CLIMATE
is damp and vapour is readily condensed; and (5) the
great extent of the tropical oceans, which gives so
much of the zone a marine climate.
The Seasons. In a true tropical climate, seasons,
in the temperate zone sense, do not exist. The varia-
tions in temperature throughout the yeai' are so slight
that the seasons are not classified according to tem-
perature, but depend on rainfall and the prevailing
winds. The life of animals and plants in the tropics,
and of man himself, is regulated very largely, in some
cases almost wholly, by rainfall. Agriculture pros-
pers, or fails, according to the sufficiency and punct-
ual appearance of the rains. After a long dry season,
when the rains come, there is an extraordinarily
sudden awakening of the parched and dusty vegeta-
tion. Where, on the other hand, there is abundant
moisture throughout the year, a tree may at the same
time be carrying buds, blossoms, and ripe fruit.
Vegetation under these conditions has been well called
non-periodic. Although the tropical rainy season is
characteristically associated with a vertical sun (i. e.,
summer), that season is not necessarily the hottest
time of the year. The temperature is usually some-
what lower under the clouds. The rainy season often
goes by the name of winter for this reason, and also
because the weather is dull. The time of the maxi-
mum temperature is also controlled by the rainy sea-
son. Towards the margins of the zone, with increas-
ing annual ranges of temperature, seasons in the ex-
tra-tropical sense gradually appear.
CHARACTERISTICS OF ZONES—TROPICS 81
Physiological Effects of .Heat and Humidity.
Tropical monotony of heat is associated with high
relative humidity, except over deserts and in dry sea-
sons. The air is therefore muggy and oppressive.
The high temperatures are disagreeable and hard to
bear. The “ hot-house air ” has an enervating effect.
Energetic physical and mental action are often diffi-
cult, or even impossible. The tonic effect of a cold
winter is lacking. The most humid districts in the
tropics are the least desirable for persons coming from
higher latitudes; the driest are the healthiest. The
most energetic natives are the desert-dwellers. The
monotonously enervating heat of the humid tropics
weakens, so that man becomes sensitive to slight tem-
perature changes. A fall of temperature to within
a few degrees of 70° seems to some tropical natives
almost unbearably cold, and certain African tribes
sleep on clay banks heated inside by fires, although
the mean temperature of the coldest month is over
70°. In drier climates such changes are more easily
home. The intensity of direct insolation, as well as
of radiation from the earth’s surface, may produce
sunstroke and heat prostration. “Beware of the
sun ” is a good rule in the tropics.
Pressure. The uniform temperature distribution
in the tropics involves uniform pressure distribution.
Pressure gradients are weak. The annual fluctuations
are slight, even on the continents. The diurnal varia-
tion of the barometer is so regular and so marked
that, as von Humboldt said, the time of day can be
82
CLIMATE
told withui about fifteen minutes if the reading of the
barometer be known. Even severe thunderstorms do
not overcome the regular diurnal march of the press-
ure, but the approach of tropical cyclones can be
foretold by the pressure changes.
Winds and Rainfall. Within the tropics, there are
both heavy rains and large districts of very deficiënt
precipitation. Along the barometric equator, where
the pressure gradients are weakest, is the equatorial
belt of calms, variable winds and rains—the dol-
drums. This belt, with its actively ascending, damp,
hot air, offers exceptionally favourable conditions for
abundant rainfall, and belongs among the rainiest
regions of the world, averaging probably about one
hundred inches. The rainfall is so heavy that the
salinity of the surface waters of the oceans is actu-
ally less than in the latitudes of the trades. The
sky is prevailingly cloudy, especially in the early
afternoon hours; the air is hot and oppressive; heavy
showers and thunderstorms are frequent, chiefly in
the afternoon and evening—conditions not very un-
like those which exist during certain spells of sum-
mer weather in the north temperate zone. There are
the dense tropical forests of the Amazon and of equa-
torial Africa. There frost and drought need not be
feared. This belt of calms and rains, of variable
width and rather indefinite limits, shifts north and
south of the equator after the sun. It is dreaded by
seamen because sailing vessels are apt to have long
delays in Crossing it. The calm belt is generally
CHABACTERISTICS OF ZONES—TROPICS 83
somewhat narrower than the belt of rains, the warm
ascending air being carried north and south, and giv-
ing precipitation beyond the limits of the calm zone.
In striking contrast are the easterly trade winds,
blowing between the tropical high pressure beits and
the equatorial belt of low pressure, and supplying to
the doldrum belt a constant flow of warm air which
already contains a large amount of water vapour,
evaporated from the oceans by the trades, and needs
only a moderate cooling in order to give abundant
rainfall. Of great regularity, embracing about one-
half of the earth’s surface, and adding greatly to the
uniformity of tropical climates, the trades have long
been favourite sailing routes because of the steadi-
ness of their winds, the infrequency of storms, the
brightness of their skies, and the freshness of the air,
all of which are in pleasing contrast with the muggy
and oppressive calms of the doldrums. The most de-
sirable house-sites in the tropics are very commonly
on the top of some elevation, exposed to the trade
wind. The trades are subject to many variations.
Their northern and southem margins shift north and
south af ter the sun; at certain seasons they are
interrupted, often over wide areas near their equator-
ward margins, by the migrating belt of equa-
torial rains and by monsoons; near lands, they
are often interfered with by land and sea breezes;
in certain regions, they are invaded by violent
cyclonic storms. The trades, except where they blow
onto windward coasts, or over mountains, are natu-
84
CLIMATE
rally drying winds, for they blow from higher to lower
latitudes. Some facts seem to show that there is a
descending component in the trades. They cause the
deserts of northern and Southern Africa, eastern Asia,
Australia, and Southern South America. Over the
oceans, the only rains in the trade wind beits are in
the form of passing showers.
The monsoons on the southem and eastern coasts
of Asia are the best known winds of their class. In
the northern summer, the south-west monsoon, warm
and sultry, blows over the latitudes from about 10°
north to and beyond the northem tropic, between
Africa and the Philippines, giving rains over India,
the East Indian Archipelago, and the east coasts of
China. These winds reach a storm velocity over the
Arabian sea. In winter, the south-east monsoon, the
normal, cold-season, Continental outflow from Asia,
combined with the north-east trade, generally cool and
dry, covers the same district, extending as far north
as latitude 30°. Crossing the equator, these winds
reach northern Australia, and the western islands of
the South Pacific, as a north-west rainy monsoon,
while this region in the opposite season has the normal
south-east trade. Other monsoons are found
in the Gulf of Guinea and in equatorial Africa.
Wherever they occur, they control the seasonal
changes.
The most important climatic phenomenon of the
year in the tropics is the rainy season. Tropical
rains are, in the main, summer rains, i. e., they follow,
CHARACTERI8T1C8 OF Z0NE8—TROPICS 85
as a general rule, soon after the “ vertical sun,” 1 the
rainy season coming when the normal trade gives way
to the equatorial belt of rains, or when the summer
monsoon sets in. There are, however, many cases
of a rainy season when the sun is low, especially on
windward coasts in the trades. Tropical rains come
usually in the form of heavy downpours and with
a well-marked diurnal period, the maximum varying
with the locality between noon and midnight. The
conditions at Calcutta, as shown in the accompany-
ing data, are fairly typical.2
DIURNAL DISTRIBUTION OF RAINFALL AT CALCUTTA.
12 P.M. 2 A.M. 50 12 M.—2 P.M. 111
2-4 A.M. 71 2-4 P.M 116
4-6 A.M. 65 4-6 P.M. 120
6-8 A.M. 71 6-8 p.m. 128
£-10 A.M. 58 8-10 p.m. 73
10 A.M. 12 M. 92 10 P.M. 12 P.M. 45
Local influences are, however, very important, and
in many places night rainfall maxima are found.
The tropical rainy season is therefore not to be
thought of as a period of continuous rains, falling
steadily day and night for week after week. The
momings are often fine, with clean air, well washed
by the rains of the preceding afternoon or night.
Woeikof’s detailed studies of tropical rainfalls, as a
whole, lead him to the conclusion that (1) the inten-
sity of tropical rains averages higher than in middle
1 It will be remembered that at all places within the tropics the
sun is vertical twice in the year.
2 Seven year record; expressed in thousandths of the daily mean.
86
CLIMATE
latitudes, but the difference is not great; (2) the
heaviest short downpours have, so far as observation
now goes, occurred in middle latitudes; (
general,
moderate rainfalls lasting continuously for many
hours, which are common in the temperate zones, are
known in many parts of the tropics and have even
been given special names; (4) the heaviest daily rain-
falls have been noted outside the tropics, as at Cherra-
punji, for example; and (5) it is likely that the most
intense rains in the tropics fall during large tropical
cyclones.
Land and Sea Breezes. The sea breeze is an im-
portant climatic feature on many tropical coasts.
With its regular occurrence, and its cool, clean air,
it serves to make many districts habitable for white
settlers, and has deservedly won the name of “ the
doctor.” On not a few coasts, the sea breeze is a
true prevailing wind. The location of dwellings is
often determined by the exposure of a site to the sea
breeze. For this reason, many native villages are put
as near the sea as possible. The houses of well-to-do
foreigners often occupy the healthiest and most de-
sirable locations, where the sea breeze has a free en-
trance, while the poorer native classes live in the lower,
less exposed and less desirable places. A social
stratification is thus determined by the sea breeze.
Thunderstorms. Local thunderstorms are fre-
quent in the humid portions of the tropics. They
have a marked diurnal periodicity; find their best
opportunity in the equatorial belt of weak pressure
CHARACTERISTICS OF ZONES—TROPICS 87
gradients and high temperature, and- are commonly
associated with the rainy season, being most common
at the beginning and end of the regular rains. In
many places, thunderstorms occur daily throughout
tljeir season, with extraordinary regularity and great
intensity. Lightning is, however, reported as very
seldom doing any damage. Attention has been
called to the fact that the frequent electrical dis-
charges cause the rain water to be relatively rich in
nitric acid. This condition, together with the carbon
dioxide in the rain water and the high temperature
of the same, promotes active and deep rock decom-
position. In higher latitudes, where the ground may
be frozen part of the year, and where the decompos-
ing action of rain water is less, there is less of this
effect. In northem India, hail-storms of great
violence occur, and persons have been killed by
them.
Cloudiness. Taken as a whole, the tropics are not
favoured with such clear skies as is often supposed.
Cloudiness varies about as does the rainfall. The
maximum is in the equatorial belt of calms and rains,
where the sky is always more or less cloudy. The
minimum is in the trade latitudes, where fair skies as
a whole prevail.1 The equatorial cloud belt moves
north and south after the sun. Wholly clear days
are very rare in the tropics generally, especially near
1 Supan, Grundzüge der Physischen ErdJcunde, 3d ed., 1903, Fig.
18, page 53, gives a diagram showing the distribution of rainfall
and cloudiness (also of other elements) according to latitude.
88
CLIMATE
the equator, and during the rainy season heavy clouds
usually cover the sky.
Tropical clouds and rainfall, as a whole, repeat, in
an exaggerated form, the summer conditions of much
of the north temperate zone. Broken skies; cumulus
and cumulo-nimbus clouds; heavy showers or thun-
derstorms—these usually characterise the rainy sea-
son. Skies clear, or flecked with scattered small
cumuli, are typical of the dry season. Wholly over-
cast, dull days, such as are common in the winter of
the temperate zone, occur frequently only on tropical
coasts in the vicinity of cold ocean currents, as in
Peru and on parts of the west coast of Africa. In
these same regions ocean fogs are common.
Intensity of Skylight and Twilight. The inten-
sity of the light from tropical skies by day is trying,
even almost unbearable, to newcomers. The intense
insolation, together with the reflection from the
ground, increases the general dazzling glare under a
tropical sun, necessitating protection of some sort.
The far-famed deep blue of the tropical sky is much
exaggerated. During much of the time, smoke from
forest and prairie fires (in the dry season); dust (in
deserts), and water vapour give the sky a pale, whit-
ish appearance. In the heart of the trade wind beits
at sea, the sky is much more of a deep blue. The
beauties of tropical sunrise and sunset, and of the
tropical night, have, however, not been overrated.
Twilight within the tropics is shorter than in higher
latitudes, but the coming on of night is less sudden
CHABACTERISTICS OF ZONES—TROPICS 89
than is generally assumed. Pechuel-Lösche and
others have shown that it is possible, on the Loango
coast, to read ordinary print twenty to thirty minutes
after sunset.
Climatic Subdivision*. The rational basis for a
classification of the larger climatic provinces of the
torrid zone is found in the general wind systems and
in their control over rainfall. Following this scheme
there are these subdivisions: I. The equatorial belt;
II. The trade wind beits; III. The monsoon beits.
In each of these subdivisions there are modifications,
due to ocean and Continental influences. In general
both seasonal and diurnal phenomena and changes
are more marked in Continental interiors than on the
oceans, islands, and windward coasts. Further, the
effect of altitude is so important that another subdi-
vision should be added to indude IV. Mountain
climates.
I. The Equatorial Belt. Within a few degrees
of the equator, and when not interfered with by other
Controls, the annual curve of temperature has two
maxima following the two zenithal positions of the
sun, and two minima at about the time of the solstices.
This, which is known as the equatorial type of annual
march of temperature, is illustrated in the data
and curves for the interior of Africa, Batavia, and
Jaluit. (Fig. 19).
The greatest range is shown in the curve for the in-
terior of Africa; the curve for Batavia illustrates in-
sular conditions with less range; and the oceanic type,
90
CLIMATE
for Jaluit, Marshall Islands, gives the least range.
At Jaluit, the daily maxima for the entire year are
between 88° and 91.5° and the daily minima between
75° and 77°. This doublé maximum is not a
universal phenomenon, there being many cases where
but a single maximum occurs, as will be seen
later.
TAB LH OF MEAN MONTHLY TEMPERATURES FOR SELECTED
TROPICAL STATIONS1
I. Equatorial Type II. Tropical Type
Conti- nental Insular Marine Continental Monsoon Insular
Africa interior Batavia Jaluit, Marshall Islands Wadi Halfa Alice Springs Nagpur Hono- lulu James- town
Lat. 8.1° N. 8° 11' S. 5° 65' N. 21° 63' N. 23° 38' S. 21°9' N. 21° 18' N. 15° 66' S.
Loog. 23.6° E. 106° 50' E. 169° 40' E. 31° 20' E. 133° 37'E. 79° 11' E. 157° 60'N. 5° 43'W.
Altitude 1837 ft. 23 ft. 10 ft. 426 ft. 1926 ft. 1093 ft. 49 ft. 39 ft.
Jan. 73.4° 77.5° 80.8° 81.3° 85.6° 68.2° 70.0° 74.7°
Feb. 77.2° 77.7° 81.0° 68.6° 83.3° 73 8° 70.3° 75.9°
Mar. 83.8° 78.4° 80.6° 73.0° 77.9° 83 7° 70.9° 73.8°
April May 85.3° 79.3° 80.4° 81.0° 68.5° 90.3° 72.9° 75.0°
83.7° 79.5° 80.4° 87.1® 80.6° 94.3° 74.3® 88.9°
Tune 81.5° 78.8° 80.2° 91.4° 54.0° 85.6° 76.1° 70.5°
July 78.4° 78.3° 80.2° 93.4° 51.8° 80.1° 77.2° 71.8°
Aug. 75.7° 78.6° 80.4° 91.6° 59.4° 80.2° 77.5° 69.4°
Sept. 77.7° 79.3° 80.4° 87.1° 66.6° 80.4° 77.2° 87.6°
Oct. 78.1° 79.5° 80.8° 83.1° 73.4° 78.6° 76.5° 86.7°
Nov. 75.7° 79.0° 80.8° 71.4° 79.7® 72.3° 73.8° 67.8°
Dec. 72.0° 78.1° 80.6° 84.8° 82.8° 66.7° 71.4° 71.8°
Mean 78.6° 78.8° 80.6° 79.3° 70.3° 79.5° - 73.9° 71.1°
Range 12.4° 2° 0.8° 32.1° 33.8° 27.6° 7.5 10.2°
As the belt of rains swings back and forth across
the equator after the sun, there should be two rainy
seasons with the sun vertical, and two dry seasons
when the sun is farthest from the zenith, and while
1 Given to nearest tenth of a degree Fahr.
CBARACTERISTIC8 OF ZONES—TROPICS 91
the trades blow. These conditions prevail on the
equator, and as far north and south of the equator
(about 10°-12°) as sufficiënt time elapses between
the two zenithal positions of the sun for the two rainy
Fig. 19. Annual March of Temperature: Equatorial Type.
A: Africa, interior. B: Batavia. J: Jaluit, Marshall Islands.
seasons to be distinguished from one another. In
this belt, under normal conditions, there is, therefore,
no dry season of any considerable duration. The
doublé rainy season is clearly seen in equatorial
Fig. 20. Annual March of Rainfall
in the Tropics
S. A: South Africa. Q: Quito. S. P:
Sao Paulo. M: Mexico. H: Hilo.
P. D: Port Darwin.
92
CHABACTERISTICS OF ZONES—TROPICS 93
Africa and in parts of equatorial South America.
The maxima lag somewhat behind the vertical sun,
coming in April and November, and are unsymmetri-
cally developed, the first maximum being the principal
one. The minima are also unsymmetrically devel-
oped, and the so-called “ dry seasons ” are seldom
wholly rainless. In this equatorial belt, the annual
range of rainfall is generally below 20%; in the west-
ern portion of the Malay Archipelagd and on the
upper Amazon, it is below 10%. In these latitudes,
therefore, the distribution of rainfall is not unlike that
in extra-tropical latitudes which are under the marine
regime of rainfall, there being precipitation at all
seasons.
This rainfall type with doublé maxima and minima
has been called the equatorial type, and is illustrated
in the following data and in the curves for south
Africa and Quito. (Fig. 20).
The mean annual rainfall at Quito is 42.12 inches.
These doublé rainy and dry seasons are easily modi-
fied by other conditions, as by the monsoons of the
Indo-Australiaii area, for example, so there is no
rigid belt of equatorial rains extending around the
world. In South America, east of the Andes, the
distinction between rainy and dry seasons is often
much confused. In this equatorial belt, the cloudi-
ness is high throughout the year, averaging .7 to .8,
with a relativeljj small annual period. The data and
curve following are fairly typical, but the annual
period varies greatly under local Controls. (Fig. 21).
94
