Fig. 57.—Diagram representing the further development of the valleys fg and hi in [Fig. 56]. The head of the latter ([Fig. 56]) has worked back until it has reached the lower end of the former.
The conditions represented by ab, [Fig. 56], may be no more than temporary. Sooner or later a valley developing headward across the plain (hi, [Fig. 56]) may provide a channel for the water descending from the higher land beyond. In this case the valley develops in sections, the one on the slope above, the other on the plain below, and their union (compare fghi, [Fig. 56], with [Fig. 57]) results from their growth.
The principles here sketched have been in operation wherever land areas were so elevated as to give rise to unequal slopes, and this has perhaps been the rule rather than the exception. The results effected by the operation of these principles would of course be dependent on the varieties of slope, on the abruptness with which a slope of one gradient gave place to another, on the texture of the rock, the amount and distribution of precipitation, etc., etc.
In the preceding paragraphs the lengthening of a valley at its upper end by head erosion has been repeatedly referred to. If all valleys began their development at the sea and lengthened headward, it might seem that their seaward ends should be their oldest parts; but since the development of valleys is begun somewhat promptly after the land appears above the sea, and since the emergence is generally gradual, that part of a valley which is at the seashore at one time may be far inland a little later, because the land has been extended seaward. On an emerging land area therefore the normal growth of a valley involves its lengthening at its lower end as well as at its upper. The lengthening of a valley, or at least the lengthening of a stream, also takes place at its lower end if the land in which it lies is being extended seaward by deposition.
Structural valleys.—In mountain regions valleys are sometimes formed by the uplift of parallel mountain folds, leaving a depression between ([Fig. 58]). Drainage will appropriate such a valley so that it becomes in some sense a river valley. But it is not a river valley in the sense in which the term has been used in the preceding pages. It is rather a structural valley. In its bottom a river valley may be developed (a, [Fig. 58]).
Fig. 58.—Structural valley with a river valley developing its bottom.
The foregoing illustrations by no means exhaust the list of conditions under which valleys develop, but they suffice for the present.
Fig. 59. Fig. 60.
Figures to show why the head of a gully (and therefore a valley) departs from a direct course.