What are El Nino and La Nina? El Nino and La Nina are unusual weather patterns that form in the period of 10 months. El Nino and La Nina both impact climates all around the world, each different in countries and regions.
Normal weather patterns are when low atmospheric pressure is over northern Australia and Indonesia, and when high atmospheric pressure is over the Pacific Ocean. Winds move east to west over the Pacific. The east flows of the trade winds carries the warm surface waters to the west, and bring rainstorms to Indonesia and northern Australia. To the coast of Ecuador and Peru, warm surface water is pulled west, and the cold water beneath pulls up to replace it. This is called an upwelling.
An El Nino happens in intervals of 3-7 years. The formation of this is related to the Pacific Southern Oscillation which is also the cycling of the Pacific Ocean circulation. The Pacific Southern Oscillation (the change of atmospheric pressures) happens when the easterly trade winds collapse, weaken, or even reverse. As this happens, the upwelling stops. The slight weakening of the winds cause a small change in sea surface temperatures, and the wind and pressure changes increase. The warm water of the western Pacific Ocean flow eastward and sea surface temperatures increase on the western coast of South America. When this occurs, the wet weather conditions (originally in the western Pacific) move east, and dry conditions (normally in the east) appear in the west.
During El Niño?s in the Pacific Northwest, the amount of precipitation greatly decreases, the winter temperatures get milder, and winter has below-average precipitation. Some economical and environmental impacts are that erosion is increasing due to severe storm surges, concerns that property built on low-lying areas or on top of unstable bluffs possibly be flooded or threatened by landslides due to regional climate changes, and various salmon species potentially endangered. In California, during El Nino?s they get extreme precipitation and snowfalls. Economical and environmental impacts are heavy precipitation, damage from debris flows or mudslides, and floods from the rain. El Nino seasons in Peru bring so much rainfall that there is now a lake made from the rain, compared to the desert it once was. Several economical and environmental impacts from El Nino include massive floods or mudslides, and since Peru lives in a cold-water zone, it carries many fish that are caught and sold commercially, but during El Nino, a layer of warm water covers the nutrient-rich east coast waters, abruptly stopping the upwelling and the nutrients fail to come up.
Mark Cane, scientist at Columbia University, discusses numerous places around the world that suffer famine and fires due to the effects of El Nino, even mentioning an occurrence here in the United States of an extreme snow storm caused by this event1. According to NOAA, El Nino occurs every 2-7 years and is detected by satellites, buoys, and sea level analysis . If scientists are aware of when El Nino is occurring then they are also aware of what changes in weather it is causing and can therefore connect these disasters to the event. It is
On the day of April 18, 2015, Fish and Wildlife Service and California Department of Fish and Wildlife released 54,000 hatchery juvenile spring-run Chinook salmon into the San Joaquin River. A failure is that dry year conditions will likely impact the number of returning fish. The five year drought really had an impact on the project since the salmon is in critical conditions for survival to adulthood and to support the goal of the Restoration Program to restore the salmon. The updated cost of the entire restoration increased from $1 billion to $1.5 billion, which includes $300 million for levee work that the state would address. If El Nino comes to California it will only benefit us. I have not changed opinion after I researched further into the project. My viewpoint stayed the same as before since the project was not really successful for the reason of the drought not helping the
Tsunamis caused by the Earthquake leads to flooding along the coastal environment. This damages any homes. Flooding caused new lakes or sag ponds on the land. Increasing groundwater flow from springs and displacing stream channel. ("Flood Consequences")
Spross, Jeff. "The Impact Of Climate Change On The Midwest: More Heat, More Droughts, More Floods, Fewer Crops." ThinkProgress RSS. N.p., n.d. Web. 22 May 2014. http://thinkprogress.org/climate/2014/05/07/3434933/national-climate-assessment-midwest/
El Nino is both an atmospheric and oceanic phenomenon affecting weather patterns all around the world. It is complemented by La Nina in a cycle that occurs approximately every 4 years, varying as much as every two years to every six years (Wang 1999, 3331). La Nina has almost the opposite effect, however differs in its strength and duration randomly, as does El Nino (Fedorov 2000, 1998). The cycle is often paraphrased as ENSO, standing for El Nino-Southern Oscillation (Flugel 1997, 3230). It is called this because the El Nino phenomenon is especially strong in the Southern Hemisphere, and has greater effects in areas of the pacific near the equator. Although ENSO is prominent in certain areas, it alters weather patterns all around the world. The El Nino pattern can be quite random with and approximate range of 2 to 6 years per cycle, and is a loaded gun believed to be triggered by western winds (Fedorov 2000, 1997). Many scientists are now looking to the past for answers, so the El Nino cycle can be predicted for the years to come. New discoveries have recently been made on El Nino's history, and possible future.
The warming of the air brings with it a change in weather patterns across the globe. This change in weather patterns will include an increase in weather extremes such as, storms and drought. The type of extreme depends on a specific region with drought expected to increase in the dry tropics and with the frequency of tropical storms and rainfall expected to increase in the wet tropics.
...the El Nino air pressure. The drought also has many impacts on economic, social and environmental. Manage drought comes from daily life and the government measure.
The temperatures rise and the amount of rainfall decreases which disturbs the natural system of the Earth, causing ice caps to melt, sea levels to rise, plants and animal food sources to deplete which in turn affects humans food sources and agriculture, and natural disasters to occur more often. Similarly, climate change seems to have the greatest impact on the oceans and ecosystems along the coast. Many countries center themselves on their water supply; for instance, throughout history, population has always been the densest along rivers and lakes, but mostly along the coasts. People need water to survive, not only for drinking and their homes, but they also use water to import and export goods, and for transportation. “Many areas of the United States, especially the West, currently face water supply issues. The amount of water available in these areas is already limited, and demand will continue to rise as population grows. The West has experienced less rain over the past 50 years, as well as increases in the severity and length of droughts; this has been especially of concern in the Southwest” (“Climate Change Impacts”). Another concern of climate change is the rising of sea levels, which is caused by ice melting or the shifting of the land and the plates. When the sea level rises, it affects not only all of the human activities, but the quality of their water, as well as the plants
Currently, scientists believe that once an ice age has been triggered, oceanic circulation currents can change and the mixing of the oceans cools the southern hemisphere. As glaciers begin to accumulate in the northern hemisphere, solar heat is reflected off the snow which leads to further cooling.
diverse change in weather patterns caused by the jump in temperature worldwide, as well as
Climate change is evidenced through shifts in the weather patterns such as winds, humidity and temperatures over certain durations. Natural climate changes occur less frequently and they are triggered by factors related to geographical aspects as well as solar radiation. The earth’s movement on the orbit triggers changes in climate, causing some areas to have higher temperatures than usual, while others are significantly cold depending on the position of the earth on the orbit. The heat from the sun causes changes in the stratospheric ozone and it increases the amount of greenhouse gases. Heat from the oceanic crust also contributes to warming as a result of episodic hydrothermal venting (Liao & Sandeberg, 2012).
It will change the water cycle due to warmer temperatures. Some areas will get more precipitation and storms, while others will get nothing and have serious droughts. Warming to a few degrees will cause glaciers to melt and sea ice to melt, leading to a lot of damage. This damage would lead the levels of the oceans to rise and would cause damage to coastal cities and islands. This would cause serious problems for the different species living in the oceans and could cause some disease.
As defined by the Oxford dictionary, climate change is, “a change in global or regional climate patterns, in particular a change apparent from the mid to late 20th century onwards and attributed largely to the increased levels of atmospheric carbon dioxide produced by the use of fossil fuels.” (Oxford Dictionaries) Moreover, evidence of climate change can be found all over the world, and in many different forms, but is especially prevalent in certain regions. For instance, in Southeast Asia, specifically the nation of the Philippines, signs of climate change can be observed frequently, if not regularly. One major ...
a change in the water cycle. Some places may experience more rain. Warmer temperatures will