{{Short description|Martian dune field}} {{use dmy dates|date=August 2017}} [[File:Distribution of dune fields in the Planum Boreum region.PNG|thumb|250px|[[Stereographic projection]] map showing the density distribution of dune fields in the Planum Boreum region. The grey regions are lower density fields. The four densest dune fields are shown in black. The [[prime meridian]] is at the bottom of the map. Siton Undae is shown on the southernmost black patch left, between longitude 291.38°E to 301.4°E (43.98°W – 57.08°W).]] '''Siton Undae''' is one of the largest and densest [[dune field]]s in the vicinity of [[Planum Boreum]], the [[Mars|Martian]] northern polar ice-cap.<ref name="Tanaka">{{cite journal|author1=K. L. Tanaka, R. K. Hayward|title=MARS' NORTH CIRCUM-POLAR DUNES: DISTRIBUTION, SOURCES, AND MIGRATION HISTORY.|url=http://www.lpi.usra.edu/meetings/dunes2008/pdf/7012.pdf|publisher=Planetary Dunes Workshop: A Record of Climate Change (2008)}}</ref> It is named after one of the [[classical albedo features on Mars]].<ref name="USGS">{{cite web|title=Siton Undae|url=https://planetarynames.wr.usgs.gov/Feature/14280?__fsk=-1185990397|website=Gazetteer of Planetary Nomenclature|publisher=[[USGS]]}}</ref> Its name was officially approved by [[IAU]] on 20 March 2007. It extends from latitude 73.79°N to 77.5°N and from longitude 291.38°E to 301.4°E (43.98°W – 57.08°W).<ref name="USGS"/> Its centre is located at latitude 75.55°N, longitude 297.28E (62.72°W), and has a diameter of {{convert|222.97|km}}.<ref name="USGS"/>
Siton Undae is part of a cluster of sand-seas (undae), which along with [[Hyperboreae Undae|Hyperboreae]], and [[Abalos Undae]], overlay the lowlands of [[Vastitas Borealis]].<ref name="Icarus">{{cite journal|author1=Kenneth L. Tanaka, J. Alexis P. Rodriguez, James A. Skinner Jr., Mary C. Bourke, Corey M. Fortezzo, Kenneth E. Herkenhoff, Eric J. Kolb, Chris H. Okubo|title=North polar region of Mars: Advances in stratigraphy, structure, and erosional modification|journal=Icarus|date=28 February 2008|volume=196|issue=2|pages=318–358|doi=10.1016/j.icarus.2008.01.021|url=https://www.researchgate.net/publication/235137809|access-date=25 August 2017|ref=YICAR 8602|bibcode=2008Icar..196..318T}}</ref> Siton Undae superposes the deepest [[Depression (geology)|basin]] of the northern region of Mars and contains amorphous [[silica]]-coated glass-rich dunes.<ref name="Horgan">{{cite journal|author1=Horgan, B.; Bell, J. F.|title=Acid Alteration of Glass-Bearing Materials: Formation of a Major Martian Surface Type|journal=AGU Fall Meeting Abstracts |date=December 2009|volume=2009 |publisher=American Geophysical Union, Fall Meeting 2009, abstract #P13C-07|bibcode=2009AGUFM.P13C..07H}}</ref> It is theorised that the formation of Siton Undae may have occurred during early erosion incidents of the Planum Boreum cavi unit, and that [[Rupes Tenuis]] may also have been a sand source, although it is now depleted. Other dune fields sharing the same formation history include [[Olympia Undae|Olympia]] and [[Aspledon Undae]].<ref name="Icarus"/>
Siton Undae is the southernmost of the densest northern circumpolar dune fields and its presence indicates effective sand transport and accumulation from sand sources to the north and west. Siton Undae, along with [[Abalos Undae|Abalos]], and Hyperboreae Undae, is also a tributary to less dense dune fields that continue all the way to the Martian [[prime meridian]].<ref name="Tanaka"/>
==Dune characteristics== [[File:PIA20454 Siton Undae.jpg |thumb|300px|Siton Undae]] Spectral analysis of the dunes of the circumpolar [[Erg (landform)|erg]]s, including Siton Undae, using the OMEGA instrument on board the European [[Mars Express]] orbiter, indicates that 80 to 90 percent of these sands are composed of [[volcanic glass]] produced by eruptions of volcanoes situated in Martian glaciers. These ratios of glass and crystalline material are similar to those obtained in [[Iceland]] from eruptions of volcanoes below the ice.<ref name="de Vet">{{cite web|author1=de Vet, S. J.|title=When the glacier left the volcano: Behaviour and fate of glaciovolcanic glass in different planetary environments|url=https://pure.uva.nl/ws/files/1521397/122651_thesis.pdf|website=Thesis|publisher=University of Amsterdam|date=2013|pages=16–17}}</ref> It is also theorised that significant amounts of granular glass may have been transferred to Vastitas Borealis, and Siton Undae, by catastrophic floods originating from [[Chryse Planitia]], [[Valles Marineris]], [[Juventae Chasma]], and the southern [[Acidalia Planitia|Acidalia]] region of Mars.<ref name="de Vet"/>
The dunes of Siton Undae contain amorphous [[silica]]-coated glass-rich sand. The lack of evidence for the presence of volcanoes in the region of Planum Boreum, as well as the absence of evidence of any large-scale melt deposits due to crater impact, suggests that these silica-coated deposits may have formed by alteration of the basaltic sands through acidic action. Further, it is theorised that acidic alteration of glassy deposits may have been a common conversion mechanism on Mars, especially at high latitudes.<ref name="Horgan"/>
==Images from THEMIS== <gallery widths="200px" heights="200px"> File:PIA18260 Siton Undae.jpg |Dunes of Siton Undae from NASA's [[Thermal Emission Imaging System]] (THEMIS) File:PIA20454 Siton Undae close up.jpg|Siton Undae close up from NASA's [[Thermal Emission Imaging System]] (THEMIS) </gallery> {{clear}}
== See also == * [[Hagal dune field]] * [[Nili Patera dune field]] * [[Ogygis Undae]] {{clear}}
== References == {{reflist|30em}}
{{Geography of Mars}} {{Portal bar|Solar System}}
[[Category:Dunes on Mars]] [[Category:Mare Boreum quadrangle]]