economic development: a global simulation study. Glob Environ Chang. Vol. 23, pp:144-156.54. Galavi, M., Jalali, A., Mousavi, S. R., & Galavi, H. (2009). Effect of Treated Municipal Wastewater on Forage Yield, Quantitative and Qualitative Properties of Sorghum (S. bicolor Speed feed). Asian Journal of Plant Sciences. Vol. 8, No.7, pp: 489-494. 55. Ghosh, A. K., Bhatt, M. A. & Agrawal, H. P. (2012). Effect of long-term application of treated sewage water on heavy metal accumulation in vegetables grown in Northern India. Environmental Monitoring and Assessment. Vol. 184, No. 2, pp: 1025-1036. 56. Grattan, S. R., Grieve, C. M., Poss, J. A., Robinson, P. H., Suarez, D. L., & Benes, S. E. (2004). Evaluation of salt-tolerant forages for sequential water reuse systems. I. Biomass production. Agricultural Water Management. Vol. 70, pp:109-120. 57. Greets S. & Raes, D. (2009). Deficit irrigation as an on-farm strategy to maximize crop water productivity in dry areas. Agricultural Water Management. Vol. 96, Iss. 9, pp:1275-1284. 58. Gupta, P. K. (2000). Soil, plant, water and fertilizer analysis. New Delhi: India. P. 438. Agrobios. Jodhpur. 59. Gupta, S., Satpati, S., Nayek, S. & Garai, D. (2010). Effect of wastewater irrigation on vegetables in relation to bioaccumulation of heavy metals and biochemical changes. Environmental Monitoring and Assessment. Vol. 165, pp:169-177. 60. Haile, D., Nigussie, D., & Ayana, A. (2012). Nitrogen use efficiency of bread wheat: Effects of nitrogen rate and time of application, Journal of Soil Science and Plant Nutrition. Vol. 12, No.3, pp: 389-409. 61. Hasan H., Battikhi, A., & Qrunfleh, M. (2014). Impacts of Treated Wastewater Reuse on Some Soil Properties and Production of Gladiolus communis. J. Horticulture. Vol. 1, p. 111. doi:10.4172/horticulture.1000111 62. Hu, H. R., Ma, H. C. & Wang, Y. X. (2010). Influence of Land Use Types to Nutrients, Organic Carbon and Organic Nitrogen of Soil. Soil & Water Conservation. Vol. 11, pp: 40-43. China. 63. Hu, H. R., Wang, H. L., Katie, B., & Mark, K. (2012). Effect of long term effluent irrigation on content and movement of phosphorus in soil of forest land. Acta Pedologica Sinica. Vol. 49, pp: 560-566. 64. Hu, H. Y. (2010). Effect of sewage irrigation water on soil quality in farmland in China. Northwest A&F University. Yangling: China.65. Husein, H. M., Kalkha, M., Al Jrdi, A. & Baumler, R. (2019). Urban Soil Pollution with Heavy Metals in Hama Floodplain, Syria. Natural Resources. Vol. 10, pp: 187-201. 66. Hussain, I., raschid, L., Hanjra, M. A., Marikar, F., & Van der Hoek, W. (2001). Water use in agriculture-review of impacts and methodological issues in valuing impacts, working paper 37. Colombo: Sri Lanka. International water management institute (IWMI). 67. Ibrahim, A. K, Ibrahim, S. A., Voncir, N. & Hassan, A. M. (2020). Effect of Some Leguminous Green Manure Crops and Nitrogen Levels on Soil Chemical Properties of Maize (Zea mays L.) Grown Soil. IAR Journal of Agriculture Research and Life Sciences. Vol. 1, No.1, pp: 17-25. 68. Ihsan, M. Z., El-Nakhlawy, F. S., Fahad, Sh., & Alzamanan, S. (2016 a). Genotypes Selection on The Basis of Periodic Performance-A Reliable Strategy to Maximize Crop Water Use Efficiency and Productivity in Arid Regions. Annals of Arid Zone. Vol. 55, No.3&4, pp:153-163. 69. Ihsan, M. Z., El-Nakhlawy, F. S., Ismail, S. M., & Fahad, S. (2016 b). Wheat phenological development and growth studies as affected by drought and late season high temperature stress under arid environment. Front. Plant Sci. Vol. 7. 70. Inyinbor, A. A., Bello, O. S., Oluyori, A. P., Inyinbor, H. E. & Fadiji, A. E. (2019). Wastewater conservation and reuse in quality vegetable cultivation: Overview, challenges and future prospects. Food Control. Vol. 98, pp: 489-500. 71. IPCC Intergovernmental Panel on Climate Change. (2014). Climate change 2014: Synthesis report. Contribution of working groups I, II and III to the fifth assessment report of the Intergovernmental panel on climate change. Editors: R. K. Pachauri & L. A. Meyer. Geneva: Switzerland. IPCC. p.151. 72. IRRI. (1990). World rice statistics. Los Bafios: Philippines. The International Rice Research Institute. P. 320. 73. Isaac, R. A. & Kerber, J. D. (1971). Atomic absorption and flame photometery: Techniques and uses in soil, plant and water analysis. Ed. L.M.Walsh. Instrumental methods for analysis of soils and plant tissue, Soil. Pp: 17-37. Madison: USA. Soil Science Society of America. 74. ISO, 11466. (1995). Soil quality - Extraction of trace elements soluble in aqua regia, part 6. Geneva: Switzerland. International Organization for Standardization.75. Jahan, K. M., Khatun, R., & Islam, M. Z. (2019). Effects of wastewater irrigation on soil physico-chemical properties, growth and yield of tomato. Progressive Agriculture. Vol. 30, no. 4, pp: 352-359. 76. Janzen, H. H., & Schaalje, G. B. (1992). Barley response to nitrogen and non-nutritional benefits of legume green manure. Plant and Soil. Vol. 142, pp:19-30. Springer. 77. Jiang, Y., Wu, Y., Groves, C., Yuan, D., & Kambesis, P. (2009). Natural and anthropogenic factors affecting the groundwater quality in the Nandong karst underground river system in Yunan. Journal of Contaminant Hydrology. Vol. 109, pp: 49-61.Yunan: China. 78. Jnad, I., Lesikar, B., Kenimer, A., & Sabbagh, G. (2001). Subsurface Drip Dispersal of Residential Effluent: I. Soil Chemical Characteristics. Transactions of the ASAE. Vol. 44, no. 5, pp: 1149-1157. 79. Jones, J. B., Wolf, Jr., B., & Mills, H. (1991). Plant analysis handbook. A Practical Sampling, Preparation, Analysis, and Interpretation Guide. Athens: Greece. Micro-Macro Publishing. 80. Kafeel, A., Kokab, R., Khan, Z. I., Ashfaq, A., Bashir, H., Munir, M., & et al. (2018a). Assessment of Heavy Metals in Wheat Variety ‘‘Chagi-2’’ under Short-Term Wastewater Irrigation. Biologia. Vol. 64, no.1, pp: 15-25. Pakistan. 81. Kafeel, A., Nawaz, Kh., Khan, Z. I., Nadeem, M., Wajid, K., Ashfaq, A., & et al. (2018b). Effect of Diverse Regimes of Irrigation on Metals Accumulation in Wheat Crop: An Assessment-Dire Need of The Day. Fresenius Environmental Bulletin. Vol. 27, no.2, pp: 846-855. 82. Karavoltsos, S., Sakellari, A., Mihopoulos, N., Dassenakis, M., & Scoullos, M. (2008). Evaluation of the quality of drinking water in regions of Greece. Desalination. Vol. 224, pp: 317-329. 83. Kausar, S., Faizan, Sh., & Haneef, I. (2017). Effect of Wastewater Irrigation on Heavy Metal Accumulation, Growth and Yield of Vegetables. INDIA International Journal of Plant and Environment. Vol. 3, no. 1, pp: 65-76. 84. Khalaphallah, R., Mokhles, A., Ahmed, E., & Farrag, S. H. (2014). Wastewater treatment and reuse for irrigation green barley fodder in south valley university-Egypt. Global Advanced Research Journal of Agricultural Science. Vol. 3, no.11, pp: 379-386. 85. Khaskhoussy, Kh., Kahlaoui, B., Nefzi, B. M., Jozdan, O., Dakheel, A., Hachicha, M. (2015). Effect of Treated Wastewater Irrigation on Heavy MetalsDistribution in a Tunisian Soil. Engineering, Technology & Applied Science Research. Vol. 5, no. 3, pp: 805-810. 86. Khurana, M. P. S., & Pritpal S. (2012). Waste Water Use in Crop Production, A Review. Resources and Environment. Vol. 2, no.4, pp: 116-131. 87. Kirda, C. & Kanber, R. (1999). Water, no longer a plentiful resource, should be used sparingly in irrigated agriculture. (Eds.) C. Kirda, P. Moutonnet, C. Hera & D. R. Nielsen. Crop yield response to deficit irrigation. Dordrecht: The Netherlands. Kluwer Academic Publishers. 88. Kirda, C., Kanber, R., Tulucu, K., & Gungor, H. (1996). Yield response of cotton, maize, soybean, sugarbeet, sunflower and wheat to deficit irrigation. Vienna: Austria. Nuclear Techniques to Assess Irrigation Schedules for Field Crops. IAEA. 89. Koupi, J. A., Fard, B. M., Majid, A., & Bagheri, M. R. (2006). Effect of treated wastewater on soil chemical and physical properties in an arid region. Plant Soil and Environment. Vol. 52, no. 8, pp: 335-344. 90. Kumar, R., Mahajan, G., Srivastava, S., & Sinha, A. (2014). Green manuring: a boon for sustainable agriculture and pest management - a review. Agric. Rev. Vol. 35, no. 3, pp: 196-206. 91. Lan, M. J., Li, M. S., Zhao, G. J., & Rui, L. (2010). Effects of Eutrophic Sewage Irrigation on Soil-holding Capacity. Journal of Shihezi University. Vol. 28, pp: 497-500. 92. Lazarova, V., Levine, B., Sack, J., Cirelli, G., Jeffrey, P., Muntau, H., & et al. (2001). Role of water reuse for enhancing integrated water management in Europe and Mediterranean countries. Water Sci. Technol. Vol. 43, pp: 25–33. 93. Lee, S. H., Bae, H. S., Oh, Y. Y., Lee, S. H., Kim, Y. J., Kim, S., & et al. (2016). Effect of Sesbania Incorporation as Nitrogen Source on Growth and Yield of Whole Crop Barley and Reduction of N Fertilizer in Saemangeum Reclaimed Tidal Land, Korean J. Soil Sci. Fert. Vol. 49, no. 6, pp: 751-759. 94. Liu, L., & Lu, G. H. (2002). Nitrogen Wastewater Irrigation Study and Its Contamination Risk Analysis. Advances in Water Science. Vol. 13, pp: 313-320. 95. Ma, Q., & Zhao, G. X. (2010). Effects of Different Land Use Types on Soil Nutrients in Intensive Agricultural Region. Journal of Natural Resources. Vol. 25, pp: 1834-1844.96. Maitra, S., Zaman, A., Mandal, T. K., & Palai, J. B. (2018). Green Manures in Agriculture: A review. Journal of Pharmacognosy and Phytochemistry. Vol.7, no. 5, pp:1319-1327. 97. Maleki, A., Amini, H., Nazmara, Sh., Shiva Zandi, Sh. & Mahvi, A., H. (2014). Spatial distribution of heavy metals in soil, water, and vegetables of farms in Sanandaj. Environmental Health Science & Engineering, Vol. 2, no.136. Kurdistan: Iran. http://www.ijehse.com/content/12/1/136. 98. Manas, P., Castro, E. & Heras, J. l. (2009). Irrigation With Treated Wastewater: Effects on Soil, Lettuce (Lactuca sativa L.) Crop and Dynamics of Microorganisms. Journal of Environmental Science and Health. Part A, vol. 44, no.12, pp: 1261-1273. 99. Marschner, P., Solaiman, Z., & Rengel, Z. (2007). Brassica Genotypes Differ in Growth, Phosphorus Uptake and Rhizosphere Properties Under P-limiting Conditions. Soil Biology & Biochemistry. Vol. 39, pp: 87-98. 100. Masto, R. E., Chhonkar, P. K., Singh, D., & Patra, A. K. (2009). Changes in Soil Quality Indicators under Long-Term Sewage Irrigation in a Sub-Tropical Environment. Environmental Geology. Vol. 56, pp: 1237-1243. 101. Meena B. L., Rattan R. K., Datta S. P., & Meena M. C. (2016). Effect of iron application on iron nutrition of aerobic rice grown in different soils. J. Environ. Biol. Vol. 37, pp: 1377-1383. 102. Meena, B. L., Fagodiya, R. K., Prajapat, K., Dotaniya, M. L., Kaledhonkar, M. J., Sharma, P. C., & et al. (2018). Legume Green Manuring an Option for Soil Sustainability. (eds.) R. S. Meena et al. Legumes for Soil Health and Sustainable Management. Chapter 12. Karnal: India. Central Soil Salinity Research Institute. Springer Nature Singapore. https://doi.org/10.1007/978-981-13-0253-4_12 103. Meena, R. S. (2013). Response to different nutrient sources on green gram (Vigna radiata L.) productivity. Indian J. Ecol. Vol. 40, no.2, pp: 353-355. 104. Meli, S., Porto, M., Belligno, A., Bufo, S. A., Mazzatura, A., & Scopa, A. (2002). Influence of Irrigation with Lagooned Urban Wastewater on Chemical and Microbiological Soil Parameters in a Citrus Orchard under Mediterranean Condition. Sci. Total Environ. Vol. 285, pp: 69-77. 105. Milano, M., Ruelland, D., Fernandez, S., Dezetter, A., Fabre, J., & Servat, E. (2012). Facing Climatic and Anthropogenic Changes in the Mediterranean Basin: What Will Be the Medium‐Term Impact on Water Stress? Comptes Rendus Geoscience. Vol. 344, no.9, pp: 432-440.106. Miller, G., Begonia, G., & Begonia, M. F. T. (2011). Selected Morphological Characteristics, Lead Uptake and Phytochelatin Synthesis by Coffeeweed (Sesbania exaltata Raf.) Grown in Elevated Levels of Lead-Contaminated Soil. International Journal of Environmental Research and Public Health.Vol. 8, pp: 2401-2417. 107. Miller, G., Begonia, G., Begonia, M., Ntoni, J. (2008). Bioavailability and uptake of lead by coffeeweed (Sesbania exaltata Raf.). International journal of environmental research and public health. Vol. 5, no.5, pp: 436-440. 108. Mohammad, M. J., & Ayadi, M. (2004). Forage yield and nutrient uptake as influenced by secondary treated wastewater. Journal of Plant Nutrition. Vol. 27, pp: 351-364. 109. Moll, R.H., Kamprath, E. J. & Jackson, W. A. (1982). Analysis and Interpretation of Factors Which Contribute to Efficiency to Nitrogen Utilization. Agronomy Journal. vol. 74, pp: 562-564. 110. Mourad, Kh. A., & Berndtsson, R. (2011). Syrian Water Resources between The Present and The Future. Air, Soil and Water Research. Vol. 4, pp: 93-100. 111. Mousavi, S. R. & Shahsavari, M. (2014 b). Effects of Treated Municipal Wastewater on Growth and Yield of Maize (Zea mays). Biological Forum-An International Journal. Vol. 6, no. 2, pp: 228-233. 112. Mousavi, S. R., Rahmani, T., Sarlak, H., Chenari, A. I., Miri, H., Sepehri, Z., & Shahsavari, M. (2014 a). Reuse of Municipal Wastewater in Irrigated Agriculture as a Strategy to Deal with the Water Scarcity Crisis. World Journal of Environmental Biosciences. Vol.4, Iss. 2, pp: 36-41. 113. Muthuvel, P., & Udayasoorian, C. (1999). Soil, Plant, Water and Agrochemical Analysis. Journal of Tamil Nadu Agricultural University. Pp: 80-135. Coimbatore: India. 114. Navarro, I., Chavez, A., Barrios, J. A., Maya, C., Becerril, E., Lucario, S., & Jimenez, B. (2015). Wastewater Reuse for Irigation-Practices, Safe Reuse and Perspectives. Chapter: 2. Irrigation and Drainage- Sustainable Strategies and Systems. Mexico: North America. DOI: 10.5772/59361. 115. Olsen, S. R., Cole, C. V., Watanabe, F. S. & Dean, L. A. (1954). Estimation of available phosphorus in soils by extraction with sodium bicarbonate. Washington: USA. US Department of Agriculture. Circular. No. 939. 116. Pandey, D. K., Pandey, R., Mishra, R. P., Kumar, S., & Kumar, N. (2008). Collection of Dhaincha (Sesbania spp.) Variability in Uttar Pradesh,Biodiversity and Agriculture (Souvenir). Lucknow: India. Uttar Pradesh Biodiversity Board. Pp: 48-51. 117. Pardo, J., J., Martínez-Romero, A., Léllis, B., C., Tarjuelo, M., & Domínguez, A. (2020). Effect of the optimized regulated deficit irrigation methodology on water use in barley under semiarid conditions. Agricultural Water Management. Vol. 228. 118. Parveen, T., Inam, A., & Mehrotra, I. (2013). Treated municipal wastewater for irrigation: effect on turnip (Brassica rapa). Desalination and Water Treatment. Vol. 51, pp: 5430-5443. 119. Passioura, J. B. (1977). Grain yield, harvest index, and water use of wheat. Journal of the Australian Institute of Agricultural Science. Vol. 43, pp: 117-120. 120. Peech, M. (1965). Hydrogen-ion activity. Ed. C.A. Black. Methods of Soil Analysis, Part 2, Chemical and Microbiological Properties. Madison: USA. Pp: 914-926. American Society of Agronomy. 121. Pimentel, D., & Pimentel, M. H. (2007). Food, energy, and society. 3ed Ed. CRC Press. P: 400. 122. Pollice, A., Lopez, A., Laera, G., Rubino, P., & Lonigro, A. (2004). Tertiary Filtered Municipal Wastewater as Alternative Water Source in Agriculture: a field investigation in southern Italy. Sci. Total Environ. Vol. 324, pp: 201-210. 123. Pooniya, V., Shivaya, Y. S., Rana, A., Lata, N., & Radha, P. (2012). Enhancing soil nutrient dynamics and productivity of Basmati rice through residue incorporation and zinc fertilization. Eur. J. Agron. Vol. 41, pp: 28-37. 124. Prieto, D. & Angueira, C. (1996). Water stress effect on different growing stages for cotton and its influence on yield reduction. Pp: 13-32. Vienna: Austria. Joint FAO/IAEA Div. of Nuclear Techniques in Food and Agriculture. 125. Qadir, M. (2008). Sustainable Management of Wastewater for Agriculture. Proceedings of the First Bridging Workshop. Aleppo: Syria. International Center for Agricultural Research in the Dry Areas (ICARDA) & Colombo: Sri Lanka. International Water Management Institute (IWMI). P. 133. 126. Qin, Y. D. (2003). Soil Physics. Higher Education Press. Beijing: China. 127. Rattan, R. K., Datta, S. P., Chhonkar, P. K., Suribabu, K. & Singh A. K. (2005). Long-Term Impact of Irrigation with Sewage Effluents on Heavy Metal Content in Soils, Crops and Groundwater-A Case Study. Agriculture Ecosystems & Environment. Vol. 109, pp: 310-322.128. Redding, M. R., Biggs, A., Gardner, T. & Duperouzel, D. (2002). An Overview of Land Application of Pig Effluent-P Using Soil P Chemistry and Mass Balance Calculations. Australian Journal of Soil Research. Vol. 40, pp: 81-91. 129. Renault, S., Mackinnon, M. & Qualizza, C. (2003). Barley, a potential species for initial reclamation of Saline Composite Tailings of oil sands. Technical reports. Plant and Environment interaction. J. Environ. Vol.32, pp:2245-2253. 130. Rezapour, S., Atashpaz, B., Moghaddam. S. S., & Damalas, C. A. (2019). Heavy Metal Bioavailability and Accumulation in Winter Wheat (Triticum aestivum L.) Irrigated with Treated Wastewater in Calcareous Soils. Science of the Total Environment. Vol. 656, pp: 261-269. 131. Rezapour, S., Nouri, A., Jalil, H. M., Hawkins, S. A., & Lukas, S. B. (2021). Influence of Treated Wastewater Irrigation on Soil Nutritional-Chemical Attributes Using Soil Quality Index. Sustainability. Vol. 13. no. 4, 1952. 132. Rusan, M. J. M., Hinnawi, S., & Rousan, L. (2007). Long Term Effect of Wastewater Irrigation of Forage Crops on Soil and Plant Quality Parameters. Desalination. Vol. 215, Iss. 1-3, pp: 143-152. 133. Saeijs, H. L., & Van Berkel, M. J. (1995). Global water crisis: the major issue of the 21st century, a growing and explosive problem. Eur Water Pollut Control. Vol. 5, no. 4, pp: 26-40. PMID: 12291371. 134. Safdari, S., F., Farahani, S., M., Eskandari, A. (2018). Effect of irrigation scheduling on some characteristics of Barley under water deficit conditions. J. BioSci. Biotech. Vol. 7, no.1, pp: 51-55. 135. Salahin, N., Alam, Md. Kh., Islam, Md. M., Naher, L., & Majid, N. M. (2013). Effects of Green Manure Crops and Tillage Practice on Maize and Rice Yields and Soil Properties. Australian Journal of Crop Science. Vol. 7, no. 12, pp: 1901-1911. 136. Saleh, A. M. A. E. (2019). The Quantitative and Qualitative Economic Yield of Irrigation Water Used in The Production of Some Field Crops. Egyptian Journal of Agricultural Research. Vol. 97, no. 4, pp: 857-874. 137. Saleh, Rema′, M. (2009). A Benefit-Cost Analysis of Treated Wastewater Reuse for Irrigation in Tubas. Master. Science in Water and Environmental Engineering. Graduate Studies. An-Najah National University. Nablus: Palestine. P: 143.138. Samarah, N. H. (2005). Effects of drought stress on growth and yield of barley. Agron. Sustain. Dev. Vol. 25, pp: 145-149. 139. Samarah, N. H., Alqudah, A. M., Amayreh, J. A., & McAndrews, G. M. (2009). The Effect of Late-Terminal Drought Stress on Yield Components of Four Barley Cultivars. Journal of Agronomy & Crop Science. Vol. 195, no. 6, pp: 427-441. 140. Samarah, N. H., Bashabsheh, Kh. Y., & Mazahrih, N. Th. (2020). Treated Wastewater Outperformed Freshwater for Barley Irrigation in Arid Lands. Italian Journal of agronomy. Vol. 15, no. 3. 141. Selvi, R. V., & Kalpana, R. (2009). Potentials of green manure in integrated nutrient management for rice - a review. Agric. Rev. Vol. 30, no.1, pp: 40-47. 142. Shafran, W. A., Ronen, Z., Weisbrod, N., Adar, E., & Gross, A. (2006). Potential Changes in Soil Properties Following Irrigation with Surfactant-Rich Greywater. Ecological Engineering. Vol. 26, pp: 348-354. 143. Shahid, M., Khalid, S., Abbas, G., Shahid, N., Nadeem, M., Sabir, M., & et al. (2015). Heavy Metal Stress and Crop Productivity. Editors: Khalid Rehman Hakeem. Crop Production and Global Environmental Issues. Edition: 1, pp: 1-25. Switzerland. Springer International Publishing. 144. Shao, M. A., Wang, Q. J., & Huang, M. B. (2006). Soil physics. Higher Education Press. Beijing: China. 145. Sharma, A. R., & Das, K. C. (1994). Effect of green manuring with dhaincha (Sesbania aculeata) on growth and yield of direct-sown and transplanted rice under intermediate deepwater conditions. J. Agric. Sci. Vol. 122, no. 3, pp: 359-364. 146. Sharma, A. R., & Ghosh, A. (2000). Effect of green manuring with Sesbania aculeate and nitrogen fertilization on the performance of direct-seeded flood-prone lowland rice. Nutr. Cycl. Agroecosyst. Vol. 57, pp: 141-153. 147. Shen, Y., Oki, T., Kanae, S., Hanasaki, N., Utsumi, N., & Kiguchi, M. (2014). Projection of Future World Water Resources Under SRES Scenarios: an Integrated Assessment. Hydrolgical Sciences Journal. Vol. 59, no. 10, pp: 1775-1793. 148. Sheng, P. H., Zhou, A. X. & Li, P. J. (2001). Pollution Ecology, Science Press. Beijing: China.149. Shock, C. C., & Feibert, E. B. G. (1995). Deficit irrigation of potato. (Eds.) C. Kirda, P. Moutonnet, C. Hera & D. R. Nielsen. Crop yield response to deficit irrigation. Dordrecht: Netherlands. Kluwer Academic Publishers. 150. Singh, Y., Singh, B., & Khind, C. S. (1992). Nutrient transformations in soils amended with green manures. Advances in Soil Science. Vol. 20, pp: 237-309. 151. Sinha, S., & Gupta, A. (2005). Translocation of Metals From Fly Ash Amended Soil in The Plant of Sesbania Cannabina L. Ritz: Effect on Antioxidants. elsevier, Chemosphere. Vol. 61, no. 8, pp: 1204-1214. 152. Steduto, P., Hsiao, T. C., Fereres, E., & Raes, D. (2012). Crop Yield Response to Water. Irrigation and Drainage, Paper No. 66. FAO. 153. Stegman, E. C., Musick, J. T., & Stewart, J. I. (1980). Irrigation water management. (ed.) M. E. Jensen. Design and operation of farm irrigation systems. Pp: 763-816. 154. Subramani, T., M. Mangaiyarkarasi, & Kathirvel, C. (2014). Impact of Sewage and Industrial Effluent on Soil Plant Health Act on Environment. Journal of Engineering Research and Applications. Vol. 4, Iss. 6, pp: 270-273. 155. Sultani, M., Shaukat, M., Mahmood, I. A., & Joyia M. F. (2004). Wheat Growth and Yield Response to Various Green Manure Legumes and Different P Levels in Pothowar Region. Pak. J. Agri. Sci. Vol. 41, pp: 3-4. 156. Tamoutsidis, E., Lazaridou, M., Papadopoulos, I., Spanos, T., Papathanasiou, F., Tamoutsidou, M., & et al. (2009). The effect of treated urban wastewater on soil properties, plant tissue composition and biomass productivity in berseem clover and corn. Journal of Food, Agriculture and Environment. Vol. 7, pp: 782-786. 157. Tendon, H. L. S. (2005). Methods of analysis of soils, plants, waters and fertilizers. New Delhi: India. Fertilization development and consultation organization. 158. Thie´bault, S., & Moatti, J. P. (2016). The Mediterranean Region Under Climate Change: A scientific update. 22nd Conference of the Parties to the United Nations Framework Convention on Climate Change, Marrakech: Morocco. IRD. P.736. 159. Udayasoorian, C., Devagi, P., & Ramaswami, P. P. (1999). Case study on The Utilization of Paper and Pulp Mill Effluent Irrigation for field crop. Proceedings of Workshop on "Bioremediation of Polluted Habitats". P. 71-73160. Ungureanu, N., Vladut, V., Dinca, M., & Zabava, B. S. (2018). Reuse of Wastewater for Irrigation, A Sustainable Practice in Arid and Semi-Arid Regions. Conference Paper, project "Innovative technologies for crop irrigation in arid, semi-arid and sub-dry climate". Contract no. 27 PCCDI. 161. USDA, United States Department of Agriculture Natural Resources Conservation Service. (1999). Soil Taxonomy A Basic System of Soil Classification for Making and Interpreting Soil Surveys. Washington: USA. Second Edition. Soil Survey Staff. Agriculture Handbook. Number 436. P: 871. 162. Van Schouwenberg, J. C. H., & Walinge, I. (1973). Method of analysis for plant material. Wageningen: The Netherlands. Agriculture University. 163. Varun, M., Ogunkunle, C., O., D'Souza, R., Favas, P., & Paul, M. (2017). Identification of Sesbania sesban (L.) Merr. as an Efficient and Well Adapted Phytoremediation Tool for Cd Polluted Soils. Bulletin of environmental contamination and toxicology. Vol. 98, no. 6, pp: 867-873. 164. Volkamar, K. M., Hu, Y., & Steppuhn, H. (1998). Physiological responses of plant to salinity: A Review. Can. J. Plant Sci. Vol.78, pp: 19-27. 165. Vukovic, I., Mesic, M., Zgorelec, Z., Jurisic, A., & Ajko, S. (2008). Nitrogen Use Efficiency in Winter Wheat. Alps-adria Scientific Workshop. Vol. 25, pp: 1199-1202. 166. Werfelli, N., Ben Ayed, R., Abassi, R., & B´ejaoui, Z. (2021). Contamination Assessment of Durum Wheat and Barley Irrigated with Treated Wastewater through Physiological and Biochemical Effects and Statistical Analyses. Journal of Food Quality. P. 10. 167. Xue, Z. J. (2012). Assessment of Soil Quality and Pollution Risk in Main Sewage-Irrigated Area of Hebei Province. Agricultural University of Hebei Province. Baoding: China. 168. Xue, Z. J., Liu, S. Q., Liu, Y. L. & Yan, Y. L. (2012). Health risk assessment of heavy metals for edible parts of vegetables grown in sewage-irrigated soils in suburbs of Baoding city, China. Environmental Monitoring and Assessment. Vol. 184, pp: 3503-3513. 169. Yadav, G. S., Lal, R., Meena, R. S., Babu, S., Das, A., Bhomik SN, & et al. (2012). Conservation tillage and nutrient management effects on productivity and soil carbon sequestration under double cropping of rice in North Eastern Region of India. Ecological Indicators. Vol. 105, pp: 303-315.170. Yang, B., Shu, W. S., Ye, Z. H., Lan, C. Y., & Wong, M. H. (2003). Growth and Metal Accumulation in Vetiver and two Sesbania Species on Lead/Zinc Mine Tailings. Chemosphere. Vol. 52, no. 9, pp: 1593-1600. 171. Ye, Z. H., Yang, Z. Y., Chan, G. Y., Wong, M. H. (2001). Growth Response of Sesbania Rostrate and Sesbania Cannabina to Sludge Amended Lead/Zinc Mine Tailing. A greenhouse study. Environ. Int. Vol. 26, no. 5-6, pp: 449-455. 172. Zahalan, R., & Al Zoubi, M., M. (2021). Effect of Organic Soil Amendment and Deficit Irrigation on Yield and Irrigation Efficiency of potato (Solanum Tuberosum L.). Journal of Environmental & Agricultural Sciences. Vol. 23, no.1&2, pp: 11-18. 173. Zavadil, J. (2009). The Effect of Municipal Wastewater Irrigation on the Yield and Quality of Vegetables and Crops. Soil & Water Res.Vol. 4, no. 3, pp: 91-103. 174. Zhang, M. K., Liu, L. J. & Huang, C. (2011). Effects of Long-Term Irrigation of Livestock Farm Wastewater on Soil Quality and Vegetable Quality in Vegetable Soils. Journal of Soil & Water Conservation. Vol. 25, pp: 87-91. 175. Zhang, W. J., Jiang, F. B. & Ou, J. F. (2011). Global Pesticide Consumption and Pollution:With China as a Focus. Proceedings of the International Academy of Ecology and Environmental Sciences. Vol. 1, pp: 125-144. 176. Zhang, W. L., Tian, Z. X., Zhang, N. & Li, X. Q. (1996). Nitrate Pollution of Groundwater in Northern China. Agriculture Ecosystems & Environment. Vol. 59, pp: 223-231. 177. Zhang, X., & Pei, D. (2002). Management of supplemental irrigation of winter wheat for maximum profit. (eds.) C. Kirda, P. Moutonnet, C. Hera & D. R. Nielsen. Crop yield response to deficit irrigation. Dordrecht: Netherlands. Kluwer Academic Publishers. 178. Zhang, Y., & Shen, Y. (2017). Wastewater Irrigation: Past, Present, and Future. Wiley Interdisciplinary Reviews Water. Vol. 6, no. 3. 179. Zhong, G. Y., & Dvorak, J. (1995). Evidence for common genetic mechanisms controlling the tolerance of sudden salt stress in tribe Triticeae. Plant Breeding. Vol. 114, no. 4, pp: 297-302.