Explain the aspects of interaction between hydro-geomorphological processes and the shapes and landscapes of the earth's surface that lead to physical, chemical and biological changes.

- Interpretation of current landscapes and their hydrogeomorphological history in the past, especially Quaternary.

- Use of quantitative and qualitative models to support hydrogeomorphological studies.

- A study of the impact of past, present and future environmental changes on land surface processes and the effects of major factors such as climate, tectonics, seismic and volcanic activity, vegetation and ecology, glaciers and glaciers and oceans, and sea ​​level.

- Introducing a wide range of hydrogeomorphological environments including glaciers, preglacial zones, bumps, river systems, karst, wind and coastal.

- Explain and improve the relationships between surface hydrogeomorphological processes and management.

- Introduce technological advances in techniques that enable the introduction of new fields of study, including remote sensing (air and ground) GIS, mathematical modeling and statistical analysis Conceptual development of geomorphological theories.

The audience of the publication:

Geomorphologists, hydrologists, soil scientists, geologists and other earth science enthusiasts.