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 The term sinkhole refers to different morphologies that have a in common the processes of depleting materials of different type into an area within the morphology itself (Waltham, 2005). On Earth the formation of sinkholes is related to a cluster of processes, and could occur in various type of grounds, furthermore presence of water has a key-role. On other terrestrial planets, although the mechanisms for the origin of these landforms are similar, if not the same, with the main difference that as far as we know there is no liquid water that can be involved in the formation of these landforms, and therefore the mechanisms and processes are still debated. Several authors suggested the hypothesis of formation from lava tube collapses (Greeley, 1971; Cruikshank and Wood, 1972; Carr et al., 1977), others imply different volcanic and tectonic processes involved (Wyrick et al., 2004). In karst environment, sinkholes are called "doline" and are more related to processes connected to dissolution of carbonates and evaporites, while in volcanic environments they are called "pit craters" and are more related to process connected to lava tube stability. The term sinkhole refers to different morphologies that have a in common the processes of depleting materials of different type into an area within the morphology itself (Waltham, 2005). On Earth the formation of sinkholes is related to a cluster of processes, and could occur in various type of grounds, furthermore presence of water has a key-role. On other terrestrial planets, although the mechanisms for the origin of these landforms are similar, if not the same, with the main difference that as far as we know there is no liquid water that can be involved in the formation of these landforms, and therefore the mechanisms and processes are still debated. Several authors suggested the hypothesis of formation from lava tube collapses (Greeley, 1971; Cruikshank and Wood, 1972; Carr et al., 1977), others imply different volcanic and tectonic processes involved (Wyrick et al., 2004). In karst environment, sinkholes are called "doline" and are more related to processes connected to dissolution of carbonates and evaporites, while in volcanic environments they are called "pit craters" and are more related to process connected to lava tube stability.
  
-Doline, pit craters, pit chains and lava tubes are well-known morphologies on Earth (Lauterbach et al., 2019; Díaz Michelena et al., 2020), Mars (Carr, 1977; Cushing et al., 2007; Cushing, 2012; Cushing et al., 2015), Moon (Chappaz et al., 2017), Venus (Sawford et al., 2015), Mercury (Gillis-Davis et al., 2009), and Ganymede and Saturnian satellites (Barlow et al., 2017). Studies suggested the presence of sinkholes both in karst (Baioni and Tramontana, 2015, 2016) and volcanic terrains of Mars (Sauro et al., 2020a), in particular thanks to HiRISE and CTX cameras on board MRO more than 1000 potential cave entrances have been identified on Mars (Cushing, 2012), while on Moon thanks to SELENE and LRO cameras more than 300 (Wagner and Robinson, 2014).+Doline, pit craters, pit chains and lava tubes are well-known morphologies on Earth (Lauterbach et al., 2019; Díaz Michelena et al., 2020), Mars (Carr, 1977; Cushing et al., 2007; Cushing, 2012; Cushing et al., 2015), Moon (Chappaz et al., 2017), Venus (Sawford et al., 2015), Mercury (Gillis-Davis et al., 2009), and Ganymede and Saturnian satellites (Barlow et al., 2017). Studies suggested the presence of sinkholes both in karst (Baioni and Tramontana, 2015, 2016) and volcanic terrains of Mars (Sauro et al., 2020), in particular thanks to HiRISE and CTX cameras on board MRO more than 1000 potential cave entrances have been identified on Mars (Cushing, 2012), while on Moon thanks to SELENE and LRO cameras more than 300 (Wagner and Robinson, 2014).
  
-In the framework of geological exploration of terrestrial planets like Earth, those landforms - being a potential direct access to subsurface - are one of the most promising environments where to focus the research of valuable data of different kind, from planet's geological stratigraphy (Lauterbach et al., 2019; Sauro et al., 2020a) to valuable ore deposits (Blamont, 2014). They could also provide access to cave entrances where it is possible to gather even more data since caves are a natural shelter from cosmic radiation, and thus potentially provide a feasible environment for searching of life traces (Léveillé and Datta, 2010; Cushing, 2012), for the development of future human outposts (Cushing, 2012a; Blamont, 2014; Carrer et al., 2018), and for the planning of future missions (Hare et al., 2018).+In the framework of geological exploration of terrestrial planets like Earth, those landforms - being a potential direct access to subsurface - are one of the most promising environments where to focus the research of valuable data of different kind, from planet's geological stratigraphy (Lauterbach et al., 2019; Sauro et al., 2020a) to valuable ore deposits (Blamont, 2014). They could also provide access to cave entrances where it is possible to gather even more data since caves are a natural shelter from cosmic radiation, and thus potentially provide a feasible environment for searching of life traces (Léveillé and Datta, 2010; Cushing, 2012), for the development of future human outposts (Cushing, 2012; Blamont, 2014; Carrer et al., 2018), and for the planning of future missions (Hare et al., 2018).
  
 Detecting, mapping, and describing sinkhole-like landform is a challenging process since a set of tedious tasks must be conducted manually, from data collection to manual analysis, mapping using Geographic Information Systems (GIS) software and extracting morphometric parameters. Detecting, mapping, and describing sinkhole-like landform is a challenging process since a set of tedious tasks must be conducted manually, from data collection to manual analysis, mapping using Geographic Information Systems (GIS) software and extracting morphometric parameters.
  
-For Mars, there exists a downloadable database of more than 1000 cave candidates (Cushing, 2012) and there are several other publications that analyse possible cave entrances on Mars and Moon (Cushing et al., 2007; Hong, Yi and Kim, 2014; Jung et al., 2016; Sauro et al., 2020a). Also, for the Moon there is an online database, but it is not downloadable. Both of the databases are region specific or with preferred planetary spots, are created with manual or semi-automated methods and are not updated that regularly. Starting from literature, five classes have been identified:+For Mars, there exists a downloadable database of more than 1000 cave candidates (Cushing, 2012) and there are several other publications that analyse possible cave entrances on Mars and Moon (Cushing et al., 2007; Sauro et al., 2020). Also, for the Moon there is an online database, but it is not downloadable. Both of the databases are region specific or with preferred planetary spots, are created with manual or semi-automated methods and are not updated that regularly. Starting from literature, five classes have been identified:
  
   * Type-1: Skylight with possible cave entrance, flat rim, no ejecta blankets, almost perfect circular shape and no visible bottom.   * Type-1: Skylight with possible cave entrance, flat rim, no ejecta blankets, almost perfect circular shape and no visible bottom.
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   * PDS Geosciences Nodes (2020) PDS Geosciences Node Orbital Data Explorer (ODE). Available at: [[https://ode.rsl.wustl.edu/|https://ode.rsl.wustl.edu/]] (Accessed: 10 November 2020).   * PDS Geosciences Nodes (2020) PDS Geosciences Node Orbital Data Explorer (ODE). Available at: [[https://ode.rsl.wustl.edu/|https://ode.rsl.wustl.edu/]] (Accessed: 10 November 2020).
   * Sauro, F. et al. (2020a) ‘Lava tubes on Earth, Moon and Mars: A review on their size and morphology revealed by comparative planetology’, Earth-Science Reviews 209, 103288. doi: 10.1016/j.earscirev.2020.103288.   * Sauro, F. et al. (2020a) ‘Lava tubes on Earth, Moon and Mars: A review on their size and morphology revealed by comparative planetology’, Earth-Science Reviews 209, 103288. doi: 10.1016/j.earscirev.2020.103288.
-  * SauroFet al. (2020bLava tubes on Earth, Moon and Mars: A review on their size and morphology revealed by comparative planetology’Earth-Science Reviews 209,3–4. doi: 10.1016/j.earscirev.2020.103288.+  * LéveilléRJ., and S. Datta (2010'Lava tubes and basaltic caves as astrobiological targets on Earth and Mars: A review'Planet. Space Sci. 58, 592-598, doi:10.1016/j.pss.2009.06.004.
   * Wyrick, D. et al. (2004) ‘Distribution, morphology, and origins of Martian pit crater chains’, Journal of Geophysical Research E: Planets, 109(6). doi: 10.1029/2004JE002240.   * Wyrick, D. et al. (2004) ‘Distribution, morphology, and origins of Martian pit crater chains’, Journal of Geophysical Research E: Planets, 109(6). doi: 10.1029/2004JE002240.
   * Waltham, T. (2005) ‘Sinkhole classification and nomenclature’, in Sinkholes and Subsidence. doi: 10.1007/3- 540-26953-3\_2.   * Waltham, T. (2005) ‘Sinkhole classification and nomenclature’, in Sinkholes and Subsidence. doi: 10.1007/3- 540-26953-3\_2.
 +  * Wagner, R. V. and Robinson, M. S. (2014) 'Distribution, formation mechanisms, and significance of lunar pits', Icarus 237, 52-60, doi:10.1016/j.icarus.2014.04.002.
   * Nodjoumi, G., DeepLandforms-YOLOv5. Available online: [[https://zenodo.org/record/4430015|https://zenodo.org/record/4430015]] (accessed on 15 December 2021).   * Nodjoumi, G., DeepLandforms-YOLOv5. Available online: [[https://zenodo.org/record/4430015|https://zenodo.org/record/4430015]] (accessed on 15 December 2021).
  
  
science_cases/gmap_science_cases/landforms.1666261741.txt.gz · Last modified: 2022/10/20 12:29 by admin