Tag Archives: Mineral fertilizers

Effect of Drainage Water on Some Soil Properties and Production of Quinoa, Study of Water and Fertilizers Requirements

Mohammad Manhal Al-Zubi *(1) Haitham Eid(2) Mohammad Hakkoun(1) Mahmoud Barhoum(2) Razan Karfoul(2) Mahmoud Asaad(2) Khattar Darwish(2) Nawar Al Jrdi(2) and Yamen Ahmad(2)

(1). Administration of Water Resources, General Commission for Scientific Agricultural Research GCSAR, Damascus, Syria.

(2). Tartous Agricultural Research Center, GCSAR, Damascus, Syria.

(*Corresponding author: Dr. Mohammad Manhal Al-Zubi. E-Mail: manhalzo@yahoo.com).

Received: 01/02/2018                                Accepted: 14/04/2018

Abstract

The effect of irrigation with drainage water on the productivity of quinoa variety (NSL-106398), and determination of fertilizer and water requirements were studied. A field experiment was conducted at Zahed Research Station, Tartous Research Center for two growing seasons 2016 and 2017. The experiment was laid out in Split Plot Design with three replications. Tow water quality treatments were applied [drainage water (DW) and fresh water (FW)], and three fertilizer levels were used NPK1 (80 kg N/ha, 30 kg P2O5/ha, 30 kg K2O /ha), NPK2 (100 kg N/ha, 40 kg P2O5/ha, 40 kg K2O /ha), and NPK3 (120 kg N/ha, 50 kg P2O5/ha, 50 kg K2O/ha). The results showed a significant increasing in the soil conductivity EC under drainage treatments DW (1.15 dS/m) compared to the fresh water FW treatment (0.68 dS/m) in the first season, whereas the differences were not significant in the second season. Soil was analyzed at the end of the two seasons, the results showed significant increasing in total nitrogen when treatments irrigated with DW (0.153%) compared to the treatments irrigated with FW (0. 132%) in the first season. While phosphorus and potassium were not significantly increased when fertilization of these two elements was increased within the treatments of water quality and mineral fertilization treatments, but the difference in available potassium in the second season, was significant within water quality treatments. The grain yield regarding DW treatment was significantly increased (2.65 ton/ha) compared to the FW (2.055 ton/ha), also the grain yield significantly increased by mineral fertilization treatments (2.04, 2.347, 2.67 ton/ha respectively). Whereas in the second season DW increased the grain yield (2.22 ton/ha) compared to the FW (2 ton/ha). The grain yield increased significantly in treatment NPK3 (2.56) compared to the treatments NPK1 and NPK2 (2.023, 1.745 ton/ha respectively). Straw productivity was increased in mineral fertilization treatments (10, 9.83, 10.42 ton/ha) in the first season. Furthermore, results showed that water use efficiency in the treatment NPK3 was the best for both water types DW, and FW (1.3 and 1 kg/m3, respectively). Therefore, the study recommends that the water requirement of quinoa under the conditions of Tartous Governorate was 2000 m3/ha, and the fertilizer recommendation was (120 kg N/ha, 50 kg P2O5/ha, 50 kg K2O /ha)

Key wards: Drainage water, Quinoa, Water requirement, Mineral fertilizers.

Full paper in Arabic: PDF

Effect of Mineral Fertilizers Application on Accumulation of Heavy Metals in Soils and Tomato Plant 

Naseer Abdul-Jabbar AlSaadie(1) Adnan Shibar falih(1) and Raghaa Mouhamad*(1)

(1). Agriculture Research Directorate, Ministry of Science and Technology, Baghdad, Iraq.
(*Corresponding author: Raghaa Mouhamad. Email: naseeralsaadie61@gmail.com).

Received: 14/04/2019                                Accepted: 01/06/2019

Abstract

Several samples were collected from the mineral fertilizers i.e. phosphate, nitrogen and potash that commonly used in Iraq, as well as samples of different soils with different chemical and physical properties, and tomato plants which were grown in it, in two regions i.e. Abu Ghraib and Jadriya. These two regions represent most of the soils of Iraq, with different periods of culture. The results of statistical analysis showed high significant differences present among accumulation of heavy metals rates in soils and tomato fruits according to varying culture dates and soil type. The overall average soil content of elements (Pb, Cd, Co, Ni) for a chemical fertilizer use periods 5, 10 and 25 years, were 7.6, 9.6 and 12.7 mg.kg-1 f respectively. The results showed that the average concentration of heavy metals (Pb, Cd, Co, Ni) for all periods of mineral fertilizer addition in Abu Ghraib (clay) and Jadriya (loam) were 11.0 and 8.9 mg kg-1 respectively. Overall mean of all heavy elements content in tomato fruits for the studied time periods were 0.733, 0.919 and 1.49 mg.kg-1 respectively, while the concentration of these elements in tomato fruits that grown in the two soil regions for all periods of fertilization were 1.18 and 0.909 mg.kg-1 respectively. Results also showed the existence of a positive significant correlation at 1% level of probability between soil content of heavy metals and culture periods, and heavy metals concentration in tomato fruits that grown in those soils. The average percentage of the cumulative increase of heavy metals (Ni, Co, Cd and Pb) as accompaniment impurities in the mineral fertilizers in soils amounted to 65.8, 29.8, 0.35 and 37.4% per year, while the increase percentage in tomato fruits were 15.6, 1.9, 0.15 and 2.4% for each of the above element respectively. Results also showed the presence of a significant effect between the fertilizer type and the content of heavy metals contaminated values. In general, depending fertilizer’s content of contaminated heavy metals, the fertilizer can be arranged as follows: Urea U < MAP fertilizer < NPK fertilizer < DAP fertilizer < Triple Super Phosphate TSP.

Key words: Mineral fertilizers, Heavy metals, Soil properties, Tomato.

Full Paper in Arabic: PDF