Abstract
The exploration of the surface geology of Venus has been hampered by its
inhospitable conditions and thick and opaque atmosphere. Fundamental
properties, such as crustal composition and heterogeneity remain poorly
constrained. Multiple analytical techniques are required to better
understand its geology. A spectroscopy-based study laboratory study of
the emissivity properties of Venus-relevant igneous rocks, measured at
440 °C by Dyar et al. (2020b; https://doi.org/10.1029/2020GL090497)
shows that the use of multiple atmospheric windows in the 1-μm region
can provide strong constraints on the FeO content of Venus-relevant
igneous rocks, and by extension, the type of igneous rock. These results
will improve our ability to map the surface geology of Venus remotely.