Shirzaei, M.; Walter, T.R.; Nankali, H.R.; Holohan, E.P. (March 2011). "Gravity-driven deformation of Damavand volcano, Iran, detected through InSAR time series". Geology. 39 (3): 251–254. Bibcode:2011Geo....39..251S. doi:10.1130/G31779.1.
Mokhtari, Mohammad (February 2010). "Earthquake prediction activities and Damavand earthquake precursor test site in Iran". Natural Hazards. 52 (2): 351–368. doi:10.1007/s11069-009-9375-2. S2CID128613893.
Moradi, Anvar; Maghsoudi, Mehran; Moghimi, Ebrahim; Yamani, Mojtaba; Rezaei, Nasser (June 2021). "A Comprehensive Assessment of Geomorphodiversity and Geomorphological Heritage for Damavand Volcano Management, Iran". Geoheritage. 13 (2): 39. doi:10.1007/s12371-021-00551-1. S2CID233303860.
Noroozi, Jalil; Talebi, Amir; Doostmohammadi, Moslem (2020). "The Alborz Mountain Range". Plant Biogeography and Vegetation of High Mountains of Central and South-West Asia. Plant and Vegetation. 17: 117–149. doi:10.1007/978-3-030-45212-4_4. ISBN978-3-030-45211-7. S2CID226738400.
Mokhtari, Mohammad (February 2010). "Earthquake prediction activities and Damavand earthquake precursor test site in Iran". Natural Hazards. 52 (2): 351–368. doi:10.1007/s11069-009-9375-2. S2CID128613893.
Moradi, Anvar; Maghsoudi, Mehran; Moghimi, Ebrahim; Yamani, Mojtaba; Rezaei, Nasser (June 2021). "A Comprehensive Assessment of Geomorphodiversity and Geomorphological Heritage for Damavand Volcano Management, Iran". Geoheritage. 13 (2): 39. doi:10.1007/s12371-021-00551-1. S2CID233303860.
Noroozi, Jalil; Talebi, Amir; Doostmohammadi, Moslem (2020). "The Alborz Mountain Range". Plant Biogeography and Vegetation of High Mountains of Central and South-West Asia. Plant and Vegetation. 17: 117–149. doi:10.1007/978-3-030-45212-4_4. ISBN978-3-030-45211-7. S2CID226738400.
2009 U.S. military topographic mapping gives 18,365 feet (5,598 meters) but states in the margin that all elevations are derived from SRTM. A summitpost map is based on the Persian language 1999 Iranian government 1:50,000 mapping which plots two 5620 contour circles, with a 5628 m spot height for the highest spot on the crater rim (WNW side) and 5626 m for the highest point on the southeast side (and a 5610 m spot height in the due north position.) This is supported by GPSevidence and SRTM data.
2009 U.S. military topographic mapping gives 18,365 feet (5,598 meters) but states in the margin that all elevations are derived from SRTM. A summitpost map is based on the Persian language 1999 Iranian government 1:50,000 mapping which plots two 5620 contour circles, with a 5628 m spot height for the highest spot on the crater rim (WNW side) and 5626 m for the highest point on the southeast side (and a 5610 m spot height in the due north position.) This is supported by GPSevidence and SRTM data.
2009 U.S. military topographic mapping gives 18,365 feet (5,598 meters) but states in the margin that all elevations are derived from SRTM. A summitpost map is based on the Persian language 1999 Iranian government 1:50,000 mapping which plots two 5620 contour circles, with a 5628 m spot height for the highest spot on the crater rim (WNW side) and 5626 m for the highest point on the southeast side (and a 5610 m spot height in the due north position.) This is supported by GPSevidence and SRTM data.