OASES. 323 
its decrease in surface-water contributions. Most of the Anau valley system 
is developed in soluble rocks, limestones, and gypsiferous beds, with occasional 
deposits of pure gypsum. Caverns are rare as compared with a land that has 
always received much rainfall, but we must believe a good system of underground 
drainage has been developed—a system competent to lead off most of the present 
rainfall, which, though sufficient to nourish a varied and profuse vegetation on 
these mountains, is nearly absent from their surface streams. 
The upper branches of the Gyourse valley, about 15 miles southeast of Anau, 
tell a similar story. Their sodded-over channels and falls join about 10 miles 
south of Gyourse, where the lower terrace broadens into a wide grass plain con- 
fronted by a bare rock wall running northwest, straight across and conformable 
to the 40° dip of the red sandstone beds of an uptilted block, bounded elsewhere 
with battered fault-scarps. Here the Gyourse trunk-stream enters the block 
at right angles to its rock face, having carved its way down as the block rose across 
it. All this represents a stream of erosive activity and rapid enough to leave a 
valley of the canyon class, but recently the stream has dwindled, till now its waters 
can barely creep over the slight grade established under its former large flow. 
The old rock floor is covered with an organic mud grown over with reeds, which 
still more retard its thin sheet of slowly moving water. After traversing this 
swampy bottom of the old canyon it passes through a narrow valley in the tilted 
piedmont and emerges upon the apex of its fan, where it is entirely consumed in 
irrigating a small area of Turkoman fields. Except in flood the water is clear, 
though vile from organic solutions. Formerly during its active time this stream 
was charged with silt and spread over a large delta. 
This remarkable decrease of surface drainage was obviously so recent that 
it becomes of vital interest to the archeology of Anau. Our problem as a whole 
is peculiar and a new one to physiography. Here are mountains in whose soluble 
rocks there has been developed a system of underground drainage of capacity 
sufficient to consume most of the present precipitation, all of it in some valleys, 
but until recently there was such an excess over this capacity that surface streams 
were well supplied and actively eroding. Two explanations may be offered: 
Either the underground capacity has suddenly increased, or precipitation has 
decreased. It is improbable, if not impossible, that underground drainage of 
all this area simultaneously perfected to sudden monopoly. On the other hand, 
if we postulate a decrease in precipitation, it need only be general, not sudden. 
As long as the underground system remained saturated as it would be with an 
excess of supply, a slow and continuous decrease of precipitation would cause 
only a correspondingly slow decrease in surface drainage. But as soon as precip- 
itation decreased to the value of underground capacity, surface drainage would 
vanish. Or, to put it mathematically, let 
= inches of precipitation ¢ years ago. 
= capacity of underground drainage; a constant to be expressed in 
inches of precipitation. 
surface drainage or excess over G. 
= rate of decrease in precipitation (inches per year). 
= time in years. 
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