Climate Change Impacts in Costa Rica

Throughout the world, there are three major impacts that have taken place due to climate change. First, there are physical systems. These include climate changes due to glaciers, rivers, coastal erosion etc... Second, there are biological systems which include terrestrial ecosystems, wildfires, and marine ecosystems. Lastly are human and managed systems which include food production, livelihoods health, and economics. However, luckily for Costa Rica they only have to deal with physical systems that may impact their climate change. It seems Costa Rica's rivers and lakes have attributed to their climate change. The biggest risk Costa Rica must fear are droughts that would impact their everyday lives.

According to the IPCC report, by century's end, CMIP5 models project the greatest warming in the Central America region in the June, July, and August months of the year. From October to March, it is projected to precipitate less in northern Central America. Several phenomena that affects the Central America region include the ITCZ, NAMS, ENSO, and TCs. This annual cycle is due to the air-sea interactions over the Western Hemisphere warm pool in the north Pacific and the Intra Americas seas. Precipitation trends must be carefully interpreted because of inter-decadal climate variations can be large in the Central America region. Prolonged dry/wet periods are related to decadal variability of the adjacent Pacific and Atlantic and the intensity of easterlies over a specific region. From 1950-2000 there were increased easterlies over Puerto Rico which caused a disruption of inland moisture convergence which led to a huge precipitation decrease.

 http://berkeleyearth.lbl.gov/regions/costa-rica

Going into further detail, I will talk about the future climate in Central America. There have been an increased trend in precipitation and temperature in Central America. While there have been more precipitation, that has led to more landslides and flash floods. There have also been projections that shows by the year 2100, there will be an increase in temperature of about 1.6C to 4.0C in Central America. It has also been proven that land use change contributes significantly towards environmental degradation. Deforestation and land degradation are attributed mainly to increased agriculture. Renewable energy based on biomass has a potential impact on lan use change and deforestation and could be affected by climate change. Conversion of natural ecosystems is the main cause of biodiversity and ecosystem loss in Central America, and it is a driver of anthropogenic climate change. There have also been changes in weather and climatic patterns which are negatively affecting human health in Central America by increasing morbidity, mortality, and disabilities. Climate-related drivers are associated with respiratory and cardiovascular diseases.

http://costaricabedfinder.com/fotos/acrcategories/20/stig_pedersenmonteverde.jpg

The most interesting threat that I've found has to deal with the food production systems and food security in Central America and South America. Due to the increasing global demand for food and biofuels, Central America and South America have increased their agricultural production mainly with the expansion of planted areas and this trend is expected to continue in the future. Ecosystems are being affected in isolation by climate change and land use changes. An alarming prediction that I've read is that by the end of the 21st century, South America could lose between 1 and 21% of its arable land due to climate change and population growth. In Southeast South America, there have been significant increases in precipitation and wetter soil conditions during the 20th century which have benefited summer crops and pastures productivity. Future climate scenarios implications to food production and food security shows a very large range of uncertainty across multiple models and scenarios. One uncertainty is related to the effect of CO2 on plant physiology. A lot of crops can respond with an increasing productivity as a result of higher growth rates and better water use efficiency. On the flip side, food quality could decrease as a result of higher sugar contents in grain and fruits, and decreases in the protein content in cereals and legumes. One approach to adapting to future climate change is by assisting people to cope with current climate variability.

Severe Weather in Costa Rica

Tornadoes
A tornado is a violent rotating column of air extending from a thunderstorm to the ground. For a tornado to form, the area where the tornado forms must have these three ingredients: a lot of warm, moist air near the ground, atmospheric instability, and lastly clashing air fronts that act to propel moist air upward. There are three steps in the development of a tornado. The first step is that the first object that forms is a rotating body of air at the ground which happens because of vertical wind sheer. The second step involves horizontal rotating air that is lifted off the ground by the updraft of the thunderstorm. As soon as the horizontal air is lifted nearly vertically it is considered a mesocyclone. The final step in the development of a tornado is when the mesocyclone is fully developed in the updraft of a thunderstorm.

In the United States, most tornadoes travel from the southwest to the northeast which is because of an increased frequency of certain tornado-producing patterns.

Tornadoes rarely ever happen in Costa Rica. In the past 10 years, there have only been 3 tornadoes, each of which weren't very strong and quickly dissipated leaving minor damages along its path.

The United States experiences over 1,000 tornadoes each year although many go undetected and unreported. The Southeast and Midwest of the U.S. experience most of the tornadoes in the U.S. On the other hand, you would be lucky to see one tornado hit Costa Rica in a single year.

http://scienceline.ucsb.edu/getkey.php?key=1073
http://www.entercostarica.com/travel-guide/costa-rica-weather

http://www.windows2universe.org/earth/Atmosphere/tornado/agri_map.html

By looking at this map, Costa Rica falls no where close to the "hot spots of tornado activity". Most the the tornado activity occurs in Europe and North America.

According to the graph, tornado occurrences appear to increase over time. This may not be all that accurate because the population of the world is increasing each year and for a tornado to be documented as a "tornado" someone must see the tornado. Also, tornado observation practices have led to more tornadoes being reported that otherwise wouldn't have been. Finally, improved technology most likely played a part in the increased number of tornadoes being reported.

Hurricanes

For a hurricane to form, there are three conditions that must be met. First, the ocean water must be warm enough at the surface. Second, atmospheric moisture from the water evaporation must combine with that heat and energy to form a powerful enough engine to propel the hurricane. Lastly, a wind pattern must be near the ocean surface to spiral air inward. Luckily for Costa Rica, they do not get hurricanes. Costa Rica is just a bit too far south so the weather patterns push the hurricanes up north. However, hurricanes north of Costa Rica can bring in heavy storms that can last for several days and may cause localized flooding.

Hurricanes are called by different names according to the region where the hurricane hits. In the Atlantic and East Pacific they are called hurricanes. In the Australia and near the Indian Ocean they are called cyclones. Lastly in Indonesia and off the coast of China they are called typhoons.

http://www.learnnc.org/lp/editions/nchist-recent/6248

Hurricanes in the United States usually begin over the Sahara desert in Africa. It then moves over the Atlantic Ocean to build strength. Winds along the East Coast blow in a north or northeast direction. Also fronts or pressure zones may come into play where a hurricane travels.

Costa Rica do not experience any hurricanes. The United States however experiences about 6 hurricanes each year. 

http://www.costaricajourneys.com/weather-in-costa-rica-pacific-coast/

http://www.numberof.net/number-of-hurricanes-per-year/

Daily Weather in San Jose, Costa Rica

My country's capital city is San Jose. For my 3-day forecast I will tell you the day's forecasted high, low and precipitation percent. For the first day, the forecasted high will be 75 F, the low will be 64 F, and the precipitation percent is 80%.  The second day's high is 76 F, 63 F for the low, and it has a 90% chance for precipitation. The third and final day's high is 76 F, the low will be 63 F, and there is a 80% precipitation chance. The average pressure over this three day period is 29.91. Over the three day period, the pressure increased. The average wind speed over the five day period was 6mph and the wind speed decreased over the three day period.

As you can clearly see, there are clouds hovering over San Jose. San Jose has two distinct seasons: the dry and wet seasons. From December-April lasts the dry season and from May-November is Costa Rica's wet season. Since it is still in November, there are many clouds and precipitation yet. There are a substantial amount of blue (cold) clouds throughout Costa Rica. There are a lot of yellow and orange over San Jose which means there is medium precipitation at the moment. San Jose also has a vast amount of mountains and forests. There aren't many rivers in San Jose. 

 

In this map, you can see that the pressure ranges from 1012 mb-1016 mb. There aren't any areas of high and low pressures in Central America. There aren't any major fronts to be concerned about. Central America right now seems pretty calm with nothing major happening.

Global and Local Winds in Costa Rica

Costa Rica is located in Central America and lies between 9.9333° N latitude and 84.0833° W longitude. It is located in the northern hemisphere. Of the three atmospheric cells: Polar, Ferrel and Hadley, Costa Rica resides in the Haley cell. Costa Rica is located in the wind belt of the tropical easterlies. The wind direction blows northeasterly. Costa Rica isn't located near any "special" areas such as the doldrums, horse latitudes, or the polar front. It is located above the doldrums at 0 degrees latitude and below the horse latitudes located at 30 degrees latitude. 

http://home.comcast.net/~rhaberlin/pwpptnts.htm

 

http://www.geogonline.org.uk/g3a_ki1.4.htm

 

Costa Rica is located in the Hadley cell. In the Hadley cell, the atmospheric circulation in the tropics produce tropical easterlies and trade winds. Air rises up in the atmosphere near the equator, goes upward/downward to the poles, returns back to the subtropics, and finally flows back toward the equator. Costa Rica is widely considered a tropical country and is near a subtropical high. Costa Rica's climate is divided into two major seasons: rainy and dry. The dry seasons runs from January-May and the rainy season from May-December. Since Costa Rica is located near the equator, the temperatures don't change dramatically from season to season. The average temperature year-round is around 70-81 degrees F.

 

 http://www.seas.harvard.edu/climate/eli/research/equable/hadley.html

 

 http://www.aari.ru/resources/m0001/Meteorology/HTML/PRIMER/FACTORS/winds.htm

 

There are many mountains in Costa Rica. The two largest are the Cerro Chirripo in Limon (3,842 m) and the Cerro Ventisqueros in San Jose (3,812 m). Five winds or breezes that are associated with mountains include: mountain breezes, valley breezes, Katabatic winds, Chinook winds, and Santa Ana winds. Of these 5 types of winds/breezes, Costa Rica can experience mountain breezes and valley breezes. Costa Rica has a beautiful coastline and experiences both land and sea breezes. 

 

http://miceww.com/costa-rica/osa-peninsula-coastline-in-costa-rica/

Typical Weather and Tourism in Costa Rica

Weather on the Winter Solstice

In Costa Rica, the Winter Solstice occurs on June 21st. The average maximum temperature during June is a sultry 84.8 F. The average minimum on the other hand is a cool 69.7 F. During the winter solstice, you will only see rainfall. Costa Rica doesn't have any other types of precipitation.

Weather on the Summer Solstice
The Summer Solstice occurs on December 21st. The maximum temperature during December is 83.3 F and the minimum temperature is a chilly 67.5 F. Surprisingly, the average maximum temperature for the Winter Solstice is actually hotter than the Summer Solstice and it's cooler in the Summer Solstice than the Winter. As for precipitation, you will get rain, but not that much since December is in Costa Rica's dry season (Mid-November-May).

Weather on the Spring Equinox
The Spring Equinox occurs on September 22nd. The average maximum temperature during September is approximately 84.5 F and the average minimum temperature is 68.7 F. You will see rain during September, and quite a lot of it since September is Costa Rica's rainy season (May-November).

Weather on the Autumn Equinox
The Autumn Equinox occurs on March 20th. The average maximum temperature for the month of March is 87.3 F. On the other hand, the average minimum temperature is 67.7 F. As you can see, the average highs and lows for each month doesn't differ much. You also won't see much rain during March since it would be Costa Rica's dry season.

Travel Agent Advice
If you are planning on visiting Costa Rica, I definitely suggest traveling sometime during their dry season (Mid-November-May) because you won't be able to do a lot of outside activities during the wet season. I would suggest visiting Costa Rica in December as you can plan on visiting during Christmas/New Years. If you live somewhere cold in the United States, it would be a perfect time to leave that cold, snowy weather behind and visit Costa Rica during their summer. A couple of fun things you could do while vacationing in Costa Rica would be zip-lining across a rainforest canopy or relaxing in a volcano-heated hot spring.

Some potential weather hazards in Costa Rica include: volcanoes, earthquakes, and hurricanes.

http://www.tropicalbeachgetaways.com/wp-content/uploads/2012/07/costaRica08.jpg

Costa Rica is a tropical beach paradise getaway for any traveler wanting to get away from their hectic lives.

Temperature Controls in the city of San Jose in Costa Rica

In this post, I will talk about the city capital city of Costa Rica, San Jose and will also go into further detail about the temperature controls in San Jose and what changes if any may occur in the future due to these temperature controls.

As I mentioned earlier, the capital of Costa Rica is San Jose. It has a latitude of 9° 55' 59" N and a longitude of 84° 4' 59" W. San Jose's warmest month is April with an average high of 83.1 F. On the flip side, San Jose's coldest month of the year is January with an average low of 64 F. This information can be found on http://en.wikipedia.org/wiki/San_José,_Costa_Rica#Climate.

San Jose's latitude plays a role in the temperature they get from season to season. Due to the fact that San Jose's latitude is 9° 55' 59" N, day length and temperature don't drastically change from season to season. On average, the sun rises around 5 am and sets around 6 pm year-round.

Ocean currents don't necessarily affect the climate of San Jose's climate because they are so close to the equator. The ocean currents transport warm water and precipitation from the equator toward the poles and cold water from the poles back to the equator.

The future temperature of Costa Rica is expected to rise according to the website (http://www.ipcc.ch/ipccreports/tar/wg2/index.php?idp=524.) Their projection for the northwestern Pacific region is expected to have a 25% decrease in precipitation by the year 2100. Since this region already suffers from water problems as a result of El Nino and infrastructure for tourism and irrigation, this combines for a dim outlook. By the year 2100, they project the mean temperature of Costa Rica to rise by at least 3 C. By looking at past readings from 1957-1997, the continental Central Valley areas of Costa Rica show an increase of
0.4 C every 10 years so this projection isn't out of the question.

In conclusion, San Jose isn't the most diverse city when it comes to climate, but much of which is due to their latitude. It's warmest month of the year is April and it's coldest is January. According to projections, Costa Rica's temperature is set to rise by 3 C by the year 2100. Hopefully you enjoyed reading about the temperature controls of San Jose and learned a thing or two!

About Me

Hi my name is Travis Nakasone and I am a student here at the University of Hawaii. The country I will be blogging about is Costa Rica which is located in North America. I plan to blog about the climate, weather and everything in-between. I am far from a "blogging pro", as this will be the first blog I've written. I honestly don't know much about Costa Rica, but I am eager to learn more about this country.