The objective of the present work was to estimate water requirements and water use efficiency for Broccoli under normal irrigation conditions and sewage irrigation. Field experiment was carried out during the season 2018 at station/Sulaimni agricultural station/Bakrajo –College of Agricultural Sciences. The experiment included three treatments: River water irrigation in all season growth (I1), Sewage water irrigation in all season growth (I2), Alternate irrigation (one river irrigation followed by two sewage water irrigation) in all season growth (I3). The experimental Design was Randomized Complete Block Design (RCBD) with three replications. Broccoli planted under surface irrigation system. Mean irrigation requirement for irrigation management scheduling gave water consumptive use values 442, 432 and 427 mm for river water, sewage water and alternate irrigation, respectively. Average yield Broccoli plant was 32.67, 40.25 and 46.73 Ton ha−1 for river water irrigation, sewage water irrigation and alternate irrigation, respectively. High performance of Alternate irrigation application was mentioned by plant height which record 39, 42 and 46 cm; head diameter 21, 25 and 28 cm; leaf area 306, 329 and 349 cm2 and number of leaves 18, 21 and 22 for river water irrigation, sewage water irrigation and alternate irrigation, respectively. WUEc were 7.39, 9.32 and 10.94 kg m−3 for river, sewage and alternate treatments, respectively. The results showed that the concentrations of these elements did not reach the critical limits in the fruits for all irrigation treatments. This is a positive and good result due to the increase in rainfall rates in this season led to weak accumulation of heavy metals in the soil and poor absorption by the plant.
The present study aimed to investigated the assessed total content of Arsenics, Ba, Pb, Rb, Sn, Sr, U and V in serpentinitic soils and rocks that wide spread over Penjwin and Mawat area in Sulaymaniyah governorate/ Kurdistan region of Iraq. This research was carried out during the seasons of 2018-2019 in seven pedons (1, 2 and 3 from Penjwin area, 4,5, 6, and 7 from Mawat area) that chosen according to the variation in chemical composition of the parent materials that soil developed. The pedons of Penjwin area were classified as Inceptisols, while the pedons from Mawat area were classified as Mollisols. The results showed that the total selected metals concentration of soils in all pedons were varied, and the total contents of heavy metal in the soil samples decreased in the order of V > Sr > Ba > Rb > Pb > As >Sn > U. The total concentration of As, Ba, Pb, Rb, Sn, Sr, U and V in soils were ranged between (< 0.2 to 11.8, 20 to 310, 1.3 to 22.7, 3.2 to 71.4, 0.2 to 4.1, 69.1 to 179.0, 0.1 to 1.9 and 88 to 277 mg kg-1) respectively. In addition, V contents in these soils were higher in compared to the other studied elements, with considerable variation between pedons on different landscapes, which reflected the serpentinitic differences and degrees in chemical weathering of the associative serpentinitic rocks. Total concentration of studied metals in rocks from both areas were varied and these values ranged between (<5 to 6.0, <10 to 10, 6 to 37.3, 0.2 to 1.2, <0.2 to 17.3, 5.2 to 137, <0.1 to 0.4 and 15 to 206 mg kg-1) for As, Ba, Pb, Rb, Sn, Sr, U and V respectively.
The present study aimed to estimate water use efficiency for cauliflower crop production using different irrigation water sources. This research was carried out during the seasons of 2018-2019 in the Research Field Station of the College of Agricultural Engineering Sciences, University of Sulaimani. The experiment was laid out in randomized complete block design with three treatments and three replicants. The cauliflower plants were grown under a surface irrigation system. The three treatments were: (I1) River water irrigation and (I2) Sewage water irrigation during the entire growing seasons from planting to harvest, and (I3) alternate irrigation which meant one river irrigation water followed by two sewage irrigation water, alternatively. The results showed that the means of irrigation water requirements were 441, 457, and 427 mm for river water, sewage water, and alternate irrigation, respectively. It is observed that I3 had significantly higher WUEc (6.33kg m-3) and compared with other treatments I1 and I2 (5.13 and 4.27 kg m-3), respectively.
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