CLIMATE OF NEW MEXICO
TOPOGRAPHIC
FEATURES
New Mexico, fifth largest State in the Union, with a total area of 121,412
square miles, is approximately 350 miles square, and lies mostly between
latitudes 32° and 37° N and longitudes 103° and 109° W. The States topography consists mainly of
high plateaus or mesas, with numerous mountain ranges, canyons, valleys, and
normally dry arroyos. Average elevation
is about 4,700 feet above sea level.
The lowest point is just above the Red Bluff Reservoir at 2,817 feet
where the Pecos River flows into Texas.
The highest point is Wheeler Peak at 13,161 feet. The principal sources of moisture for the
scant rains and snows that fall on the State are the Pacific Ocean, 500 miles
to the west, and the Gulf of Mexico, 500 miles to the southeast. New Mexico has a mild, arid or semiarid,
continental climate characterized by light precipitation totals, abundant
sunshine, low relative humidities, and a relatively large annual and diurnal
temperature range. The highest
mountains have climate characteristics common to the Rocky Mountains.
The
State is divided into three major areas by mountain ranges and highlands,
oriented in a general north-south directions, which merge in the north. The Northern Mountains and Central
Highlands, between longitudes 105° and 106° W, are the western boundary of the
Northeastern and southeastern Plains which slope gradually eastward and
southeastward. The northern part of
these eastern plains lies within the Arkansas River Basin and is drained mostly
by the Canadian River, which flows southward then eastward into Oklahoma to its
confluence with the Arkansas, and the Cimarron River in the extreme
northeastern corner. The Pecos River rises in the Sangre de Cristo Mountains
and flows southward through the Southeastern Plains into Texas, and then
southeastward to join the Rio Grande.
West of the mountain ranges that form the Continental Divide, whose
height decreases to a markedly lower elevation in southern New Mexico, rivers
drain into the Gulf of California through the Colorado River system. Principal tributaries flowing westward into
the Colorado River are the San Juan River in the north, the Gila River in the
south, and the San Francisco tributary of the Gila and other headwater streams
of the Little Colorado River in the west-central area. The largest closed basins in the west are
the Plains of St. Augustine in Catron County and the Rio members Basin in Grant
and Luna Countries. Between the
Northern Mountains and the Central Highland system and the Continental Divide
system is the Rio Grande Valley which widens toward the south. The Rio Grande rises in the San Juan
Mountains of southern Colorado, flows southward through New Mexico, then
southeastward along the Texas-Mexico border into the Gulf of Mexico. The closed Tularosa Basin in southern New Mexico
is an intermountain area east of the Central Valley.
TEMPERATURE
Mean annual
temperatures range from 64° F in the extreme southeast
to 40° F or lower in high mountains and valleys of
the north; elevation is a greater factor in determining the temperature of any
specific locality than its latitude.
This is shown by only a 3° F difference in mean
temperature between stations at similar elevations, one in the extreme
northeast and the other in the extreme southwest; however, at two stations only
15 miles apart, but differing in elevation by 4,700 feet, the mean annual
temperature are 61° and 45° F a difference of 16° F or a little more than 3° decrease in temperature for each 1,000-foot
increase in elevation.
During
the summer months, individual daytime temperatures quite often exceed 100° F at elevations below 5,000 feet; but the
average monthly maximum temperatures during July, the warmest month, range from
slightly above 90° F at lower elevations to
the upper 70s at high elevations.
Warmest days quite often occur in June before the thunderstorm season
sets in; during July and August, afternoon convective storms tend to decrease
solar insolation, lowering temperatures before they reach their potential daily
high. The highest temperatures of
record in New Mexico are 116° at Orogrande on July 14,
1934, and at Artesia on June 29, 1918.
A preponderance of clear skies and low relative humidities permit rapid
cooling by radiation from the earth after sundown; consequently, nights are
usually comfortable in summer. The average
range between daily high and low temperatures is from 25° to 35° F.
In
January, the coldest month, average daytime temperatures range from the middle
50s in the southern and central valleys to the middle 30s in the higher
elevations of the north. Minimum
temperatures below freezing are common in all sections of the State during the
winter, but subzero temperatures are rare except in the mountains. The lowest temperature recorded at regular
observing stations in the State was -50° F at Gavilan on February 1,
1951. An unofficial low temperature of
-57° F at Ciniza on January 13, 1963, was widely
reported by the press.
The
freeze-free season ranges from more than 200 days in the southern valleys to
less than 80 days in the northern mountains where some high mountain valleys
have freeze in summer months.
PRECIPITATION
Average annual
precipitation ranges from less than 10 inches over much of the southern desert
and the Rio Grande and San Juan Valleys to more than 20 inches at higher
elevations in the State. A wide
variation in annual totals is characteristic of arid and semiarid climates as
illustrated by annual extremes of 2.95 and 33.94 inches at Carlsbad during a
period of more than 71 years.
Summer
rains fall almost entirely during brief, but frequently intense
thunderstorms. The general
southeasterly circulation from the Gulf of Mexico brings moisture for these
storms into the State, and strong surface heating combined with orographic
lifting as the air moves over higher terrain causes air currents and
condensations. July and August are the
rainiest months over most of the State, with from 30 to 40 percent of the years
total moisture falling at that time.
The San Juan Valley area is least affected by this summer circulation,
receiving about 25 percent of its annual rainfall during July and August. During the warmest 6 months of the year, May
through October, total precipitation averages from 60 percent of the annual
total in the Northwestern Plateau to 80 percent of the annual total in the
eastern plains.
Winter
precipitation is caused mainly by frontal activity associated with the general
movement of Pacific Ocean storms across the country from west to east. As these storms move inland, much of the
moisture is precipitated over the coastal and inland mountains ranges of
California, Nevada, Arizona, and Utah.
Much of the remaining moisture falls on the western slope of the
Continental Divide and over northern and high central mountain ranges. Winter is the driest season in New Mexico
except for the portion west of the Continental Divide. This dryness is most noticeable in the
Central Valley and on eastern slopes of the mountains.
Much
of the winter precipitation falls as snow in the mountain areas, but it may
occur as either rain or snow in the valleys.
Average annual snowfall ranges from about 3 inches at the Southern
Desert and Southeastern Plains stations to well over 100 inches at Northern
Mountain stations. It may exceed 300
inches in the highest mountains of the north.
FLOODS
General floods
are seldom widespread in New Mexico.
Heavy summer thunderstorms may bring several inches of rain to small
areas in a short time. Because of the
rough terrain and sparse vegetation in many areas, runoffs from these storms
frequently cause local flash floods.
Normally dry arroyos may overflow their banks for several hours, halting
traffic where water crosses highways; damaging bridges, culverts, and roadways;
and if in an urban area, possibly causing considerable property damage. Snowmelt during April to June, especially in
combination with a warm rain, and heavy general rains during August to October
may occasionally cause flooding of the larger rivers. Although streams in New Mexico have risen substantially during
several floods, the overflows cannot be termed disastrous because comparatively
little real property damage has resulted in this lightly industrialized and
sparsely populated State. During spring
snowmelt, main rivers may exceed flood stage and cause some damage to property
along their banks.
Years
in which there have been high flood discharges in major New Mexico river basins
since 1903 are: Rio Grande 1904, 1905, 1929, 1935, and 1941; Pecos 1904,
1905, 1915, 1916, 1937, 1941, 1942, and 1966; Canadian 1904, 1913, 1937, and
1965; San Juan 1909, 1911, 1927, 1929, and 1942; and Gila 1941 and 1965.
SEVERE
STORMS On
rare occasions, a tropical hurricane may cause heavy rain in eastern and
central New Mexico as it moves inland from the western part of the Gulf of
Mexico, but there is no record of serious wind damage from these storms. Also on rare occasions, a tropical storm
moving inland from the Gulf of California area may cause heavy rain in
southwestern New Mexico.
Tornadoes
are occasionally reported in New Mexico, most frequently during afternoon and
early evening hours from May through August.
There is an average of nine tornadoes a year, but damage has been light
because most occur over open, sparsely populated country. The tornado causing the most loss of life
and injuries occurred in 1930 at Wagon Mound with 3 deaths, 19 injuries, and
property loss of $150,000. Greater
property damage, $450,000, but fewer casualties 1 death and 8 injuries
resulted from a destructive tornado at Maxwell in 1964.
Thunderstorms
are relatively frequent in summer, averaging from 40 in the south to more than
70 in the northeast, the latter area having the second greatest thunderstorm
frequency in the country. Occasionally,
these heavy thunderstorms are accompanied by hail, with the greatest hail
frequency occurring near and to the east of Los Alamos. When hail falls over an agricultural area,
considerable local crop damage may result.
SUNSHINE
Plentiful
sunshine occurs in New Mexico, with from 75 to 80 percent of the possible
sunshine being received. In winter,
this is particularly noticeable with from 70 to 75 percent of the possible
sunshine being received. It is not
uncommon for as much as 90 percent of the possible sunshine to occur in
November and in some of the spring months.
The average number of hours of annual sunshine ranges from near 3,700 in
the southwest to 2,800 in the north-central portions.
RELATIVE
HUMIDITY Average
relative humidities are lower in the valleys but higher in the mountains
because of the lower mountain temperatures.
Relative humidity ranges from an average of near 65 percent about
sunrise to near 30 percent in mid-afternoon; however, afternoon humidities in
warmer months are often less than 20 percent and occasionally may go as low as
4 percent. The low relative humidities
during periods of extreme temperatures ease the effect of summer and winter
temperatures.
WIND
Wind speeds
over the State are usually moderate, although relatively strong winds often
accompany occasional frontal activity during late winter and spring months and
sometimes occur just in advance of thunderstorms. Frontal winds may exceed 30 mph for several hours and reach peak
speeds of more than 50 mph. Spring is
the windy season. Blowing dust and
serious soil erosion of unprotected fields may be a problem during dry
spells. Winds are generally stronger in
the eastern plains than in other parts of the State. Winds generally predominate from the southeast in summer and from
the west in winter, but local surface wind directions will vary greatly because
of local topography and mountain and valley breezes.
EVAPORATION
Potential
evaporation in New Mexico is much greater than average annual
precipitation. Evaporation from a Class
A pan ranges from near 56 inches in the north-central mountains to more than
110 inches in southeastern valleys.
During the warm months, May through October, evaporation ranges from
near 41 inches in the north-central to 73 inches in the southeast portions of
the State.
DROUGHT
Periods of
recent extreme meteorological drought, as defined by palmer drought index of 4.0
or lower, have been noted in the mid-1930s in the Northeastern Plains and
Central Highlands, in 1947 in the Central Highlands, in the 1950s throughout
the State, in 1963-64 in the Northern Mountains, in 1964 in the Southeastern
Plains, and in 1967 in the Northern Mountains. The largest general drought
since 1930 was in the 1950s.
RECREATION
AND HEALTH Large
primitive areas and many campgrounds are in the more than 8 million acres of
forestland. There are many national
Monuments and State Parks and one national Park Carlsbad Caverns. Hunting and fishing areas are available in
most sections of the State, and several reservoirs have facilities for
boating. Snows in mountain areas permit
skiing during winter months. These
features, combined with generally mild, dry, sunny climate, make New Mexico a
mecca for outdoor recreation. Many
people seeking a mild and dry climate from health reasons find the State a
desirable place to settle
CLIMATE
AND THE ECONOMY Principal industries of New Mexico are agriculture, mining, lumbering,
gas and oil production, and recreation.
Of these, the influence of climate upon agriculture and recreation is of
major importance. Less than 4 percent
of the States area is under cultivation,
and about one-third of this area is irrigated. Farming on this latter portion is intensive. More than one-half of the area of the State
is pastureland; about 28 percent is woodland.
The remainder is generally classified as wasteland and urban. Most irrigated land is in the southern
valleys, although some is found in the middle Rio Grande Valley, the Canadian
Valley in the northeast, the San Juan Valley in the northwest, and in
east-central counties. These irrigated
lands draw on stored surface water as well as underground water supplies for irrigation. Most dry-land farming is in the eastern
plains, but short season dry-land summer crops are grown in some small areas in
the Central Highlands. Dry-land crops
are divided primarily between winter grains, which require favorable moisture
conditions from early fall throughout winter and spring, and short-season row
and feed crops, which depend mainly on summer showers to produce a yield. Stored surface water for irrigation, used
principally for cotton, truck and feed crops, and fruit, depends on adequate
winter snows in the mountains of both the northern part of the State and in
southern Colorado for its initial source.
Livestock raising is the most extensive agricultural pursuit. Sufficient moisture usually falls, providing
for the growth of good range forage.
Because of the mild climate, livestock can live on the open range
throughout the year, grazing in the higher mountain ranges during the summer
and in the lower valleys and plains during the winter.