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Atmospheric and Climate Sciences

Atmospheric and Climate Sciences

Atmospheric and Climate Sciences

ISSN Print: 2160-0414
ISSN Online: 2160-0422
www.scirp.org/journal/acs
E-mail: acs@scirp.org
"Dust Events in the Western Parts of Iran and the Relationship with Drought Expansion over the Dust-Source Areas in Iraq and Syria"
written by Mojtaba Zoljoodi, Ali Didevarasl, Abbas Ranjbar Saadatabadi,
published by Atmospheric and Climate Sciences, Vol.3 No.3, 2013
has been cited by the following article(s):
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  • CrossRef
[1] Improvement of spatial-temporal resolution of aerosol profile by using multi-source satellite data over the Persian Gulf
Atmospheric Environment, 2023
[2] Relation between regional drought and mountain dust deposition revealed by a 10-year record from an alpine critical zone
Science of The Total Environment, 2022
[3] Decadal change of spring dust activity in western Iran and its mechanism
Frontiers in Environmental Science, 2022
[4] Classification of synoptic weather clusters associated with dust accumulation over southeastern areas of the Caspian Sea (Northeast Iran and Karakum desert)
Aeolian Research, 2022
[5] Quantifying the Impact of Dust Sources on Urban Physical Growth and Vegetation Status: A Case Study of Saudi Arabia
Remote Sensing, 2022
[6] Spatial analysis of environmental factors influencing dust sources in the east of Iran using a new active-learning approach
Geocarto …, 2022
[7] Evaluation of pollution indices, health hazards and source identification of heavy metal in dust particles and storm trajectory simulation using HYSPLIT model (Case …
Environmental Monitoring …, 2022
[8] Effect of Dust on Growth and Reproductive Characteristics of Grapevine (Vitis vinifera)
International Journal of …, 2022
[9] Long-Term Investigation of Aerosols in the Urmia Lake Region in the Middle East by Ground-Based and Satellite Data in 2000–2021
Remote Sensing, 2022
[10] Novel deep learning hybrid models (CNN-GRU and DLDL-RF) for the susceptibility classification of dust sources in the Middle East: a global source
Scientific Reports, 2022
[11] Dust storm source detection using ANP and WRF models in southwest of Iran
Arabian Journal of …, 2021
[12] An assessment of change point and trend of diurnal variation of dust storms in Iran: a multi-instrumental approach from in situ, multi-satellite, and reanalysis dust …
Roudbari, M Ahmadi - Meteorology and Atmospheric Physics, 2021
[13] Trend analysis and change point detection of annual and seasonal horizontal visibility trends in Saudi Arabia
2021
[14] Recent changes in physical properties of the land surface and their effects on dust events in different climatic regions of Iran
2021
[15] Dust storms in Iran–Distribution, causes, frequencies and impacts
2021
[16] Spatiotemporal regionalization of atmospheric dust based on multivariate analysis of MACC model over Iran
2021
[17] Evaluating the Computational Values of Suspended Particles Below 10 μm With Their Actual Concentration
Archives of Hygiene …, 2021
[18] ANALYSIS OF SPRING DUST STORMS OVER SAUDI ARABIA FOR THE PERIOD FROM 1978 TO 2008
2021
[19] Detection of dust sources by land use type, using remote sensing techniques and fuzzy logic, case study: south-east Ahwaz
Watershed Engineering …, 2021
[20] Water bodies changes in Tigris and Euphrates basin has impacted dust storms phenomena
Aeolian Research, 2021
[21] Long-Term Variability of Dust Events in Southwestern Iran and Its Relationship with the Drought
Atmosphere, 2021
[22] Characterization of released dust over open waters in the south of the Iran Plateau based on satellite and ground-based measurements
Atmospheric Pollution Research, 2021
[23] High-frequency observation during sand and dust storms at the Qingtu Lake Observatory
Earth System Science Data, 2021
[24] Spatial and temporal variability in dust storms in the Middle East, 2002–2018: three case studies in July 2009
2021
[25] Spatio-temporal and synoptic changes in dust at the three islands in the Persian Gulf region
2021
[26] Monitoring and investigating dust phenomenon on using remote sensing science, geographical information system and statistical methods
2021
[27] Climate change: A driver of future conflicts in the Persian Gulf Region?
2021
[28] Investigation of the 2018 Shiraz dust event: Potential sources of metals, rare earth elements, and radionuclides; health assessment
2021
[29] Determining the source of dust storms with use of coupling WRF and HYSPLIT models: A case study of Yazd province in central desert of Iran
2021
[30] Classification of weather clusters over the Middle East associated with high atmospheric dust-AODs in West Iran
2021
[31] Gone with the wind: Impact of soil-dust storms on farm income
2021
[32] شناسایی کانون‌های گرد و غبار به تفکیک نوع کاربری با استفاده از تکنیک‌های سنجش از دور و منطق فازی، مطالعه موردی: جنوب شرق اهواز‎
2021
[33] Vector techniques application in line-with dust modeling and homogeneous classification of areas in Iran
2020
[34] Particulate Matter Concentrations in a Middle Eastern City–An Insight to Sand and Dust Storm Episodes
2020
[35] An improved dust identification index (IDII) based on MODIS observation
2020
[36] Climatology of Iraqi dust events during 1980–2015
2020
[37] Evaluating temporal and spatial variability and trend of aerosol optical depth (550 nm) over Iran using data from MODIS on board the Terra and Aqua satellites
2020
[38] بررسی و تحلیل جامع رخداد توفان های گردوغبار شدید در نیمه شرقی ایران با استفاده از مدل های عددی، تصاویر ماهواره ای و داده های مشاهداتی‎
2020
[39] Identification of dust sources using long term satellite and climatic data: A case study of Tigris and Euphrates basin
2020
[40] Identifying sources of dust aerosol using a new framework based on remote sensing and modelling
2020
[41] The response of dust emission sources to climate change: Current and future simulation for southwest of Iran
2020
[42] A comprehensive study of severe dust storms in the eastern part of Iran using numerical modeling, satellite imagery and observation data
2020
[43] Sand and Dust Storms in the Middle East and North Africa Region: Sources, Costs, and Solutions
2019
[44] Peace or War? Intelligent development of Iran environmental diplomacy
2019
[45] Study of aerosol optical properties in the Middle East during 2013
2019
[46] Assessment of Dust Variability Over Iraq During 2003-2012 Using SCIAMACHY Absorbing Aerosol Index
2019
[47] Impact of drought on dust storms: case study over Southwest Iran
2019
[48] Monthly and seasonal variability of dust events over northern Saudi Arabia
2019
[49] The key role of water resources management in the Middle East dust events
2019
[50] Interannual variations of dust activity in western Iran and their possible mechanisms
2019
[51] Identification and Characterization of Dust Source in Khorasan Razavi Province
2019
[52] Statistical evaluation of the dust events at selected stations in Southwest Asia: From the Caspian Sea to the Arabian Sea
CATENA, 2018
[53] Long-term variations of aerosol optical depth and aerosol radiative forcing over Iran based on satellite and AERONET data
Environmental Monitoring and Assessment, 2018
[54] Spatio-temporal variability of aerosol characteristics in Iran using remotely sensed datasets
2018
[55] Atmospheric Investigation of Frontal Dust Storms in Southwest Asia
Asia-Pacific Journal of Atmospheric Sciences, 2018
[56] The Impact of Dust and Sandstorms in Increasing Drought Areas in Nineveh Province, North-western Iraq
2018
[57] Drought severity and increased dust storm frequency in the Middle East: a case study from the Tigris–Euphrates alluvial plain, central Iraq
2018
[58] Synoptic analysis of dust events and its relation with drought in Alborz and Qazvin provinces
2018
[59] Characterization of synoptic patterns causing dust outbreaks that affect the Arabian Peninsula
Atmospheric Research, 2017
[60] 2016 Yılı Doğa Kaynaklı Afetler Yıllığı "Dünya ve Türkiye" (Yearbook of Nature-induced disasters in 2016)
2017
[61] Sedimentology and sedimentary geochemistry of aerosol over Ahvaz metropolis
Iranian Journal of Geology, 2017
[62] A Review of Geotechnical Challenges and Soil Improvement Methods by Environmental Perspective
2017
[63] 2016 YILI DOĞA KAYNAKLI AFETLER YILLIĞI
2017
[64] Radiative Effects and Optical Properties of Aerosol during Two Dust Events in 2013 over Zanjan, Iran
Aerosol and Air Quality Research, 2016
[65] Provenance-Finding of Dust Storms Using AVHRR Sensor Images of NOAA Satellite (Case Study: Southwest of Iran)
2016
[66] Identification of dust storm source areas in West Asia using multiple environmental datasets
Science of The Total Environment, 2015
[67] Climatic controls on the interannual to decadal variability in Saudi Arabian dust activity: Toward the development of a seasonal dust prediction model
Journal of Geophysical Research: Atmospheres, 2015
[68] Land surface memory effects on dust emission in a Mongolian temperate grassland
Journal of Geophysical Research: Biogeosciences, 2015
[69] Identification of sand and dust storm source areas in Iran
Journal of Arid Land, 2015
[70] Application of the dust simulation models in the Middle East, and dust-dispersion toward the western/southwestern Iran (case study: 22-26 June 2010)
2013
[71] Aeolian Research
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