Scientific- Research Quarterly of Geographical Data (SEPEHR)

Mechanisms of Cloud Fertilization

Ali Baratian

Volume 13, Issue 52 , February 2004, , Pages 15-18

Abstract

Humanity has long been trying to prevent rain floods and storms, and hoped to have the opportunity to control weather and atmospheric phenomena.In recent years, there have been a great deal of discussions about artificial rain. It is supposed, or even promised, that it can be possible, irrespective of ... Read More Humanity has long been trying to prevent rain floods and storms, and hoped to have the opportunity to control weather and atmospheric phenomena.In recent years, there have been a great deal of discussions about artificial rain. It is supposed, or even promised, that it can be possible, irrespective of location and time, to produce the required rainfall.This has created more hope and expectation for artificial rainfall in human society. Today, with the rapid advent of meteorological knowledge and advancements in technology of data exchange, the thought of interfering in atmospheric events has seriously entered the realms of research and experimentation. But so far, meteorologists have come to the conclusion that it is possible to make preparations for accelerating or delaying some of the effects of climate only on a small scale.In recent decades, many efforts and research have been made to change the natural rate of condensation and precipitation processes in order to achieve goals such as artificial precipitation, mist elimination (especially at airports) and hail lightening, all of which relies on the present knowledge of human beings in the field of cloud physics. The onset of precipitation processes (solids or liquids) requires the presence of water droplets and precipitation kernels in appropriate size and sufficient quantities per unit volume. The nuclei spray method, evaluation of fog dispersion operations at airports, roads, sports fields, etc are also utilized. In general, the technology of fertilizing clouds has been considered by the researchers in the field of climate modification in three main categories, including: 1 . Limited and temporary control of precipitation 2 . Fog dispersion 3 . Hail prevention Due to diversity of climatic conditions in different regions and also geographical and topographical characteristics of each region, a method with a unique fertilizer can not be introduced for all geographical areas and climatic conditions.

Issues related to the transfer of sand and fine particles (dust) by wind in dry and shallow water areas

Mohammad Reza Servati; Mohammad Reza Yusefi Roshan

Volume 21, Issue 83 , November 2012, , Pages 16-35

Abstract

Movements of sand and small particles (dust) because of wind occur in many different environments, but the phenomenon is much more powerful in arid areas and cover larger areas. The phenomenon is one of the most important issues arid areas face. In order to preserve buildings, agricultural lands, pipe ... Read More Movements of sand and small particles (dust) because of wind occur in many different environments, but the phenomenon is much more powerful in arid areas and cover larger areas. The phenomenon is one of the most important issues arid areas face. In order to preserve buildings, agricultural lands, pipe lines and transport networks from sandstorms and from being buried in dust and sand, it seems necessary to create and develop monitoring tools and confront this natural phenomenon. Urban areas in arid lands can block movements of sand and dust suspended in wind. In arid lands and deserts population is centralized around ground water resources. Cultivated lands are limited which results in more pressure on the earth due to centralization and population being attracted to settlements. Thus, desert ecosystem near urban areas faces more damages, plant life faces destruction and soil structure will be damaged. Movements of sand and small soil particles increase and wind-related problems and issues display in a larger scale. In this regard, factors creating problem of sand and small soil particles depend on desertification factors which have gained attentions in recent years (A. J. Pilor and Honey, 1976; United Nation, 1977). To decrease disagreeable results of sand and small soil particles movements, we need to gain enough information regarding the natural characteristics of such movements and identify factors accelerating this process, while trying to decrease the quality and quantity of these natural events. Therefore, the present article aims to identify natural characteristics, intensity, dispersion and movement of sand and small soil particles in arid areas and problems caused by wind processes. Then, the study seeks to create a new model to identify and observe sand and small soil particles movements. Furthermore, it tries to find a way to evaluate sand and small soil particles movements and dangers cause by wind erosion, and also a way to measure these movements precisely and bring them under control.

Examining Physical-Functional Problems The Central Part of the Traditional Cities (Khorramabad)

Hassan Afrakhteh; Asghar Abdoli

Volume 19, Issue 76 , February 2011, , Pages 16-21

Abstract

Nowadays, the complications of fast, unrestricted and unplanned urbanization and lack of proper management in some cities have reached a level that it has basically made urbanization an undesirable phenomenon with a negative value. The tendency towards more concentration and polarization in the upper ... Read More Nowadays, the complications of fast, unrestricted and unplanned urbanization and lack of proper management in some cities have reached a level that it has basically made urbanization an undesirable phenomenon with a negative value. The tendency towards more concentration and polarization in the upper levels of the urban community and the distance between the high levels and the low, the tendency towards thoughtless growth in terms of disparity between the scale and performance of cities and ... are among the factors that cause the increasing decline in the efficiency of urban per capita income , speculative activity, dominance of unofficial sector on the official, and the growth of social-cultural crises, and as a result, the sources and factors of production have swallowed their own region and create their own further growth. In this regard, the old texture of the city of Khorramabad, despite its potential historical, economic, social and cultural capabilities, suffers from these problems. The composition of the population, the cultural differences of the inhabitants, and legal problems that are the outcome of the lack of proper and principled policy-making are among the characteristics of this texture. The low value of land and buildings, the lack of social and psychological security, the dominance of low income jobs and the presence of significant poverty in the old texture of the city compared to the new are also among the characteristics of these types of textures. The main objective of this study is to identify the physical-functional structure and the issues and problems of the old texture of Khorramabad city. The results of the research show that the absence of suitable executive plans, lack of urban unit management, issues and legal problems related to property ownership, economic and cultural poverty, old and weary buildings and their lack of renovation, and ... are among the main problems of this texture. In this paper, we have studied physical-spatial and functional problems of the central part of Khorramabad using secondary, descriptive and analytical research methods along with field study.

The Role of Humans in Environmental Changes

Mahdi Mo'meni

Volume 19, Issue 75 , November 2010, , Pages 16-21

Abstract

Over the larger part of the planet, the landscape that is now exposed is mainly an artifact of human thought and creation. The impact of man in the natural environment has day-by-day and evidently changed the geographical spheres. The cumulative effect of human population over time, especially through ... Read More

Mathematical Methods of Assessing Gully

Mohammad Hossein Ramesht; Leila Gorjii; Mojgan Entezari

Volume 18, Issue 70 , August 2009, , Pages 16-19

Abstract

For more than half a century, soil erosion prediction and modeling technology has been used as a valuable tool in protective design, engineering plans and research development. This technology includes mathematical equations that calculate estimates of the dependent variables of erosion (soil losses, ... Read More

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Geomorphologic Characteristics of Mount. Erciyes Using DTM and RST Technologies

Bahram Azadbakht (Translator)

Volume 15, Issue 57 , May 2006, , Pages 16-18

Abstract

Digital models of the Earth and satellite information through structural analysis of the Earth lead us to a new understanding of the relationship between volcano and the science of formation of the earth. A DTM was presented from the Mount Erciyes (3917m high), which is on the scale of 10 meters with ... Read More

Post-mission GPS Absolute Kinematic Positioning at One- metre Accuracy Level

Abbasali Salehabadi (Translator)

Volume 5, Issue 20 , February 1996, , Pages 16-19

Abstract

Absolute positioning is the use of a unique GPS receiver. In the instantaneous measurement and processing of GPS data, accuracy of positioning of points is limited by errors such as those of satellite orbit, the deliberate S.A noise, effects of propagation of carrier waves in the receiver's environment ... Read More

Environmental features Persian Gulf And its position in Kuwait Conventions And International Law of the Sea (1982)

Sohrab Asgari; Farzaneh Sadeghi; Zahra Khanmohammadi

Volume 23, Issue 89 , May 2014, , Pages 17-25

Abstract

The Persian Gulf consists of 8 coastal countries and a water body of 240000 km. Coastal countries do not have the same access to this body of water which has caused some problems with dangerous environmental consequences. Persian Gulf (formerly known as Persian Sea) has specific natural and environmental ... Read More

Classification of the Level of Urban Development in Chehar Mahal and Bakhtiari- Province Using Advanced Methods of Factor Analysis and Cluster Analysis

Mas'oud Taghvaei; Ali Zangi Abadi; Seyyed Hassan Nourbakhsh

Volume 16, Issue 62 , August 2007, , Pages 17-25

Abstract

The study of urban development and recognizing the cities’ weaknesses and strengths, potentials and shortcomings provide a suitable basis for providing strategies and applying appropriate urban development plans, as well as establishing a balanced urban network system. The separate study of the ... Read More

Introduction to Military Geography (Part XVI)

Seyyed Yahya Safavi

Volume 12, Issue 48 , February 2003, , Pages 17-19

Abstract

The bombing experts who have a very different view of urban warfare than conventional street warfare experts and experts of special force operations, support two major options or a combination of them. Option (B) is a precise bombardment of selective targets that will degrade enemy’s capabilities ... Read More

Application of Parallel Architecture and Optical Systems in Positioning of Moving Points

Mohammadreza Yari

Volume 4, Issue 14 , August 1995, , Pages 17-20

Abstract

“Over Determined” models are solved using the LSM method known as the Adjustment problem. One of the most efficient applications of Adjustment in statistical analysis of the problem of positioning is the presentation of coordinates and precision of a point in the form of ... Read More

Natural Potential of Water Resources of Baluchistan and the Method of its Exploitation

Esfandiar Bandarian

Volume 2, Issue 8 , February 1993, , Pages 17-26

Abstract

About the situation and extent of Baluchistan and Sistan, the following divisions have been mentioned in different sources. The Baluchistan area is located in southeastern Iran, and its extent has been greater in the past than today. The Great Baluchistan includes the Baluchistan areas of both Iran ... Read More

Considerations About Names in Geography

Mohammad Hasan Ganji

Volume 2, Issue 6 , February 1992, , Pages 17-23

Abstract

Geographers consider their science to be the Mother of Sciences, and they always claim that geography, as recognition of environment, is one of the oldest sciences that mankind has known from the very first days that they existed due to necessities. Many geographers today believe that new geography has ... Read More

Neoliberalism and its impact on urban space

Hosseyn Hataminejad; Amin Faraji

Volume 22, SEPEHR , April 2013, , Pages 18-24

Abstract

Urban environment has always been considered a context influenced by different economic-political processes, and a place for the emergence of phenomena like injustice, lack of healthcare, unemployment, class difference, etc. rooted in economic policies. In other words, human environment somehow represent ... Read More

Location-Based Information Data Centers: Major Victim of the Hackers

Mohammad Hassan Nami

Volume 17, Issue 67 , October 2008, , Pages 18-25

Abstract

The data center contains the most valuable spatial information and for some datacenters, such as the National Institute of Geography IGN of France), or the Ordance Survey (OS of England), or the National Imagery Mapping Agency (NIMA) of the U.S., its price is estimated to be between $4 Up to $ 12 billion. ... Read More

Introduction of Various Methods of Utilization of GPS in Geodesy and Surveying

Mohammad Ali Rajabi

Volume 2, Issue 7 , August 1993, , Pages 18-23

Abstract

In recent years, various methods of stationary and mobile surveying or Global Positioning System (G.P.S) have been developed and utilized. The purpose of GPS-based surveying is to determine relative positions with high precision based on the observations of the GPS carrier wave phase complemented by ... Read More

Geography of Crime

Hossein Hataminejad; Ruhollah Mohammadi

Volume 18, Issue 69 , May 2009, , Pages 19-23

Abstract

The school of criminal geography came into existence in 1830 and lasted for a few decades, but today it is nowadays not as significant in criminal sociology as before. The criminal geography was founded by the Belgian mathematician Quetelet and French jurist Guerry. Quetelet was mathematician and an ... Read More

Post-Modern Geopolitics of the 21st Century (Part II) Post-Modern Geopolitics and War of Civilizations

Seyyed Mohammad Hadi Ayyazi

Volume 17, Issue 66 , August 2008, , Pages 19-23

Abstract

In this article, we will look at the new American warfare policies that daily affect the world people’s plans for their lives. Dick Cheney, the current Vice President of the United States, who leads the White House’s war-mongering policies, has introduced a new hegemony called "the soft law". ... Read More

Remote Sensing for Land Use Planning

Seyyed Ebrahim Gholizadeh (Translator)

Volume 7, Issue 27 , November 1998, , Pages 19-23

Abstract

Human needs transform the land to different activities and the quantifiable information of these dominating activities are necessary to develop future planning. In this paper three techniques, geometrical shapes and growth concept, causal modelling concept, and category rate concept are developed which ... Read More

Production pf the Digital Terrestrial Model (DTM) Using Russian Satellites' Images

Khosro Khajeh (Translator)

Volume 7, Issue 25 , May 1998, , Pages 19-22

Abstract

This paper examines the main technological aspects of digital models of elevation points and digital orthophotos using the Russian satellite’s photos. Satellite images of (TK-350) and (TVR-1000) propose an economic attitude that makes access to such digital photos possible. The basis of this theory ... Read More

A Note on the Principles of Remote Sensing - Part IV

Mahdi Modiri

Volume 5, Issue 19 , November 1996, , Pages 19-24

Abstract

Remote sensing is a science that provides valuable information on objects and land features by measuring distances from afar and without physical contact. In remote sensing, information can be obtained by measuring and recording the reflections of electromagnetic waves of atmosphere and ground level, ... Read More

A Note on the Principles of Remote Sensing - Part III

Mahdi Modiri

Volume 5, Issue 18 , August 1996, , Pages 19-27

Abstract

Remote sensing is a science that provides valuable information on objects and land features by measuring distances from afar and without physical contact. In remote sensing, information can be obtained by measuring and recording the reflections of electromagnetic waves of atmosphere and ground level, ... Read More

Space, the fourth dimension of power (seventh part): Space technology - Part III

Mohammad Hassan Nami

Volume 20, Issue 79 , November 2011, , Pages 20-24

Abstract

The restriction of the sources and documents related to the field of space in the country necessitates clarification of the status of space in the development of the country and sustainable security, which, while expressing the essential issues concerning space technology and space activities ... Read More

The Role of Tourism in Job Creation

Ahmad Taghdisi; Hossein Ali Kazemi

Volume 19, Issue 74 , August 2010, , Pages 20-23

Abstract

Tourism is an industry which currently has a large share of the world's economic activities. In addition to earnings, the industry is a job-creating industry that will provide around forty-three percent of the world's employment in 2010, and in ten years will provide around 220 million job opportunities ... Read More

The Role of Remote Sensing Satellites in Strategic Management

Mohammad Hassan Nami

Volume 17, Issue 65 , May 2008, , Pages 20-22

Abstract

One of the most important inventions of humanity in the 20th century is the satellite, which is the fruit of many years of great efforts and the culmination of the technological advancement of mankind. With the development of satellites set in the orbit of the earth, it became possible to conduct high-altitude ... Read More

Role of Women's Education in Human Sustainable Development

Iran Ghazi; Reza Mokhtari Malek Abadi

Volume 14, Issue 54 , August 2005, , Pages 20-25

Abstract

Today quality of human life is unstable, therefore it is necessary to assess the quality of human environment and identify the causes of instability. This requires identifying the variables affecting the environment, achieving a method for having and assessing criteria for supervision and control of ... Read More

Strategy for Management of Housing Resources and Planning

Mohammad Mosayyebi

Volume 6, Issue 24 , February 1997, , Pages 20-23

Abstract

Based on the reports published in global health magazines, about one-fourth of people of the world are deprived of suitable shelter, and a hundred million people have no house and lie in streets, under bridges and in other improper places. Therefore, housing is a global problem, and it is certain that ... Read More Based on the reports published in global health magazines, about one-fourth of people of the world are deprived of suitable shelter, and a hundred million people have no house and lie in streets, under bridges and in other improper places. Therefore, housing is a global problem, and it is certain that traditional patterns and methods can by no means respond acceptably to these increasing need. Furthermore, other factors such as environmental considerations, lack of enough investment and skilled force and natural problems are among the limitations of housing plans and management. It is obvious that creation and establishment of efficient and modern architecture and urban texture in agreement with the culture of time and place must be based on leaving classic characteristics and removing the single-story attitude. Moreover, for achieving agreement between housing and urban texture from artistic and social order point of view, we must consider environmental, artistic and social order balance together when analyzing the relationship between human and housing. Attention to historical characteristics of each nation is a necessity in housing plans that is very effective in the success and comprehensiveness of these plans. Considering that in large cities the problems of transportation, air pollution, shortage of space, excessive occupation of urban lands by highways, inefficiency in movements within the city and countless environmental problems are due to lack of a comprehensive plan in design of residential spaces, so due care in management and housing plans is the first step for avoiding such problems. In this paper, while considering the environmental problems of cities, the main sources of environment, namely matter, energy, space, time and variety have been taken into account, and it has been emphasized that it is necessary to define quantitatively a comprehensive plan containing all factors that affect housing plans, and to implement it into geographic information systems. Then, using GIS software and computer modeling, the layers or combinations of such plans should be assessed and, considering their advantages and disadvantages, the best approach for housing plans shall be proposed according to national culture and environmental conditions.

Application of GIS in Water Resources

Ahmad Sarkhosh (Translator)

Volume 10, Issue 37 , May 2001, , Pages 21-23

Abstract

Today, there are probably few people not familiar with the technology of Geographic Information System or GIS. This technique has existed since the 1970s and following the introduction of hardware facilities into the world of science and technology, and was then used in the Canadian Department of Natural ... Read More

Combining Lidar Data and Aerial Digital Images to Improve Classification Accuracy

Ahmad Javaheri; Ebrahim Gholipour

Volume 16, Issue 63 , November 2007, , Pages 22-25

Abstract

Recognition and classification of land features on the images have been considered as the base of many applications including the development of a digital model of elevation, identification of changes, updating of maps and many other cases in geomatics. In recent years, researchers have tried to improve ... Read More

Producing climate map for Kurdistan Province using information technology system

Ali Hanafi; Iraj Hatami

Volume 22, Issue 87 , November 2013, , Pages 24-28

Abstract

Climatic zoning and identifying influential factors and elements in each zone are considered to be the most important factor in environmental planning. Climatic research and climate map can be used in large, medium, small and local scales. Related researches in Kurdistan have been very limited. The present ... Read More

Locate suitable sites for artificial recharge Surface water and flood spreading. Using Geographic Information System (GIS) (Case study: city of Sabzevar)

Ghasem Keykhosravi; Zahra Yarmoradi

Volume 23, SEPEHR , July 2014, , Pages 25-31

Abstract

Supplying crops’ water needs in arid areas is only possible through irrigation, since low precipitation, high evaporation and inappropriate distribution of rainfall makes dry farming economically unjustifiable. Yet, perennial rivers cannot supply water needs of different sectors, and the shortcomings ... Read More

The Synoptic-Dynamic Study and Analysis of Snowfall in Yazd province

Kamal Omidvar

Volume 25, Issue 98 , October 2016, , Pages 25-42

https://doi.org/10.22131/sepehr.2016.22136

Abstract

Abstract In most parts of the country, especially at high altitudes, the predominant form of precipitation is snow, which can be considered as the main source of water for rivers, springs, underground watersheds and Qanats. The heights of Yazd province are also one of the snowy areas of the country ... Read More Abstract In most parts of the country, especially at high altitudes, the predominant form of precipitation is snow, which can be considered as the main source of water for rivers, springs, underground watersheds and Qanats. The heights of Yazd province are also one of the snowy areas of the country because of geographical location and topographic conditions. The purpose of this research is to synoptically-dynamically identify, study and analyze the snowfall in Yazd Province. For this purpose, 12 snowfall periods were identified during the statistical period of 1999 to 2011 after identifying the geographical location of the area and with regard to the required data. To identify the motion of the air mass and to study the synoptic systems of the province, daily snow and rainfall data and synoptic maps of the land surface and upper levels of the atmosphere, jet stream, omega, circulation and humidity advection were extracted from the NCEP/NCA base and the related maps were plotted in the GrADS environment. Three synoptic and pressure patterns were extracted after conducting climatic thermodynamic researches affecting Yazd province and studying dynamic properties in terms of strengthening and weakening of pressure systems and their synoptic analysis. In the first pattern, the low-pressure combinative systems of the Eastern Mediterranean and Sudan along with the deepening of the Eastern Mediterranean troughs and the penetration of cold weather cause snowfall, especially on the highlands of Yazd province. In the second pattern, the emergence of the blocking phenomenon causes snowfall and severe cold in Yazd province. This phenomenon occurs along with deep troughs of the Eastern Mediterranean and the Red sea leading to cold weather and snowfall for several days. In the third and final pattern, with the establishment and high pressure penetration of the Caspian Sea and the Siberia and the creation of a cut-off low-pressure phenomenon in the central and northern parts of Iran, a snowfall occurs in the central regions of Yazd province.

Uncertainty analysis of the future changes in maximum daily temperatures over Iran using GIS

Mohsen Abbasnia; Taqi Tavousi; Mahmood Khosravi; Toros Hossein

Volume 25, Issue 97 , June 2016, , Pages 29-43

https://doi.org/10.22131/sepehr.2016.20134

Abstract

Recognizing and evaluating the climate changes in the coming decades is absolutely necessary for the purpose of appropriate environmental planning in order to adapt and mitigate its effects. In this research, the SDSM model was successfully calibrated and validated (1981-2010) tocomparatively analyze ... Read More Recognizing and evaluating the climate changes in the coming decades is absolutely necessary for the purpose of appropriate environmental planning in order to adapt and mitigate its effects. In this research, the SDSM model was successfully calibrated and validated (1981-2010) tocomparatively analyze and explore the future maximum daily temperature variations over Iran forthe two future periods of (2041-70 and 2071-99) and based on the output of two general circulation models of atmosphere, namely, Hadcm3 and CGCM3 under the existing emission scenarios (A1B, A2, B1, B2), relative to the baseline period of 1981-2010. In other words, with regard to the uncertainty for the maximum daily temperature of the future data, downscaling was performed in 7 synoptic stations as the climatic representatives of Iran. Analysis of the output uncertainty showed that CGCM3 model under the B1 scenario among all different models-scenarios has had the best performance in simulating the future temperature. Also, the findings of the research on the studied stations indicate that the temperature in Iran in the middle and final decades of the 21st century increases in averagebetween 1 to 2 degrees Celsius, which based on different scenarios of the Hadcm3 model, this temperature increase has been higher compared to the CGCM3 model. In terms of spatial dispersion of the changes in the GIS environment based on the output of all scenario-models, the lowest temperature increase was observed at Bandar Abbas station located on the south lowland coast of Iran, and on the contrary, the temperature rise reaches the maximumat the Tabriz station located onthe northern latitudes and highland and mountainous regions of Iran. In total, the important and effective factors in the future changes of Iran's temperature can be classified into three groups: factors of altitude, latitude and atmospheric humidity, because, based on all the outputs of model-scenarios, the stations located on the northern latitude elevations of Iran will experience the highest temperature rise compared to the stations located on low-altitude and adjacent to the southern coast of Iran.

The Process of Evaluating Magnesium Changes Using Neural Network and Geospatial Information System In the villages of Gonbad city (Golestan province)

Mohammadzaman Ahmadi; Saeed Behzadi

Volume 25, Issue 99 , December 2016, , Pages 29-42

https://doi.org/10.22131/sepehr.2016.23194

Abstract

Abstract Wells are one of the main sources of drinking water, agriculture and industry. Water quality in terms of drinking is the most important parameter among qualitative parameters. Therefore, the investigation and anticipation of pollution are the goals of managers and planners. In this research, ... Read More

The significace of developing coastal smartline morphological map for Iranian coastal zones

Ezzatollah Ghanavati; Reza Mansouri; Seyyed Abdolsalam Heydari

Volume 22, Issue 86 , June 2013, , Pages 29-41

Abstract

Coastal Zones have been one of the most populated areas on the Earth.Nowadays, abut 60 percent of the Population lives in costal zones. In most coastal countries, cities in the coasts have high population density. In respect to the highly populated costal areas and human’s exploitation of their ... Read More

Modeling Uncertainty of Digital Elevation Models SRTM and ASTER and Their Impacts on Landform Classification in Garm-Chay Basin

Bakhtiar Feizizadeh; Salimeh Abdolah Abadei; Khalil Valizadeh Kamran

Volume 26, Issue 103 , November 2017, , Pages 29-41

https://doi.org/10.22131/sepehr.2017.28891

Abstract

Extended Abstract DigitalElevation Model (DEM) is one of the main geographical datamodels which forms the basis of the different spatial analysis. DEM is known as fundamental data for many modelingtasks. Nowadays, the result validation of GIS spatial analysis, hasbecome a major challenge in the ... Read More Extended Abstract DigitalElevation Model (DEM) is one of the main geographical datamodels which forms the basis of the different spatial analysis. DEM is known as fundamental data for many modelingtasks. Nowadays, the result validation of GIS spatial analysis, hasbecome a major challenge in the world of GIS.Thequality of a DEM is dependent upon a number of interrelatedfactors, including the methods of data acquisition, the nature ofthe input data, and the methods employed in generating the DEMs.Analysis of uncertainty in different fields, due to data qualityand related issues such as error, uncertainty models, error propagation, error elimination and uncertainties in the data, are felt morethan any other times. Of all these factors, data acquisitionis the most critical one. Previous studies on DEM dataacquisition have focused either on examination of generation method(s), oron case studies of accuracy testing. These studies are not adequate,however, for the purpose of understanding uncertainty (an indicator used toapproximate the discrepancy between geographic data and the geographic reality thatthese data intend to represent) associated with DEM data and thepropagation of this uncertainty through GIS based analyses. The developmentof strategies for identifying, quantifying, tracking, reducing, visualizing, and reportinguncertainty in DEM data are called for by the GIS community. In order to apply uncertainty analysis on DEMs, this studyaimed to evaluate the error rate and uncertainty of elevationdata obtained from SRTM and ASTER satellites. The objectives ofthis study are: (1) to understand the sources and reasonsfor uncertainty in DEMs produced by cartographic digitizing; (2) to develop methodsfor quantifying the uncertainty of DEMs using distributional measures and (3) to measure the uncertainty associated with DEMs and minimizethe chances of error by means of optimizing models. Quantifying uncertaintyin DEMs requires comparison of the original elevations (e.g. elevations read from topographic maps) with the elevations in aDEM surface. Such a comparison results in height differences (orresiduals) at the tested points. To analyze the pattern ofdeviation between two sets of elevation data, conventional ways areto yield statistical expressions of the accuracy, such as the rootmean square error, standard deviation, and mean. In fact, allstatistical measures that are effective for describing a frequency distribution, including centraltendency and dispersion measures, may be used, as long asvarious assumptions for specific methods are satisfied. Our research methodology includesseveral steps. The first step was, using the statistical indices ME, STD and RMSE, the error rate of DTMsforobtaining the chances of error in ach model. It hasto be mentioned that the main attraction of the RMSElies in its easy computation and straightforward concept. However, this indexis essentially a single global measure of deviations, thus incapable ofaccounting for spatial variation of errors over the interpolated surface. Inorder to obtain more accurate results, then uncertainty of dataerrors was also simulated by Monte Carlo method and errorpropagation pattern was extracted by interpolation of results. The resultsof this step show that, the DEM derived from pairstereo ASTER despite having better spatial resolution, included more errorsand practically lacking the details of DTM 30 meters. Finally,removing the error propagation pattern from DEMs, the secondary DEMwas produced. By recalculating indicators describing the error and comparingthese values with the initial values, the results indicate that,both DEMs show more accuracy after eliminating the error propagationpattern. TPI Index was used to determine the location ofbasin topography and the basin is divided into 6 classesand error rate in each class was calculated before andafter the simulation. The results showed that, the error ratesin all classes before and after the simulation in bothDEMs were reduced. In terms of uncertainty analysis methods forDEMs, results of our research indicated that the RMSE methodsalone is not sufficient for quantifying DEM uncertainty, because this measurerarely addresses the issue of distributional accuracy. To fully understand andquantify the DEM uncertainty, spatial accuracy measures, such as accuracy surfaces, indices for spatial autocorrelation, and variograms, should be used. Results alsoindicated that Monet Carlo simulation is indeed sufficient methods forsimulation error in DEMs. Results of this research are of great importance for uncertainty analysis in domain of Geosciences andcan be used for improving the accuracy of modeling in avariety of applications.

The Effect of Wind and Air PressureFields on the Water Level of the Level Measuring Stations of the South Caspian Sea Coasts

Abdolazim Ghangormeh; Javad Malek

Volume 24, Issue 94 , September 2015, , Pages 31-44

https://doi.org/10.22131/sepehr.2015.14475

Abstract

The Caspian Sea like all other seas andgreat lakes is constantly turbulent under the influence of various hydrodynamic phenomena such as storm tide, storm surges caused bythe wave and wind, rise of wave in the coastal zone, and the phenomenon of resonance.But the reason for all of these phenomena is ... Read More

Historical Geography of Sistan Before Islam

Hassan Beik Mohammadi

Volume 15, Issue 60 , February 2006, , Pages 32-35

Abstract

The Orient is the birthplace of civilization, and Sistan is one of the centers of culture and civilization in Southwest Asia. Sistan is also the birthplace of the national, cultural and social epics of ancient Iranian history. Sistan Plain, located in the eastern part of Iran, is the center of one of ... Read More

Improvement of Forest Height Estimation using Scattering Matrix Optimization by Altering Polarization Bases Case Study: Swedish Boreal forests

Samira Hosseini; Hamid Ebadi; Yasser Maghsoudi

Volume 26, Issue 101 , June 2017, , Pages 33-44

https://doi.org/10.22131/sepehr.2017.25724

Abstract

Extended Abstract Introduction Estimation of forest biomass has received much attention in recent decades including assessing the capability of different sensor data (e.g., optical, radar, and LiDAR)and the development of advanced techniques such as synthetic aperture radar (SAR),polarimetry and polarimetric ... Read More Extended Abstract Introduction Estimation of forest biomass has received much attention in recent decades including assessing the capability of different sensor data (e.g., optical, radar, and LiDAR)and the development of advanced techniques such as synthetic aperture radar (SAR),polarimetry and polarimetric SAR interferometry for forest biomass estimation. Accurate estimation of forest biomass is of vital importance to model global carbon cycle. Deforestation and forest degradation will result in the loss of forest biomass and consequently increases the greenhouse gases. Radar systems including SAR have a great potential to quantify biomass and structural diversity because of its penetration capability. These systemsare also independent of weather and external illumination condition and can be designed for different frequencies and resolutions.Moreover, SAR systems operating at lower frequencies such as L- and P-band have shown relatively good sensitivity to forest biomass. Regression analysis is among thecommon methods for evaluation forest biomass which have been investigated for many years on different areas. This analysis is based on the correlation between backscattering coefficient values and the forest biomass. However, previous studies demonstratedthat such approaches are very simple and they do not consider structural effects of different species. One of the restrictions and limitations of these methods is the low saturation level. The level of saturation is lower in higher frequencies and vice versa. Considering the structural parameters, researchers have tried to use the interferometry techniques.Forest canopy height is one of the important parameters that can be used to estimate Above Ground Biomass (AGB) using allometric equations. Materials &Methods Recentforest height retrieval methods rely on model based interferometric SAR analysis. The random volume over ground (RVOG) model is one of the most common algorithms. This method considers two layers, one for the ground under the vegetation and one for the volumetric canopy. This model has been investigated in different forest environments (e.g. tropical, temperate and boreal forests). Estimation of forest biomass based on forest height using allometric equations can overcome radar signal saturation to some extent.Improvement of Forest height estimation can play an important role to retrieve accurate forest biomass estimation. In this paper, a new method using scattering matrix optimization is introduced to extract forest height by changing polarization bases. Scattering matrices for slave and master images have been extracted by changing polarization bases. Then polarimetric interferometry coherences have been calculated and forest height was estimated by various forest height methods including DEM Difference, coherence amplitude inversion, RVOG Phase, Combined and RVOG. Results& Discussion P-band full Polarimetric synthetic aperture radar (SAR) images acquired by SETHI sensor over Remningstorp (a boreal forest in south of Sweden) were investigated for forest biomass estimation.Mean of Lidar height values which fall in each shapefile was used to check corresponding results with the heights of retrieval methods. The results of tree height retrieval methods without changing polarization bases between PolInSAR tree height and LIDAR height show that three methods including coherence amplitude inversion, RVOG Phase and RVOG have low R2 value. DEM Difference and combined methods yielded better results in comparison with the other three aforementioned methods; however the results are not satisfactory.DEM Difference method underestimated the tree height compared to that of LIDAR. This is perhaps due to the fact that volume phase center does not lie at the top of the tree.Temporal decorrelation decreases volume correlation, consequently small values in the SINC function lead to generate large values in results; therefore RMSE of coherence amplitude method is relatively high.New master and slave scattering matrices in arbitrary polarization basis were extracted by alteringandin transformation matrix.Results show that RVOG phase has the best result with R2=0.76 and RMSE=3.76. Following this method, DEM difference method shows R2=-0.69.It is likely that methods which include phase information by changing geometricalparameters, in transformation matrix (e.g. RVOG phase and DEM difference) significantly increase the tree height accuracy.sOn the other hand, methods that only apply magnitude of coherence such as coherence amplitude method do not show notable improvementfor retrieving tree height. Conclusion Robustness of forest height estimation using Scattering Matrix Optimization by changing Polarization Bases was studied in this paper.PolInSAR data was acquired by SETHI on Remningstorp, a boreal forest in south of Sweden. Results indicated that forest height retrieval methods which included phase parameter shows remarkable improvement by changing the geometrical parameters for height estimation.Therefore RVOG phase method with R2=0.76, RMSE=3.76m and DEM Difference method with R2=-0.69 gave the best results, whereas coherence amplitude method which only included magnitude of coherence with R2=0.17 showed the lowest correlation.

Application of Fuzzy Logic Operatorsto Investigate Gully Erosion using Geographic information system (GIS) (Case study: Troud watershed basin)

Samad Shadfar

Volume 23, Issue 92 , February 2015, , Pages 35-42

https://doi.org/10.22131/sepehr.2015.13505

Abstract

One of the types of environmental hazards that causes the destruction of agricultural lands, rangelands and Infrastructure in many parts of the country is gully erosion. In this research, fuzzy logic operators were used with the aim of determining the different hazard zones,obtaining the area of each ... Read More

Evaluation of NDVI Index in drought monitoring using Remote Sensing Technique (Case study: Isfahan Province)

Mahtab Safari Shad; Mahmoud Habibnejad Roshan; Alireza Ildoromi

Volume 25, Issue 100 , March 2017, , Pages 35-44

https://doi.org/10.22131/sepehr.2017.24804

Abstract

Abstract The issue of drought is very important in water resources studies. Meteorological drought indices are calculated directly from meteorological data such as rainfall, and in the absence of such data, they will not be useful in monitoring drought. Therefore, remote sensing techniques can be considered ... Read More Abstract The issue of drought is very important in water resources studies. Meteorological drought indices are calculated directly from meteorological data such as rainfall, and in the absence of such data, they will not be useful in monitoring drought. Therefore, remote sensing techniques can be considered as a useful tool in monitoring drought. In this research, using MODIS remote sensing satellite images, the trend of vegetation normalized index changes in Isfahan province for the years 2000-2008 was investigated. In addition to vegetation, NDVI index can be effective in addition to natural vegetation for drought monitoring, especially for drought monitoring of dry farming type.Considering this index, the vegetation cover was classified into 4 groups and the area of each of the classes was calculated. Finally, two SPI and NDVI indices were compared. The result of calculating the SPI index show that the occurrence of severe drought is in 2008 and moderate droughts are in 2000 and 2001 in Isfahan province respectively. The calculation of the NDVI index in these three years also indicated that the poor vegetation cover has been significantly increased. High level Pearson correlation (+0.704) was observed between SPI and NDVI in significant level of 0.01. However, the results of the effect of rainfall on the NDVI index showed that there is no coincidence of the occurrence of meteorological drought and agriculture droughts in all years. For the year 2006, despite the fact that precipitation was higher than the years before and the years after and more than the average rainfall of the province, but based on the results of the NDVI index, agricultural drought has occurred this year (Devaluation of the NDVI index). On the contrary, in 2002 and 2004 that precipitation was lower than 2006, but dry farming and pasture conditions were better than 2006. And also, in 2003 with a difference of 2 mm in precipitation compared to 2002, the NDVI index value dropped significantly. The results of this research double the necessity of defining a profile that expresses all of these issues.

Evaluating State Policy in Organizing Informal Settlement in Bandar-e-Abbas, Using Factor Analysis and Likert Methods

Mohammad Eskandari nodeh; Leila Sayyad Bidhendi

Volume 21, Issue 84 , February 2013, , Pages 35-54

Abstract

Informal Settlement is one of the urban problems whose most important trait is insecurity of possession, abnormal house structure structure condition, less access to urban services and safe nutrition, and extra density. These conditions are especially more apparent in undeveloped countries. In ... Read More

An analysis of the conflict between "Passive Defense Requirements" and "Principles of Sustainable Urban Development" in the improvement of urban historical fabrics Case study: Urban historical fabric of Tehran’s District 12

Ahmad Pourahmad; Hossein Hataminejad; Mahdi Modiri; Ashraf Azimzadeh Irani

Volume 26, Issue 102 , September 2017, , Pages 35-52

https://doi.org/10.22131/sepehr.2017.27455

Abstract

Introduction Preservation and maintenance of historical urban fabrics or fabrics containing cultural heritage of cities is of special importance, because these fabrics, in addition to creating a sense of identity and stimulating national pride, improve the citizens' quality of life. "Improvement"is ... Read More Introduction Preservation and maintenance of historical urban fabrics or fabrics containing cultural heritage of cities is of special importance, because these fabrics, in addition to creating a sense of identity and stimulating national pride, improve the citizens' quality of life. "Improvement"is one of the methods and, of course, the most appropriate one, of intervention in the historical fabrics of cities, because in this type of intervention, the principle is based on "loyalty to the past and the preservation of identity-stimulating effects". Improvement activities are aimed at using available potential and actual facilities, strengthening positive aspects and weakening negative ones. In each of the improvement measures, no significant intervention is performedin the physical aspect, and only by replacing the proper functioning of activity, the erosion of this type of urban space is prevented, and by making changes in urban activities, favorable urban spaces are created. Since the observance of the "passive defense requirements" as well as the "sustainable urban development principles" is an essential requirement in selecting the appropriate pattern for the improvement of the old urban fabric, the study of the principles governing these two concepts indicates thatcontradictions exist between these principles. In the present study, we have mainly studied and examined these two important and influential concepts on the improvement patterns of historical urban fabric, and carried out a comparative study of the principles governing them. The purpose of this research is to outline the contradictions between the requirements of passive defense and the principles of sustainable urban development in the improvement pattern of urban historical fabric and to find a suitable solution in this regard. Materials & Methods The research method was applied in terms of the aim, and descriptive-exploratory in terms of conduct. The data gathering method was both documentary (secondary) and field surveys, and analyses were performed using the ArcGIS software and also by the Paired Comparison Analysis method. The historical fabric of the 12th district of Tehran, with an emphasis on the historical element of the museums, was the case study of this paper, which made it possible to achieve the results of the research. In order to prioritize some uses in positions where the studied historical element (museum) are located, from the point of view of passive defense as well as from sustainable urban development perspective, we can use the Paired Comparison Analysis method to achieve the most balanced result, so that the conflict between the two approaches is not significant. First of all, the importance of each single studied use is examined from either of the two perspectives through the spatial analysis ofthe position of that particular use relative to the location of the museums. Then, the view of passive defense concerning each use has been compared with that of sustainable urban development according to the relevant criteria, and scored on the basis of importance. Results & Discussion The results of the research show that, in order to find the most suitable pattern of intervention - of improvement type - in the historical fabric, it is necessary that along with emphasis on the requirements of passive defense and principles of sustainable urban development, we must, in addition to prioritizing changes in uses, reduce the grounds for the creation of any kind of contradiction in approaches. Therefore, in the present paper, the uses and elements affecting theregion have been analyzed in relation to the studied fabric (museums). In the investigated pattern, actions and predictions to improve the physical and spatialquality of environment through the replacement of proper operation of activity will prevent the erosion of the historical urban fabric, and by creating changes in urban activities, favorable spaces for the protection of historical fabric will be created. Conclusion In spite of the proof of the conflict between "passive defense requirements" and "principles of sustainable urban development", the emphasis on both concepts in the improvement pattern of city’s historical fabric isinevitable. Therefore, by adopting an appropriate model for improvement and appropriate methods of intervention, it is possible to perform the important task of preserving the historical fabric by optimally changing some of the uses.

Investigation of Spatial-Temporal changes of Yazd-Ardakan Plain Groundwater Quality Using GQI

Hassan Khosravi; Esmail Haydari Alamdarloo; sahar nasabpour

Volume 26, Issue 104 , March 2018, , Pages 35-44

https://doi.org/10.22131/sepehr.2018.30516

Abstract

Extended Abstract Introduction Water is the principal source of economic development, social security and poverty reduction. The value of water source leads to enhancement of management measures to maintain its quality and quantity by communities. Environmental changes and human activities effect on ... Read More Extended Abstract Introduction Water is the principal source of economic development, social security and poverty reduction. The value of water source leads to enhancement of management measures to maintain its quality and quantity by communities. Environmental changes and human activities effect on the quality and quantity of water. Urban growth, increasing industrial activities and overuse of chemical fertilizers in agriculture result in pollution of groundwater and surface water which have adverse effect on the health of human beings, animal and plants. Groundwater is the primary source to supply agriculture and drinking water hence recognition and awareness of groundwater quality and the water classification based on the number of various elements of them will assist us in making management decisions and decline groundwater pollution. Groundwater is particularly important in arid and semi-arid areas. On the other hand groundwater deterioration, both in quantitative and qualitative terms is important in water resources management of these areas. The concentration of common ions in water is one index for assessing water quality. Groundwater quality index (GQI), a combination of parameters for water quality, that constitute a reliable tool in defining aquifer vulnerability is used to investigate the spatial variability. GQI shows the data related to the water quality in an explicit manner. This index presents a way of summarizing the overall qualitative condition of water which is understandable for the audience. Materials&Methods Yazd-Ardakan plain has been faced with significant reduction of groundwater level in recent years. So, it is expected that the studying groundwater quality index can be effective for aquifer management in this plain. In this research GQI was used in order to study the distribution of major water ions including Calcium, Magnesium, Sodium, Chloride, Sulfate and Total Dissolved Solids (TDS); and zoning groundwater quality using ArcGIS10.1. The data of 53 piezometric wells provided by Iran Water Resources Management Company were used to study the status of temporal and spatial changes of GQI in Yazd-Ardakan plain. Water quality sampling campaigns were conducted during most vulnerable periods of early and late summer to ensure the representativeness of the targeted GQI under worst case conditions. Quality zoning maps were provided for 2003, 2006 and 2011. For this purpose, data were evaluated in GS+ 5.1 software, after calculation, the best model with the lowest estimated error was selected for zoning water quality parameters. Because of the lowest estimation error, Kriging, Gaussian and Spherical variogram models were selected as appropriate interpolation method for zoning the quality parameters. WHO standards were used to compare and investigate the quality status of the water. The water qualitative groups in the GQI map were divided into 5 classes of good, acceptable, medium, inappropriate, and poor, scoring from 0 to 100. The class which is close to 100 shows better quality and the class which is close to 0 shows lower quality. Results & Discussion The results showed that Yazd-Ardakan plain is located in average and acceptable classes according to GQI index. The highest and lowest amount of Groundwater Quality Index (GQI) were in the west and north of the study area, respectively. Moran's I spatial autocorrelation index, GQI and all chemical studied variables except for magnesium have cluster spatial distribution pattern, but Magnesium have random spatial distribution pattern. Three parameters of Total Dissolved Solids (TDS), Sodium and Chloride having the highest coefficient ranking have a highest impact on GQI, respectively. On the other hand, these parameters have a high weight and GQI is more sensitive to them. In fact, these components in Yazd-Ardakan plain groundwater have more impacts on GQI model and their removal will cause greater changes in GQI. Therefore, they should be carefully evaluated and monitored. Generally, it can be concluded that GQI has the descending trend in the study area and land use has the important role in reducing GQI index and water quality. It can also explain the overall quality of groundwater and its threats in various uses of water. Finally, the regions with poor groundwater quality can be targeted for detailed studies and monitoring programs. Conclusion According to the results, due to the nature of natural phenomena such as drought, their complete removal is not possible. The only principled way to prevent dangerous consequences of the water table decline and reduction of groundwater resources quantity and quality is the correct and systematic use of water and avoidance of uncontrolled groundwater withdrawal.

Monitoring, assessment and prediction of spatial changes of Land Use /Cover using Markov Chain Model (Case study: Shushtar- Khuzestan)

Maryam Mombeni; Hamidreza Asgari

Volume 27, Issue 105 , June 2018, , Pages 35-47

https://doi.org/10.22131/sepehr.2018.31471

Abstract

Extended Abstract Introduction In recent years, the growth of urbanization in Iran and the increase of migration to the major cities have led to the sudden and abnormal expansion of these cities, degradation of fertile lands and natural resources, and irreparable damages to the nature. As the population ... Read More Extended Abstract Introduction In recent years, the growth of urbanization in Iran and the increase of migration to the major cities have led to the sudden and abnormal expansion of these cities, degradation of fertile lands and natural resources, and irreparable damages to the nature. As the population of the city of Shushtar has increased, there has been a lot of growth in the built lands in the region, causing a large change in the use of the lands around the city and the degradation of the fertile lands in the suburbs; so that, the continuation of this process could cause irreparable damages to the environmental resources of the region. Land-use prediction models are essential in planning for sustainable use of the lands (Kamusoko et al., 2009: 435, Mas et al., 2004: 94, Sohl and Claggett, 2013: 235). In addition, predicting land use changes and creating a relation between these changes and their socio-economic consequences is very important for sustainable land management (Whitford et al., 2008: 340). So far, the Markov-genetic model has been used in several studies. Wu et al. (2006) studied the monitoring and forecasting of the Beijing region of China over a 16-year period and used the Markov chain model and regression to predict the land use. Therefore, the purpose of this study was to investigate the trend of land use changes over the past years and predicting the land use and land use changes using the Markov chain model in the city of Shushtar in Khuzestan province. By predicting land use variations, the development and degradation of the resources can be identified and it can be led to managing the changes in the appropriate pathways (Brown et al. 2000: 247, Hathout, 2002: 229 and Jenerette et al., 2001). Materials & Methods The study area of this research is Shushtar city with an area of 340645.2 hectares located in the North of Khuzestan province. The software packages used in this research include ArcGIS 10.2, ENVI 4.8 and IDRISI Selva 17.0. The images used to extract ground cover classes include Landsat series satellite images; these images were used in this research due to having a long time series, having an appropriate spatiotemporal resolution to study the land cover changes, and being free. Regarding the existing land uses in the region, the research objectives, and the capabilities of the images used to extract useful information, especially the land use mapping, four land uses including rangeland, irrigated agricultural lands, rainfed agricultural lands and residential lands were considered. In the analysis of the Markov chain, the cover classes are used as the states of the chain. To determine the possibility of a change, the chain needs two land use maps (model inputs), which are usually obtained by processing the satellite images (Mitsova et al., 2011: 141). Markov chain analysis was performed using Markov chain order in the Idrisi Selva software. Markov chain analysis is provided for two purposes, the first matrix is used for calibration and the second one is used to simulate the possible changes occurring in the future. The output of the model also includes the possibility of transforming the state, transition area matrix for each class, and at the end of the conditional probability images for converting different uses (Gilks et al., 1996: 19 and Weng, 2002: 273). Regarding the trend of changes during these three periods, the irrigated and residential lands classes had an increasing state, but on the contrary, rainfed lands and rangelands classes had been decreasing. The accuracy of classifications is generally more than 77%, and suitable for use in the Markov model. The results of the detection of changes in 2030 are such that if the current trend continues in the region, 20.33% will be added to the area of the irrigated agricultural land use, so that irrigated agricultural land use constitutes 60.95% of the area in 2030. This increase is due to the changes of the land uses of rangeland and rainfed to the irrigated agriculture. The decrease in the rangeland and rainfed classes will be 21.12% and 0/21% respectively which will be added to the area of the irrigated agricultural lands. These changes are more pronounced around the rural areas in the region. Results & Discussion During the research period, irrigated agriculture has been the most dynamic land use in the region. The area of these lands has increased from 1989 to 2015, so that, 1350131.69 ha has been added to the area of this land use during the three study periods. In the first period, the annual rate of increase was 3650 hectares and in the second period the annual rate increase was 3998 hectares. Considering the lack of change in regional governance and planning, the trend is such, that more than 60 percent of the plain area will be covered by this class in 2030 which can be led to changes in the ecosystem conditions. This result is consistent with the results of Gholamali Fard et al. (2014) in the middle coasts of Bushehr province and is not consistent with the results of Ali Mohammadi et al (2010), Dejkam et al. (2015), and Ramezani and Jafari (2014). Conclusion In general, the results of this study indicate an increase in the area of irrigated agriculture, as well as development of the Shushtar, which has occurred through the disappearance of rangelands and rainfed lands. As it is well known, if the current strategy of land use in this area continues to reduce natural lands and increase urban lands, regardless of sustainable development considerations until 2030, significant environmental problems, including degradation of rangeland, decline in production of the major agricultural products of the region, decrease in the fertility, and increase in the deserts, will be a serious threat to the future ecosystem of the region. Also, considering the current productivity status, the region's economy which is based on the agricultural and livestock production will face a serious threat in 2030. Therefore, this research recommends the use of resulting maps to identify the sensitive areas for better planning and management of the executive organizations.

Spatial investigation of oil contamination spread into groundwater resources in Dasht-e-Shazand (Iran) using geostatistical analyst

Sharareh Pourebrahim; Mehrdad Hadipour; Mehdi Mardian; Amir Ansari

Volume 27, Issue 108 , March 2019, , Pages 35-44

https://doi.org/10.22131/sepehr.2019.34614

Abstract

Extended Abstract Introduction Strategic and important industries are established in areas with possible access to water. Industrial development requires abundant water. Analysis of environmental resources and their pollution is the first consequence of industrial and human activities. Therefore ... Read More Extended Abstract Introduction Strategic and important industries are established in areas with possible access to water. Industrial development requires abundant water. Analysis of environmental resources and their pollution is the first consequence of industrial and human activities. Therefore today, due to the large volume of discharge and pollution in the environment, direct use of water is neither reasonable nor possible. Discharging industrial wastewater in land could severely contaminate the groundwater. In oil pollution monitoring researches, it is noteworthy that pollution detection and renovation operations require time and economic costs. Contamination of Soil and groundwater with pollutants such as hydrocarbons and chemical solvents has various environmental impacts. In Iran, the concentration of pollutants in some groundwater resources has been reported to be up to three times more than the standard value. This indicates the effect of a large amount of waste in the area which decrease soil quality in a way that soil layers are not able to compensate for it. Therefore, wastewater changes the drainage of underground water resources. In Iran and many other countries, causes such as leakage from contaminated petroleum storage tanks, leakage from transferring lines due to worn pipes, transportation of oil products, etc. in oil extraction mines, and refineries results in groundwater and surrounding areas facing oil leakage. Materials & Methods The purpose of this research is to produce the water quality map of Shazand plain in Markazi province using Geographic Information System (GIS) technique and to investigate the effects of oil industries on the quality of underground waters. The first step is to identify areas affected by these oil industries and identified factors. Appropriate agricultural areas with water supply in the qualitative range were also identified. The location of existing wells in the plain, particularly wells located around the refinery and petrochemical complexes were investigated for the first time. Then, considering the direction of the water land in the plain and the paths of wells located at upstream mountains to downstream ordinary rivers, wells located in the refinery and petrochemical complexes were selected. Accordingly, 14 wells were sampled in the first stage and their coordinates were obtained using GPS. The samples were classified in the laboratory into four groups including physical parameters, chemical parameters, oil and water aromatic parameters and water volatile organic compounds parameters. In the next stage, the maps of water quality parameters zoning were prepared using the "Geostatistical Analyst" developer with the use of the interpolation method of "Inverse Distance Weighting (IDW)". Finally, spatial variations and the groundwater quality changes were investigated. Results & Discussion Oil and aromatic parameters of water are presented along with the results of laboratory analysis in table 2. Results indicate that the numerical value of many parameters were less than 0.1 mg/L. Just two parameters (Anthracene and Pyrene) in well no.10 had a value of more than 0.1 mg/L. Yet, the total value of oil pollutant was quite different. In wells no. 3, 8, 9, and especially well no.10 the value was more than 0.1 mg/L. The zoning map and spatial variation trend, along with statistical-descriptive indexes of total petroleum hydrocarbon of wells were also produced. The spatial variation of oil pollutants in Dashte- Shazand wells in south-north direction showed an increasing trend, which gradually changed into a decreasing trend. A decreasing trend was also observed in west-east direction. Comparing descriptive-statistical indexes with the standard level, we concluded that the total oil pollutant parameter near well no.10, which is located in petrochemical complex faces contamination. Conclusion The present study sought to measure some important indexes of oil contamination in groundwater and surface water near Dasht-e Shazand refinery and petrochemical complex. Therefore, data were collected from 14 wells in the study area. Then, oil and aromatic products were analyzed in laboratory. Using geostatistical technique, spatial variations of quality parameters concentration were investigated and compared with the desired and standard level. Results indicate that most of the wells near Dashte- Shazand refinery and petrochemical complex do not show any sign of contamination. Yet, the concentration of Anthracene and Pyrene parameters in well no.10 is several times more than the standard level. This can increase the potential of contamination in Dashte- Shazand ground water resources. In wells no. 3, 8, 9, and especially in well no. 10, total petroleum hydrocarbon (TPH) was more than other wells. According to the TPH and PAH results, the contamination potential of well no.10 was quite large. Due to the development of Shazand refinery, ground water resources of the area face an increasing danger of contamination. Moreover, the area has a high potential of population increase in residential areas. Thus, water contamination can also endanger the local environment. This shows the necessity of an appropriate management plan and regular monitoring of ground water, surface water, soil and air in the area.

Quantifying environmental and human factors affecting occurance and spread of wildfires using RS and GIS methods protected area of Arasbaran

Hassan Emami; Hassan Shahriyari

Volume 28, Issue 112 , March 2020, , Pages 35-53

https://doi.org/10.22131/sepehr.2020.38606

Abstract

Extended Abstract Introduction Forests play numerous critical roles in nature. They stabilize and fertilize soil, purify water and air, store carbon, and nurture environments abundant in biodiversity. Moreover, forests offer numerous job opportunities and hidden wealth toany economy. Unfortunately, wildfires ... Read More Extended Abstract Introduction Forests play numerous critical roles in nature. They stabilize and fertilize soil, purify water and air, store carbon, and nurture environments abundant in biodiversity. Moreover, forests offer numerous job opportunities and hidden wealth toany economy. Unfortunately, wildfires have turned into a serious natural risk nowadays. Wildfires are a natural disaster threatening forests and ecosystem, from local to global level. Evaluating the risk of wildfires is an important factor in fire management. This can be performed at different spatial and temporal scales: global and local; short term, and long-term. At global scales, it can contribute to the establishment of general guidelines for fire management at continental level, while at local scales,it is more suitable for resources focusing on preventing specific fires in small regions. Long-term estimation addresses general, more permanent planning of firefighting resources, which is related to the more structural factors affectingwildfires or their spread, such as topography or terrain characteristics, vegetation structure, human activities or weather patterns. Materials & Methods Wildfire risk has become a major concern in recent years, particularly in areas where human settlements are in close proximity to forests. Wildfire origin canbe determined largely by environmental factors. However, fire related data is either unavailable, or mostly incomplete. Thus, reaching an overall annual estimate of wildfires is difficult. Some common methods are used toestimate the risk ofwildfires, including qualitative methods, quantitative methods based on specialized knowledge (multi-criteria evaluation techniques), regression techniques (linear regression and logical regression), and artificial neural networks. Wildfire initiation and spread depend on several important factors, including precipitation, presence of ignition elements, factors like topography, temperature, thunder, spreading of fuel, relative humidity, wind speed, and etc. The present study integrates data produced by remote sensing with data received from geographic information system. It also takes advantage of LDCM satellite imagery, and digital elevation model, along with natural/human factors such as wind speed and direction, vegetation, land surface temperature, slope, proximity to roads and residential areas. The present study seeks to quantify environmental and human elements effective in occurrence and spread of wildfires in the protected jungles of Arasbaran. To this end, a risk zone map was produced for the area, along with a map for areas with 50% risk. In the present study, the final map of risk zone was produced using the Fire Risk Index (FRI) and spatial statistics method. Results & Discussion In the present study, factors such as land cover type, slope, distance from residential area, distance from the road, and elevation were taken into account. During the process, different indices were assigned to each class of these factorsbased on their sensitivity to fire or their flammability. Land cover was one of the most important factors affecting the occurrence of wildfires. Slope was another important factor with a significant influence on the spread of fire. This natural factor affects fire spread and fire intensity. Proximity of human settlements to jungles is another important factor which sometimes threatsjungles. Therefore, forests in proximity of human settlements face a higher risk of wildfires. Elevation is another important topographical factorclosely related to wind behaviour, with a significant role in fire spreading. In Arasbaran forest, northern, eastern, and north-easternareas are more elevatedand thus, more prone to wildfires. In this study, a combination of environmental and human factors was applied to produce fire hazard maps along with a map for areas with 50% risk of wildfire. Conclusion Occurrence and spread of wildfires depends on many factors, some of which are more important and play a more significant role in these fires. A risk zone map was produced for wildfiresusing an integrated method consisting ofremote sensing and GIS methods. Risk zone was divided into 5 areas, i.e. very low, low, average, high, very high.Results indicate that the methodology presented based on a combination of RS and GIS techniquesin this study, is a reliable approach and tool for the prevention and mitigation of forest fires. They are also useful for all active institutes working in crisis management and emergency services, while helping jungle protectingorganizations to prevent fires or manage them. In addition, quantitative results indicate that vegetation index with a correlation of 58.36%, and slope with a correlation of 38.38 are the most affective factors, and other parameters are in the next ranks.Moreover, land cover, land surface temperature, direction, and slope with 29.20%, 29.11%, 21.93% and 19.75% normalized correlation coefficient respectively, have the highest correlation with the map of fire risk zone. In addition, results of evaluating 50% risk zone map indicate that around 17% of the study area have a high fire risk and more than 50% of the area is located in a high fire risk zone. In addition to environmental elements, results indicate that proximity to the road was the most affective factor in the occurrence of fire. Quantitative results showed that roads and residential areas were at least 32% and at most 68% correlated with fire risk in the study area.

Assessment of urban road network vulnerability against earthquake by crisis management approach Case study: region1/Tabriz

Mohsen Ahad Nejad Roshti; Shahrivar Roustaei; Mohammad Javad Kameli far

Volume 24, Issue 95 , December 2015, , Pages 37-50

https://doi.org/10.22131/sepehr.2015.15550

Abstract

Urban road network is one of the most important urban arteries which has a significant impact on the relief and rescue operations, the evacuation of the injured and harmed people, especially after the crisis. Therefore, assessing the vulnerability of urban road network and planning to reduce these ... Read More

Identifying and prioritizing the challenges of data sharing and spatial information

Ali Kalantari Oskouei; Mahdi Saber Khoshemehr

Volume 27, Issue 106 , September 2018, , Pages 37-55

https://doi.org/10.22131/sepehr.2018.32331

Abstract

Extended Abstract Introduction Data sharing is one of the key issues in the success of Spatial Data Infrastructure (SDI). Data sharing can prevent the repeated production of spatial data by various organizations and institutions, and provide the reduction of the costs, prevention of the resource losses, ... Read More Extended Abstract Introduction Data sharing is one of the key issues in the success of Spatial Data Infrastructure (SDI). Data sharing can prevent the repeated production of spatial data by various organizations and institutions, and provide the reduction of the costs, prevention of the resource losses, helping the economic development and using the capabilities of spatial data in processes of decision-making. But, evidences suggest that the realization of the spatial data sharing has always faced numerous challenges and problems, and that the SDI development goals will not be achieved without solving them. Therefore, the main objective of this research is to provide a strategy for identifying and prioritizing the sharing of spatial data in the country. Materials & Methods The framework of the research is based on surveying, the concept of risk, and the use of a fuzzy inference system. In order to objectify this framework, a case study was conducted with the participation of 19 organizations in East Azarbaijan province. At first, various sources were reviewed and the 25 probabilistic sharing challenges were identified. Then, with the help of a questionnaire, experts’ viewpoints regarding the probability of the occurrence and severity of the impacts of the challenges were investigated. The questionnaire consists of two parts. The first part focuses on the demographic information of the experts such as affiliation, years of experience, and academic degree, which were used to determine the experts’ importance weight. The second section measures the probability and the impact intensity of each identified challenge. To measure the factors of probability and impact intensity, a five level verbal rating scale including, very high, high, medium, low and very low (as verbal terms) was used to maintain the balance between simplicity and comprehensiveness. In the next stage, a fuzzy inference system, with two inputs and one output, 25 fuzzy rules, Guassian membership functions and the field inference engine were developed to process the views of the experts and to calculate the fuzzy scores of each of the challenges using MatlabR software. Having determined the sharing challenges scores, a cluster analysis was carried out to divide them based on the score related to the groups (clusters), so that, the challenges inside a cluster are very similar (but not identical) to one another but very different from the challenges in other clusters. Since there is no need to specify the numbers of clusters in hierarchical methods in advance, the hierarchical method was used as a clustering technique to group the challenges. Then, the results were evaluated by a number of knowledgeable experts. Results & Discussion According to the findings, the most important challenges which had the highest scores and were also in the same cluster, include: lack of a Geoportal for searching, access and evaluation, lost problems or metadata, lack of coordination among different organizations for spatial data sharing, fear of disclosing of organizational spatial data and information, the lack of up-to-date spatial data and information, the tendency to parallel work (the lack of investigation of other organizations for spatial data and information needed by the organization) and the lack of specialist in spatial data and sharing the information. Moreover, 25 challenges of spatial data were categorized into five homogenous groups (clusters) by applying a hierarchical cluster analysis. Based on the results, the overall geometric mean value of the 25 challenges of the spatial data and information sharing was calculated as 62.76% that shows the existence of the important challenges in the realization and implementation of the spatial data sharing and SDI initiatives in organizations. Analyzing the results with regard to the two types of sharing challenges revealed that the organizational challenges with a geometric mean of 55/56% were more important than the technical challenges with a geometric mean of 44/44%. These results may mean that, in order to overcome the organizational challenges, more time and efforts have to be taken into consideration in the planning and development of SDI compared to the technical challenges. Conclusion It seems that there is no accurate and complete picture of the concept of the spatial data sharing in the majority of the organizations, and it is often interpreted as putting spatial data and information of the organization in the hands of others. However, a significant part of the sharing issue is associated with the metadata sharing that prevents the repeated works and spending unnecessary credits of the organizations, and make the available data to be accessible with spatial services in different formats after an agreement between data providers and consumers, and to be used in decision making processes. The information gap in this regard is very tangible in the organizations, nevertheless, it would be possible to change the views and behaviors of individuals and organizations by creating capacity, and eventually to be hopeful that the willingness of organizations to participate in data sharing improve. Finally, the following recommendations were suggested in order to improve the status of the data sharing: individual and organizational attitude changes towards the issue of data sharing, increasing technical knowledge and empowering organizations in spatial technologies and clarifying the benefits of spatial data sharing and its socioeconomic roles in society, specifying the leader organization and forcing organizations to create standard spatial databases and metadata.

Futures studies on urban worn-out texture Case Study: District 9 Area 1, Tehran Municipality

Hossein Hataminejad; Ahmad Pourahmad; Morteza Nosrati Heshi

Volume 28, Issue 109 , June 2019, , Pages 37-55

https://doi.org/10.22131/sepehr.2019.35637

Abstract

Introduction Neighborhoods that have once lied at the heart of cities and enjoyed cultural richness, now face a problem called "worn-out and inefficient urban texture". New needs emerged and old urban textures faced physical-spatial defects. On the one hand, physical decay, social and economic life in ... Read More Introduction Neighborhoods that have once lied at the heart of cities and enjoyed cultural richness, now face a problem called "worn-out and inefficient urban texture". New needs emerged and old urban textures faced physical-spatial defects. On the one hand, physical decay, social and economic life in problematic and ineffective textures have exacerbated the deterioration of urban life quality and degraded urban ecosystems in old urban textures of Iran. On the other hand, with rapid scientific and technological advancement in the contemporary world, urban planning system has also undergone transformations and the effects of such changes can be challenging for the city progress. Today urban planning, previously based on traditional system, seems to lack the power and the ability to respond to and solve problems of worn-out urban textures. Therefore, by identifying the opportunities and threats of the future of these textures, ‘futures studies’ approach will help us to better utilize future opportunities and prevent the negative consequences of old urban textures as much as possible. Thus, the most important issue in studies focusing on the future of this part of urban context is the consideration of other factors, including human factors (residents, owners, beneficiaries, and stakeholders) and their contribution to the long-term planning process. The general purpose of futures research is to create awareness about the external environment in order to understand the gaps, trends, and developed technologies. In this way, we can improve the environment as much as possible. Materials and Methods The present study sought to identify the key variables in reducing worn-out urban texture and to examine the relationships between these variables and their influence on each other in the time horizon of 2037. Therefore, using environmental scanning technique (reviewing articles and other published resources, interviewing experts and monitoring conferences) and examining related literature, the initial and existing variables (160 variables) were extracted from the worn-out texture of the 9th district (1st area). The dominant process in this research is applied in terms of purpose, and descriptive-analytical in terms of research method. The nature of data is qualitative. Data were collected from library sources using documentary and survey methods. Since, it is very difficult and even impossible in some cases to manually calculate the cross-impact matrix, complex calculations and data analysis were performed based on the cross-impact analysis method, using Micmac analysis software. Discussion and Results Organizing two consultative workshops with experts and managers of worn-out texture, information and variables were integrated, resulting in 61 variables classified into six sub-categories of economic, social, cultural, managerial, legal and legislative, physical, and political. Thus, in order to extract the main factors affecting the reduction of worn-out textures of the area in the horizon of 2037, we entered each variables using Micmac software. Cross-impact analysis matrix (61*61) was created and the degrees of mutual influencing and impressionability were evaluated and ranked by experts and practitioners. In order to arrive at a reliable coefficient of the data validity, the number of iterations was increased up to 5 times to reach one hundred percent desirability and optimization of the matrix. By analyzing data using the software, research results indicate that key strategic and most influential variables for reducing worn-out texture in the 1st area of 9th district are "changes of the government " (the comingup of the new government every four years), "lack of specific laws regarding worn-out texture and their organization", "balancing and realizing social justice", "weakness of attitudes and knowledge in urban managers" and "establishment of organized and continuous local organizations to encourage residents to participate". Conclusion Based on the research findings, it can be concluded that only two key and strategic variables (i.e. "changes of the government in every four years" and "good urban governance”) in the 1st area of the 9th district of Tehran played a determinant and influential role. These were considered to be the key players in the system. Therefore, adopting a comprehensive and far-reaching approach to the future of worn-out textures seems to be vital and necessary.

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