Ramsar, Iran Explained

Official Name:Ramsar
Native Name:Persian: رامسر
Motto:The Paradise on Earth (Behesht-e rooy-e Zamin)
Settlement Type:City
Coordinates:36.9225°N 50.6431°W
Pushpin Map:Iran#Caspian Sea
Pushpin Label Position:bottom
Pushpin Map Caption:Location of Ramsar in Iran
Coordinates Footnotes:[1]
Subdivision Type:Country
Leader Title:Mayor (Ŝahrdār)
Leader Name:Ali Aminishad [2]
Established Date:1943
Population Total:35997
Population As Of:2016
Utc Offset:+3:30
Elevation M:-21

Ramsar (Persian: رامسر) is a city in the Central District of Ramsar County, Mazandaran province, Iran, serving as capital of both the county and the district.[3]

History

In 1971, Ramsar hosted the Ramsar Convention on Wetlands of International Importance, also known as the Convention on Wetlands. This international treaty for the conservation and sustainable use of designated wetlands (which under the treaty are known as Ramsar sites) was signed in and named after the city of Ramsar.[4]

Overview

Ramsar lies on the Caspian Sea. It was also known as Sakhtsar in the past. The climate of Ramsar is hot and humid in summer and mild in winter. The proximity of the forest and the sea in this city attracts tourists in all seasons. Ramsar has an airport. The city of Ramsar was a small village in western Mazandaran until the Qajar period, and during the first Pahlavi period, with the rule of Reza Shah and with the support of the government, it became a beautiful city with many tourist facilities.

Ramsar is the westernmost county and city in Mazandaran. It borders the Caspian Sea to the north, Rudsar county of Gilan province to the west, Qazvin Province to the south, and Tonekabon to the east.

Demographics

Language and ethnicity

The Gilaks form the majority of the city's population. Their dialect of Gilaki is similar to that found in eastern Gilan and belongs to the Eastern or Bie-Pish branch.[5] [6] [7]

Population

At the time of the 2006 National Census, the city's population was 31,659 in 9,241 households.[8] The following census in 2011 counted 32,294 people in 10,432 households.[9] The 2016 census measured the population of the city as 35,997 people in 12,153 households.[10]

Geography

Climate

Ramsar has a humid subtropical climate (Köppen: Cfa, Trewartha: Cf), with warm, humid summers and cool, damp winters. Ramsar is the cloudiest city in Iran, as well as one of the cloudiest cities of this latitude, with annual sunshine of around 1582 hours. Northern Iran, as well as most portions of Iran, is separated by mountains. As a result, the air in Tehran is very dry. When driving to Ramsar from Tehran, one drives up the mountains until arriving at a tunnel. On passing through this tunnel and coming out the other side, the environment is very different; it is more humid and green due to moisture from the Caspian Sea, and this abundance of mist and rain is part of the attraction for tourists from the desert zones of Iran.[11]

Radioactivity

Ramsar's Talesh Mahalleh district is the most radioactive inhabited area known on Earth, due to nearby hot springs and building materials originating from them.[12] A combined population of 2,000 residents from this district and other high radiation neighborhoods receive an average radiation dose of 10 mSv per year, ten times more than the ICRP-recommended limit for exposure to the public from artificial sources.[13]

Record levels were found in a house where the effective radiation dose due to external radiation was 131 mSv/a, and the committed dose from radon was 72 mSv/a.[14] This unique case is over 80 times higher than the world average background radiation.

One of the most commonly used models of radiation-induced cancer posits that the risk rises linearly with dose at a rate of 5% per Sv.[15] If this linear no-threshold model is correct, it should be possible to observe an increased incidence of cancer in Ramsar through careful long-term studies currently underway. Early anecdotal evidence from local doctors and preliminary cytogenetic studies suggested that there may be no such harmful effect, and possibly even a radio-adaptive effect.[16] More recent epidemiological data show a slightly reduced lung cancer rate[17] and non-significantly elevated morbidity, but the small size of the population (only 1800 inhabitants in the high-background areas) will require a longer monitoring period to draw definitive conclusions.

Furthermore, there are questions regarding possible non-cancer effects of the radiation background. An Iranian study has shown that people in the area have a significantly higher expression of CD69 gene and also a higher incidence of stable and unstable chromosomal aberrations.[18] Chromosomal aberrations have been found in other studies. Pending further study, the potential health risks had moved scientists in 2001–02 to call for relocation of the residents and regulatory control of new construction.[19] [20]

The radioactivity is due to the local geology. Underground water dissolves radium in uraniferous igneous rock and carries it to the surface through at least nine known hot springs. These are used as spas by locals and tourists. Some of the radium precipitates into travertine, a form of limestone, and the rest diffuses into the soil, where it is absorbed by crops and mixes with drinking water. Residents have unknowingly used the radioactive limestone as a building material for their homes. The stone irradiates the inhabitants and generates radon gas which is usually seen to promote lung cancer. Crops contribute 72 μSv/yr to a critical group of 50 residents.[21]

Environmental protection

The Convention on Wetlands, signed in Ramsar in 1971, is an intergovernmental treaty which provides the framework for national action and international cooperation for the conservation and wise use of wetlands and their resources. There are presently 160 contracting parties to the convention, with 1920 wetland sites, totaling, designated for inclusion in the Ramsar List of Wetlands of International Importance. Presently, there are 160 contracting parties, up from 119 in 2000 and from 18 initial signatory nations in 1971.[22] Signatories meet every three years as the Conference of the Contracting Parties (COP), the first held in Cagliari, Italy, in 1980. Amendments to the original convention have been agreed to in Paris (in 1982) and Regina, Canada (in 1987).[23]

Tourism

Ramsar is a popular sea resort for Iranian tourists. The town also offers hot springs, the green forests of the Alborz Mountains, the vacation palace of the last Shah, and the Hotel Ramsar. 27km (17miles) south of Ramsar and above sea level in the Alborz mountains is Javaher Deh village, which is an important tourist attraction in Ramsar county. The road from Ramsar to Javaher Deh connects the city to Safarood forest park.[24]

Twin towns and sister cities

Ramsar is twinned with:

Notable people

See also

External links

Notes and References

  1. ((OpenStreetMap contributors)) . Ramsar, Ramsar County . . 28 May 2023 . 28 May 2023 . fa.
  2. Web site: بازارچه سنتی رامسر به زودی راه‌اندازی می‌شود. September 1, 2023. ایمنا.
  3. Web site: Approval of the organization and chain of citizenship of the elements and units of the divisions of Mazandaran province, centered in Sari city . fa . Lamtakam . https://web.archive.org/web/20240114003543/https://lamtakam.com/law/council_of_ministers/113042 . Ministry of Interior, Defense Political Commission of the Government Council . Habibi . Hassan . 14 January 2024 . 21 June 1369 . 14 January 2024.
  4. Web site: The Ramsar Convention and its Mission . dead . https://web.archive.org/web/20160409053942/http://ramweb-uat.neox24.ch/about/the-ramsar-convention-and-its-mission . 9 April 2016 . 11 October 2016.
  5. Web site: Welcome to Encyclopaedia Iranica .
  6. Web site: آموزش لهجه گیلکی رامسری(درس 10) .
  7. Web site: تنکابن.
  8. Web site: Census of the Islamic Republic of Iran, 1385 (2006) . 02 . fa . The Statistical Center of Iran . AMAR . 25 September 2022 . https://web.archive.org/web/20110920090640/http://www.amar.org.ir/DesktopModules/FTPManager/upload/upload2360/newjkh/newjkh/02.xls . Excel . 20 September 2011.
  9. Web site: Census of the Islamic Republic of Iran, 1390 (2011) . 02 . fa . The Statistical Center of Iran . Syracuse University . https://web.archive.org/web/20230119182058/https://irandataportal.syr.edu/wp-content/uploads/Mazandaran.xls . 19 January 2023 . 19 December 2022 . Excel.
  10. Web site: Census of the Islamic Republic of Iran, 1395 (2016) . 02 . fa . The Statistical Center of Iran . AMAR . 19 December 2022 . https://web.archive.org/web/20211007110909/https://www.amar.org.ir/Portals/0/census/1395/results/abadi/CN95_HouseholdPopulationVillage_02.xlsx . Excel . 7 October 2021.
  11. Web site: Iran's Caspian Coast – Memories From a 1984 Journey. Iran’s Caspian Coast – Memories From a 1984 Journey. 2021-11-15. 2021-11-17. https://web.archive.org/web/20211117145429/https://caspianpost.com/en/post/culture/irans-caspian-coast-memories-from-a-1984-journey. dead.
  12. Book: Selinus. Olle . Finkelman. Robert B. . Centeno. Jose A. . Medical Geology: A Regional Synthesis. 10 November 2012 . 14 January 2011. Springer . 978-90-481-3429-8 . 162–165.
  13. Mortazavi . S.M.J. . P.A. Karamb . Apparent lack of radiation susceptibility among residents of the high background radiation area in Ramsar, Iran: can we relax our standards? . Radioactivity in the Environment . 2005. 7. 1141–1147 . 1569-4860. 10.1016/S1569-4860(04)07140-2. 9780080441375 .
  14. Hendry. Jolyon H. Simon, Steven L . Wojcik, Andrzej . Sohrabi, Mehdi . Burkart, Werner . Cardis, Elisabeth . Laurier, Dominique . Tirmarche, Margot . Hayata, Isamu . Human exposure to high natural background radiation: what can it teach us about radiation risks?. Journal of Radiological Protection. 1 June 2009. 29. 2A. A29–A42. 10.1088/0952-4746/29/2A/S03 . 19454802 . 1 December 2012 . 4030667. 2009JRP....29...29H.
  15. Web site: Gonzalez . Abel . February 1994 . Radiation Safety: New International Standards . International Atomic Energy Agency.
  16. Ghiassi-nejad. M. Mortazavi, SM . Cameron, JR . Niroomand-rad, A . Karam, PA . Very high background radiation areas of Ramsar, Iran: preliminary biological studies.. Health Physics. January 2002 . 82 . 1 . 87–93 . 11769138 . 11 November 2012 . 10.1097/00004032-200201000-00011. 26685238.
  17. Mortazavi . S.M.J. . Ghiassi-Nejad, M. . Rezaiean, M. . Cancer risk due to exposure to high levels of natural radon in the inhabitants of Ramsar, Iran. High Levels of Natural Radiation and Radon Areas: Radiation Dose and Health Effects . 2005 . 1276 . 436–437 . 10.1016/j.ics.2004.12.012.
  18. 15063540 . 10.1016/j.jenvrad.2003.12.001 . 74 . 1–3 . Long-term immune and cytogenetic effects of high level natural radiation on Ramsar inhabitants in Iran . 2004 . J Environ Radioact . 107–16. Ghiassi-Nejad . M. . Zakeri . F. . Assaei . R.Gh. . Kariminia . A. .
  19. Ghiassi-Nejad. M.. S. M. J. Mortazavi . M. Beitollahi . R. Assaie . A. Heidary . R. Varzegar . F. Zakeri . M. Jafari . Very High Background Radiation Areas (VHBRAs) of Ramsar: Do We Need Any Regulations to Protect the Inhabitants?. 34th Annual Midyear Meeting, "Radiation Safety and ALARA Considerations for the 21st Century", Regulatory Considerations Session. Anaheim, CA. 2001.
  20. Karam. P.A. Mortazavi, S.M.J . Ghiassi-Nejad, M . Ikushima, T . Cameron, J.R . Niroomand-rad, A . ICRP evolutionary recommendations and the reluctance of the members of the public to carry out remedial work against radon in some high-level natural radiation areas. Radiation and Homeostasis. 2002. 1236. 35–37. 10.1016/S0531-5131(01)00765-8.
  21. Ghiassi-Nejad. M. Beitollahi, MM . Asefi, M . Reza-Nejad, F . Exposure to (226)Ra from consumption of vegetables in the high level natural radiation area of Ramsar-Iran.. Journal of Environmental Radioactivity. 2003. 66. 3. 215–25. 12600755. 10.1016/S0265-931X(02)00108-X.
  22. Web site: 2011-03-07.
  23. Web site: History of the Ramsar Convention Ramsar. www.ramsar.org. en. 2017-10-08.
  24. Web site: July 4, 2022 . Ramsar city in Mazandaran province . July 5, 2023 . mazbus.com . Persian.