lenticularis species is discussed in a following section
on "Orographic Clouds."
ALTOCUMULUS CASTELLANUS.—
Altocumulus castellanus cloud elements build upward
from the base to form towers, tufts, or "turrets." The
tops and edges of the buildup may appear ragged, and
not have the smoother rounded appearance or
cauliflower-like tops. The ragged tops are sometimes
described as looking similar to the turrets on a medieval
castle, which gives some reference for the name
“castellanus.” Usually originating in the lower portion
of the mid-etage, these clouds may build upwards to
moderate or great extent, and are similar to towering
cumulus, except with high bases and smaller appearing
elements. Continued development may, in rare
situations, produce cumulonimbus clouds. Virga is
common, and even light precipitation reaching the
ground is not uncommon with altocumulus castellanus.
ALTOCUMULUS FLOCCUS.—Related to the
altocumulus castellanus is the less developed
altocumulus floccus cloud form. Altocumulus floccus
resemble small, ragged cumulus humilis and typically
appear as small tufts of white cloud with rounded or
bulging tops. They often have small fibrous trails of
virga extending from ragged bases. Both altocumulus
castellanus and altocumulus floccus indicate
approaching frontal systems with conditions favorable
for thunderstorm activity.
ALTOCUMULUS STRATIFORMIS.—
Altocumulus stratiformis is by far the most common
form of altocumulus. In this form we typically see an
extensive layer of cloud with smooth, evenly spaced
rounded cells or just a cell-like pattern in a generally
stratiform layer. Figure 1-22, a typical altocumulus
cloud, is a good example of the species altocumulus
stratiformis.
Cirrus (CI)
Cirrus clouds, a high-etage cloud type, form
generally between 16,500 feet and 45,000 feet in the
mid-latitudes. Cirrus clouds are composed of ice
crystals.
CIRRUS UNCINUS.—The most common form
of cirrus is the thin strand-like wisps of cloud filaments,
often curved at on end and described as hook-shaped
and called cirrus uncinus (fig. 1-24). These cirrus
clouds are popularly called "mare’s tails" because of
their resemblance to the tail of a galloping horse.
CIRRUS SPISSATUS.—The dense blow-off
from the top of a cumulonimbus, which looks similar to
stratus or altostratus clouds, is called cirrus spissatus,
but is often referred to as dense cirrus (refer to figure
1-13). Although this cloud typically presents a strati-
form appearance, it is not called cirrostratus, because,
by definition, cirrostratus is never dense enough to hide
the sun. Cirrus spissatus usually forms in a single large
patch with a distinct edge. This cloud is reclassified as
altostratus when the base lowers to less than 23,000 feet.
A different variety of cirrus spissatus also forms
from phenomena that have nothing to do with
cumulonimbus blow-off or dissipating cumulonimbus
cells. When dense cirrus is formed by other means than
by cumulonimbus blow-off or dissipating
cumulonimbus clouds, it will frequently be seen as
many dense patches at different levels (cirrus spissatus
duplicatus), often mixed with thin cirrus filaments.
Another variety, cirrus spissatus intortus, is sometimes
described as looking like "entangled sheaves" of cirrus
clouds. When viewed toward the sun, the denser
patches often have gray bases.
CIRRUS FLOCCUS AND CIRRUS
CASTELLANUS.—Patches of dense cirrus may take
on the form of cirrus floccus, with the upper portion of
the patch forming rounded tufts, and the base portion
becoming ragged. Dense cirrus patches may also grow
turrets or battlements and become cirrus castellanus.
Both cirrus floccus and cirrus castellanus may have ice
crystal virga trails showing from the base of the cloud
patch, and may be slightly larger than the standard 1°.
(Also see cirrocumulus floccus and cirrocumulus
castellanus.)
Cirrostratus (CS)
Cirrostratus clouds usually appear as a thin white
veil over the sky. If the cirrostratus clouds are very thin
and of uniform thickness, the only indication of their
presence may be a faint halo, or a whitish tint to the sky.
As long as the sun is higher than 30° above the horizon,
cirrostratus clouds should not be able to block the sun;
shadows should be apparent from sunlight shining
through this cloud. When cirrostratus is low on the
horizon, it tends to block the blue color of the sky more
thoroughly because it is viewed on an angle, and it is
commonly mistaken for denser altostratus. This also
happens near sunrise and sunset with low sun angles.
Cirrostratus cloud layers appear to move very slowly,
and change shape very slowly. Typically, the edge of a
cirrostratus layer is so indistinct that it is difficult to
detect where the blue sky ends and the cloud begins. If
movement or changes in shape are detectable during the
observation period, the cloud near the horizon may well
be altostratus.
1-22
