ars...

region of 75 to 85 grains per pound in July. Nevertheless,
there is a noticeable increase in Precipitation in the northern
regions that begins in May and in the Mackenzie region
reaches its maximum in August or

September. This is
accomplished generally as follows. . Warm air moves north-
eastward to the Hudson Bay. or

northern Quebec, rising
over the colder air to the north: The cyclonic system sets

in motion the surface air lying over the Mackenzie Valley.
There are then two major possibilities according to the
synoptic situation obtaining at the time. First, the very
cold, dry air from the Beaufort Sea may flow over the valley
in the rear of the cyclone, producing low temperatures for
the season. Alternatively, air from the north Pacific
may cross the mountains and descend to the Mackenzie
Valley in the wake of surface air moving southeastward
into the cyclonic system. An anticyclonic system extending
northward of a line from Point Barrow to the Anadyr
Peninsula in Asia may then feed dense air directed eastward
toward the Aleutians; and along the quasi-stationary front
thus created between Arctic and Pacific air a series of
waves with secondary fronts trailing southward may move
eastward, producing light rains in the Yukon and the
Mackenzie Valley and occasionally moderate rains in north-
ern British Columbia. The rainy period ends when the air
from the polar archipelago flows southward into the north-
western regions with sufficient momentum to dislodge the
quasi-stationary front. Very cool weather then follows.

A similar situation, but causing heavier rains from Fort
Smith northward, requires very hot but rather humid air
to move across the prairies from the mid-continent without
encountering lift along an extensive front. This is seen in
extreme fashion during extensive droughts on the prairies
when, although there is little or no rain, the water-vapour-
content of the air is high. It may approach 100 grains per
pound as an average for a dry month. Southerly winds
continuing for several days may move considerable vapour
toward the far north, but east of the Rockies. Wherever
@ quasistationary boundary between this air and polar air
exists, showers and intermittent rains may persist for some
days. In such a fashion there may be in one year an unusu
ally wet summer month at Fort Smith, but very little at
Simpson, Norman, or Aklavik. In another year Fort Smith
may be south of the quasistationary front, getting little rain,
while Norman and Good Hope are well watered in com-
parison with the normal precipitation of those latitudes.
Therefore, even in wet summers the rainfall may be very
spotty. Toward the end of the summer season, the first
outbreaks of polar air which have near-winter intensity

‘encounter, in the Mackenzie Valley, air which generally

carries considerably more moisture than in the winter
season. The contrast across a cold front is ordinarily much
greater than in winter or even in spring so that precipitation

holds up well into September or even October. A con

siderable proportion of the late summer or early autumn
precipitation will, however, be snowfall.

[ 150 }

Generally, it may be said that a source of moisture from

which precipitation may readily be abstracted in north-
western Canada is not available, once the coastal mountains
are crossed. Along the coast the precipitation is 60 to
180 inches per annum, but when the summit of the Cascades
is reached it is found that even in valleys draining to the
sea precipitation falls off sharply. Thus at Aiyansh,
surrounded by the peaks of the Cascades, although itself
only 500 feet above sea, the precipitation has fallen to
43 inches. The percentage due to the water-content of
snowfall is 27 per cent, which is much increased over the
5 per cent of Prince Rupert. Even on the Portland Canal,
Premier and Stewart at moderate elevations, although having
heavy precipitation, show a large proportion of snow and
quite low temperatures (inconsistent in fact with elevation,
perhaps affected by the great glaciers nearby). Past the
summit of the Cascades, the precipitation at New Hazelton
falls to 19 inches, of which 23 per cent is snowfall, and to
14 inches at Telkwa, with 36 per cent snowfall. Past the
divide, Vanderhoof, Wistaria, Fort St. James, Babine Lake,
and Prince George, average 13 to 20 inches, of which snow-
fall contributes 32 to 43 per cent. Conditions change very
rapidly from the very wet maritime weather of the coastal
lowlands, with a ‘marked peak of precipitation in winter,
to dry uplands with poorly marked winter and summer
maxima. Aiyansh is the last station to retain a marked
winter maximum. Along the north-flowing Fraser and
McBride Rivers, and Dome Creek average 20 and 27 inches
respectively, 35 per cent of which is snow. On the high
plateau at Barkerville annual precipitation is 37 inches,
nearly half snow. Further north the precipitation may
be computed roughly from the recent observations at Dease
Lake, Takla Landing, McDame Creek, as well as from
eight years’ record at Watson Lake (about 9 miles north of

the British Columbia-Yukon boundary). There is also a
long record from Atlin.

=e Precip- |Per Cent

xis Precip- |Per Cent
itation | Snow

itation | Snow

JENS. 5 Res 6 11 47 v@arcross. . ... 9 48
Watson Lake... 18 48 »Whitehorse.. . 11 35
McDame Creek . 16 70 Swede Creek, . 10 43
Dease Lake..... 12 33 MEW Ons chess 11 36
Takla Wake). 13 23 Dawson...... 13 45

During the snowless season, therefore, there is only
4 to 6 inches of rain available for crops, east of the crest
of the Cascades. Since there are no figures of run-off or
storage, an estimate of the percentage of snow-water that
may be retained by the soil or stored for various periods
at high levels cannot be made. The experience in the south,
in the Okanagan and Similkameen Valleys, is that with so
little rainfall, irrigation, drawing upon the lakes at levels
above the land, must be used to concentrate the run-off
from a comparatively large slope-area upon a relatively

very small area of agricultural land. In these southern