National Institute of Informatics - Digital Silk Road Project
Digital Archive of Toyo Bunko Rare Books

Wind, water, and ice erode the mountains and have particular deposition
areas within the highlands, where part of their products accumulate more or less
temporarily to form loess, alluvium, and moraine. But as these positions are,
in the course of long time, unstable, practically all the products of erosion must
ultimately find repose in strata of the great interior plains. Moraines, however,
are very resistant to transportation from their zone, and massive remnants of
those deposited in even the beginning of the glacial period still survive in situ;
and it is still possible to recognize sections of alluvium and its wind-blown deriva-
tives, sand and loess, deposited during the glacial period on now dissected high-
lands and broad valley terraces.

Within the latitudes of Central Asia, glacial deposits are confined to the
peripheral mountains of desert basins. Areas of alluvium, loess, flying sands,
and lacustrian deposits are found more or less unstable on the highlands, while
the great alluvium, flying sands, and lacustrian deposits have their special, well-
defined, and concentric zones respectively one within the other on the great
interior plains of a basin. Loess and flying sands are in large part the wind-
blown derivatives of spread-out alluvium, but they are undoubtedly much added
to from direct deflation of the more arid highlands—a fact to be demonstrated
in the section on the Northern Pamir. As lake deposits are simply modified
alluvium, there are only four primary derivatives of the original mountain masses—
moraine, alluvium, loess, and flying sands; and much of the alluvium is modified
moraine and the direct charge of glacial grindings.

An ideal desert basin, not over about 100 miles across from crest to crest,
would be completely inclosed by mountain ranges. Its glacial zone would be a
periphery of ice mantling the crests and extending into the heads of high valleys;
its loess zone would flank the base of the mountains thus encircling the plains;
its alluvial zone would lie next inside as a piedmont belt of the plains; while the
flying-sands zone would lie next within as a wide belt surrounding the lacustrian
zone or brackish sea of the middle of the basin, reached by large streams rising in
the glacial zone and crossing the loess, alluvial, and flying sands.

In Western Turkestan the lacustrian, alluvial, flying-sands, and loess areas
are now four well-defined zones, respectively one within the other, loess on the
outside, while glacial deposits are naturally confined to the higher mountains
and nowhere reach below an elevation of 7,000 feet. As an exception to this
generality, the rivers Amu and Syr penetrate to their inland sea, the Aral, thus
dividing the zone of flying sands with two narrow extensions of the alluvial. The
lacustrian is thus united with the alluvial zone, and this is more often the case
in Eastern Turkestan, where flying sands are divided into several wide nuclei
by long rivers that traverse the basin. Although it is to future exploration that
we must look for comprehensive records, a general outline of past conditions
may be construed from our observations on the five zones, together with sections
in earlier layers, exemplified and checked by a study of the topography of erosion.