process of degradation. The tides in most cases reach the cliffs only for a short time twice a day, and the waves eat into them only when they are charged with sand or pebbles; for there is
good evidence good evidence 1860 1861 1866 1869 1872 |
reason to believe 1859 |
that pure water
can can 1859 1860 | can 1861 1866 1869 1872 |
effect effect 1859 1860 | effects 1861 1866 1869 1872 |
little or little or 1859 1860 | little or 1861 1866 1869 1872 |
nothing in wearing away rock. At last the base of the cliff is undermined, huge fragments fall down, and
these these 1859 1860 1861 | these, 1866 1869 1872 |
remaining fixed, have to be worn
away, away, 1859 1860 | away 1861 1866 1869 1872 |
atom by atom,
until until 1859 1860 1861 1869 1872 | until, 1866 |
reduced reduced 1859 1860 1861 1866 |
after being reduced 1869 1872 |
in
size size 1859 1860 1869 1872 | size, 1861 1866 |
they can be rolled about by the waves, and then
are are 1859 1860 1861 1866 | they are 1869 1872 |
more quickly ground into pebbles, sand, or mud. But how often do we see along the bases of retreating cliffs rounded boulders, all thickly clothed by marine productions, showing how little they are abraded and how seldom they are rolled about! Moreover, if we follow for a few miles any line of rocky cliff, which is undergoing degradation, we find that it is only here and there, along a short length or round a promontory, that the cliffs are at the present time suffering. The appearance of the surface and the vegetation show that
elsewhere elsewhere 1859 1860 1861 1866 1872 | else-where 1869 |
years have elapsed since the waters washed their base. ↑11 blocks not present in 1859 1860 1861 1866; present in 1869 1872 | We have, however, recently learnt from the observations of Ramsay, in the van of excellent observers,
of Jukes, Geikie, Croll, and others, that subaerial degrada- tion
is a much more important agency than coast-action, or the power of the waves.
The whole surface of the land is exposed to the chemical action of the air and of the rain-water with its dissolved carbonic acid, and in colder countries to frost; the disintegrated matter is carried down even gentle slopes during heavy rain, and to a greater extent than might be supposed, especially in arid districts, by the wind; it is then transported by the streams and rivers, which when rapid deepen their channels, and triturate the fragments.
On a rainy day, even in a gently undulating country, we see the effects of subaerial degradation in the muddy rills which flow down each
slope.
Messrs. Ramsay and Whitaker have shown, and the observation is a most striking one, that the great lines of escarpment in the Wealden district and those ranging across England, which formerly were looked at by every one
as ancient sea-coasts, cannot have been thus formed, for each line is composed of one and the same formation, whilst our present
sea-cliffs are everywhere formed by the intersection of various formations.
This being the case, we are compelled to admit that the escarpments owe their origin in chief part to the rocks of which they are composed having resisted subaerial denudation better than the surrounding surface; this surface consequently has been gradually lowered, with the lines of harder rock left projecting.
Nothing impresses the mind with the vast duration of time, according to our ideas of time, more forcibly than the conviction thus gained that subaerial agencies,
which apparently have so little power, and which seem to work so slowly, have produced such
great results.
When thus impressed with the slow rate at which the land is worn away through subaerial and littoral action, it is good, in order to appreciate the past duration of time, to consider, on the one hand, the mass
of rock which has
been removed over many extensive areas, and on the other hand the thickness of our sedimentary formations.
I remember having been much struck when viewing volcanic islands, which have been worn by the waves and pared all round into perpendicular cliffs of one or two thousand feet in height; for the gentle slope of the lava-streams, due to their formerly liquid state, showed at a glance how far the hard, rocky beds had once extended into the open ocean.
The same story is told still more plainly by faults,—those great cracks along which the strata have been up-heaved
on one side, or thrown down on the other, to the height or depth of thousands of feet; for since the crust cracked, and it makes no great difference whether the upheaval was sudden, or, as most geologists now believe, was very
slow and effected by many starts, the surface of the land has been so completely planed down that no trace of these vast dislocations is externally visible.
The Craven fault, for instance, extends for upwards of 30 miles, and along this line the vertical displacement of the strata varies from 600 to 3000 feet.
Professor Ramsay has published an account of a downthrow in Anglesea of 2300 feet; and he informs me that he fully believes that there is one in Merionethshire of 12,000 feet; yet in these cases there is nothing on the surface of the land to show such prodigious movements; the pile of rocks on either side of the crack having been smoothly swept away.
|
|
He who most closely studies the action of the sea on our shores, will, I believe, be most deeply impressed with the slowness with which rocky coasts are worn away. ↑1 blocks not present in 1859 1860 1861 1866; present in 1869 1872 | On the other hand
in all parts of the world the piles of sedimentary strata are of wonderful thickness.
|
The observations on this head by Hugh Miller, and by that excellent observer Mr. Smith of Jordan Hill, are most impressive.
With With 1859 1860 1861 1866 | In 1872 |
the
mind thus impressed, let any one examine beds mind thus impressed, let any one examine beds 1859 1860 1861 1866 |
Cordillera I estimated one mass 1872 |
of conglomerate
many many 1859 1860 1861 1866 | at ten 1872 |
thousand
feet feet 1859 1860 1861 1866 | feet; 1872 |
in thickness, which, though probably formed in thickness, which, though probably formed 1859 1860 1861 1866 |
and although conglomerates have probably been accumulated 1872 |
at a quicker rate than
many other deposits, many other deposits, 1859 1860 1861 1866 |
finer sediments, 1872 |
yet, yet, 1859 1860 1861 1866 | yet 1872 |
from being formed of worn and rounded pebbles, each of which bears the stamp of time,
are are 1859 1860 1861 1866 | they are 1872 |
good to show how slowly the mass
has been accumulated. has been accumulated. 1859 1860 1861 1866 |
must have been heaped together. 1872 |
In the Cordillera I estimated one
pile pile 1860 1861 1866 | mass 1869 |
of
conglomerate conglomerate 1860 1866 1869 | con- glomerate 1861 |
at ten thousand
feet feet 1860 1861 1866 | feet; 1869 |
in
thickness. thickness. 1860 1861 1866 | thickness. 1869 |
Let
the observer the observer 1860 1861 1866 | him 1859 |
|