Environmental Management Hazards2423-415X3320160922A Geostatistical Exploratory of Spatiotemporal Variation of Kerman’s Haloxylon and its Hazardous Effect in Formation of Dust CentersA Geostatistical Exploratory of Spatiotemporal Variation of Kerman’s Haloxylon and its Hazardous Effect in Formation of Dust Centers1992106193110.22059/jhsci.2016.61931FAMehdiSedaghatAssistant Professor of Geography, Payame Noor University, Qazvin, Iran0000-0002-2662-4730Seyed RezaMehrniaAssociate Professor of Geology, Payame Noor University, Qazvin, IranSadeghBarzegarAssistant Professor of Geography, Payame Noor University, Qazvin, IranMohammad AliZangiabadiMSc of Hydrogeomorphology, Shahid Beheshti UniversityJournal Article20170206Dust and smooth-sands which rise up from aerosols resources have always extreme environmental and economic damages. Since 1961, development of artificial forest (Haloxylon species) has stabilized dust formation in the critical center of south and south east of Kerman. Some reports from vegetation degradation, prompted researchers to use integrative methods for monitoring and modeling the possible changes of the vegetation index. This research has used remotely sensed data (bands: 3 and 4, TM/ETM, Landsat) to obtain Normalized Difference Vegetation Index (NDVI) and studied spatiotemporal density changes of the artificial forest (according to Moran spatial autocorrelation index during the years 1987, 2000, 2005, 2009 and 2014). Meanwhile, for assessment of the role of drought effects in Haloxylon forest degradation, daily precipitation dataset of Kerman has been analyzed by using Effective Drought Index (EDI) during 1980 to 2013. While, results show that the local average of NDVI has a meaningful decrease during the mentioned years, and the Moran index was increased and expanded the cluster patterns intensively. These changes represent some disorders in the initial linear structures of planted region as well as spotted Haloxylon trees. Expansion of droughts in association with human intervention increases the intense forest degradation in the borders of Tehran and Joopar roads. Indeed, the continuation of this process is hazardous, and considered as serious threat for developing the national plans such as Haftbagh-e-Alavi (east of region2).Dust and smooth-sands which rise up from aerosols resources have always extreme environmental and economic damages. Since 1961, development of artificial forest (Haloxylon species) has stabilized dust formation in the critical center of south and south east of Kerman. Some reports from vegetation degradation, prompted researchers to use integrative methods for monitoring and modeling the possible changes of the vegetation index. This research has used remotely sensed data (bands: 3 and 4, TM/ETM, Landsat) to obtain Normalized Difference Vegetation Index (NDVI) and studied spatiotemporal density changes of the artificial forest (according to Moran spatial autocorrelation index during the years 1987, 2000, 2005, 2009 and 2014). Meanwhile, for assessment of the role of drought effects in Haloxylon forest degradation, daily precipitation dataset of Kerman has been analyzed by using Effective Drought Index (EDI) during 1980 to 2013. While, results show that the local average of NDVI has a meaningful decrease during the mentioned years, and the Moran index was increased and expanded the cluster patterns intensively. These changes represent some disorders in the initial linear structures of planted region as well as spotted Haloxylon trees. Expansion of droughts in association with human intervention increases the intense forest degradation in the borders of Tehran and Joopar roads. Indeed, the continuation of this process is hazardous, and considered as serious threat for developing the national plans such as Haftbagh-e-Alavi (east of region2).https://jhsci.ut.ac.ir/article_61931_62b259b12656edd2a3dc561cb71a5cb1.pdfEnvironmental Management Hazards2423-415X3320160922Designing a Comprehensive Model of the the Local and National Radio and TV stations role in Natural Hazards Management in IranDesigning a Comprehensive Model of the the Local and National Radio and TV stations role in Natural Hazards Management in Iran2112326193210.22059/jhsci.2016.61932FASiavashSalavatianAssistant Professor, Department of Communications and Media, University of Islamic Republic of Iran Broadcasting0000-0003-3894-2792Journal Article20170221Due to our country’s high vulnerability on natural hazards and the precious and important role of local and national media in managing the hazards, this study has been conducted to achieve a native model on the role of local and national media in managing natural hazards in Iran. To design this model, we collected data, using in-depth interview, from three different groups, including victims survived in Varzaqan and Ahar, Eastern Azerbaijan province, earthquake; Sahand local broadcasting company staffs and directors, and media and crisis experts. Analyzing the data collected from the victims through Grounded Theory method, we succeeded in identifying their media needs which include: the need for information, the need for media attention, the need for education and the need to have a representative. The media needs turned into the base for the local and national media role model in managing natural hazards; a model which was designed based on opinion of Sahand local TV and radio directors and was ultimately approved by the field’s experts and specialists. Based on the model, local and national broadcasting media will take the responsibility of the four roles of educating and culture-building, informing and making communication, monitoring and demanding as well as winning public participation and creating national unity whenever natural hazards occur. Using this model, local and national media, may cooperate and manage natural hazards purposefully and cohesively.Due to our country’s high vulnerability on natural hazards and the precious and important role of local and national media in managing the hazards, this study has been conducted to achieve a native model on the role of local and national media in managing natural hazards in Iran. To design this model, we collected data, using in-depth interview, from three different groups, including victims survived in Varzaqan and Ahar, Eastern Azerbaijan province, earthquake; Sahand local broadcasting company staffs and directors, and media and crisis experts. Analyzing the data collected from the victims through Grounded Theory method, we succeeded in identifying their media needs which include: the need for information, the need for media attention, the need for education and the need to have a representative. The media needs turned into the base for the local and national media role model in managing natural hazards; a model which was designed based on opinion of Sahand local TV and radio directors and was ultimately approved by the field’s experts and specialists. Based on the model, local and national broadcasting media will take the responsibility of the four roles of educating and culture-building, informing and making communication, monitoring and demanding as well as winning public participation and creating national unity whenever natural hazards occur. Using this model, local and national media, may cooperate and manage natural hazards purposefully and cohesively.https://jhsci.ut.ac.ir/article_61932_e3593ac810394523c8c304ac6509b445.pdfEnvironmental Management Hazards2423-415X3320160922Modelling and Prediction of Precipitation and Drought Trends in North West of Iran with the Purpose of Hazard MitigationModelling and Prediction of Precipitation and Drought Trends in North West of Iran with the Purpose of Hazard Mitigation2332526203710.22059/jhsci.2016.62037FAAli MohammadKhorshiddoustProfessor, Department of climatology, University of TabrizAliakbarRasulyProfessor, Department of Remosensing, , University of TabrizSaeedZangenehPH.D student, Department of Climatology University of TabrizJournal Article20170126The prediction of probability of drought occurrence in different years and its mitigation measures are at the peak of drought management decisions. The aim of present research is the prediction of drought by the use of downscaling statistical methods and artificial data creation technique. For getting the work done, a synthetic study was carried out by utilization of meteorological stations data, the outputs of statistical analyses and finally using SPI drought index. First, artificial data was produced through CLIMGEN, then SPI value was predicted. Then Minitab software was used for the calculation and drawing of the trends in selected stations of the North West. For validity approval the model was adapted by observational and produced data. The correlation between artificially created data and observed data was estimated by SPSS software. Results indicated a suitable validity for most of the stations. Accordingly, Ardebil, Jolfa, and Tekab show a smooth precipitation declining and drought increasing trend. Khoy, Mianeh, and Sardasht are among the stations which prove a moderate precipitation and increasing wet conditions, while there were not seen any changes in Tabriz, Urmia, and Parsabad stations.The prediction of probability of drought occurrence in different years and its mitigation measures are at the peak of drought management decisions. The aim of present research is the prediction of drought by the use of downscaling statistical methods and artificial data creation technique. For getting the work done, a synthetic study was carried out by utilization of meteorological stations data, the outputs of statistical analyses and finally using SPI drought index. First, artificial data was produced through CLIMGEN, then SPI value was predicted. Then Minitab software was used for the calculation and drawing of the trends in selected stations of the North West. For validity approval the model was adapted by observational and produced data. The correlation between artificially created data and observed data was estimated by SPSS software. Results indicated a suitable validity for most of the stations. Accordingly, Ardebil, Jolfa, and Tekab show a smooth precipitation declining and drought increasing trend. Khoy, Mianeh, and Sardasht are among the stations which prove a moderate precipitation and increasing wet conditions, while there were not seen any changes in Tabriz, Urmia, and Parsabad stations.https://jhsci.ut.ac.ir/article_62037_ae12071c624cfcd4fd6338d9fdd15748.pdfEnvironmental Management Hazards2423-415X3320160922Effective Criteria of Building Construction Materials Selection in order to reduce ecological risksEffective Criteria of Building Construction Materials Selection in order to reduce ecological risks2532676203810.22059/jhsci.2016.62038FAAliVakili ArdabiliSchool of Architecture, Faculty of Fine Arts, University of Tehran, Tehran, IranFaezehShateriSchool of Architecture, Faculty of Fine Arts, University of Tehran, Tehran, IranJournal Article20170217Although, building industry constitutes a vital part of any economy, but also has a significant impact on the environment. The construction, operation, and ultimate demolition of buildings are among the most important factors of direct human impact on the environment (through the materials and energy consumption, pollution and loss caused by it) and indirect ones (through pressure on inefficient infrastructure). Due to the significant harmful influence of the construction industry on environmental hazards (from the point of view of such dangerous effect on ozone layer, greenhouse gases emitting, health risk and diminishing of material efficiency) the importance of creating a sustainable approach has a great potential for development of sustainability principles to manage mentioned environmental hazards. One of the most important measures in this context is to select sustainable materials in construction projects. Materials selection process is complicated and the final choice from among a large number of materials can be determined. Multiple factors are considered by the architects and construction professionals when evaluating the various categories of building materials. Often, such variety of factors present tradeoffs that make decision-making process more complicated. To facilitate the material-selection process, this paper explores one aspect of this topic which deals: Effective factors and variables needed to develop a sustainable approach to effective management of environmental hazards and evaluation model to select building materials. The factors that influence the decision-making process for architects to select materials with sustainable purposes are generated through the abundant data and the results of numerous studies in this field. These criteria could form the basis of an <em>assessment system</em> for choosing sustainable building materials with the aim of managing and reducing environmental hazards.Although, building industry constitutes a vital part of any economy, but also has a significant impact on the environment. The construction, operation, and ultimate demolition of buildings are among the most important factors of direct human impact on the environment (through the materials and energy consumption, pollution and loss caused by it) and indirect ones (through pressure on inefficient infrastructure). Due to the significant harmful influence of the construction industry on environmental hazards (from the point of view of such dangerous effect on ozone layer, greenhouse gases emitting, health risk and diminishing of material efficiency) the importance of creating a sustainable approach has a great potential for development of sustainability principles to manage mentioned environmental hazards. One of the most important measures in this context is to select sustainable materials in construction projects. Materials selection process is complicated and the final choice from among a large number of materials can be determined. Multiple factors are considered by the architects and construction professionals when evaluating the various categories of building materials. Often, such variety of factors present tradeoffs that make decision-making process more complicated. To facilitate the material-selection process, this paper explores one aspect of this topic which deals: Effective factors and variables needed to develop a sustainable approach to effective management of environmental hazards and evaluation model to select building materials. The factors that influence the decision-making process for architects to select materials with sustainable purposes are generated through the abundant data and the results of numerous studies in this field. These criteria could form the basis of an <em>assessment system</em> for choosing sustainable building materials with the aim of managing and reducing environmental hazards.https://jhsci.ut.ac.ir/article_62038_739508a4638dd3f570c17ef2dfb50602.pdfEnvironmental Management Hazards2423-415X3320160922Application of Fuzzy-Object Based Image Analysis Approach for Identifying and Zoning Salt-Dust Storms of Urmia Lake Eastern PlainApplication of Fuzzy-Object Based Image Analysis Approach for Identifying and Zoning Salt-Dust Storms of Urmia Lake Eastern Plain2692846203910.22059/jhsci.2016.62039FABakhtiarFeizizadehAssistant Professor, Department of Remote Sensing and GIS, University of TabrizHejarShahabiM.Sc. Student of Remote Sensing and GIS, Department of Remote Sensing and GIS, University of TabrizHoushangSeyfeiM.Sc. Student of Remote Sensing and GIS, Department of Remote Sensing and GIS, University of TabrizJournal Article20170313Introduction
All recent scientific evidences aware of this fact that the impact of global changes on environmental feature cannot be disavowed and lakes as one of the environmental members, may clearly reflect these changes. Nowadays, satellite and aerial images have an important role in environmental managements, risk assessments and sustainable development, which enable managers and spatial experts to evaluate changes and extract valuable information by using available image processing techniques. In this regard, the most important aspects are detection and analysis of coastline and lakes’ changes. Reasons for the lakes’ demise have been related to climate change and poor water resource management practices within the lakes’ watershed. In this study, Urmia Lake has been chosen because of its unique condition which has been drying up over the past years. Urmia Lake is one of the most important environmental and natural resources in Iran, as well as the region of Azerbaijan, which is known as the residence of many different species. While, recently most of them have been vanished due to catastrophic changes of the lake. This lake is the second largest salt lake in the world and first saturated salt lake in the Middle East region which has been facing destructive threats in recent years. Lake Urmia has lost a devastating amount of water during these recent years.
Materials and methods
Object–based image analysis (OBIA) approach has applied to analyze digital imagery and research objective. OBIA based rule-set were developed to monitor the salt-zones in eastern plain of Urmia lake. OBIA is known as effective approach for image processing comparing to pixel based approaches. While pixel-based image analysis is based on the information in each pixel, object-based image analysis is based on information derived from a set of similar pixels called objects or image objects. In this study for evaluation salt regions changes of lake, Landsat (5, 7, 8) images (acquired from USGS earth explorer) and object-based fuzzy classification method between 2010 and 2016 have been used. Many scales, shape and compactness factors were tried to reach optimum scale for segmentations. Then, some object were chosen randomly as the training data for classification. The indices such as NDVI, SI (salinity index), and BI as well as operators like "AND" and "OR" membership functions were applied based on fuzzy classification.
Result and discussion
The result of this study shows that 3,120 Km<sup>2</sup> of the lake’s water area in 2010 were decreased to 887 Km<sup>2</sup> in 2014, but in 2016 by increasing in rainfall amount, water area of lake were increased to 2,475 Km<sup>2</sup> , which is equal to 79% of lake water body in 2010. This changes shows the impact of rainfall in lake condition. Result of classifications between 2010 and 2016 shows that salt regions has made great progress in its amount until 2014. Afterward, the result shows a gradual descending in salt region areas to 233 Km<sup>2</sup> in 2016 and other classes have same trend. While, water trend was positive and shows a great increase in water body amount. Throughout these years, low risk and high dangerous regions faced magnificent changes and other classes like dangerous region and potential regions trends show normal changes compared to water and high dangerous classes. The study showed that southern and southeast parts have seen most of the changes that those regions almost turned to high dangerous lands. While, half northern part of the Lake toward the southern half, as well as the south-north slope direction of lake have not faced many changes.
Conclusion
In this study, object-based fuzzy classification methods and spectral indices have been used for classification. The results showed that object-based and spectral indices have better accuracy toward pixel- based methods. The reason of this high accuracy is the using of other auxiliary information like texture, color, shape and tone in object-oriented method, while, in pixel based methods, the only available information is DN (digital number) of pixel, which doesn’t consists any information like shape and texture. Integration both object-based and spectral indices would present the best image classification result by increasing and improvements in spatial and spectral image resolution. All of these results indicate that environment is rapidly changing and affecting our living situation, and also the future is uncertain, vague and complex. Climate change is real and also is happening. There is no doubt that effects of climate change would manipulate our social-economic situations, and over the time, the effects of this manipulation will be worse, that needs adaptation. But mankind can manage even the worse condition just by analyzing available data and trends. In current century, scenario-based foresight planning has shown its abilities and solutions to manage uncertain future by optimal scenarios. Spatial planners and managers can extract uncertain and vague factors which have leading roles in environmental changes (like temperature, precipitation, migration, social-economic, etc.) by these factors that may change the future of a region, city or national parks, planners can specify most important factors and based on those factors they would present plausible scenarios for the future. At last for managing and improving Urmia Lake situation by mentioned data and solutions, which discussed above, planners and managers can make and provide a better future for Urmia Lake and assist its sustainability.Introduction
All recent scientific evidences aware of this fact that the impact of global changes on environmental feature cannot be disavowed and lakes as one of the environmental members, may clearly reflect these changes. Nowadays, satellite and aerial images have an important role in environmental managements, risk assessments and sustainable development, which enable managers and spatial experts to evaluate changes and extract valuable information by using available image processing techniques. In this regard, the most important aspects are detection and analysis of coastline and lakes’ changes. Reasons for the lakes’ demise have been related to climate change and poor water resource management practices within the lakes’ watershed. In this study, Urmia Lake has been chosen because of its unique condition which has been drying up over the past years. Urmia Lake is one of the most important environmental and natural resources in Iran, as well as the region of Azerbaijan, which is known as the residence of many different species. While, recently most of them have been vanished due to catastrophic changes of the lake. This lake is the second largest salt lake in the world and first saturated salt lake in the Middle East region which has been facing destructive threats in recent years. Lake Urmia has lost a devastating amount of water during these recent years.
Materials and methods
Object–based image analysis (OBIA) approach has applied to analyze digital imagery and research objective. OBIA based rule-set were developed to monitor the salt-zones in eastern plain of Urmia lake. OBIA is known as effective approach for image processing comparing to pixel based approaches. While pixel-based image analysis is based on the information in each pixel, object-based image analysis is based on information derived from a set of similar pixels called objects or image objects. In this study for evaluation salt regions changes of lake, Landsat (5, 7, 8) images (acquired from USGS earth explorer) and object-based fuzzy classification method between 2010 and 2016 have been used. Many scales, shape and compactness factors were tried to reach optimum scale for segmentations. Then, some object were chosen randomly as the training data for classification. The indices such as NDVI, SI (salinity index), and BI as well as operators like "AND" and "OR" membership functions were applied based on fuzzy classification.
Result and discussion
The result of this study shows that 3,120 Km<sup>2</sup> of the lake’s water area in 2010 were decreased to 887 Km<sup>2</sup> in 2014, but in 2016 by increasing in rainfall amount, water area of lake were increased to 2,475 Km<sup>2</sup> , which is equal to 79% of lake water body in 2010. This changes shows the impact of rainfall in lake condition. Result of classifications between 2010 and 2016 shows that salt regions has made great progress in its amount until 2014. Afterward, the result shows a gradual descending in salt region areas to 233 Km<sup>2</sup> in 2016 and other classes have same trend. While, water trend was positive and shows a great increase in water body amount. Throughout these years, low risk and high dangerous regions faced magnificent changes and other classes like dangerous region and potential regions trends show normal changes compared to water and high dangerous classes. The study showed that southern and southeast parts have seen most of the changes that those regions almost turned to high dangerous lands. While, half northern part of the Lake toward the southern half, as well as the south-north slope direction of lake have not faced many changes.
Conclusion
In this study, object-based fuzzy classification methods and spectral indices have been used for classification. The results showed that object-based and spectral indices have better accuracy toward pixel- based methods. The reason of this high accuracy is the using of other auxiliary information like texture, color, shape and tone in object-oriented method, while, in pixel based methods, the only available information is DN (digital number) of pixel, which doesn’t consists any information like shape and texture. Integration both object-based and spectral indices would present the best image classification result by increasing and improvements in spatial and spectral image resolution. All of these results indicate that environment is rapidly changing and affecting our living situation, and also the future is uncertain, vague and complex. Climate change is real and also is happening. There is no doubt that effects of climate change would manipulate our social-economic situations, and over the time, the effects of this manipulation will be worse, that needs adaptation. But mankind can manage even the worse condition just by analyzing available data and trends. In current century, scenario-based foresight planning has shown its abilities and solutions to manage uncertain future by optimal scenarios. Spatial planners and managers can extract uncertain and vague factors which have leading roles in environmental changes (like temperature, precipitation, migration, social-economic, etc.) by these factors that may change the future of a region, city or national parks, planners can specify most important factors and based on those factors they would present plausible scenarios for the future. At last for managing and improving Urmia Lake situation by mentioned data and solutions, which discussed above, planners and managers can make and provide a better future for Urmia Lake and assist its sustainability.https://jhsci.ut.ac.ir/article_62039_4cc28bf449daa765f1c9b0978cf0244e.pdfEnvironmental Management Hazards2423-415X3320160922The relationship between ethical leadership and empowerment of the employers of the Tehran Fire DepartmentThe relationship between ethical leadership and empowerment of the employers of the Tehran Fire Department2852966216110.22059/jhsci.2016.62161FAHamidrezaHasanlooM.Sc. Student of Management, Comijan’s Azad UniversityZahraValaei MalekiPhd In Educational Administration, Faculty Member of Comijan’s Azad UniversityJournal Article20170227This study set out to examine the relationship between ethical leadership and empowerment of Tehran FireDepartment employers. The research method was descriptive-correlation with the purpose of functionality. The study population encompassed 260 from a pool of both male and female Tehran Fire Department employers. 155 participants were estimated and selected based on Morgan Table and stratified random sampling. For data collection, a research-made questionnaire with regard to the relationship between ethical leadership and empowerment with the use of 5º Likert was implemented. The reliability was, accordingly, measured following the pilot study and the Cronbach’s Alpha Coefficient of 86% and 88% of each questionnaire was obtained respectively. In order to analyze the data, T-test, Pearson Correlation Coefficient and Multiple Regression Variable (the stepwise) were used. In accordance with the formulated hypotheses and questions raised in the present study, the results revealed that there was a positively significant relationship between ethical leadership and empowerment. In other words, there will be as the equivalent increase in empowerment of the personnel as the increase in the ethnical leadership and the highest value of Correlation Coefficient was related to common interest.This study set out to examine the relationship between ethical leadership and empowerment of Tehran FireDepartment employers. The research method was descriptive-correlation with the purpose of functionality. The study population encompassed 260 from a pool of both male and female Tehran Fire Department employers. 155 participants were estimated and selected based on Morgan Table and stratified random sampling. For data collection, a research-made questionnaire with regard to the relationship between ethical leadership and empowerment with the use of 5º Likert was implemented. The reliability was, accordingly, measured following the pilot study and the Cronbach’s Alpha Coefficient of 86% and 88% of each questionnaire was obtained respectively. In order to analyze the data, T-test, Pearson Correlation Coefficient and Multiple Regression Variable (the stepwise) were used. In accordance with the formulated hypotheses and questions raised in the present study, the results revealed that there was a positively significant relationship between ethical leadership and empowerment. In other words, there will be as the equivalent increase in empowerment of the personnel as the increase in the ethnical leadership and the highest value of Correlation Coefficient was related to common interest.https://jhsci.ut.ac.ir/article_62161_46a770c7632239a41a8392db4cee8c2c.pdf