Ghasem Ali Abrsaji; Mohammad Mahdavi; Mohmmad Hasan Jouri
Volume 22, Issue 2 , August 2015, , Pages 308-318
Abstract
This research was aimed to investigate some ecological characteristics of Frankenia hirsuta in saline rangelands of Golestan Province. This region has saline soil with high underground water table, and halophytes usually grow naturally in this area. For this purpose, some factors such as soil characteristics, ...
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This research was aimed to investigate some ecological characteristics of Frankenia hirsuta in saline rangelands of Golestan Province. This region has saline soil with high underground water table, and halophytes usually grow naturally in this area. For this purpose, some factors such as soil characteristics, vegetative cover, phenology, forage quality, preference value and so forth were determined. According to the results, this species is usually distributed on silt-loam soils with an acidity of 7.7 to 7.8 and EC (Electrical Conductivity) ranged between 28.2 to 30.2 dS/m. The autumn regrowth of this species starts in October but, active vegetative growth begins at the middle of February, flowering occurs in June and seed ripening occurs in August. At vegetative growth stage, this species consists of 10.3% crude protein, which is decreased to 8.7% at flowering stage and 7.1% at seed ripening stage. In addition to the main root, this species has also lateral roots. The main root length is usually short around 5 cm but the lateral root length is about 50 cm, moving horizontally at first and then penetrates deeply. Overall, in saline rangelands of Golestan Province, this species has been distributed as patches in low lands and the places with suitable moisture and relatively less salinity. In order to protection and sustainable utilization of this species, it is suggested that the seeds of this plant be sown every few years in the prone areas. In addition, the time of enter and exit of livestock have to be chosen carefully.
Arezoo Alizadeh; Javad Moetamedi; Reza Erfanzadeh
Volume 21, Issue 4 , March 2015, , Pages 663-675
Abstract
This research was aimed to investigate the potential of four halophytes from the Urmia Lacke including Salsola dendroides, Salsola nitraria, Salsola iberica and Halocnemum strobilaceum as soli phytodesalination. For this purpose, soil samples were collected from two soil depths of 0-15 and 15-30 cm inside ...
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This research was aimed to investigate the potential of four halophytes from the Urmia Lacke including Salsola dendroides, Salsola nitraria, Salsola iberica and Halocnemum strobilaceum as soli phytodesalination. For this purpose, soil samples were collected from two soil depths of 0-15 and 15-30 cm inside the ecological patches as well as around it. Our results clearly showed that the studied halophytes could reduce the amount of Na+, Ca2+, and Mg2+ significantly in the first soil depth (p<0.01). However, in the second depth, less affected by the root of species, there were no significant differences in the amounts of these cations in the soil of inside and outside the patches. The absorption of Mg2+, Cl-, Ca2+, Na+ and K+ by underground and aboveground biomass was also investigated. The results of mean comparisons showed that Salsola nitraria and Halocnemum strobilaceum accumulated the highest concentration of magnesium and chlorine in each gram of dry weight biomass. Also, the studied species showed no significant difference in SAR. The amount of these elements were compared in the roots of two species having the highest salt accumulation in aboveground biomass, and the species accumulating lower levels of these elements in roots was introduced. Overall, Halocnemum. strobilaceum showed the highest potential in absorbing salt through roots (soli phytodesalination) as compared to the rest of the species and its cultivation could be recommended for soil improvement and forage production in saline lands.