Javad Motamedi; Esmaeil Sheidai Karkaj; Azizeh Babazadeh; Morteza Mofidi Chelan
Volume 29, Issue 2 , July 2022, , Pages 166-175
Abstract
One of the objectives in rangeland management is the accurate and rapid determination of forage production to determine grazing capacity. The relationship between forage production and morphological characteristics was investigated in this study. For this purpose, two grazed and non-grazed units were ...
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One of the objectives in rangeland management is the accurate and rapid determination of forage production to determine grazing capacity. The relationship between forage production and morphological characteristics was investigated in this study. For this purpose, two grazed and non-grazed units were selected in the mountainous rangelands of Nazlouchay, Urmia. In each of them, the morphological characteristics of A. aucheri, as the only dominant plant species that accounts for more than 50% of the plant composition, were measured within 60 one-square-meter plots located along with 100-meter transects in July 2017. After cutting off bases growth, the dry weight of the samples was determined, and its regression relationship with morphological characteristics was examined using hierarchical regression. The results showed that it was possible to estimate A.aucheri production in the unit where the plant bases were not grazed using multiple linear regression models based on diameter, average crown size (D1), collar diameter (D2), and height (H). In the grazed units, where plant bases were grazed in the fall of last year, only the average diameter of the crown (D1) and height (H) was validated with multiple linear regression models, as the best model with RMSE equal to 3.53 and coefficient of 0.52. Due to the relatively good performance of the model and the preference for combining several morphological features in production estimation, separating models into inside and outside the exclosure can play a role in rangeland monitoring and production estimation to calculate grazing capacity and assess the intensity of rangeland utilization.
Morteza Mofidi chelan; hosein Barani; Ahmad Abedi sarvestani; javad Moetamedi; Alireza darban Astane
Volume 24, Issue 2 , July 2017, , Pages 309-324
Abstract
Evaluation of environmental-ecological sustainability is considered as one of the most important tools in sustainable development planning process. Therefore, attention to this issue is inevitable in policy-making and planning. There are no definite indices in relation to assessing environmental-ecological ...
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Evaluation of environmental-ecological sustainability is considered as one of the most important tools in sustainable development planning process. Therefore, attention to this issue is inevitable in policy-making and planning. There are no definite indices in relation to assessing environmental-ecological sustainability in rangelands and range allotments. Consequently, developing and validating of environmental sustainability evaluation indices in order to assessing sustainability in range allotments seem to be necessary. In the present study, 40 assessing indices of environmental-ecological sustainability were studied through exploratory interviews and literature review and then were subjected to the judgment of university professionals, experts and local elites using questionnaires. For validation and consensus, in addition to descriptive statistics, Kruskal–Wallis one-way analysis of variance was used. Indices like animal diversity, visual quality, sonic pollution level and air pollution level received low scores due to lack of suitability with rangeland allotments in regional scale. Among the indices, the highest and lowest scores were related to rangeland area and air pollution level, respectively. In the present study, 16 indices, as six components, were introduces, which could be a start point for developing a national model of evaluating sustainability indices, creating database of sustainability indices and quantifying them for obtaining sustainable development in natural resources, especially rangelands. Also, executive organizations could apply these indices for improving rangelands and beneficiaries’ condition as well as moving toward sustainability.
Mohsen Farahi; Morteza Mofidi Chalan; Firoozeh Moghimi Nejad; Rasoul Khatibi; Esfandiar Jahantab
Volume 21, Issue 2 , August 2014, , Pages 307-316
Abstract
In order to management of rangeland ecosystems, understanding its components and the effect of their interactions on each other including soil and vegetation is essential. For this purpose, present study was conducted to investigate the effects of Haloxylon spp and Tamarix spp species on soil properties ...
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In order to management of rangeland ecosystems, understanding its components and the effect of their interactions on each other including soil and vegetation is essential. For this purpose, present study was conducted to investigate the effects of Haloxylon spp and Tamarix spp species on soil properties in Niatak region of Sistan. After identifying the cultivation sites of these species, soil sampling was conducted for each species in representative areas at the end of the growing season based on randomized systematic method. Soil sampling was carried out at beginning and the end of each transects from 0-10 and 10-20 cm soil depths. Soil sampling was also conducted in the control site and then soil properties including pH, EC,N, P, OM, HCO3, Na, Mgand K were measured. All data were analyzed by independent t-test. Results showed that soil properties significantly decreased at both depths excluding acidity. Other soil properties under Haloxylon spp and Tamarix spp species significantly increased compared to control sites. Potassium content at both depths under Haloxylon spp significantly decreased compared to control site. According to the obtained results, a significant increase in soil fertility indices was recorded for Haloxylon spp plantation, while soil destructive properties increased significantly in Tamarix spp plantation. Therefore, although soil properties were improved by the cultivation of bothstudied species, Haloxylon spp is recommended for this region considering more positive effects of this species on soil properties as well as some negative effects of Tamarix spp.
Esmaeil Sheidayi Karkaj; Morteza Mofidi Chalan; Mousa Akbarlou; Javad Motamedi
Volume 20, Issue 4 , March 2014, , Pages 720-732
Hosein Arzani; Javad Motamedi; Morteza Mofidi Chalan; Esmaiel Aliakbarzadeh Alni
Volume 20, Issue 4 , March 2014, , Pages 783-794