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Planetary science

Planetary science (or more rarely, planetology) is the scientific study of planets (including Earth), celestial bodies (such as moons, asteroids, comets) and planetary systems (in particular those of the Solar System) and the processes of their formation. It studies objects ranging in size from micrometeoroids to gas giants, aiming to determine their composition, dynamics, formation, interrelations and history. It is a strongly interdisciplinary field, which originally grew from astronomy and Earth science,[1] and now incorporates many disciplines, including planetary geology, cosmochemistry, atmospheric science, physics, oceanography, hydrology, theoretical planetary science, glaciology, and exoplanetology.[1] Allied disciplines include space physics, when concerned with the effects of the Sun on the bodies of the Solar System, and astrobiology.

There are interrelated observational and theoretical branches of planetary science. Observational research can involve combinations of space exploration, predominantly with robotic spacecraft missions using remote sensing, and comparative, experimental work in Earth-based laboratories. The theoretical component involves considerable computer simulation and mathematical modelling.


Planetary scientists are generally located in the astronomy and physics or Earth sciences departments of universities or research centres, though there are several purely planetary science institutes worldwide. Generally, planetary scientists study one of the Earth sciences, astronomy, astrophysics, geophysics, or physics at the graduate level and concentrate their research in planetary science disciplines. There are several major conferences each year, and a wide range of peer reviewed journals. Some planetary scientists work at private research centres and often initiate partnership research tasks.

Impact features (, craters)[7]

multi-ringed basins

Volcanic and tectonic features (lava flows, fissures, )[8]

rilles

Glacial features

[7]

Aeolian features

[8]

– erosional effects generated by the harsh environment of space (continuous micrometeorite bombardment, high-energy particle rain, impact gardening). For example, the thin dust cover on the surface of the lunar regolith is a result of micrometeorite bombardment.

Space weathering

Hydrological features: the liquid involved can range from water to and ammonia, depending on the location within the Solar System. This category includes the study of paleohydrological features (paleochannels, paleolakes).[9]

hydrocarbon

In 's 1965 Science Fiction Novel Dune, the major secondary character Liet-Kynes serves as the "Imperial Planetologist" for the fictional planet Arrakis, a position he inherited from his father Pardot Kynes.[12] In this role, a planetologist is described as having skills of an ecologist, geologist, meteorologist, and biologist, as well as basic understandings of human sociology.[12][13] The planetologists apply this expertise to the study of entire planets.[12][13]In the Dune series, planetologists are employed to understand planetary resources and to plan terraforming or other planetary-scale engineering projects.[12][13] This fictional position in Dune has had an impact on the discourse surrounding planetary science itself and is referred to by one author as a "touchstone" within the related disciplines.[14] In one example, a publication by Sybil P. Seitzinger in the journal Nature opens with a brief introduction on the fictional role in Dune, and suggests we should consider appointing individuals with similar skills to Liet-Kyenes to help with managing human activity on Earth.[15]

Frank Herbert

(DPS) of the American Astronomical Society

Division for Planetary Sciences

American Geophysical Union

Meteoritical Society

Europlanet

Areography (geography of Mars)

Planetary cartography

Planetary coordinate system

– study of the surface and physical features of the Moon

Selenography

Theoretical planetology

Timeline of Solar System exploration

Carr, Michael H., Saunders, R. S., Strom, R. G., Wilhelms, D. E. 1984. The Geology of the Terrestrial Planets. NASA.

Morrison, David. 1994. Exploring Planetary Worlds. W. H. Freeman.  0-7167-5043-0

ISBN

Hargitai H et al. (2015) Classification and Characterization of Planetary Landforms. In: Hargitai H (ed) Encyclopedia of Planetary Landforms. Springer. :10.1007/978-1-4614-3134-3 https://link.springer.com/content/pdf/bbm%3A978-1-4614-3134-3%2F1.pdf

doi

Hauber E et al. (2019) Planetary geologic mapping. In: Hargitai H (ed) Planetary Cartography and GIS. Springer.

Page D (2015) The Geology of Planetary Landforms. In: Hargitai H (ed) Encyclopedia of Planetary Landforms. Springer.

Rossi, A.P., van Gasselt S (eds) (2018) Planetary Geology. Springer

(articles)

Planetary Science Research Discoveries

(world's largest space-interest group: see also their active news blog)

The Planetary Society

(PSI-published professional newsletter, weekly distribution)

Planetary Exploration Newsletter

(professional networking and news)

Women in Planetary Science