|Costa Rica Travel Guide|
The climate of Costa Rica. Costa Rica is unequivocally
a tropical country, situated between 8° and 11° North latitude,
fairly close to the equator. Although in the mountains above 2000 meters
you get much cooler temperatures, the average annual temperature for
most of the country lies between 21.7°C (71°F) and 27°C
(81°F). The coolest months are from November through January, and
the warmest from March through May. San José, the capital, where
over a third of the population lives, stands at approximately 1170 meters
altitude and has a mean annual temperature of 20.6°C (69°F).
Weather in the tropics is essentially a phenomenon of solar radiation and air circulation. Intense heat at the equator puts air in motion, and a worldwide pattern of winds is established. The most famous of these, for Costa Rica, are the north-easterly trade winds, known locally as "alisios". These winds blow with considerable force from December to March and April. These winds, for example, are responsible for carrying moisture in the form of mists to the slopes of the Tilarán mountain range. These mists are what sustain the magnificent cloud forest ecosystem.
Rainfall patterns, although seasonal, vary greatly in intensity across geographical areas. Some locations receive over 6 mts (18 ft) of precipitation per year, while others receive under 1.5 mts (4 ft). Most of the total rainfall for any given site (about 70%) occurs on less than 15 days of a whole year, and will often be experienced as days of torrential downpour. Costa Rica may hold the world record for the amount of rainy days at one site. Hacienda Cedral registered 359 days of rain in 1968.
The topography of the country also has a great influence on the weather patterns of a given locality. As a result the timing of the dry and rainy seasons varies a bit on each slope of the mountain ranges that run from the north-west to the south-east and divide the nation into a Caribbean slope and a Pacific slope.
On the Caribbean slope the rainy season begins from mid to late April and continues through December and sometimes January. The wettest months are July and November, with a dry spell that occurs around August or September. Major storms, called "temporales del Atlantico" occasionally buffet this slope between September and February, when it will rain continuously for several days; but an average rainy season day will begin clear with a few hours of sunshine that will give way to clouds and rain by the afternoon. In contrast, the driest months of February and March, might be almost entirely without rainfall.
On the Pacific slope the rainy season begins in May and runs its course until November. Here again, days often begin sunny and pleasant, with rains coming later in the day. This is a period in which the trade winds coming from the north-east are much reduced in intensity, and as a result storms often come in from the Pacific Ocean in September and October. In the northern half of the country the Pacific slope experiences an intense dry season, in which no rain may fall for several months. The forests of the North-West are to a large extent deciduous, letting their leaves fall in order to conserve water. Winds can be very strong, occasionally reaching speeds of 90 km/hr in the lowlands, although they average more around 20 km/hr. The whole Central Valley, in which the capital is situated, experiences a mild, pleasant dry season that is matched by moderate temperatures for most of the year, and a lower than average amount of rainfall. Early settlers prized the area for both its mild climate and fertile soils. The southern half of the Pacific slope is much wetter than its northern counterpart, with a shorter dry season and longer and heavier afternoon rains in the wet season.
In a discussion of the climate in Costa Rica one cannot omit El Niño, "The Child". It is a poorly understood weather phenomenon that occurs every two to seven years. It is originally detectable as an unusual warming of a section of the Pacific Ocean. In 1997 El Niño struck Costa Rica once again, disrupting normal weather patterns considerably. Some scientists have postulated that this phenomenon might have been partially responsible for the disappearance of several species of frogs in the late 80's, which are extremely dependent on water. Each time it occurs analysts across the world hold their breaths waiting to see the effects it has on different regions, because they can often be disastrous. Vi
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