Among Uranus's moons, Titania is intermediate in brightness between the dark Oberon and Umbriel and the bright Ariel and
Miranda. Its surface shows a strong
opposition surge: its reflectivity decreases from 35% at a phase angle of 0° (
geometrical albedo) to 25% at an angle of about 1°. Titania has a relatively low
Bond albedo of about 17%. Its surface is generally slightly red in color, but less red than that of
Oberon. However, fresh impact deposits are bluer, while the smooth plains situated on the leading hemisphere near
Ursula crater and along some grabens are somewhat redder. There may be an asymmetry between the leading and trailing hemispheres; the former appears to be redder than the latter by 8%. However, this difference is related to the smooth plains and may be accidental. The reddening of the surfaces probably results from
space weathering caused by bombardment by charged particles and
micrometeorites over the age of the
Solar System. However, the color asymmetry of Titania is more likely related to accretion of a reddish material coming from outer parts of the Uranian system, possibly, from
irregular satellites, which would be deposited predominately on the leading hemisphere. Scientists have recognized three classes of geological feature on Titania:
craters,
chasmata (
canyons) and
rupes (
scarps). The surface of Titania is less heavily cratered than the surfaces of either Oberon or Umbriel, which means that the surface is much younger. The crater diameters reach 326 kilometers for the largest known crater,
Gertrude (there can be also a degraded basin of approximately the same size). Some craters (for instance,
Ursula and
Jessica) are surrounded by bright impact ejecta (
rays) consisting of relatively fresh ice. All large craters on Titania have flat floors and central peaks. The only exception is Ursula, which has a pit in the center. To the west of Gertrude there is an area with irregular topography, the so-called "unnamed basin", which may be another highly degraded impact basin with the diameter of about . Titania's surface is intersected by a system of enormous
faults, or scarps. In some places, two parallel scarps mark depressions in the satellite's crust, forming
grabens, which are sometimes called canyons. The most prominent among Titania's canyons is
Messina Chasma, which runs for about from the equator almost to the south pole. The grabens on Titania are wide and have a relief of about 2–5 km. The scarps that are not related to canyons are called rupes, such as
Rousillon Rupes near Ursula crater. The regions along some scarps and near Ursula appear smooth at
Voyager's image resolution. These smooth plains were probably resurfaced later in Titania's geological history, after the majority of craters formed. The resurfacing may have been either endogenic in nature, involving the eruption of fluid material from the interior (
cryovolcanism), or, alternatively it may be due to blanking by the impact ejecta from nearby large craters. The grabens are probably the youngest geological features on Titania—they cut all craters and even smooth plains. The geology of Titania was influenced by two competing forces:
impact crater formation and endogenic resurfacing. The former acted over the moon's entire history and influenced all surfaces. The latter processes were also global in nature, but active mainly for a period following the moon's formation. They obliterated the original heavily cratered terrain, explaining the relatively low number of impact craters on the moon's present-day surface. Additional episodes of resurfacing may have occurred later and led to the formation of smooth plains. Alternatively smooth plains may be ejecta blankets of the nearby impact craters. The most recent endogenous processes were mainly
tectonic in nature and caused the formation of the canyons, which are actually giant cracks in the ice crust. The cracking of the crust was caused by the global expansion of Titania by about 0.7%. == Atmosphere ==