Also, depolarising effects systems using two polarisation states for frequency reuse rely on discrimination between them; depolarising effect of rain reduces discrimination potentially causing interference.
Scattering can give rise to interference path between two stations on Earths surface.
All these effects need to be taken into account for planning systems at >~ 6 GHz; rain can be limiting factor in providing high availability service.
Cloud attenuation due to liquid water held in suspension may seem insignificant compared with rain but need to appreciate time statistics of rain and cloud.
Never rains for >~5 % time! Cloud present perhaps up to 50% time.
For system planned for high availability (e.g. 99.9% time), rain will be dominant mechanism; although cloud attenuation occurs, its contribution is insignificant compared with rain.
For system planned for low availability (e.g. 90% time), e.g. local system using VSATs where user is content to wait for up-time, then rain is irrelevant since it never rains for 10% time. However, cloud is important which, although causing lower attenuation than rain, might account for ~1 dB which is important for link budget of VSAT system.
