University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Determining the effective determinants of rangeland performance using Analytical Hierarchy Process (AHP); case study of range manager community in the winter pastures of Semnan province
675
689
FA
Seyed Hasan
Kaboli
Assistant Professor, Faculty of Desert Studies, University of Semnan, Semnan, I.R. Iran.
hkaboli@semnan.ac.ir
حسین
آذرنیوند
Professor, Faculty of Natural Resources, University of Tehran, Karaj, I.R. Iran.
ut@ut.ac.ir
علی اکبر
مهرابی
Professor, Science and Research Branch, Islamic Azad University, Tehran, I.R. Iran.
a.mehrabi@ut.ac.ir
حسین
ارزانی
Professor, Faculty of Natural Resources, University of Tehran, Karaj, I.R. Iran.
h.arzani@ut.ac.ir
سید مهدی
حشمت الواعظین
Associate Professor, Faculty of Natural Resources, University of Tehran, Karaj, I.R. Iran.
heshmat@ut.ac.ir
10.22059/jrwm.2015.56951
One of the conventional methods in identifying issues or making decisions in communities is considering the views of individuals of the community. The aim of this research is to determine the effective determinants of rangeland performance according to the views of range manager community in winter pastures of the Semnan province. Analytical Hierarchy Process (AHP) as a multi-criteria/quantitative approach was employed for this research. Firstly, determinants of rangeland performance were grouped into human (economic and social) and natural (topographic conditions, climatology, geology and soils) criteria. Then, the major sub-criteria were identified based on interviews, existing experiences and literature review. Pairwise Comparison of all identified criteria and sub-criteria were conducted based on semi-structured questionnaire and interviews with 30 range managers. Finally, analysis of questionnaires was carried out using AHP method within Expert choice software. According to results, season, precipitation and private ownership seem to be the most important factors, respectively. However, research community had more disagreements regarding the natural criteria compared to human ones.
Human,Hierarchical Analysis,natural factors,Semnan,performance
https://jrwm.ut.ac.ir/article_56951.html
https://jrwm.ut.ac.ir/article_56951_5f8539f54907ec5e90f047cc689d2f4e.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Assessment of aggregate stability and determination of instability mechanism of marly soils in Taleghan watershed
691
710
FA
Mohsen
Armin
Assistant professor of collage of natural resources, university of Yasuj
mohsenarmin@ut.ac.ir
Hassan
Ahmadi
0000-0001-7375-3108
Professor of Islamic Azad University, Science and Research Branch
ahmadi@ut.ac.ir
hasan
Rouhipour
Associated professors of Research Institute of Forests and Rangelands
parviz.rouhi@yahoo.com.au
Ali
Salajegheh
0000-0000-0000-0000
Associated professor of collage of Natural Resources, university of Tehran
salajegh@ut.ac.ir
mohammad Hossein
Mahdian
Associated professor of Soil conservation and Watershed management Research Institute
mahdian.mhossein@gmail.com
Vajihe
Ghorban nia kheybari
Ph.D. student of environmental science of Malayer University
ghorbannia2008@gmail.com
10.22059/jrwm.2015.56952
Due to the constraints in determining of soil susceptibility to water erosion or soil erodibility through field tests, use of laboratory methods on small soil samples, are easy to implement and far less expensive and time-consuming. among different laboratory methods based on the soil properties, those relating to aggregate stability have received much attention. In this study, by relying on observations and changes in the macroscopic scale of homogeneous work units in marly soils of taleghan watershed, with 3260 hectares in area, 84 points as the soil sampling points were selected.<br />In order to distinction between aggregate breakdown mechanisms and assessing of soil structural behavior in different environmental conditions, aggregate stability is measured with respect to three treatments fast wetting, slow wetting and stirring after pre-wetting using Le Bissonnais method. Results showed that aggregate breakdown mechanisms have a significant influence on aggregate stability. The instability main mechanism of marly soils in Taleghan watershed is slaking that caused by the compression of entrapped air during fast wetting and this situation can occur during rain storms on dry soils and irrigation flooding. So it seems that the method of agricultural land irrigation can be one of the most important soil erosion factors in the study area.
aggregate breakdown mechanisms,Taleghan watershed,aggregate stability,marl
https://jrwm.ut.ac.ir/article_56952.html
https://jrwm.ut.ac.ir/article_56952_ce021781998d3943e1cefc56f6f39301.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Evaluation of Desertification based on climate and water criteria (Case study: Kashan plain)
711
723
FA
Reyhaneh
Masoudi
P h.D. Candidate in Combating Desertification, Faculty of Natural Resources, University of Tehran, Iran.
r.masoudi@ut.ac.ir
Gholamreza
Zehtabian
Professor, Faculty of Natural Resources, University of Tehran, Iran
ghzehtab@ut.ac.ir
Hassan
Ahmadi
0000-0001-7375-3108
Professor. Islamic Azad university
ahmadi@ut.ac.ir
Shahram
Khalighi sigarudi
0000-0000-0000-0000
Associate professor, Faculty of Natural Resources, University of Tehran, Iran
khalighi@ut.ac.ir
10.22059/jrwm.2015.56953
Desertification is a major problem in many countries. International efforts have been considered to combat and prevent this phenomenon. The most important cases of these measures are the United Nations Convention to Combat Desertification. In this study, IMDPA model and GIS were used to assess desertification phenomena in Kashan Plain. Some indices of Climate and water criteria were selected to consider for each condition of the region. Final desertification intensity was calculated based on geometric average of the selected criteria and their indices. The numerical value was classified in 5 classes including non-significant, low, medium, severe and very severe and desertification intensity map was drawn using GIS in the studied period. According to the results, among the studied indices, the groundwater level depletion, EC and Transu aridity index with 3/82, 3/04 and 3/01 numerical values are the most effective factors. The threshold of ground water level, EC and Transu aridity index were determined respectively: more than50 cm/year, 2250-5000((μmohs)⁄(cm)) and 0/05-0/2. Also, the case study has classified in medium class of desertification with DS=2/4. Regarding the determined thresholds were specified the sensitive areas, and the required equipment are proposed to install on these areas for observing the thresholds.
Desertification,IMDPA model,Kashan,Criterion,indices,threshold
https://jrwm.ut.ac.ir/article_56953.html
https://jrwm.ut.ac.ir/article_56953_656783c5c7c2d5f259ab7c82c63455c6.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Assessment on the Effects of Super Absorbent Polymer Application on Plants Survival and Costs in Planting Projects
(Case study: Semnan Province)
725
738
FA
Mohammad
Jafari
0000-0002-3484-7723
Professor of Faculty of Natural Resources, University of Tehran
jafary@ut.ac.ir
ِAli
Tavili
0000-0003-2268-6341
Associate Professor of Faculty of Natural Resources, University of Tehran
atavili@ut.ac.ir
Yahya
Esmaeilpour
0000-0002-9816-899X
Assistant Professor of Faculty of Agriculture and Natural Resources, Hormozgan University
y.esmaeilpour@hormozgan.ac.ir
Hossein
Azarnivand
Professor of Faculty of Natural Resources, University of Tehran
ut@ut.ac.ir
Mohammad
Zare Chahouki
Associate Professor of Faculty of Natural Resources, University of Tehran
mazare@ut.ac.ir
Hamid Reza
Asghari
Associate Professor of Faculty of Agriculture, University of Shahrood
hamidasghari@gmail.com
10.22059/jrwm.2015.56954
Abstract <br />In this study the effects and costs of application of two kinds of super absorbent polymer on the establishment and surviving of seedlings was investigated. Experiments were done in the field and on two kind of soil with different salinity (EC: 4.5 and 8 dsm-1). The results showed: the establishment rate of seedling in control was about 40 percent. The percentage of seedling establishment in the hydrogel treatments significantly increased and statistically is equal to the optimal surviving of the seedling (80%). Soil salinity on seedling establishment in the same treatments did not produce significant differences. The results were compared with a similar project to determine the costs and benefits. Based on the results a 30 percent reduction in water usage per round and 33 to 50 percent reduction in the number of irrigation replicate were recorded. The costs in compare to the normal project varied from -2 to 29 percent respectively for treatment Herbosorb® 0.5% and Aquasorb 1%. The treatments Herbosorb® and Aquasorb with usage level of 0.5% caused about 2.5 percent for each one percent increasing in the cost. There is no significant increase in the percentage of seedling survival by using 1% super-absorbent compared to 0.5 percent.
hydrogel,Surviving,planting,Soil Salinity,Semnan Province
https://jrwm.ut.ac.ir/article_56954.html
https://jrwm.ut.ac.ir/article_56954_7aeed58afa34103661d60185ce910384.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Effects of cement mulch combinations on sand dunes fixation
739
750
FA
Mohammad Reza
Ekhtesasi
Professor, Faculty of Natural Resources and Eremology, Yazd University, Iran
mr_ekhtesasi@yahoo.com
Fateme
Hazirei
MSc of Natural Resources Engineering- Arid lands Management
hazirehyf@yahoo.com
10.22059/jrwm.2015.56955
Mulching is one of the methods of sand movement control to prepare condition for permanent fixation. Oil mulches have been used in Iran. Because of high cost and negative environmental impacts of oil mulches, changes in mulches type and mulching methods is vital. Therefore, for the first time in Iran, different combinations of cement and lime were examined as stabilizer. Sandy soil from the Yazd-Ardakan plain is used as bed treatment and Portland cement were used as the mulch in this research. The treatments were prepared using different ratios of the above mentioned materials. One liter of water was added to each mulch combinations and were sprinkled on the plot of 100 cm (length) × 30 cm (width) ×4 cm (height) sands. A completely randomized design is used as research plan with three repeating. Physical parameters, such as thickness, compressive strength, which are created by mulches, and wind erodibility of the treatments were measured. The measured data were analyzed using SPSS statistical software. Results show that by increasing the amount of cement, soil crust resistance increases. The combination mulch of cement 400 gr, sand 800 gr, and lime 10 gr is selected as the best treatment, because it can be prepare optimum physical conditions for sand dune fixation. In addition, the cost of field cement mulching estimated 30% lower than oil mulching.
Sand movement,Cement mulch,Wind Erosion,Sand dune fixation
https://jrwm.ut.ac.ir/article_56955.html
https://jrwm.ut.ac.ir/article_56955_675e6a93cb6891599675303cc941635c.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Determining of landuse effects on sediment yield of watershed through sediment fingerprinting technique of suspendedload and bed materials in Taleghani catchment, Khorram Abad
751
765
FA
Kazem
Nosrati
Department of Physical Geography, Faculty of Earth Sciences, Shahid Beheshti University, Tehran, Iran
k_nosrati@sbu.ac.ir
Frouzan
Ahmadi
Department of Physical Geography, Faculty of Earth Sciences, Shahid Beheshti University, Tehran, Iran
aramfro@gmial.com
Ali Akbar
Nazari Samani
0000-0001-6517-2013
Faculty of Natural Resources, University of Tehran, Tehran, Iran
aknazari@ut.ac.ir
Mohammad Reza
Servati
Department of Physical Geography, Faculty of Earth Sciences, Shahid Beheshti University, Tehran, Iran
m-sarvatii@sbu.ac.ir
10.22059/jrwm.2015.56956
Soil erosion is one of the most destructive phenomena which cause significant ecological changes in many areas. Soil conservation and erosion control is essential because of the irreparable damage caused by soil erosion. Soil conservation programs will not achieve until to find adequate methods of combating land degradation and ways to reduce the sediment. Therefore, we need to have enough knowledge of the sediment sources and identify places to be at high risk to soil erosion. In this study we used fingerprinting technique in the Taleghani catchment, Khorram Abad city, Lorestan Province to determine the contributions of sediment sources including agricultural, rangeland, and forest in sediment yield. In view of this, 39 soil were collected from different sources: agriculture, rangeland, forest and channel bank and 19 sediment samples including 11 samples from bed sediment and 8 samples from suspended runoff, respectively. 11 tracers including C, N, P, Na, K, Cu, Zn, Mg, Mn, Fe and Ca were selected as the primary tracers. The results showed that discriminant function analysis were selected Mg, C, Zn and Ca as the optimum set of tracers that can discriminate 3 sediment sources. Mixing model results showed that the contribution of each sediment source is 53.37, 30.37, and 16.26 percent for agriculture, rangeland, and forest, respectively. These results were consistent with the evaluation results of nitrogen and organic carbon stocks. The results of this study can be used in selecting most appropriate erosion control method the study area and generalized to similar areas.
Talaqani catchment,Sediment sources,Soil Erosion,Sediment fingerprinting,Geochemical tracers
https://jrwm.ut.ac.ir/article_56956.html
https://jrwm.ut.ac.ir/article_56956_2a68d5501a65d54f8a4ebf01362694f1.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Analysis of land use changes impacts and demographic changes
(Case study: Taleghan barrier surrounding villages)
767
778
FA
Saeide
Heydari
Msc. Faculty of Natural Resources, University of Tehran, Karaj, I.R. Iran
saeide_heydari@alumni.ut.ac.ir
Ali Akbar
Mehrabi
Professor, Science and Research Branch, Islamic Azad University, Tehran, I.R. Iran
amehrabi@ut.ac.ir
Mohsen
Mohseni Saravi
Professor, Faculty of Natural Resources, University of Tehran, Karaj, I.R. Iran
msaravi@ut.ac.ir
Sakine
Saedi
Msc. Faculty of Natural Resources, University of Tehran, Karaj, I.R. Iran
sakinesaedi@yahoo.com
10.22059/jrwm.2015.56958
The concept of land use transition highlights that land use change is non-linear and is associated with other societal and biophysical system changes. Changes in human systems has resulted in changes in the natural system such as changes in land use. Land use change causes not only environmental factors like geography and topography are important, but social factors examined such as population growth or decline as well as changes in land use is a mix of economic, social and physical problems. Human societies and their environment, such as feedback, change, uncertainty and adaptation of interaction is social and biophysical changes associated with land use change is non-linear. Changes in human systems with natural systems, such as changes in land use will change. Landuse change causes not only environmental factors like geography and topography should not be involved in social factors such as population growth or decline as well as changes in land use is a mix of economic, social and physical problems. Migration impacts on economic activity seriously and may be initiate land use changes. this study was conducted To analyze the effects of Taleghan dam construction on developments in a human population and land use change analysis in a natural system,In general it can be suggested that in the years before the Taleghan dam, the area's population has been decreasing And pasture lands in the lower level of the population is in decline, but after the dam construction the lands become values in the area and seasonal population increases.
Taleghan Dam,seasonal population,Immigration,Land Use
https://jrwm.ut.ac.ir/article_56958.html
https://jrwm.ut.ac.ir/article_56958_062717f3779dee6c152cf3c33efd4c18.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Assessing of interpolation methods in order to snow water equivalent estimation
779
793
FA
Sharbanoo
Abbasi Jondani
Ph.D Student of Watershed Management Engineering, Faculty of Natural Resources, University of Tehran, Karaj, Iran
sh.abbasi@ut.ac.ir
Ali
Fathzadeh
Assistant Professor, Faculty of Agr. and Natural Resources, Ardakan University, Yazd, Iran
fat@ardakan.ac.ir
10.22059/jrwm.2015.56959
Snow is one of the main components of hydrological cycle in most of mountainous basins. Since collecting the snow data (e.g. snow water equivalent data) is very difficult and time consuming, some effort is necessary to develop methods to estimate spatially variation of snow depth distribution. In the present study, the at-site SWE data of 14 stations located in the west of Isfahan providence for the period 1989-2010 were spatialized applying four methods composing the Kriging, the Co-Kriging, the Radial Basis Functions (RBF) and the Inverse Distance Weighting (IDW). In order to reach this purpose, first, the normality of data was checked using the Kolmogorov – Smirnov test. The homogeneity, the stability and the trend of data were tested employing the semivariogram approach. Then the appropriate data of each year was entered into the ArcGIS 9.3 to conduct the methods. Finally, the best method for spatializing the SWE data was selected based on the RMSE values. The results showed that the RBF method provided the best results for most of the years. Furthermore, it was found that the amount of SWE reduced from the south and west to the north and east of the basin.
Co-Kriging,Kriging,Snow Water Equivalent (SWE),Radial Basis Functions (RBF),Inverse Distance Weighting (IDW)
https://jrwm.ut.ac.ir/article_56959.html
https://jrwm.ut.ac.ir/article_56959_6808bcfd19c88b799bc55e95f5a87d04.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Sensitivity Analysis of objective functions in linear programming model for land use optimization in the Adineh-Masjed watershed
795
808
FA
Heshmatollah
Agha Razi
A member of Agricultural and Natural Resource Research Center of Markazi Province, Arak, I.R. Iran
agharazi_h@yahoo.com
Mehdi
Mardian
Ph.D. student of watershed management, Sari University of Agricultural Sciences & Natural Resources, Arak, I.R. Iran
mehdimardian@gmail.com
Ali Akbar
Davoudi Rad
Ph.D. student of watershed management, Tarbat Modarres University, and A member of Agricultural and Natural Resource Research Center of Markazi Province, Arak, I.R. Iran
davudi_rad@yahoo.com
Davud
Nik Kami
Associate professor of soil conservation and watershed management research institute, Tehran, I.R. Iran
nikkami@scwmri.ac.ir
10.22059/jrwm.2015.56960
Land use Optimization using linear programing is a method in watershed management for access to production sustainability and decreasing of soil erosion. The sensitivity analysis of the model can with investigation of results influence form changes in input parameters, lead to decrease the uncertainty in decision-making of management programs. So in this research, linear programming model using Lingo software was applied to land use optimization in the Adineh Masjed watershed, Markazi province. Then was investigated a sensitivity analysis in changes of -50 to +50 percent form area of land use type on based benefit maximization and soil erosion minimization variables. According to results, objective functions are sensitive very low in conditions of changes dry farm area maximum. So that with decreasing 10% from its, benefit rate reduced equal to 3.5%, 4.2% and 2.6% for current land use, management land use and standard land sue, respectively. Also soil erosion rate reduced equal to 0.18% and 0.19% for current land use and management land use, respectively; but it increased in standard land sue equal to 0.34%. Also the results showed benefit variability is related to dry farm area and erosion variability is related to rangeland area.
benefit increasing,Kamal Saleh dam,management scenario,simplex table,soil erosion decreasing
https://jrwm.ut.ac.ir/article_56960.html
https://jrwm.ut.ac.ir/article_56960_660d7b16e78fac868660f5ea02d98eff.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Groundwater quality study for agricultural purposes by geostatistical analysis (Case study: Hashtgerd Plain, Alborz Province)
809
820
FA
Arash
Malekian
Associate Professor, Faculty of Natural Resource, University of Tehran, Iran
malekian@ut.ac.ir
Mahsa
Mirdashtvan
M.Sc. Graduate, Faculty of Natural Resource, University of Tehran, Iran
mirdashtevan@ut.ac.ir
10.22059/jrwm.2015.56961
Nowadays, with the increasing exploitation of groundwater resources, optimal use of these resources is more and more necessary. geostatistical methods can be used to assess and monitor the quality of groundwater resources. Hashtgerd Plain is the case study of this investigation. In this study firstly, by using data from qualitative data which were harvested from 41 Piezometric wells, different qualitative parameters were evaluated, then by using the geostatistical methods such as: Kriging, Co-kriging and IDW the best model for mapping for aquifer quality classification was selected. Results showed that most of the indicators are better simulated by Co-kriging method, based on mutual evaluation and RMSE. The parameters of SAR and EC were selected in order to determine the irrigation water quality parameters according to Wilcox diagram. Based on these two parameters by using ArcGIS v.10 software zoning maps were prepared. Results showed that 99% of the aquifer is classified in the category of good quality irrigation water (C2S1) and 1% level in the aquifer is classified as middle class (C3S1) based on Wilcox diagrams. The results of the study can be used in aquifer management and irrigation management in the agricultural purposes.
Groundwater quality,Hashtgerd Plain,Geostatistics,Wilcox
https://jrwm.ut.ac.ir/article_56961.html
https://jrwm.ut.ac.ir/article_56961_5f4c0602b3eb74e32c986f81442d5f1c.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Regional flood frequency analysis using multiple regression method
(Case study: hydrometric stations of Qazvin province)
821
833
FA
Jamal
Mosaffaie
PhD. of Watershed Managment, University of Yazd, Iran
jamalmosaffaie@gmail.com
Davoud
Akhzari
Professor Assistant of Rangeland Management, Malayer University, Iran
d_akhzari@yahoo.com
Saeed
Rashvand
Scientific member of Qazvin Natural Resources Research Center
saeedrashvand@yahoo.com
Javad
Ataei
Specialist of Qazvin regional water company
jataei@yahoo.com
10.22059/jrwm.2015.56964
One of the important parameters in the design of flood control structures is to determine flood peak discharge for various return periods. A primary issue of planners in the face with flood is lack of data or insufficient data. One of the most reliable strategies is generalizing the results from sites with observed data to ungauged locations. The main goal of this study is regional flood frequency analysis using multiple regression method for Qazvin province of Iran. 8 out of 23 existing hydrometric station were removed because of the short-term statistics and construction of storage dam at upstream. The results of factor analysis showed that perimeter, equivalent diameter, time of concentration, length of main waterway and area were the main variables affecting flood magnitude. The remaining 15 stations were divided into two homogenous regions using cluster analysis. Homogeneity of these two regions was confirmed using homogeneity and heterogeneity tests of L-moments. Based on the best-fit criteria of Zdist, GNO distribution with the statistic of 0.29 has the best fit for the entire region but for one and two homogeneous regions, GLO and GPA distributions with the statistics equal to 0.09 & 1.56 have the best fit respectively. After calculating parameter values for selected distributions, discharges with different return periods were estimated for all stations. Then, regression relations were obtained between peak discharge and factors affecting flood peak for each return periods at two homogeneous regions. Peak discharges at ungauged locations can be estimated for different recurrence interval using these relationships.
Regional flood analysis,multiple regression,L-moments,Cluster Analysis,Qazvin Province
https://jrwm.ut.ac.ir/article_56964.html
https://jrwm.ut.ac.ir/article_56964_edb1f1215ddc74c6d6bd04ebc41e09c5.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Comparing plant functional types in an old-field and a natural rangeland vegetation
835
851
FA
Mohammad
Jankju
Mohammad Jankju, Department of Range and Watershed Management, Ferdowsi University of Mashhad, Iran
mjankju@ferdowsi.um.ac.ir
Fariba
Noedoost
Fariba Noedoost, Department of Biology, Faculty of Science, Khatam Alanbia Industrial University of Behbahan, Behbahan, Iran
fariba.noedoost@gmail.com
Fahimeh
Rafiei
MSc Graduated, Department of Biology, Ferdowsi University of Mashhad, Iran
fahime.rafiee@yahoo.com
10.22059/jrwm.2015.56965
This research was conducted to compare plant functional types (PFT) and traits in an old-field (abandoned for 28 years) and a control site, in the Baharkish rangelands, Quchan, Iran. In the both sites, 40 randomized quadrates were established. Floristic list, frequency, canopy cover and 20 vegetative, phenological and morphological plant traits were measured for all plant species, within each quadrate. According to the Pearson correlation analysis, and by using R software, 9 plant traits including life form, plant canopy, reproduction mode, reserve organ, root type, leaf phenology, growth form, life cycle, and regeneration mode, were known as the major plant functional traits. Data classification and ordination were applied on a matrix of 9 traits ×112 species, by using CANOCO and TWINSPAN softwares. It led to identification of 5 plant functional types. Total canopy cover of two PFT was significantly (70%) reduced and that of three PFT’s were relatively (10-20%) increased in the abandoned field. In conclusions, plants being annual, therophyte, geophytes, and rhizomatus are tolerant, whereas those being perennial (phaneropyte, chemaphyte, hemicryptophyte), having tap root system, and wide canopy cover are known as sensitive to ploughing disturbance.
Baharkish,Grassland,oldfield,plant functional trait,physical disturbance
https://jrwm.ut.ac.ir/article_56965.html
https://jrwm.ut.ac.ir/article_56965_544daed511d9c638fdaffa148aa957db.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Mapping Soil degradation based on Geopedological method and GLASOD model using GIS in East Qazvin Province
853
867
FA
khaled
Hajimaleki
Student of Master of Soil Science, Soil Science Department, university of Tehran
khaled.hajimaleki@yahoo.com
rouhollah
mousavi
0000-0002-7420-3746
Student of Master of Soil Science, Soil Science Department, university of Tehran
r_mousavi@ut.ac.ir
Manochehr
Gorji
Associate of Soil Science, Soil Science Department, university of Tehran
mgorji@ut.ac.ir
Fereidon
Sarmadian
0000-00019894-2765
Professor of Soil Science, Soil Science Department, university of Tehran
fsarmad@ut.ac.ir
10.22059/jrwm.2015.56967
Nowadays, the importance of soil conservation in agriculture and natural resources, with the goal of preventing its deterioration and degradation are necessary. Soil and land degradation as a direct cause of the threat to the global environment and human welfare is evident. In this study soil degradation mapping was carried out in East Qazvin. Soil map using geopedological method by integration of information layer of lithology, geomorphic and pedogenic was prepared in ArcGIS9.3 software. Data from soil maps with field studies was used as input in GLASOD model and the soil degradation map was prepared. In this study soil map units was used as basis of soil degradation status investigating in the region. Results showed that less than 25% of the study area has a low degree of degradation and in the present circumstances do not require specific management actions, but in other parts of the region, with various degrees of soil degradation was observed. Soil chemical properties degradation include decrease of soil organic matter, loss of soil nutrients and soil salinity are the most important aspects affecting on soil degradation of region. At total of 16,630 hectares of land, about 4028 ,5987, 5128 and 866 respectively low, middle, high and very high soil degradation class are located. Thus according to the results to prevent the spread of this process in this area, management actions is recommended.
Soil degradation,Geopedological method,GLASOD model,Management of soil resources,Soil degradation class
https://jrwm.ut.ac.ir/article_56967.html
https://jrwm.ut.ac.ir/article_56967_a0064720f7b96753e368217a92996e34.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Autecology study of Platychaete aucheri Boiss. in arid ecosystems, south of Fars province
869
884
FA
Gholam Abbas
Ghanbarian
Assistant Professor, Department of Natural Resources and Environment, Faculty of Agriculture, Shiraz University, Shiraz, Iran
sghanbarian@yahoo.com
Zahra
Yazdanpanah
MSc in Desert Management, Faculty of Agriculture, Shiraz University, Shiraz, Iran
zahra.yazdanpanah.89@gmail.com
10.22059/jrwm.2015.56968
َAutecology of Platychaete aucheri Boiss. was studies in south parts of Fars. Climatic data, topography and soil characteristics , vegetation attributes and phenology of desire species were studies. The nutritive value in three major stages was determined. The results showed the plant is able to grow under conditions of low rainfall and high temperature , but has little tolerance to cold and frost . The habitat altitude ranges from 543 to 1120 meters above sea level, slope aspect of south and southeast and 7 to 80 percent slope. Average canopy cover of species is between 8.15 to 29 percent. The soils of habitats were neutral to alkaline, non-saline, poor in organic matter and nutrients and the texture is sandy loam. The protein content (%) decreases during phonological stages (at high level 4.53% in flowering stage), also this protein content alone do not satisfy the livestock requirements. Due to the essential oils, the deep root system, woody aerial parts and as well as hairy leaf and stem, grazing pressure can be tolerated. Generally, P.aucheri has several benefits such as adaptation to hot and dry habitats of southern Fars, grazing resistant of life form, attractiveness of beekeeping, uses in traditional medicine and valuable role in controlling water and wind erosion may be introducing and considering as a multiple use species in combat desertification projects and reclamation of winter south rangelands of the country. Knowing of best methods to propagation and successful establishment of this endemic species requires further research.
Autecology,Platychaete aucheri Boiss,endemic species,Khalij-Omani region,Fars province
https://jrwm.ut.ac.ir/article_56968.html
https://jrwm.ut.ac.ir/article_56968_a2df57954f7e3770487b6e4e87b6d9dc.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
Investigation of the role of temporal distribution of precipitation on forage production value of the rangeland
885
899
FA
Maryam
Azarakhshi
Assistant Prof., University of Torbat Heydarieh, Faculty of Agriculture and Natural Resources
maryam.azarakhshi@yahoo.com
Mohammad
Mahdavi
Full professor, University of Tehran, Faculty of Natural Resources
m.mahdavi@ut.ac.ir
Hasan
Ahmadi
Full professor, University of Tehran, Faculty of Natural Resources
ahmadi2@ut.ac.ir
Hosein
Arzani
Full professor, University of Tehran, Faculty of Natural Resources
adedu@can.ut.ac.ir
Jalil
Farzadmehr
Assistant Prof., University of Torbat Heydarieh, Faculty of Agriculture and Natural Resources
farzadm102000@gmail.com
10.22059/jrwm.2015.56970
Plants cover composition, condition, trend, production, and grazing capacity of the rangeland change annually. In this research, the role of temporal rainfall distribution on rangeland production was assessed. This research had down in the rangelands of Ilam (with semiarid to semi humid climate) and Qom and Markazi (with arid to semiarid climate) provinces. By attention on plant cover maps in each province 10 main types of plant cover in Ilam, 8 types in Qom and 10 types in Markazi were selected. In these sites, relative factor to plant cover and soil contains: canopy cover, density, production, germination and, soil cover were measured along four 400m transects into 60 plots .the production of the graze able species was measured by clipping and weighting method. The regression techniques and correlation coefficient were used to the relation between production and precipitation. to determination the role of the temporal distribution of rainfall of the rangeland production, the relationship between rainfall and production was calculated in seven time steps contains. The results show that only 4% of the total forage production is explained by annual precipitation but in 96% cases there were related with start of growth season (March) and growth season(early March to late July).this result shows the importance of growth season precipitation on the forage yield in rangelands.
growth season,Ilam,Markazi,Qom,temporal distribution of precipitation
https://jrwm.ut.ac.ir/article_56970.html
https://jrwm.ut.ac.ir/article_56970_4064e587a78e524101c40290d1e06ae3.pdf
University of Tehran
Journal of Range and Watershed Managment
5044-2008
2423-7795
68
4
2015
12
22
English Abstracts
1
16
FA
10.22059/jrwm.2015.57474
https://jrwm.ut.ac.ir/article_57474.html
https://jrwm.ut.ac.ir/article_57474_8d7f6baf05f12924c5188ba73c595d04.pdf