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In meteorology, a tropical cyclone (or tropical disturbance, tropical depression, tropical storm, typhoon, or hurricane, depending on strength and location) is a type of low pressure system which generally forms in the tropics. Hurricane is the term used to describe tropical cyclones that form in the Caribbean where we are located.
Hurricanes need the warm humid air above tropical oceans in order to develop. That’s why they form over ocean waters close to the equator. And that’s why they form only during the summer and early fall, when those waters are about 80 degrees Fahrenheit or above. But you won’t normally see hurricanes form right at the equator. That’s because at zero degrees latitude there isn’t enough turning of winds in the atmosphere to give tropical cyclones the “spin” they need to get started.
This turning of the winds is known as the Coriolis Force or Effect.
Nearly all hurricanes form within 30 degrees of the equator and 87% form within 20 degrees of it. However, because the Coriolis effect initiates and maintains tropical hurricane rotation, such hurricanes almost never form or move within about 10 degrees of the equator where the Coriolis effect is weakest. The Coriolis Effect initiates and helps maintain the rotation of a tropical hurricane. This rotational force is zero at the equator and increases as you travel away from the equator, being greatest at the poles. Hurricanes can’t actually form within 4 degrees of the equator, because the Coriolis effect is just too small. Once a tropical revolving storm is formed though, wind determines its movement. There is very little cross-equatorial flow of wind, as the main winds steer the storm away from the equator.
Also, hurricanes that form in the Caribbean are not likely to turn toward Costa Rica. Caribbean tropical storms either turn northward or continue westward due to the steering currents of trade winds from the east, then a clockwise flow around a semi-permanent area of high pressure to the north. This has a tendency to turn them northward away from Central America.
Here in Costa Rica we’re located at 9.55 degrees north of the equator, below the path of most hurricanes.There are seven tropical cyclone zones “basins” where storms occur on a regular basis and Costa Rica is not located in the affected areas.
Here are some terms and definitions that relate to hurricanes.
Coriolis Force: An artifact of the earth’s rotation. Once air has been set in motion by the pressure gradient force, it undergoes an apparent deflection from its path, as seen by an observer on the earth. This apparent deflection is called the “Coriolis force” and is a result of the earth’s rotation. The Coriolis effect initiates cyclonic rotation, but it is not the driving force that brings this rotation to high speeds. That force is the heat of condensation.
In the northern hemisphere, the earth’s rotation is deflected to the right by the Coriolis force. The amount of deflection the air makes is directly related to both the speed at which the air is moving and its latitude. Therefore, slowly blowing winds will be deflected only a small amount, while stronger winds will be deflected more.
Pressure Gradient Force: Directed from high to low pressure. The change in pressure measured across a given distance is called a “pressure gradient”. The pressure gradient results in a net force that is directed from high to low pressure and this force is called the “pressure gradient force”.
Geostrophic Wind: Winds balanced by the Coriolis and Pressure Gradient forces. An air parcel initially at rest will move from high pressure to low pressure because of the pressure gradient force (PGF). However, as that air parcel begins to move, it is deflected by the Coriolis force to the right in the northern hemisphere (to the left on the southern hemisphere). As the wind gains speed, the deflection increases until the Coriolis force equals the pressure gradient force. At this point, the wind will be blowing parallel to the isobars. When this happens, the wind is referred to as geostrophic.While it is true that the centre of a hurricane is very unlikely to hit Costa Rica, it is simply not true that hurricanes do not effect Costa Rica.
It has been stated in many places on this board that Costa Rica is free of hurricanes.
As a graduate in Geography from the University of Wales who has lived in Costa Rica for over 12 years I would like to categorically state that Hurricanes CAN and DO effect Costa Rica.
If anyone wants I can explain at length but basically a hurricane is an atmospheric phenomemum that extends outwards from the eye for upto 500 miles, hurricane force winds will not be felt more than 100 miles from the centre BUT heavy rain may be produced at a great distance from the eye.
It is this heavy rain that we see when a hurricane affects Costa Rica. There is little need to be worried about wind damage, but flooding, landslides and heavy rain can cause immense damage and loss of life, particulary destroying roads and bridges. Contrary to what appears logical, hurricanes on the Caribbean coast usually bring problems to the Pacific Coast. If you want to see examples google “Hurricane Cesar Costa Rica” or “Hurricane Mitch Costa Rica”.
Now if someone wants to argue that its not as bad as Nicaragua or Florida for hurricane related effects then that is another arguement and I think the point that was trying to be made.We are talking about degree here. I live in Miami and we have seen some direct and near direct hits. Let me emphasize that there is a huge difference between the effects of a hurricane which hits directly and one which hits many miles away. If you are stating that some hurricanes will and have had an effect on Costa Rica, I am sure that is the case, but any effect caused would not be classified as hurricane damage. A heavy rain is just that, a heavy rain. Whether it is a spin off of a named atmospheric disturbances a hundred miles away or whether it is caused by an unnamed local rainstorm, it is still just a rain storm.
You can blame a lot of damage on a named storm whose force can directly and indirectly influence the atmosphere many hundreds of miles away. Where do you draw the line, though, since every aspect of the planet’s weather systems are connected? So far as I can see from the tracking maps, hurricanes do not effect Costa Rica to any serious degree. Picking knit here, i guess.In my short article about hurricanes at , I state that “Although some 9 out of every 10 hurricane deaths are from drowning, most deaths in Costa Rica were due to secondary effects of the hurricane like flooding and mudslides caused by César’s heavy rainfall. In fact, regular flooding is far more of a problem in certain areas of Costa Rica than hurricanes.”
Scott Oliver – Founder
WeLoveCostaRica.com
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