Hosein Tavakoli Neko; Schahram Banedjschafie; Abbas Pourmeidani
Volume 31, Issue 1 , June 2024, , Pages 1-14
Abstract
Background and objectivesThe vast country of Iran, due to its location in the arid region of the earth and the lack of rainfall, has suffered from drought and groundwater depletion. The reduction of precipitation and soil moisture has a great effect on soil vegetation. The use of various types of moisture ...
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Background and objectivesThe vast country of Iran, due to its location in the arid region of the earth and the lack of rainfall, has suffered from drought and groundwater depletion. The reduction of precipitation and soil moisture has a great effect on soil vegetation. The use of various types of moisture absorbent materials that reduce water consumption and increase the time of plant access to water in the soil plays a big role in water conservation. Plantbac panels are made from cellulose waste and can be used to increase the water retention capacity of the soil in dry areas, especially in desert areas. MethodologyIn order to investigate the effect of Plantbac panels on the amount of water consumption and growth of Atriplex plant, the research was carried out in the area of Hesarsokh located ten kilometers north-east of Qom city for three years (2019-2021). The experiment was carried out as split plots in the form of randomized complete blocks including 12 plots in three replications. The main plot included irrigation treatments at intervals of 10 days (control) and 20 days, and the sub-plot included two treatments of using and not using Plantbac panels (control). To investigate the effect of Plantbac panels on seedling growth at the end of each growing season in each year, traits including: survival, height and crown diameter of the seedling were measured and compared with the control of the same treatment. Statistical analyzes including minimum and maximum traits, standard deviation, simple variance analysis of variables, compound analysis, comparison of averages with least significant difference (LSD) method for seedling height growth and crown diameter growth traits were performed. ResultsThere was no difference in seedling survival in the treatments of using Plantbac and control in irrigation with a 10 days interval. While in the treatment of Plantbac panels and the control, 5% of the seedlings were dried, and in the treatment of using the Plantbac panels, 21% and 40% of the seedlings were seen in the control. Combined variance analysis showed that the simple effects of using Plantbac panels, year and the interaction effect of irrigation in the year on the height growth of Atriplex were significant (P≤0.01). Also, the effect of irrigation treatments, the use of Plantbac panels, the mutual effect of irrigation in the year and the effect of the year had a significant difference in the diameter growth trait of the crown of Atriplex seedlings (P≤0.05). The comparison of the average traits showed that the Atriplex seedlings in the "3rd year × 20 days irrigation interval" had the highest height 6.32 cm, and in the "1st year × 20 days irrigation interval" with 9.75 cm, had the lowest height growth. Also, Atriplex seedlings had the highest crown diameter growth in the "3rd year × irrigation interval 10 days " with 22.11 cm growth, and the lowest crown diameter growth had in the "2nd year × 20 day interval irrigation" with 17.33 cm. ConclusionThe results of the research showed that the effect of Plantbac panels on the traits indicating the growth of Atriplex is effective. The use Plantbac panels reduces losses in the survival of Atriplex seedlings. In other words, the use of Plantbac panels can have an effect in reducing the losses of Atriplex seedlings in saline lands. Also, the height growth of Atriplex in the treatment of using Plantbac panels was higher than the control. The general results of the research showed that the use of Plantbac panels can have an effect in reducing the losses of Atriplex in saline lands. Also, the diameter and height growth of Atriplex in the following years of planting was higher than the first year, which can be due to the possibility of establishing and improving the soil conditions for plant growth in the following years after planting as a result of using Plantbac panels.
Mehri Dinarvand; Kourosh Behnamfar; Abdolhosein Arami; Sajad Alimahmoudi Sarab; Kahzad Heidari
Volume 28, Issue 3 , October 2021, , Pages 593-604
Abstract
The study of vegetation and the measurement of diversity indices are suitable tools for studying the status of forests and rangelands and evaluating them. The purpose of this study is to evaluate the trend of vegetation changes during four consecutive years and in two seasons in the Bagan region. For ...
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The study of vegetation and the measurement of diversity indices are suitable tools for studying the status of forests and rangelands and evaluating them. The purpose of this study is to evaluate the trend of vegetation changes during four consecutive years and in two seasons in the Bagan region. For this purpose, 5 transects of 100 meters with distances of 50 meters in the study area were considered systematically randomly. A total of 30 plots of one fixed square meter were installed along the transects. In two growing seasons, spring and fall, from 2017 to 2020, the type and percentage of cover of native species were harvested. Dominance, uniformity and diversity of Simpson, Shannon and Hill species were measured using PAST and R software. The results of one-way analysis of variance (ANOVA) showed that there is a significant difference between the mean of dominance, Shannon and Simpson indices, percentage of cover, and the number of species in the spring of different harvest years. In fall, except for the dominance index in other indices during July 2019 compared to 2018, there was a significant difference. From the results, it can be concluded that despite the return of some annual or short-lived species such as Bienertia cycloptera Bunge and Salsola jordanicola Eig. following irrigation of cultivated seedlings and rainfall, the study area is still sensitive and fragile and needs to be managed and confined until proper rehabilitation.
Jamshid Khatir Nameni
Volume 12, Issue 3 , August 2019, , Pages 311-334
Daryoush Ghorbanian; Heydar Sharifeh; Mohammad Amirjan; Rasoul Mirakhorli
Volume 25, Issue 4 , February 2019, , Pages 761-769
Abstract
Use of saline and low yield soils for forage production is an important step towards optimal efficacy of low-quality water and soil resources from agricultural point of view. Atriplexcanescens and Atriplexverrocifera as drought and salinity tolerent species, are able to produce ...
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Use of saline and low yield soils for forage production is an important step towards optimal efficacy of low-quality water and soil resources from agricultural point of view. Atriplexcanescens and Atriplexverrocifera as drought and salinity tolerent species, are able to produce forage in saline and low yield soils. To investigate the possibility of establishing and measuring the amount of forage production in saline and low yield soils, and determining the appropriate planting method, two salinity areas (salinity up to 20 ds / m and salinity up to 40 ds/m) were first selected through soil testing. Then in each region, 45 seedlings of each mentioned species were planted in three replications. The results of the present study showed that the use of Atriplex canescens and Atriplex verrocifera for establishment and forage production is possible in in areas with high salinity (up to 40 ds/m). Analysis of variance of canopy growth and annual production of the mentioned species showed that in saline lands with a maximum of 40 ds/m, the growth rate of the first year of At. verrosifera was more than At. canescens. But in the region with low salinity, At. canescens growth was more than the other species. The production amount of established species shows that the production of At. canescens is more than At.verrusifera. But this difference in salt area is minimized. Therefore, the effect of salinity on the production of At. canescens is tangible and effective. But the production rate of At. verrucifera is more in areas with low salinity. So, this species has more resistance and tolerance.
Mohammad hosein Hadi Tavatory; Ahmad Akbarinia; Mahmood Khosravifard
Volume 15, Issue 3 , January 2008, , Pages 395-402
Abstract
The performances of Shal sheep breed were investigated in sukling and grazing periods in 2006.with 61 lambs utilized ewes milk 105 days of ages. They had grazed the pastures of Alfalfa-Bromus and Atriplex , and aftermath of barley and wheat respectively. Daily gain of lambs were measured ...
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The performances of Shal sheep breed were investigated in sukling and grazing periods in 2006.with 61 lambs utilized ewes milk 105 days of ages. They had grazed the pastures of Alfalfa-Bromus and Atriplex , and aftermath of barley and wheat respectively. Daily gain of lambs were measured in each periods. Data were analyzed through factorial model and by completely random design. Results indicated that nutrition periods were significantly different (p<0.01) but the factors of sex of lamb, sex period and covariate of initial weight of lamb had not significant(p>0.05). Sukling period had the highest daily gain(182±6 gr/day) . Atriplex and aftermath of barley and wheat had the least performances (42±10 and 68±4 g/day, respectively).This result proves that Atriplex pasture like Alfalfa-Bromus pasture and aftermath of barley and wheat can supply maintenance requirement of lamb. It can be utilized as a source of roughage for grazing intermittence in semi-arid regions.
Hosein Tavakoli; Hasan Ahmadnejad
Volume 9, Issue 3 , September 2001, , Pages 861-870
Kambiz Yousefi
Volume 9, Issue 2 , September 2001, , Pages 595-604