Remote sensing became one of the major geospatial approaches for monitoring, measuring, and analysing changes of the territories and environment. Progress in optic, image processing and in GIS permits measuring, modelling and mapping of the joint socio-environmental impacts (pollution, biological, anthropogenic, health, environmental, etc.) of climate change, societies, and environment. The Arctic, the Aral Sea are some outstanding examples. The generalization of Earth observation, optical and radar systems, and the free access to geospatial data (Landsat, Spot, and Sentinel) contributed significantly to the description, analysis and modelling of changes and impacts on the territories and environment. Progress of methods and techniques of analysis of the environmental impacts, climate changes, and societal transformation by remote sensing contributes significantly not only to the understanding of changes and their socio-environmental consequences but also to the awareness of the population. The generalization of daily observation systems (Formosat) or over short periods (SPOT, Sentinel) coupled with field measurements, and integrated into GIS, allows continuous monitoring of areas that are subjects to high environmental constraints. It also allows to generate retrospective simulation models using from 30- to 40-year-old image archive (Landsat, SPOT). The fusion of remote sensing models with learning machine modelling allows to simulate the possible scenarios of evolution of the environment and its geographical space.