Bibcode
Pallé, E.; Goode, P. R.
Bibliographical reference
Advances in Space Research, Volume 43, Issue 7, p. 1083-1089.
Advertised on:
4
2009
Journal
Citations
40
Refereed citations
38
Description
The Earth’s albedo is one of the least studied fundamental climate
parameters. The albedo is a bi-directional variable, and there is a high
degree of anisotropy in the light reflected from a given terrestrial
surface. However, simultaneously observing from all points on Earth at
all reflecting angles is a practical impossibility. Therefore, all
measurements from which albedo can be inferred require assumptions
and/or modeling to derive a good estimate. Nowadays, albedo measurements
are taken regularly either from low Earth orbit satellite platforms or
from ground-based measurements of the earthshine from the dark side of
the Moon. But the results from these different measurements are not in
satisfactory agreement. Clearly, the availability of different albedo
databases and their inter-comparisons can help to constrain the
assumptions necessary to reduce the uncertainty of the albedo estimates.
In recent years, there has been a renewed interest in the development of
robotic and manned exploration missions to the Moon. Returning to the
Moon will enable diverse exploration and scientific opportunities. Here
we discuss the possibility of a lunar-based Earth radiation budget
monitoring experiment, the Lunar Terrestrial Observatory, and evaluate
its scientific and practical advantages compared to the other, more
standard, observing platforms. We conclude that a lunar-based
terrestrial observatory can enable advances in Earth sciences,
complementary to the present efforts, and to our understanding of the
Earth’s climate.