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Showing 2 results for assareh

A. Shariat, M. H. Assareh, A. Ghamari-Zare,
Volume 14, Issue 53 (fall 2010)
Abstract

Heavy metals including cadmium produced as a result of urban, industrial and agricultural activities lead to the water pollution. Also, considering the growing need for silviculture in Iran, it is necessary to conduct a comprehensive research on fast growing and evergreen species of Eucalyptus and their role in heavy metals' absorption. To achieve this goal, Eucalyptus occidentalis seedlings were grown in pots containing silica and irrigated with a mixture of nutrient solution and cadmium chloride in 5, 10 and 15 m M for 10 months. Root and leaf samples were harvested and the amount of cadmium in stem, root and leaf organs was measured. Also, some morphological and physiological characteristics were determined including soluble sugar and praline. The analysis indicated that the cadmium concentrations of 15 mM treatment in the root, leaf and stem were 585, 142 and 87 mg/kg D.W., respectively. Proline content increased with the increase of Cadmium concentration while the content of pigments decreased. The result of this research shows that eucalypt has the potential of cadmium accumulation without any serious damage to its growth. Therefore, the plant can be used to decrease the environmental pollutions.
Y. Gateazadeh, H.a. Kashkuli, D. Khodadadi Dehkordi, A. Mokhtaran, A. Assareh,
Volume 27, Issue 2 (Summer 2023)
Abstract

To monitor and compare the changes of salts in the soil profile around the roots of the corn plant, the plant yield, and the productivity of corn water, an Experimental was conducted in a completely randomized block of three repetitions in two crop years 2017-2018 and 2018-2019 at Ahvaz Agricultural Research Station. Experimental treatments included two subsurface drip irrigation systems with a working depth of 30 cm from the soil surface and tape irrigation and two irrigation intervals of 2 and 4 days. The results of monitoring soil solutes obtained from sampling depths (0-25, 25-50, and 75-50 cm) showed that soil salinity in the second year in both systems as a result of improving the quality of irrigation water from 3.61 dS/m to 2.01 dS/m, it was reduced by two times. The results of soil salinity monitoring showed the highest ratio of salinity reduction with a 2-day irrigation interval in both irrigation systems. The most leaching was done at the irrigation depth of 25-50 cm in the subsurface drip irrigation system and at the depth of 0-25 cm in the tape system. The highest yield of corn dry fodder was 9.13 and 7.13 tons per hectare, respectively, and the best water efficiency based on dry corn fodder at the rate of 13.74 kg/m was obtained in the strip drip irrigation system (tape) with a two-day irrigation interval and in the second crop year. Also, the results of the soil salinity measurement showed that the implementation and exploitation of the drip irrigation system can be the basis for improving the quality of the soil as the most important non-renewable resource of agriculture.


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