University of Zanjan

Owner: Zanjan University  
Journal Ranking in the Ministry of Science, Research and Technology's Scientific Journals Portal: Under evaluation  
Publisher: Zanjan University  
Publication Frequency: Biannual  
Electronic ISSN: 2783-0551  
Fields of Publication: Research studies on changes in climatic variables (elements, phenomena, processes, and indices), climate hazards (elements, phenomena, and processes of extreme climate), climate change, and review studies related to climate change and climate hazards based on previous empirical findings.  
Collaboration with Scientific Association: -
Access to Articles: Open and free access  
Review Type: Double-blind review (without disclosing the names of reviewers and authors)  
Article Evaluation Time: Approximately 2 months  
Publication Fee: None  
Publication Status: Electronic  
Plagiarism Detection: Samim Noor  
Acceptance Rate of Articles: Approximately 20% of submitted articles  
Editor-in-Chief: Dr. Hossein Asakereh: asakereh@znu.ac.ir  

Managing Editor: Dr. Kouhzad Raispour: raispour@znu.ac.ir  

Journal Email: cccd@znu.ac.ir  

Monitoring changes in vegetation cover and surface water resources of the Helmand River from Kajaki Dam to Hamun of Sistan during 2021–2024 using RS and GIS

Monitoring changes in vegetation cover and surface water resources of the Helmand River from Kajaki Dam to Hamun of Sistan during 2021–2024 using RS and GIS

Pages 1-31

https://doi.org/10.30740/cccd.2024.737294

Samad Fotoohi, Hossein Negaresh, Fatemeh Firoozi, Masoud Sistani Badooei, Noorallah Nikpour

Abstract The Helmand River is the main water source for northern Sistan and Baluchestan, Iran. The failure to respect Iran’s water rights has intensified regional water crises, caused environmental degradation, and evolved into a significant transboundary conflict. To assess Afghanistan’s claims of drought and water shortage, this study analyzed the spatiotemporal dynamics of surface water and vegetation using Remote Sensing (RS) and Geographic Information Systems (GIS). Landsat imagery covering the area from Kajaki Dam to the Hamoun‑e‑Sistan wetlands was examined across five time intervals. The analysis focused on two key events—the commissioning of Kamal Khan Dam (26 March 2021) and the rise of the Taliban government (23 August 2021)—followed by a three‑year monitoring period up to 2024. Surface water and vegetation were mapped using NDWI and SAVI indices processed in ArcGIS and ENVI. The results show an overall increase in Afghanistan’s water bodies and vegetation, indicating that current authorities have disregarded the bilateral water treaty by diverting surplus flows from Kamal Khan Dam toward the Godzareh depression. Consequently, Iran faces serious threats, including intensified desertification, border depopulation, and environmental insecurity, requiring urgent national and international policy action.

Climatic analysis of long-term changes in precipitation and runoff in northwest of Iran Case study (Sablan basin)

Climatic analysis of long-term changes in precipitation and runoff in northwest of Iran Case study (Sablan basin)

Pages 32-68

https://doi.org/10.30740/cccd.2024.737190

Akbar Shahi, Karim Amininia, mahdi saghebian, ebrahim fataei

Abstract The geographical location of Ardabil Province in northwestern Iran has resulted in a highly irregular precipitation system in both spatial and temporal dimensions. The concurrent influence of local and external factors on its climate subjects the Sabalan basin to diverse meteorological phenomena. Consequently, the present study aimed to identify days characterized by heavy and widespread precipitation coinciding with peak discharge levels. To achieve this, daily data from 45 synoptic and rain-gauge stations (affiliated with the Ministry of Energy), alongside discharge data from the Doust-Beiglou hydrometric station, were utilized. Heavy precipitation days were identified using the 95th percentile criterion. Widespread precipitation days were subsequently selected based on a positive anomaly of the 75th percentile of the area affected by heavy rainfall. Following the identification of these events, atmospheric patterns were classified using upper-air data through Cluster Analysis and Lund’s Correlation Method. The results indicate that the Mediterranean cyclone, the Siberian High, atmospheric cut-off lows, and the activity of the Polar Vortex play significant roles in the occurrence of heavy and widespread precipitation within the Sabalan drainage basin.

Spatial–Temporal Analysis of Dust Storm Patterns in Lorestan Province: From Geostatistical Data Integration to Cloud Computing with Google Earth Engine

Spatial–Temporal Analysis of Dust Storm Patterns in Lorestan Province: From Geostatistical Data Integration to Cloud Computing with Google Earth Engine

Pages 69-101

https://doi.org/10.30740/cccd.2024.737296

آزاده پولادوند, Gholamali Mozaffari, , hamidreza gafarian, kamal omidvar, , ahmad mazidi,

Abstract This study examines the spatiotemporal distribution and trends of the dust phenomenon in Lorestan Province over a 20-year period (2000–2020). By integrating ground-based data from synoptic stations with MODIS satellite imagery and utilizing the Google Earth Engine (GEE) platform alongside Geographic Information Systems (GIS), the Aerosol Optical Depth (AOD) index was analyzed as a key indicator of suspended particulate concentration and dust intensity. Statistical methods, including the Mann–Kendall test and Sen’s slope estimator, were applied to detect temporal trends. The results indicate a substantial increase in dust events, from 33 days per year in 2000 to 110 days per year in 2020, with the most pronounced rise occurring in the third decade (2011–2020). The annual mean AOD also increased from 0.15 to 0.45, reflecting a marked growth in particulate concentration, particularly during the spring season. A strong correlation (>80%) was observed between ground-based and satellite data, with close temporal alignment in recorded dust events. The GEE platform demonstrated significant advantages due to its high efficiency in processing large datasets and conducting spatiotemporal analyses. Projections suggest that by 2030, the number of dusty days may reach 150 per year, with the mean AOD rising to 0.6. This escalating trend is likely to be further intensified by climate change, recurrent droughts, and the degradation of vegetation cover.

Choose the best fit possible Hail in North West of Iran (2009- 1992)

Choose the best fit possible Hail in North West of Iran (2009- 1992)

Pages 102-126

https://doi.org/10.30740/cccd.2025.737298

zahra heydari monfared, Seysd Hossein Mirmousavi

Abstract Northwestern Iran, as the country’s most important agricultural hub and the region with the highest frequency of hail occurrence, experiences the greatest level of damage associated with this phenomenon. The present study was conducted with the aim of selecting a probability distribution best fitted to the data on hail days and planning to reduce vulnerability to this phenomenon. Based on goodness-of-fit tests, except for Bernoulli and hypergeometric distributions, other discrete distributions including Poisson, negative binomial, discrete uniform, geometric, and binomial were able to represent the observed frequency pattern with varying degrees of accuracy. The goodness-of-fit test confirmed the significant superiority of the Poisson distribution at a confidence level of 99%. Marivan station, which has the highest frequency of hail in the entire region, shows the greatest probability of hail occurrence. Following the Poisson distribution, the negative binomial model is introduced as the second most efficient fit. These findings provide a valid statistical basis for designing risk management strategies and reducing hail-related damage in Northwest Iran.

Statistical-Synoptic Analysis of Heavy Spring Rainfall in Kermanshah Province

Statistical-Synoptic Analysis of Heavy Spring Rainfall in Kermanshah Province

Pages 127-146

https://doi.org/10.30740/cccd.2025.737309

farid rezaei, Bahlool Alijani, mohammad Saligheh

Abstract The aim of the current research is the statistical-synoptic analysis of heavy spring rains in Kermanshah province, in line with proper management to prevent the occurrence of financial damage and loss of life caused by storms and floods, and the optimal use and storage of this type of rain during times of water shortage and drought. To carry out this research, daily data on heavy spring rainfall from nine stations in Kermanshah province, for the period 1951–2013, were obtained from the country's organization. Then, using statistical methods including descriptive statistics (prevalence, percentage) and inferential statistics (clustering), and the synoptic method (circulation to environment), from the NCEP/NCAR website, Omega synoptic maps at levels from 200 to 1000 hPa and composite maps (sea level pressure with vorticity, specific humidity with wind flow at the 700 hPa level, and geopotential height with vorticity at the 500 hPa level) were obtained, and the studied maps were plotted in the GrADS software environment. After identifying and analyzing three patterns of heavy rain, the results of this research showed that due to the integration of the low-pressure systems of the Mediterranean Sea and the Red Sea on one hand and the suitable position of the ridge over Arabia and the Arabian Sea, the influence of the trough on the mentioned water sources, and also the formation of the negative omega core in the upper levels of the troposphere on the other hand, conditions have been created for proper advection and divergence of moisture from the desired water areas toward the study area.

The role of the Zagros mountain range in the future scenarios of drying up of the Zayanderud River

The role of the Zagros mountain range in the future scenarios of drying up of the Zayanderud River

Pages 147-175

https://doi.org/10.30740/cccd.2025.737310

Esmail Dahqhan, Zakeyeh Aftabi, morad kaviani rad, hossen Rabeei

Abstract Rivers, as vital arteries of natural ecosystems, play a central role in maintaining environmental balance. Globally, river drying has become one of the most serious environmental challenges. Studies indicate that rivers located near mountainous areas are among the most vulnerable ecosystems due to their greater sensitivity to climate change. This applied research examines the factors affecting the drying up of the Zayanderud River, focusing on the Zagros mountain ecosystem. Data were collected through library and field methods, and the research problem was analyzed using a systems approach and futures studies tools. The findings show that precipitation systems, water extraction, Zagros topography, water allocation methods, and water resource management are the key factors influencing the river’s drying. Considering different possible states of these key variables, the future of the Zayanderud River appears critical. As this crisis goes beyond a local issue, it should be regarded as a warning of potential ecological collapse in the region, requiring effective cooperation among government, researchers, and society.

<span>Synoptic analysis of maximum rainfall in southwest Iran A case study: maximum rainfall in March - April 2019</span>

Synoptic analysis of maximum rainfall in southwest Iran A case study: maximum rainfall in March - April 2019

Pages 176-195

https://doi.org/10.30740/cccd.2025.737313

fatemeh Motevali Meydanshah, Hossein Asakereh

Abstract Rainfall is one of the most challenging atmospheric-climatic parameters that has significant effects on different scales. In the modern world, water, whose main source is precipitation, plays an important role in the life of humanity. In the present research, a synoptic analysis of the maximum rainfall during March - April 2019 was conducted using the daily rainfall data extracted from synoptic data and the daily data of geopotential height, relative humidity, sea level pressure, vertical winds flow, and zonal and meridian winds for the south and southwest of Iran (including Lorestan, Ilam, Kohgiloye and Boyer Ahmad, Chaharmahal Bakhtiari, Khuzestan, Bushehr, and Fars). The results of analyzing the synoptic maps on the rainy days of April indicated the presence and continuation of a deep trough and a blocking pattern at the level of 500 hPa along with the bifurcation of the wind flow at the level of 200 hPa, upward movements and low pressure on the ground surface, advection of relative humidity above 80%, and hot air advection at the levels of 700 and 850 hPa in the study area.

<span lang=EN-IE>An integrated analysis of observed changes in hydro-climatological variables of Iran</span>

An integrated analysis of observed changes in hydro-climatological variables of Iran

Pages 196-232

https://doi.org/10.30740/cccd.2025.737314

Peyman Mahmoudi, Abdolraoof Shahozei

Abstract This study presents an integrated analysis of trends in key hydro-climatic variables, i.e. minimum temperature, maximum temperature, precipitation, and potential evapotranspiration (ET₀), across annual and seasonal timescales, utilizing 30 years (1986-2015) of data from 62 meteorological stations in Iran. Using Sen’s slope estimator, results reveal a consistent warming trend across the country, notably a significant increase in winter temperatures, implying reduced snow-to-rain ratios and earlier snowmelt. At the national scale, the increasing trend in ET₀ ​coupled with decreasing precipitation paints a clear picture of Iran’s climate becoming drier. Spatial analysis identified Western and Northwestern Iran as “Hotspots of Change,” experiencing the most pronounced temperature increases and precipitation decreases, posing threats to regional water and food security. A notable finding was the observed decreasing trend in ET₀​ in some southern stations, attributed to the “Evaporation Paradox,” highlighting the importance of considering factors like wind speed and solar radiation. Collectively, this study provides robust evidence of escalating climatic stress on Iran’s water resources and underscores the necessity for adaptive, regionally-focused management strategies for vulnerable areas.

Analysis of synoptic structure of heavy and super heavy rainfall events in Dorood Broujerd Basin

Analysis of synoptic structure of heavy and super heavy rainfall events in Dorood Broujerd Basin

Pages 233-260

https://doi.org/10.30740/cccd.2025.737316

Ebrahim Beyranvand, Amir Gandomkar, Alireza Abbasi, Morteza Khodagholi

Abstract Heavy rains cause large floods that damage many natural resources needed by humans. In this research, the goal is to reveal synoptic patterns of heavy and super heavy rains in Lorestan Province. To this aim, daily precipitation data from Dorood stations and ECMWF climate database were used. Using percentile method, heavy rains at the 95th percentile and super heavy rains at the 99th percentile were determined. By applying the percentile method to the daily rainfall, two samples of super-heavy (March 27, 2007; April 1, 2019) and two samples of heavy rainfalls (February 3, 2006 and January 9, 1999) were extracted. The results showed that more than 90% of the heavy rainfall cases and more than 70% of the monthly rainfall were recorded in 24 hours. The results of the analysis showed a deep trough over the eastern Mediterranean Sea and western Iran in the super-heavy events, which has prepared the conditions for the ascent air mass and entry of low-pressure systems in the western part of the country. However, in this study, the establishment of a low-altitude blocking system cut off at the atmospheric mid - level has provided the conditions for heavy rainfall events in January and February.

Satellite Monitoring of Wind chill Hazard and Its Impacts on Military activity in Iran

Satellite Monitoring of Wind chill Hazard and Its Impacts on Military activity in Iran

Pages 261-287

https://doi.org/10.30740/cccd.2025.737317

Hojatollah Pashapoor, Hasan Rezaii, behrooz abad

Abstract The wind chill index expresses the degree of real cooling sensation created in the human body, and if this cooling exceeds a threshold it will cause the occurrence of wind chill hazard. The aim of this research is satellite monitoring of wind chill hazard in Iran. In this first step, daily wind speed and air temperature data in the period 1994-2023 for 11,000 days with a spatial resolution of 0.25 by 0.25 degrees of arc were extracted from the ECMWF website. Then, the wind chill index was calculated separately for each day based on the American-Canadian formula. Based on this formula, 3 risk classes were defined for the Wind chill index. The first class was positive values ​​of the Wind chill index, which were without risk. The second class was values ​​between 0 and -9 of the Wind chill index, which were low risk, and the third class was values ​​between -9 and -27 of the Wind chill index, which were named as medium risk. The findings showed that the risk of Wind chill in Iran only occurs in the months of November, December, January, February, and March. This is because in the rest of the year the weather does not cool much and consequently Wind chill will not occur. The findings also showed that due to the prevailing cold conditions at high altitudes, the greatest extent of the risk of Wind chill in the studied region also occurs in the Zagros and Alborz highlands.

<span>Spatiotemporal Analysis of the Impact of Dust Storms on Thermal Stress and the Health of Oak Forests in Ilam Province Using Remote Sensing Data</span>

Spatiotemporal Analysis of the Impact of Dust Storms on Thermal Stress and the Health of Oak Forests in Ilam Province Using Remote Sensing Data

Pages 288-310

https://doi.org/10.30740/cccd.2025.737334

Mahin hedayatizade, mohamad salighe, Zahra hejazizadeh, Parviz zeaiean, Mehry akbary

Abstract Dust storms are among the most significant environmental hazards in western Iran, exerting considerable impacts on natural ecosystems, particularly the Zagros oak forests. This study aims to investigate the spatiotemporal variations of dust and analyze its effects on the vegetation condition of oak forests in Ilam Province during the period 2005–2020. For this purpose, Aerosol Optical Depth (AOD) was used as an indicator of dust intensity, while the Vegetation Condition Index (VCI) and Temperature Condition Index (TCI) were applied to assess vegetation status and thermal conditions, respectively. MODIS satellite data and Sentinel‑2 imagery were processed within the Google Earth Engine platform. Temporal trends of dust were analyzed using the non‑parametric Kendall’s Tau test, and spatial correlation analysis between AOD and vegetation indices was conducted in the ArcGIS environment.The results indicated that AOD values exhibited interannual variability and increasing trends during certain periods. Spatial correlation between AOD and VCI was negative and statistically significant across large parts of the oak forests, particularly in the southern and southwestern areas of the province, indicating a decline in vegetation condition concurrent with increased dust levels. Moreover, the correlation between AOD and TCI revealed intensified thermal stress under high dust concentrations. The sensitivity map showed that southern areas were most affected, while northern highlands experienced the lowest impact.

<span>Forecasting the climate capacity of southern provinces of Iran in 2050 using the SSP2-4.5 scenario and the GFDL-ESM4 model</span>

Forecasting the climate capacity of southern provinces of Iran in 2050 using the SSP2-4.5 scenario and the GFDL-ESM4 model

Pages 311-352

https://doi.org/10.30740/cccd.2025.737335

Mostafa Ghavidel

Abstract This study evaluates the climate capacity of the southern strip of Iran in 2050. Due to its high climatic sensitivity and the pressures of human activities, this region is considered one of the country’s key areas in confronting climate change, making future climate projections essential. The objective of this research is to identify favorable and unfavorable areas in terms of climate capacity by 2050. For this purpose, the Analytic Hierarchy Process (AHP) method was used. The data used in the study are humidity, wind speed, minimum temperature, maximum temperature, precipitation, longwave radiation, and shortwave radiation from the SSP 245 scenario and the GFDL-ESM4 model on a daily scale. Seven factors were used in the AHP. AHP computations were performed in MATLAB, and spatial maps were generated in R. The results indicate that the northern half of Fars Province and the northeastern part of Khuzestan Province will be the most favorable regions, while Hormozgan Province and the southern half of Sistan and Baluchestan Province will be the least favorable. Among the seven factors, precipitation, temperature, and humidity were identified as the most influential determinants of climatic capacity.

The spatiality of the drying up of Lake Urmia and strategies for overcoming the crisis

The spatiality of the drying up of Lake Urmia and strategies for overcoming the crisis

Articles in Press, Accepted Manuscript, Available Online from 14 October 2025

Akbar Soltanzadeh, Isa Piri, Hossein Hamdi

Abstract Changes in water resources and the subsequent structure of ecosystems can have adverse effects on human societies. These effects can manifest in security issues, the provision of basic needs, and social and cultural relations. In this context, the drying up of Lake Urmia will have detrimental effects on the economic, social, environmental, and political-administrative structure of the country.The present article uses a descriptive-analytical method to seek a spatial explanation of the consequences of the drying up of Lake Urmia and strategies for the lake's restoration. Data collection was carried out through survey and library studies. The statistical population of the research is an elite panel consisting of 60 people (30 experts and 30 executives), who were selected using a snowball sampling method. The structural interaction approach with Mic Mac software and the interactive interaction approach with Scenario Wizard software were used to analyze the data.The findings of the research showed that according to the output of the structural interaction approach, the variables of decreasing water and soil resources, formation of ethnic conflicts, stagnation of housing and land prices, reduction of investment opportunities, reduction of production and income, reduction of people's purchasing power, damage to national unity and development, participation based on ethnic power and expansion, and socio-political gap, challenges in physical-spatial management, increase in unemployment, and reduction of tourist arrivals are the main consequences of the drying up of Lake Urmia.

Overview of climate change, relying on the UN framework convention on climate change conferences and the role of IRAN

Overview of climate change, relying on the UN framework convention on climate change conferences and the role of IRAN

Volume 1, Issue 2, July 2022, Pages 1-23

Mosayeb Moghbeli Damaneh, Seyed Hossein Sanaeenejad

Abstract The role of human activities on exacerbating climate changes and human society's exposure to the risks is the main reason to deal with the phenomena as the most priority among the world's problems. These changes are due to dramatically increasing greenhouse gases in the atmosphere during last century. Climate change is mainly known as increasing in global temperature. Melting of polar ice, rising of oceans level, long-term droughts, water resource depletion, storms and flash floods, extreme temperatures, increasing of dust and air pollution. Following repeated warnings by scientists in 1992, "United Nations Convention on Climate Change" was held by United Nations to address this issue. In order to stabilize concentration of greenhouse gases in the atmosphere to a certain level, the convention arranges an annual conference entitled "Conference of the Parties", in one of the member countries. In this study climate change and its risks and the importance of holding this conferences are discussed. Challenges to be faced and the actions to be taken related to this issue were also examined.

Synoptic Study of the Influence of Monsoon System
in South-East Iran

Synoptic Study of the Influence of Monsoon System in South-East Iran

Volume 1, Issue 1, April 2022, Pages 1-38

mohsen armesh, Mahmood Khosravi, Mohammad Saligheh

Abstract The aim of this study is to investigate synoptic change's monsoon system, South East Iran. Since precipitation is indicative instability and influx moisture, Precipitation's sweeping of the area was considered as a base to expand monsoon into Iran. The data include precipitation in synoptic, rain-gauge stations and NCEP-NCAR data. Grad's software was used for mapping. The results showed that in surface, the establishment of a broad low pressure in the Persian Gulf, Pakistan and expansion tab of Turkey high-pressure for a trough along the Zagros is responsible for the spread of monsoon. In 500 ha in events 1, 2 and 4, create a trough and positioned in the eastern areas in front its and in the third event the sawed-off tabs Russia for Cutoff low on Afghanistan, caused monsoon system penetration into the Iran. The profile of the area Omega is representing negative Omega at this time. Following lines showed the establishment the cyclone over the Indian Ocean in events 1, 2 and 4 and on Afghanistan in event 3 the groundwork for expanding the monsoon system. Events 1, 2 and 4 field of shared water systems that come from India, while the event 3 moisture is provided from Afghanistan that actually the tab moisture that has penetrated through India to Central Asia. Furthermore, monsoon expanded with positive vorticity is at ground level and negative vorticity at 500 hPa level.

Temporal Changes Analysis of Dew Point Temperature in Iran

Temporal Changes Analysis of Dew Point Temperature in Iran

Volume 1, Issue 1, April 2022, Pages 60-79

Majid Montazeri, Zahra yaghini

Abstract In this study, hourly data of dew point temperature from 162 stations of the country, which had more than 10 years of data, were extracted from the database of Iran's Meteorological Organization during the period from 1951 to 2010. The hourly dew point temperature data includes 8 times and daily mean. Different methods can be used to assess the time series behavior of climate data. In this study, in addition to the linear regression trend test, a frequency analysis method was used to evaluate the dew point temperature behavior over the past few decades. For estimating the trend, the smoothed average of the hourly data was used and for frequency analysis, the daily mean dew point temperature was used.
In frequency analysis, the statistical period was divided into six decades according to the Julian calendar, and then, the frequency and percentage of frequency of the data were calculated. The distribution of the temperature of the dew point of the first decade was compared with subsequent decades.
A review of the decade to decade of dew point temperature in Iran has shown that, in general, its temporal behavior is changing. The percentage of distribution of the dew point temperature has shifted to low temperatures. Analysis of the linear regression test on the smoothed series the hourly dew point temperature showed that 18, 21 and 00 hours had a weakening trend. While at 03, 06, 09, 12, 15 and the average daily, a steep slope has occurred. The average dew point temperature in the solar decades of 30-60 degrees was about 5 degrees Celsius, and in the 1980s the solar fluctuated around 3.8 degrees Celsius. This decrease was accompanied by a sudden drop in the late '60s, which could be a sign of the drying of the moisture content of Iranian atmosphere.

explain the relationship between food security and environmental security with climate change

explain the relationship between food security and environmental security with climate change

Volume 1, Issue 2, July 2022, Pages 24-46

morad kavianirad, Zakeeh Aftabi, Havva Valizadeh

Abstract Climate change in form of the rainfall pattern transformation has disrupted the different dimensions of the countries national security. Meanwhile, increasing the temperature and reducing the rainfall in those of countries where located on the world desert strip, have had the most impacts on environmental security especially their food production and security. The available date in our country shows that groundwater levels have been decreased because of changing the rainfall pattern during two recent decades and increasing the water consumption. In between, increasing the temperature and decreasing the rainfall during two past decades has had the great impact on the central catchment area. This study focuses on the analyzing the effect of climate change on the food security in the jeroft city. This article with its functional nature is based on this mean hypothesis that food security in this part of country is effected by climate change in form of transforming the rainfall pattern especially increasing the temperature and decreasing the rainfall. The methodology of this text is descriptive- analytical. Its data have collected by library method and analyzed by statistical software R. The result of the study showed that climate change has a positive and significant effect on food security in southern Kerman province with a significant level of 99%.

Evaluation of CSIRO and LARS WG data accuracy in simulation of climatic variables of East Azerbaijan province

Evaluation of CSIRO and LARS WG data accuracy in simulation of climatic variables of East Azerbaijan province

Volume 1, Issue 2, July 2022, Pages 139-163

Ali Panahi, Farahnaz Khorramabadi

Abstract Rising greenhouse gases and subsequent global warming are among the problems leading to climate change. It directly affects various factors related to human life, so in the present study, the data of the fifth report of CSIRO model under three scenarios RCP8.5, RCP4.5 and RCP2.6 for the next period 2020 2100 as well as two LARS scaling methods WG and Delta method were used to simulate precipitation, minimum and maximum temperatures in East Azerbaijan province. In evaluating the LARS WG model, the error rate of simulation and survey data was evaluated using MSE, RMSE and MAE performance criteria as well as the coefficient of determination and correlation. The results showed that the model is able to predict maximum and minimum temperature parameters with high accuracy, but shows less accuracy in simulating precipitation than other desired variables. Also in Delta Method, the maximum and minimum temperatures are observed for all seasons with an increasing trend, while in the LARS WG model there is a decreasing trend in the next period (2020 2100) for all scenarios. In general, the difference between the operating modes and the LARS WG model for maximum and minimum temperature values in the next period, depending on the type of emission scenario, was obtained between 3.89, 6.33, 7.17 and 2.84. C, respectively. Rainfall has been declining in most seasons under the release scenarios compared to the LARS WG model.

Analysis of Inversion Indicators of Boundary layer in Shiraz

Analysis of Inversion Indicators of Boundary layer in Shiraz

Volume 1, Issue 2, July 2022, Pages 47-64

Omid Reza Kefayate Motlagh

Abstract The purpose of this study was to Analysis of Inversion Indicators of Boundary layer in Shiraz. In this regard, radiosond data was provided at 3.5 local time in the 1380-1394 solar. Then, the height of the meteorological station in Shiraz (1491 m above sea level) was determined as the base of the inertia of the boundary layer of the air and the boundary layer was up to the surface of the geopotential of 700 hp (an average of 1.5 km from the lower layer of air above ground) Selected as the study space. The results showed that October and November are the highest and July's low frequency of inversion days. On this basis, the autumn, winter, spring and summer seasons were the most days of inversion, respectively. After determining the inversion days frequency, thickness, gradient, adiabatic and inversion intensity were calculated in each day. The results showed that October and November are the highest and the lowest of the days of inversion in July. On this basis, autumn, winter, spring and summer were respectively the most invasive days, respectively. The highest inversion gradient occurs in September and the lowest in January. The highest lapse rate is in March and the lowest is in July. This feature is in consonant with the fact that cold weather is more intense than warm weather. At the end, of months were classified according to the inversion intensity. The results showed that the strongest inversions in the January and the lowest in the July occur.

A Synoptic analysis comprehensive and heavy rainfall in Iran: case study16-31 st 2019

A Synoptic analysis comprehensive and heavy rainfall in Iran: case study16-31 st 2019

Volume 1, Issue 2, July 2022, Pages 85-140

Nabyollah Mirzaee, Bohlool Alijani, Arman Jahedi

Abstract In this survey, we recognize synoptic patterns which lead to comprehensive and heavy rainfall from March 16th-31st, 2019 in Iran. Therefore, data of earth and the upper atmosphere have been used. The earth data include precipitation amount of stations in the flood zones of Iran. The upper atmosphere data consist of patterns in ECMWF. Three heavy rainfall systems heavy rains in Iran, have been examined. Results shows that the establishment of Cut-off Low plays an important role in heavy rains. In the first system which is stimultaneous with the flash flood of Golestan, a transferring of dynamic low-pressure of system and its cyclonic circulation make rainfall start. The speed of circulation system was reducing, when it established over Caspian Sea and under the influence of pressure Gradiant, humid currents in the low-level of atmosphere have been moved to south and east side of the coast. In this area, heavy rains generally take place in a clod front which transports a large amount of humidity from the sea to Golestan with increasing perssur Gradient between Siberian high and Cut-off Low pressure under the influence of convection currents. A merger between low-pressur of Sudanese and Mediterranean is the main factor for the second and third systems. Heavy rains in the west side of Iran happen, because of an establishing of blocking system in the middle-level and making Cut-off Low which lasts for a few days, with transportation of humidity from various sources.

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