Moselm Rostampour; Effat Akbari; Mohammad Saghari
Abstract
The seed planting depth is one of the most important factors affecting the uniform plant emergence and the success of planting. This research was designed to determine proper seed planting depth for Atriplex canescens . in the nursery of the General Department of Natural Resources and Watershed Management ...
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The seed planting depth is one of the most important factors affecting the uniform plant emergence and the success of planting. This research was designed to determine proper seed planting depth for Atriplex canescens . in the nursery of the General Department of Natural Resources and Watershed Management of South Khorasan , allowing desirable seedlings with better vegetative properties to spend less cost in nurseries can be produced.For this purpose, after the collection and preparation of Atriplex canescens, seeds and pots, 15 seeds were selected and planted at 5 depths: 1, 2, 3, 4 and 5 cm with 5 repetitions. After the planting , the emergence percentage and vegetative traits of the seedling were measured. The data was analyzed by ANOVA and t LSD test. The results showed that with increasing seed planting depth, all the properties of the study were significantly reduced , at a minimum depth of 4 and 5 cm. The highest emergence percentage (34.7 % and 34.3 %) was observed at the depth of 1 and 2 cm and the lowest seedlings emergence percentage was observed at the depths of 4 and 5 cm (2.4 %). Since there is no significant difference between the emergence percentage, vigor index, and seedling stem length and weight, and the moisture content of the Atriplex canescens at the depths of 1 cm and 3 cm, Due to greater seed losses at the soil's surface depth by granivores such as insects and birds, as well as rapid drying of soil due to severe evaporation of water in the pot, A. canescens seed planting is recommended at a depth of 3 cm.
roya vazirian; hamid reza asgari
Abstract
Abstract: Soil particles are one of the most effective characteristics related to erodibility and main hydrological and physical aspects of soil. This is important to understand soil characteristics which control soil stability in the case of conservation of soil structure. Also, recognizing critical ...
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Abstract: Soil particles are one of the most effective characteristics related to erodibility and main hydrological and physical aspects of soil. This is important to understand soil characteristics which control soil stability in the case of conservation of soil structure. Also, recognizing critical soil properties such as organic matters in the regions, where soil erosion is resulted from natural patterns of aggregates will be fundamental key in conservation strategies. In this paper, organic matter measurement, discovery of particles stability and interactions between these two factors have been aimed. Sampling was done in three different densities (<200, 200-400 and >200 stand per hectare) and 30 replications. The results revealed that Atriplex spp. Increased soil organic matter and also soil stability. Different planting distances were not effective in level of 5%. Therefore; improvement of soil particles stability and controlling soil erosion in the study area depend on soil management and implication of soil conservation projects.
Roya Vazirian; Hamid Reza Asgari; Majid Ownegh; Chooghi Bairam Komaki
Abstract
Understanding the relationship between soil and plant is essential for reclamation of degraded lands. In order to investigate the relationship between Atriplex halimus density with carbon sequestration the rangeland of Incheborun was studied. Soil samples were collected randomly by Auger in the depth ...
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Understanding the relationship between soil and plant is essential for reclamation of degraded lands. In order to investigate the relationship between Atriplex halimus density with carbon sequestration the rangeland of Incheborun was studied. Soil samples were collected randomly by Auger in the depth of 0-30 cm of the soil profile in three different plant densities (<200, 200-400 and >400 stand per hectare) with 30 replications. The data were subjected to ANOVA using statistical software SPSS 21.0. Means were separated by T-test at P≤0.5. The results of this research showed that the soil organic carbon have ranging from 0.48 to 0.64 (with an average of 0.56%) in Atriplex plantation areas, while the organic carbon have ranging from 0.03 to 0.12 (with an average of 0.078%) in the control region.Therefore, plantation measures caused significant difference in soil organic carbon contents per unit area in Atriplex plantation areas as compared to that observed in the control area. Sequestered carbon in per unit is 26.27, 27.85 and 30.66 ton/ha respectively for low, medium and high Atriplex density areas. The results indicated that the rate of organic carbon as well as soil carbon sequestration increased with plant density. There were no significant difference among sequestered carbon and soil organic carbon values under those three different levels of densities, while significant difference were observed between three plantation areas and control area.
M.A Hakimzadeh Ardakani; M Esfandiari; A Mosleh Arani; H Malekinezhad
Volume 63, Issue 2 , September 2010, , Pages 197-10
Abstract
The use of saline groundwater resources, in addition to save fresh water, could be used in production of forage in saline soils. In order to do it, the area in northern Ardakan, Yazd province with saline ground water (EC= 11.25ds/m, SAR= 16.7) and saline and alkaline soil (EC=27.3ds/m, ESP= 30.2%) was ...
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The use of saline groundwater resources, in addition to save fresh water, could be used in production of forage in saline soils. In order to do it, the area in northern Ardakan, Yazd province with saline ground water (EC= 11.25ds/m, SAR= 16.7) and saline and alkaline soil (EC=27.3ds/m, ESP= 30.2%) was selected for planting of Atriplelentiformis, Seidlitzia rosemarinus, and Nitraria schoberi. The seeds of plants were collected from different areas of Yazd province, and were planted in nylon pots in greenhouse and transplanted as split plot statistical design in the field after one month. Based on the potential evapotranspiration of the region, the plants were irrigated as furrow design with leaching fraction (LF) = 0.3, and in 10 and 20 days intervals. After six months, plants were cut from near the soil surface and dried in oven at 60 °C for 72 hours. The dry matter of each plant weighted and analyzed statistically. The results indicated that there are some significant differences between dry matter of plants and the irrigation periods. Among plants, Atriplex lentiformis, with ten days period of irrigation had the best yield in this experiment. In addition, LF of 0.3 could decrease the salinity of the surface soil layers. This reduction was higher than in ten days period of irrigation.