The science of land forms is too old and dates back to Herodotus (485? - 425 B.C.), the father of history.
The history of modern geomorphology dates back to James Hutton (1726 - 1797), who propounded the doctrine of 'Uniformitarian's' i.e., the present is the key to the past'. Hutton has nicely described the fact that the rivers, glaciers, seas had been doing the same work since their inception, as they are doing it today, may be at different rates at different times. John Playfair (a great friend of Hutton, 1748-1819) elaborated and expounded Hutton's principle in form of scientific writings, Lyer is (1797- 1875) is also a great exponent of the theory of 'Uniformitarianism'.
Major Powell (1834 - 1902) contributed a lot to geomorphology on his study in the Colorado Plateau and the Grand Canyon of the Colorado River duri his expedition. It is W.M. Davis (1850 - 1934), the great defim analyst and systemizer who gave new concepts to mo geomorphology by his genetic methods of the description of the lai forms.
Till recently, geomorphology was a much neglected branch. It importance increased only after the applications of geomprpl studies to other branches of geology. Practical applications geomorphic principles to hydrology, pedology, engineering geology, petroleum geology, economic mineral deposits, mining and sue other fields increased the importance of this branch of science In recent years, branches like regional, quantitative and experimental geomorphology have gained much importance. The importance of geomorphology has increased manifold after the development ol aerial and satellite remote sensing. All kinds of remote sensing studies and their applications are incomplete without the study dl geomorphology.
Land forms: As geomorphology means the science of earth form and features, knowledge of the relief features becomes essential. The reliefs features of the earth are broadly divided into three orders, the first order relief features are the Continental platforms and the ocean basins.
There are mountains, plateaus and plains on the continental platform and the ocean basins; these are the second order relief features. All the minor landforms on the mountains, plateau and the plains, to name a few - hills, mesa, buttes, mounds, dunes, valleys, flood plains, deltas, kames, eskers, drumlins, terraces, pediment, bajada, beach, coast etc, are the third order relief features.
Geomorphic Precesses and Agents: All those physical and chemical processes that modify the earth's surface forms are termed as geomorphic processes. A geomorphic agent is any natural medium that is capable of scouring and transporting earth material. Thus, running water, underground water, glaciers, wind, waves, currents, tides and tsunamis are the geomorphic agents. They are also called as geologic agents or mobile agents. These agents originate outside the earth's crust and the work performed by them act at or near the earth's surface.
For this reason, they are termed as exogenetic or epigene processes. They tend to bring the earth's surface to a common level, that is, they degrade the highlands and aggrade the low lands. For this, they are also termed as gradational agents. The processes are gradational processes.
Earth's surface is also modified by weathering and masswasting processes. All these processes are exogenetic or epigene processes. Other geomorphic processes, such as diastrophism and volcanism originate within the earth's interior and modify the earth's surface. These are endogenetic or hypogene processes. Earth's surface is also affected by the impact of meteorites. This is an extra-terrestrial process. The different geomorphic processes are outlined in Table 1.