DOCSLIB.ORG

Iran: List of Mass Conviction of Dervishes

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Iran: List of Mass Conviction of Dervishes Iran: List of Mass Conviction of Dervishes Names Sentences 1. Nazila Nouri sentenced to 5 years in prison 2. Avisha Jalaledin sentenced to 5 years in prison 3. Sima Entesari sentenced to 5 years in prison 4. Shima Entesari sentenced to 5 years in prison 5. Sepideh Moradi sentenced to 5 years in prison and a 2-year ban on social activities 6. Shokoufeh Yadollahi sentenced to 5 years in prison and a 2-year ban on social activities 7. Maryam Farsyabi sentenced to 6 months in prison and a 2-year ban on social activities 8. Vahid Khamooshi sentenced to 12 years in prison and 2 years of exile in city of Rayen in Kerman province 9. Saeed Khamooshi sentenced to 7 years in prison and 74 lashes 10. Alireza Azadravesh sentenced to 7 years in prison, 74 lashes, and 2 years of exile in Kahnuj city in Kerman province 11. Ali Karimi sentenced to 7 years in prison, 74 lashes, and 2 years of exile in Borazjan city in Bushehr province 12. Ehsan Malekmohammadi sentenced to 7 years in prison, 74 lashes, and 2 years of exile in Zabol city in Sistan and Balouchestan province 13. Ehsan Saffari sentenced to 7 years in prison, 74 lashes, and 2 years of exile in Zabol city in Sistan and Balouchestan province 14. Armin Abolfathi sentenced to 7 years in prison and 74 lashes 15. Morteza Sohrabpour sentenced to 7 years in prison and 74 lashes 16. Mohammad Asad Samani sentenced to 7 years in prison and 74 lashes 17. Masoud Alimadadi sentenced to 7 years in prison and 74 lashes 18. Majid Rashidi sentenced to 7 years in prison and 74 lashes 19. Amir Seyyedi sentenced to 7 years in prison and 74 lashes 20. Afshin Salimi sentenced to 7 years in prison and 74 lashes 21. Amir Salimi sentenced to 7 years in prison and 74 lashes 22. Mohammadreza Abolfathi sentenced to 7 years in prison and 74 lashes 23. Majid Amirahmadi sentenced to 7 years in prison and 74 lashes 24. Hamidreza Amirahmadi sentenced to 7 years in prison and 74 lashes 25. Mohammadreza Zehtab sentenced to 7 years in prison and 74 lashes 26. Ebrahim Allahbakhshi sentenced to 7 years in prison and 74 lashes 27. Nemat Kazemi sentenced to 7 years in prison and 74 lashes 28. Babak Taghian sentenced to 7 years in prison 29. Mostafa Armandoust sentenced to 7 years in prison 30. Mehran Asgharzadeh sentenced to 7 years in prison 31. Amin Hoseini sentenced to 6 years in prison and 74 lashes 32. Asghar Samadyar sentenced to 5 years in prison 33. Amirbahador Jafari sentenced to 3 years in prison 34. Meysam Azizan sentenced to 3 years in prison 35. Malek Rezai sentenced to 2 years in prison 36. Aliasghar Salari sentenced to 2 years in prison 37. Eliyas Mohammadi sentenced to 2 years in prison 38. Mohammad Amirahmadi sentenced to 2 years in prison 39. Ali Bolboli sentenced to 2 years in prison 40. Ashkan Kazemi sentenced to 2 years in prison 41. Mousa Fazlipour sentenced to 2 years in prison 42. Mehdi Saadat sentenced to 1 year in prison 43. Hashem Avazeh sentenced to 1 year in prison 44. Majid Shayegh sentenced to 1 year in prison 45. Ebrahim Rezaei sentenced to 1 year in prison 46. Saeed Soltanpour sentenced to 7 years in prison, 74 lashes, and 2 years of exile in Zehak city in Sistan and Balouchestan province 47. Mohammadreza Darvishi sentenced to 7 years in prison, 74 lashes, and 2 years of exile in Nahavand city in Hamedan Province 48. Mohammad Karimaei sentenced to 7 years in prison, 74 lashes, and 2 years of exile in Sohraj village in Kerman province 49. Alireza Lak sentenced to 7 years in prison,74 lashes, and 2 years of exile in Manujan city in Kerman province 50. Habib Ghanbari sentenced to 7 years in prison, 74 lashes, and 2 years of exile in Iranshahr city in Sistan and Balouchestan province 51. Mehdi Izadpanah sentenced to 5 years in prison and 2 years of exile in Sirjan city in Kerman province 52. Mehrdad Rezaee sentenced to 7 years in prison, 74 lashes, and 2 years of exile in Sarbaz city in Sistan and Balouchestan province 53. Mansour Farhoodmand sentenced to 7 years in prison, 74 lashes, and 2 years of exile in Tabas city in South Khorasan province 54. Aboulfazl Avazeh sentenced to 6 years in prison, 74 lashes, and 2 years of exile in Mirjaveh city in Sistan and Balouchestan province 55. Ali Ghamari sentenced to 7 years in prison, 74 lashes, and 2 years of exile in Hirmand County in Sistan and Balouchestan province 56. Mahmoud Barakouhi sentenced to 7 years in prison, 74 lashes, and 2 years of exile in Kahnouj city in Kerman province 57. Heydar Teymouri sentenced to 7 years in prison, 74 lashes, and 2 years of exile in Khash city of Kerman province 58. Kasra Nouri sentenced to 12 years in prison, 74 lashes, 2 years of exile in Salas Babajan city in Kermanshah province, 2 years ban on membership in political parties and social groups, and a 2-year travel ban 59. Reza Rezaei sentenced to 12 years in prison, 138 lashes, and 2 years of exile in Mirjaveh city in Sistan and Balouchestan province 60. Akbar Beiranvand sentenced to 7 years in prison, 2 years of exile in Zehak city in Sistan and Balouchestan province, and a 2-year ban on social activities 61. Ali Bahadori sentenced to 7 years in prison, 2 years of exile in Mirjaveh city in Sistan and Balouchestan province, and a 2-year ban on social activities 62. Siyamak Sohrabi sentenced to 7 years in prison, 74 lashes, and 2 years of exile 63. Iraj Madhi sentenced to 7 years in prison, 74 lashes, and 2 years of exile 64. Ramin Ashkouh sentenced to 7 years in prison and a 2-year ban on social activities 65. Bijan Soltani sentenced to 7 years in prison 66. Farhang Bouzari Kharrazi sentenced to 6 years in prison, 74 lashes, and a 2-year travel ban 67. Farnam Farhang sentenced to 6 years in prison 68. Mehrdad Eyni sentenced to 2 years in prison, a 2-year ban on social activities, and a 2-year travel ban 69. Mohammadreza Shayan sentenced to 7 years in prison 70. Hossein Shahreza sentenced to 7 years in prison, 74 lashes, a 2- year ban on social activities, and a 2-year travel ban 71. Morteza Sohrabpour sentenced to 7 years in prison, 74 lashes, a 2- year ban on social activities, and a 2-year travel ban 72. Mohsen Norouzi sentenced to 7 years in prison, 74 lashes, a 2- year ban on social activities, and a 2-year travel ban 73. Hasan Abbasi sentenced to 7 years in prison, 74 lashes, a 2- year ban on social activities, and a 2-year travel ban 74. Sajjad Baradaran sentenced to 2 years in prison 75. Amin Soleymani sentenced to 7 years in prison, 74 lashes, a 2- year ban on social activities, and a 2-year travel ban 76. Akbar Dadashi sentenced to 6 years in prison and 74 lashes 77. Reza Nematollahi sentenced to 7 years in prison, 74 lashes, a 2- year ban on social activities, and a 2-year travel ban 78. Hesam Moeini; sentenced to 7 years in prison, 74 lashes, a 2- year ban on social activities, and a 2-year travel ban 79. Hossein Jashn sentenced to 2 years in prison 80. Omid Mahdavi sentenced to 2 years in prison 81. Kiyan Nejadhoseini sentenced to 1 year in prison 82. Zafarali Moghimi sentenced to 7 years in prison and 2 years of exile in Zehak city in Sistan and Balouchestan province 83. Amir Asteraki sentenced to 7 years in prison 84. Nader Beiyranvand sentenced to 7 years in prison 85. Abbas Hajati sentenced to 7 years in prison 86. Morteza Ghaderi sentenced to 7 years in prison 87. Mehdi Fateminasab sentenced to 6 years in prison 88. Reza Farrashi sentenced to 6 years in prison 89. Mashallah Vafaeifard sentenced to 5 years in prison 90. Ghaznavi sentenced to 3 years in prison 91. Nabaei sentenced to 1 year in prison 92. Reza Heydari sentenced to 1 year in prison 93. Yaser Soleymani sentenced to 1 year in prison 94. Mostafa Abdi sentenced to 26 years and 3 months in prison, 148 lashes, 2 years of exile, a 2-year ban on social activities and a 2-year travel ban 95. Reza Entesari sentenced to 7 years in prison, 74 lashes, a 2- year ban on social activities, and a 2-year travel ban 96. Mehdi Mahdavifard sentenced to 13.5 years in prison, 148 lashes, 2 years of exile in Nikshahr city in Sistan and Balouchestan province, and a 2-year ban on social activities 97. Bashir Riyahi sentenced to 10.5 years in prison, 148 lashes, 2 years of exile in Khaf city in Razavi Khorasan province, and a 2-year ban on social activities 98. Sekhavat Salimi sentenced to 7 years in prison, 74 lashes, 2 years of exile in Nikshahr city in Sistan and Balouchestan province, and a 2-year ban on social activities 99. Aboulfazl Sahraei sentenced to 7 years in prison, 74 lashes, 2 years of exile in Sarbisheh city in South Khorasan province, and a 2-year ban on social activities 100. Rostam Sagvand sentenced to 7 years in prison, 74 lashes, 2 years of exile in Nehbandan city in Sistan and Balouchestan province, and a 2-year ban on social activities 101.
Load more

Recommended publications
  • Sand Dune Systems in Iran - Distribution and Activity
    Sand Dune Systems in Iran - Distribution and Activity. Wind Regimes, Spatial and Temporal Variations of the Aeolian Sediment Transport in Sistan Plain (East Iran) Dissertation Thesis Submitted for obtaining the degree of Doctor of Natural Science (Dr. rer. nat.) i to the Fachbereich Geographie Philipps-Universität Marburg by M.Sc. Hamidreza Abbasi Marburg, December 2019 Supervisor: Prof. Dr. Christian Opp Physical Geography Faculty of Geography Phillipps-Universität Marburg ii To my wife and my son (Hamoun) iii A picture of the rock painting in the Golpayegan Mountains, my city in Isfahan province of Iran, it is written in the Sassanid Pahlavi line about 2000 years ago: “Preserve three things; water, fire, and soil” Translated by: Prof. Dr. Rasoul Bashash, Photo: Mohammad Naserifard, winter 2004. Declaration by the Author I declared that this thesis is composed of my original work, and contains no material previously published or written by another person except where due reference has been made in the text. I have clearly stated the contribution by others to jointly-authored works that I have included in my thesis. Hamidreza Abbasi iv List of Contents Abstract ................................................................................................................................................. 1 1. General Introduction ........................................................................................................................ 7 1.1 Introduction and justification ........................................................................................................
    [Show full text]
  • Review and Updated Checklist of Freshwater Fishes of Iran: Taxonomy, Distribution and Conservation Status
    Iran. J. Ichthyol. (March 2017), 4(Suppl. 1): 1–114 Received: October 18, 2016 © 2017 Iranian Society of Ichthyology Accepted: February 30, 2017 P-ISSN: 2383-1561; E-ISSN: 2383-0964 doi: 10.7508/iji.2017 http://www.ijichthyol.org Review and updated checklist of freshwater fishes of Iran: Taxonomy, distribution and conservation status Hamid Reza ESMAEILI1*, Hamidreza MEHRABAN1, Keivan ABBASI2, Yazdan KEIVANY3, Brian W. COAD4 1Ichthyology and Molecular Systematics Research Laboratory, Zoology Section, Department of Biology, College of Sciences, Shiraz University, Shiraz, Iran 2Inland Waters Aquaculture Research Center. Iranian Fisheries Sciences Research Institute. Agricultural Research, Education and Extension Organization, Bandar Anzali, Iran 3Department of Natural Resources (Fisheries Division), Isfahan University of Technology, Isfahan 84156-83111, Iran 4Canadian Museum of Nature, Ottawa, Ontario, K1P 6P4 Canada *Email: [email protected] Abstract: This checklist aims to reviews and summarize the results of the systematic and zoogeographical research on the Iranian inland ichthyofauna that has been carried out for more than 200 years. Since the work of J.J. Heckel (1846-1849), the number of valid species has increased significantly and the systematic status of many of the species has changed, and reorganization and updating of the published information has become essential. Here we take the opportunity to provide a new and updated checklist of freshwater fishes of Iran based on literature and taxon occurrence data obtained from natural history and new fish collections. This article lists 288 species in 107 genera, 28 families, 22 orders and 3 classes reported from different Iranian basins. However, presence of 23 reported species in Iranian waters needs confirmation by specimens.
    [Show full text]
  • Iranian Strategy in Syria
    *SBOJBO4USBUFHZJO4ZSJB #:8JMM'VMUPO KPTFQIIPMMJEBZ 4BN8ZFS BKPJOUSFQPSUCZ"&*ŦT$SJUJDBM5ISFBUT1SPKFDUJ/45*565&'035)&456%:0'8"3 .BZ All rights reserved. Printed in the United States of America. ©2013 by Institute for the Study of War and AEI’s Critical Threats Project Cover Image: Iranian President Mahmoud Ahmadinejad, Syrian President Bashar Al-Assad, and Hezbollah’s Sheikh Hassan Nasrallah appear together on a poster in Damascus, Syria. Credit: Inter Press Service News Agency Iranian strategy in syria Will Fulton, Joseph Holliday, & Sam wyer May 2013 A joint Report by AEI’s critical threats project & Institute for the Study of War ABOUT US About the Authors Will Fulton is an Analyst and the IRGC Project Team Lead at the Critical Threats Project at the American Enterprise Institute. Joseph Holliday is a Fellow at the Institute for the Study of War. Sam Wyer served as an Iraq Analyst at ISW from September 2012 until February 2013. The authors would like to thank Kim and Fred Kagan, Jessica Lewis, and Aaron Reese for their useful insights throughout the writing and editorial process, and Maggie Rackl for her expert work on formatting and producing this report. We would also like to thank our technology partners Praescient Analytics and Palantir Technologies for providing us with the means and support to do much of the research and analysis used in our work. About the Institute for the Study of War The Institute for the Study of War (ISW) is a non-partisan, non-profit, public policy research organization. ISW advances an informed understanding of military affairs through reliable research, trusted analysis, and innovative education.
    [Show full text]
  • Special Economic Zones
    Iran's Special Economic Zones Amir Abad Yazd Lorestan Khalij Fars Shahid Rajaee Pars Shiraz Petroshimi Khalij Fars Booshehr Sarakhs Bandar Booshehr Sirjan Salafchegan Payam Arge Jadid Pars Special Economic Energy Zone Headquarters P.O. Box: 75391 - 154,Pars Special Economic Energy Zone Org.,Assaluyeh, Boushehr Province, I.R.Iran Tel: +987727 37 63 30 Fax: +987727 37 63 18 Email: [email protected] Web site: http://pseez.ir Pars Special Economic Energy Zone PSEEZ is located adjacent to Assaluyeh, a village on the Persian Gulf, 280 Km southeast of Bushehr, 570 Km northwest of Bandar Abbas, and a 100 Km away from the offshore southern Pars Gas Fields in the Persian Gulf. Establishment for the utilization of ١٩٩٨ Pars Special Economic Energy Zone (PSEEZ) was established in South Pars oil and gas resources and encouraging commercial activities in the field of oil, gas and petrochemical industries. Objectives Facilitating for the on-time execution of various oil and gas projects, providing the appropriate foundation to attract local and foreign partnership with the aim of developing oil, gas and petrochemical industries as well as inter-related and downstream industries, creating local job opportunities and attracting skilled and semi-skilled workforce from neighboring provinces with regards to its positive effects on economic prosperity in the provinces of Bushehr, Fars and Hormozgan. Location .Km ٥٧٠ Km. East of Port of Bushehr and ٣٠٠ This zone is located the Persian Gulf coast and Km. away from the South Pars Gas ١٠٠ West of the Port of Bandar Abbas and approximately Field (Continuation of the Qatar’s Northern Dome).
    [Show full text]
  • And “Climate”. Qarah Dagh in Khorasan Ostan on the East of Iran 1
    IRAN STATISTICAL YEARBOOK 1397 1. LAND AND CLIMATE Introduction T he statistical information that appeared in this of Tehran and south of Mazandaran and Gilan chapter includes “geographical characteristics and Ostans, Ala Dagh, Binalud, Hezar Masjed and administrative divisions” ,and “climate”. Qarah Dagh in Khorasan Ostan on the east of Iran 1. Geographical characteristics and aministrative and joins Hindu Kush mountains in Afghanistan. divisions The mountain ranges in the west, which have Iran comprises a land area of over 1.6 million extended from Ararat mountain to the north west square kilometers. It lies down on the southern half and the south east of the country, cover Sari Dash, of the northern temperate zone, between latitudes Chehel Cheshmeh, Panjeh Ali, Alvand, Bakhtiyari 25º 04' and 39º 46' north, and longitudes 44º 02' and mountains, Pish Kuh, Posht Kuh, Oshtoran Kuh and 63º 19' east. The land’s average height is over 1200 Zard Kuh which totally form Zagros ranges. The meters above seas level. The lowest place, located highest peak of this range is “Dena” with a 4409 m in Chaleh-ye-Loot, is only 56 meters high, while the height. highest point, Damavand peak in Alborz The southern mountain range stretches from Mountains, rises as high as 5610 meters. The land Khouzestan Ostan to Sistan & Baluchestan Ostan height at the southern coastal strip of the Caspian and joins Soleyman Mountains in Pakistan. The Sea is 28 meters lower than the open seas. mountain range includes Sepidar, Meymand, Iran is bounded by Turkmenistan, the Caspian Sea, Bashagard and Bam Posht Mountains.
    [Show full text]
  • Poll Res-16.Pmd
    Poll Res. 36 (3) : 481-488 (2017) Copyright © EM International ISSN 0257–8050 AN INDIRECT ESTIMATION OF SOIL QUALITY CHANGES RESULTING FROM GROUNDWATER USE IN SISTAN AND BALUCHISTAN MOHAMMAD MOBINI1, HAMED BIGLARI2,*, AMIN ZAREI3, GHOLAMREZA EBRAHIMZADEH4, ALI BIGLARI5, MOHAMMAD REZA NAROOIE6, EHSAN ABOUEE MEHRIZI7 AND MOHAMMAD MEHDI BANESHI8 1 Department of Environmental Health Engineering, School of Health, Rafsanjan University of Medical Sciences, Rafsanjan, Iran. 2 Department of Environmental Health Engineering, School of Public Health, Gonabad University of Medical Sciences, Gonabad, Iran. 3 Department of Environmental Health Engineering, School of Health, Torbat Heydariyeh University of Medical Sciences, Torbat Heydariyeh, Iran. 4 Department of Environmental Health Engineering, School of Public Health, Zabol University of Medical Sciences, Zabol, Iran. 5 Research Center for Environmental Determinants of Health (RCEDH), Kermanshah University of Medical Sciences, Kermanshah, Iran. 6 Department of Environmental Health Engineering, School of Public Health, Iranshahr University of Medical Sciences, Iranshahr, Iran. 7 Department of Environmental Health Engineering, Faculty of Public Health, North Khorasan University of Medical sciences, Bojnurd, Iran. 8 Social Determinants of Health Research Center, Yasuj University of Medical Sciences, Yasuj, Iran. (Received 1 February, 2017; accepted 30 July, 2017) ABSTRACT Soil salinity and its exacerbation resulting from water quality effects decrease product quality and cause specific ion toxicity in plants. The present study examined the sodium adsorption ratio (SAR) and sodium soluble percentage (SSP) indicators of groundwater resources to indirectly evaluate the water quality effects on the soil of Sistan and Baluchistan, Iran. For this purpose, 655 samples were collected during nine years from groundwater wells with agricultural land use in fixed sites of the province.
    [Show full text]
  • Species Composition of Phlebotomine Sandflies (Diptera: Psychodidae) in Nikshahr County, South-Eastern Iran
    J Vector Borne Dis 48, September 2011, pp. 159–162 Species composition of Phlebotomine sandflies (Diptera: Psychodidae) in Nikshahr county, south-eastern Iran H. Kassiri1, E. Javadian2 & A.A. Hanafi-Bojd2 1School of Public Health, Ahwaz Jundishapur University of Medical Sciences, Ahwaz; 2Department of Medical Entomology and Vector Control, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran ABSTRACT Background & objectives: Sandflies are reported as the vectors of different kinds of leishmaniasis to human. There are foci of the disease in Iran. The aim of this study was to determine the fauna and species composition of sandflies to find the probable vectors of leishmaniasis in Nikshahr county, south-east of Iran, where cutaneous leishmaniasis is endemic. Methods: Sandflies were collected by sticky paper traps from 20 collection stations located in plain and mountainous area of Nikshahr county. The sex ratio and relative abundance of different species were also determined. Results: A total of 11,455 sandflies revealed 23 species collected and identified. Phlebotomus alexandri, P. sergenti, P. papatasi, P. salehi, and P. keshishiani were the most important vector species found in this study. Interpretation & conclusion: During this survey 13 species are identified for the first time from Nikshahr county—P. bergeroti, P. eleanorae, P. keshishiani, P. halepensis, S. hodgsoni, S. christophersi, S. mervynae, S. dentata, S. dreyfussi, S. iranica, S. africana, S. grekovi and S. palestinensis, while P. keshishiani is an important vector of visceral leishmaniasis in south of Iran. These data demonstrate five vectors of leishmaniasis are active in the study area. Key words Iran; Nikshahr; sandfly; species composition INTRODUCTION and Konarak districts, around the Nikshahr county, Sistan and Baluchistan province10,11.
    [Show full text]
  • Serological Survey of Tularemia Among Butchers and Slaughterhouse Workers in Iran
    Trans R Soc Trop Med Hyg 2014; 108: 516–518 doi:10.1093/trstmh/tru094 Advance Access publication 18 June 2014 Serological survey of tularemia among butchers and slaughterhouse workers in Iran Saber Esmaeilia,b, Behzad Esfandiaria,b, Max Maurinc,d, Mohammad Mehdi Gouyae, SHORT COMMUNICATION Mohammad Reza Shirzadie, Fahimeh Bagheri Amiria,f and Ehsan Mostafavia,b,* aDepartment of Epidemiology, Pasteur Institute of Iran, Tehran, Iran; bResearch Centre for Emerging and Reemerging Infectious Diseases (Akanlu), Pasteur Institute of Iran, Kabudar-Ahang, Hamadan, Iran; cCNR Francisella, Laboratoire de Bacte´riologie, De´partement des Agents Infectieux, Institut de Biologie et de Pathologie, CHU de Grenoble, Universite´ Joseph Fourier, Grenoble, France; dLAPM, CNRS UMR e f EAFC, Grenoble, France; Center of Disease Control (CDC), Ministry of Health, Tehran, Iran; Faculty of Veterinary Medicine, University of Downloaded from Tehran, Tehran, Iran *Corresponding author: Present address: Department of Epidemiology, Pasteur Institute of Iran, 69 Pasteur Ave., Tehran 1316943551, Iran. Tel/Fax: +98 21 66496448; E-mail: [email protected] Received 4 January 2014; revised 29 March 2014; accepted 25 April 2014 http://trstmh.oxfordjournals.org/ Background: Tularemia is a zoonotic disease caused by the Gram-negative bacterium Francisella tularensis. Human infections often occur through manipulation of infected animals or animal carcasses. Methods: In this study, we determined the tularemia seroprevalence in butchers and slaughterhouse workers in 10 counties of Sistan and Baluchestan Province in Iran. Results: A mean seroprevalence of 6.5% for IgG antibodies against F. tularensis was seen. The highest seroposi- tivity rates were observed in the counties of Zabol and Nikhshahr.
    [Show full text]
  • CHAPTER 3 HYDROLOGICAL MODELING 3.1 Introduction 3.2
    The Study on Flood and Debris Flow Supporting Report I (Master Plan) Paper IV in the Caspian Coastal Area Meteo-Hydrology focusing on the Flood-hit Region in Golestan Province CHAPTER 3 HYDROLOGICAL MODELING 3.1 Introduction An integrated and distributed MIKE SHE hydrological model is used to evaluate rainfall-runoff process in the Madarsoo River basin. The model is able to analyze impacts of watershed management practices, land use, soil types, topographic features, flow regulation structures, etc. over the basin on river flows. For this, MIKE SHE model was coupled with MIKE 11 river modeling system to simulate flows in the river system. Inflows and hydrodynamic processes in rivers are taken into consideration for model development. The model computes river flows taking account of overland flow, interflow and base-flow. An integrated and distributed hydrological model MIKE SHE was set up for the Madarsoo River basin for the following reasons: (1) To generate probable or design discharges precisely in the river system to assist on flood control master plan development, (2) To analyze the impacts of watershed management practices and biological measures of flood mitigation by quantifying river flows under these circumstances, and (3) To analyze the impact of incorporation of flood regulation structures like dam in the river system to reduce peak flows. 3.2 MIKE SHE MIKE SHE is an integrated hydrological model because all components of hydrological cycle (precipitation, evapotranspiration, surface flow, infiltration, groundwater flow, etc.) are incorporated into the model. Similarly, and it is also a distributed model because the model can handle spatial and temporal distributions of parameters.
    [Show full text]
  • Microbiostratigraphy of the Lower Cretaceous Strata from the Bararig Mountain, SE Iran
    Revista Mexicana de CienciasMicrobiostratigraphy Geológicas, v. of 29, the núm. Lower 1, 2012,Cretaceous p. 63-75 strata from the Bararig Mountain SE Iran 63 Microbiostratigraphy of the Lower Cretaceous strata from the Bararig Mountain, SE Iran Mahin Rami1, Mohammad Reza Vaziri2, Morteza Taherpour Khalil Abad3,*, Seyed Abolfazl Hosseini4, Ivana Carević5, and Mohsen Allameh6 1 Department of Geology, North-Tehran Branch, Islamic Azad University, Tehran, Iran. 2 Shahid Bahonar Universty, Kerman, Iran. 3 Department of Geology, Mashhad Branch, Islamic Azad University, Mashhad, Iran. Young Researchers Club, Mashhad Branch, Islamic Azad University. 4 Exploration Directorate, National Iranian Oil Company, Tehran, Iran. 5 Faculty of Geography, University of Belgrade, Studentski trg 3/3, 11000 Belgrade, Serbia. 6 Department of Geology, Mashhad Branch, Islamic Azad University, Mashhad, Iran. * [email protected] ABSTRACT The Barremian-Aptian sediments in the Bararig section (Southwest of Kuhbanan) consist of an alternation of marl and limestone. The palaeontological analysis led to identification of twenty seven taxa of benthic foraminifera and algae in the section studied. Diverse assemblages of benthic foraminifera and also the low planktonic/benthic (P/B) ratio show that the sedimentary environment in the study area was oxygenated and shallow. Key words: microbiostratigraphy, palaeoecology, Lower Cretaceous, Bararig section, Kerman Province, Iran. RESUMEN Los sedimentos del Barremiano-Aptiano en la sección Bararig section (al suroeste de Kuhbanan) consisten en una alternancia de margas y calizas. El análisis paleontológico permitió la identificación de 27 taxa de foraminíferos bentónicos y algas en la sección estudidad. Diversas asociaciones de foraminíferos bentónicos y la baja relación de planctónicos/bentónicos (P/B) indica que el ambiente sedimentario en el área de estudio fue oxigenado y somero.
    [Show full text]
  • Bushehr: Land of Sun and Sea Haley Asks for Cooperate with Riyadh Bushehr Province Is One of the 31 Provinces of Decertifying Iran’S Iran
    Tomorrow is ours Today’s Weather Call to prayer time in Isfahan Isfahan Tehran Morning call to prayer : ° ° 05:19:38 24 c 37 c Noon call to prayer : 13:01:16 Ahvaz Evening call to prayer: ° 19:38:02 28 c ° 45 c Qibla Direction Qazvin 17 ° c 37 ° c 18 ° c 34 ° c NasPro-environment e NewspaperFarda Thursday|7September 2017 |No.5491 naslfarda naslefardanews 30007232 WWW.NASLEFARDA.NET Page:23 In The News Tehran Ready to Bushehr: Land of Sun and Sea Haley asks for Cooperate with Riyadh Bushehr province is one of the 31 provinces of decertifying Iran’s Iran. It is in the south of the country, with a long compliance with to Resolve Muslims’ coastline alongside the Persian Gulf. Problems: Zarif With a provincial capital by the same name, JCPOA ranian Foreign Minister Bushehr has nine cities: Bushehr, Dashtestan, Implying the nature of the IMohammad Javad Zarif said the Dashti, Dayyer, Deylam, Jam, Kangan, Genaveh, US administration’s political country is ready to work with all and Tangestan. approach toward nuclear deal Islamic countries, including Saudi Geographically, the province is divided it into with Iran, US Ambassador to Arabia, to help resolve Muslims’ two regions: the plains in the west and southwest, the UN Nikki Haley laid out problems in the Middle East region and the mountainous region in the north and a case for President Donald and the world.“We are ready to northeast. The weather in the former is very warm Trump to step back from the cooperate with Islamic countries and humid, while the latter has a dry and warm Iran nuclear deal.
    [Show full text]
  • Prevalence of Multiple Sclerosis and Environmental Factors in Kerman Province, Iran
    Neurology Asia 2013; 18(4) : 385 – 389 Prevalence of multiple sclerosis and environmental factors in Kerman province, Iran Hossein Ali Ebrahimi MD, Behnaz Sedighi MD Neurology Research Center, Kerman University of Medical Sciences, Kerman, Iran Abstract Objective: In this study we investigated the epidemiology of MS and some related environmental factors in Kerman province, southeastern Iran. Methods: The MS diagnosis was based on the revised Mc-Donald criteria. The patients were those registered at the Iran MS society, Kerman branch; those in the MS registration centers of Kerman and Rafsanjan University of Medical Sciences, and the Department of Neurology at Shafa Medical Center were studied. Results: The prevalence of MS was 31.5 per 100,000 population in Kerman province, and 57.3 per 100,000 population in Kerman city. The male to female ratio was 1:3. Average age at onset was 28.35 years, and 3.9% of cases were early onset at ≤16 years of age. A linear relationship was observed between prevalence and average environmental temperature as prevalence tended to be lower in areas where the annual average temperature was higher. However, in the town of Shahrbabak which has cold weather, prevalence was low, which might be related to the presence of copper in this area. Average disability was 4.5± 1.9 (4.83 ± 1.9 in men and 4.26 ± 1.8 in women, p=0.0035) on the Kurtzke Disability Status Scale. The mean duration of illness was 8.2 ± 1 year. Almost all patients in this study used beta-interferon for a period of at least 4 years.
    [Show full text]