The influence of the Pacific Ocean on climate. Pacific Ocean
Climate:
The climate of the Pacific Ocean is formed due to the zonal distribution of solar radiation and atmospheric circulation. The ocean stretches from subarctic to subantarctic latitudes, that is, it is located in almost all climatic zones of the Earth. Its main part is located in the equatorial, subequatorial and tropical zones of both hemispheres. The air temperature over the waters of these latitudes is from +16 to +24°C all year round. However, in the north of the ocean in winter it drops below 0°C. Along the coasts of Antarctica, this temperature also persists in the summer months.
The circulation of the atmosphere over the ocean is characterized by zonal features: westerly winds predominate in temperate latitudes, trade winds dominate in tropical latitudes, and monsoons are pronounced in subequatorial latitudes off the coast of Eurasia. Strong winds of storm force and tropical cyclones - typhoons - are frequent over the Pacific Ocean. The maximum amount of precipitation falls in the western parts of the equatorial belt (about 3000 mm), the minimum in the eastern regions of the ocean between the equator and the southern tropic (about 100 mm).
Current system:
The general pattern of Pacific Ocean currents is determined by the patterns of general atmospheric circulation. In the Pacific Ocean, as in the Atlantic, currents can be divided into four groups:
Tropical currents. These include the North and South Equatorial Currents, formed by trade winds. Between the North Equatorial Current and the equator passes the Equatorial Countercurrent, which is distinguished in the Pacific Ocean by its great extent and constancy.
Currents of the northern hemisphere. The Japan Current, or Kuro Shio (blue current), is formed from the North Equatorial Current.
Southern Hemisphere Currents. The East Australian Current, which is a branch of the South Equatorial Current.
Currents of the seas. The Pacific seas (Chinese and Yellow), depending on the prevailing monsoon winds in them, have currents of a periodic nature (for example, the Tsushima Current).
The Atlantic and Pacific, Indian and Arctic oceans, as well as continental bodies of water, make up the World Ocean. The hydrosphere plays a critical role in shaping the planet's climate. Under the influence of solar energy, part of the water in the oceans evaporates and falls as precipitation on the continents. The circulation of surface water moistens the continental climate and brings heat or cold to the mainland. Ocean water changes its temperature more slowly and therefore differs from the temperature regime of the earth. It should be noted that the climatic zones of the World Ocean are the same as on land.
Climate zones of the Atlantic Ocean
The Atlantic Ocean has a large extent and four atmospheric centers with different air masses - warm and cold - are formed in it. The water temperature regime is affected by water exchange with the Mediterranean Sea, Antarctic seas and the Arctic Ocean. The Atlantic Ocean contains all the climatic zones of the planet, so different parts of the ocean have completely different weather conditions.
Climatic zones of the Indian Ocean
The Indian Ocean is located in four climatic zones. In the northern part of the ocean there is a monsoon climate, which was formed under the influence of the continental one. The warm tropical zone has high air temperatures. Sometimes there are storms with strong winds, and even tropical hurricanes occur. The greatest amount of precipitation falls in the equatorial zone. It can be cloudy here, especially in the area close to Antarctic waters. Clear and favorable weather occurs in the Arabian Sea region.
Climate zones of the Pacific Ocean
The climate of the Pacific Ocean is influenced by the weather of the Asian continent. Solar energy is distributed zonally. The ocean is located in almost all climatic zones except the Arctic. Depending on the belt, in different areas there is a difference in atmospheric pressure, and different air flows circulate. In winter, strong winds predominate, and in summer, southern and weak winds. In the equatorial zone, calm weather almost always prevails. Warmer temperatures in the western part of the Pacific Ocean, cooler in the east.
Climatic zones of the Arctic Ocean
The climate of this ocean was influenced by its polar location on the planet. Constant ice masses make weather conditions harsh. In winter, there is no solar energy and the water does not heat up. In summer there is a long polar day and a sufficient amount of solar radiation arrives. Different parts of the ocean receive different amounts of precipitation. The climate is influenced by water exchange with neighboring water areas, Atlantic and Pacific air flows.
And local differences within their limits are caused by the characteristics of the underlying surface (warm and cold currents) and the degree of influence of adjacent continents with the circulation developing above them.
The main features over the Pacific Ocean are defined by five areas of high and low pressure. In the subtropical latitudes of both hemispheres, two dynamic areas of high pressure are constant over the Pacific Ocean - the North Pacific, or Hawaiian, and South Pacific highs, the centers of which are located in the eastern part of the ocean. In subequatorial latitudes, these areas are separated by a constant dynamic area of low pressure, developed more strongly in the west. To the north and south of the subtropical highs in higher latitudes there are two lows - the Aleutian, centered over the Aleutian Islands, and, extended from east to west, in the Antarctic zone. The first exists only in winter in the Northern Hemisphere, the second - throughout the year.
Subtropical highs determine the existence in the tropical and subtropical latitudes of the Pacific Ocean of a stable system of trade winds, consisting of the northeastern trade wind in the Northern Hemisphere and the southeastern one in the Southern Hemisphere. The trade wind zones are separated by an equatorial calm zone, in which weak and unstable winds predominate with a high frequency of calms.
The Northwest Pacific Ocean is a pronounced monsoon region. In winter, the north-west monsoon dominates here, bringing cold and dry air from the Asian continent, in summer - the south-east monsoon, bringing warm and humid air from the ocean. Monsoons disrupt trade wind circulation and lead to the flow of air from the Northern Hemisphere to the Southern Hemisphere in winter, and in the opposite direction in summer.
Constant winds are strongest in temperate latitudes and especially in the Southern Hemisphere. The frequency of storms in the Northern Hemisphere ranges from 5% in summer to 30% in winter in temperate latitudes. In tropical latitudes, constant winds reach the strength of a storm extremely rarely, but from time to time tropical winds pass here. They most often occur during the warm half of the year in the western Pacific Ocean. In the Northern Hemisphere, typhoons are directed mainly from the area lying to the east and northwest, to, in the Southern Hemisphere - from the region of the New Hebrides and Samoa islands to. In the eastern part of the ocean, typhoons are rare and occur only in the Northern Hemisphere.
Air distribution is subject to the general latitude. The average February temperature decreases from + 26 -I- 28 “C in the equatorial zone to - 20 ° C in the strait. The average temperature in August varies from + 26 - + 28 °C in the equatorial zone to + 5 °C in the strait.
The pattern of temperature decrease from to high latitudes in the Northern Hemisphere is disrupted under the influence of warm and cold currents and winds. In this regard, there are large differences between temperatures in the east and west at the same latitudes. With the exception of the area adjacent to Asia (mainly the region of marginal seas), in almost the entire zone of the tropics and subtropics, that is, within most of the ocean, the west is several degrees warmer than the east. This difference is due to the fact that in this zone the western part of the Pacific Ocean is warmed by trade wind currents (Kuroshio and East Australian) and theirs, while the eastern part is cooled by the Californian and Peruvian currents. In the Northern Hemisphere, on the contrary, the west is colder than the east in all seasons. The difference reaches 10-12° and is mainly caused by the fact that here the western part of the Pacific Ocean is cooled by the cold, and the eastern part is heated by the warm Alaskan Current. In the moderate and high latitudes of the Southern Hemisphere, under the influence of westerly winds and the predominance in all seasons of winds with a westerly component, temperature changes occur naturally and there is no significant difference between east and west.
And precipitation throughout the year is greatest in areas with low temperatures and near mountain coasts, since in those and other areas there is a significant increase in air flows. In temperate latitudes, cloudiness is 70-90, in the equatorial zone 60-70%, in trade wind zones and in subtropical high pressure areas it decreases to 30-50, and in some areas in the Southern Hemisphere - up to 10%.
The greatest amount of precipitation occurs in the zone where trade winds meet, which lies north of the equator (between 2-4 and 9 ~ 18° N), where intense ascending currents of moisture-rich air develop. In this zone the precipitation amount is more than 3000 mm. In temperate latitudes, the amount of precipitation increases from 1000 mm in the west to 2000-3000 mm or more in the east.
The least amount of precipitation occurs on the eastern edges of subtropical high-pressure areas, where prevailing downdrafts and cold air currents are unfavorable for moisture condensation. In these areas, the amount of precipitation is: in the Northern Hemisphere to the west of the California Peninsula - less than 200, in the Southern Hemisphere to the west - less than 100, and in some places even less than 30 mm. In the western parts of the subtropical regions, precipitation increases to 1500-2000 mm. In the high latitudes of both hemispheres, due to weak evaporation at low temperatures, the amount of precipitation decreases to 500-300 mm or less.
In the Pacific Ocean, fogs form mainly in temperate latitudes. They are most frequent in the area adjacent to the Kuril and Aleutian, in the summer season, when the water is colder than the air. The frequency of occurrence here is 30-40 in summer, 5-10% or less in winter. In the Southern Hemisphere in temperate latitudes, the frequency of fogs throughout the year is 5-10%.
The Pacific Ocean is located in almost all climate zones. Most of it lies in the equatorial, subequatorial and tropical zones.
The climate of the Pacific Ocean is formed due to the zonal distribution of solar radiation and atmospheric circulation, as well as the powerful seasonal influence of the Asian continent. Almost all climatic zones can be distinguished in the ocean. In the northern temperate zone in winter, the pressure center is the Aleutian pressure minimum, which is weakly expressed in summer. To the south is the North Pacific Anticyclone. Along the equator there is an Equatorial Depression (an area of low pressure), which to the south is replaced by the South Pacific Anticyclone. Further south, the pressure drops again and then again gives way to an area of high pressure over Antarctica. The wind direction is formed in accordance with the location of the pressure centers. In the temperate latitudes of the northern hemisphere, strong westerly winds prevail in winter, and weak southern winds in summer. In the northwest of the ocean, in winter, northern and northeastern monsoon winds are established, which in summer are replaced by southern monsoons. Cyclones that occur on polar fronts determine the high frequency of storm winds in temperate and subpolar zones (especially in the southern hemisphere). In the subtropics and tropics of the northern hemisphere, northeast trade winds dominate. In the equatorial zone, mostly calm weather is observed all year round. In the tropical and subtropical zones of the southern hemisphere, a stable southeast trade wind prevails, strong in winter and weak in summer. In the tropics, severe tropical hurricanes, called typhoons, arise (mainly in the summer). They usually arise east of the Philippines, from where they move northwest and north through Taiwan and Japan and die out on the approaches to the Bering Sea. Another area where typhoons originate is the coastal areas of the Pacific Ocean adjacent to Central America. In the forties latitudes of the southern hemisphere, strong and constant westerly winds are observed. In the high latitudes of the southern hemisphere, winds are subject to the general cyclonic circulation characteristic of the Antarctic low pressure area.
The distribution of air temperature over the ocean is subject to the general latitudinal zonality, but the western part has a warmer climate than the eastern. In tropical and equatorial zones, average air temperatures range from 27.5 °C to 25.5 °C. In summer, the 25 °C isotherm expands northward in the western part of the ocean and only to a small extent in the eastern hemisphere, and in the southern hemisphere it strongly shifts northward. Passing over the vast expanses of the ocean, air masses are intensively saturated with moisture. On both sides of the equator in the near-equatorial zone, there are two narrow stripes of maximum precipitation, outlined by an isohyet of 2000 mm, and a relatively dry zone is expressed along the equator. In the Pacific Ocean there is no zone of convergence of the northern and southern trade winds. Two independent zones with excess moisture appear and a relatively dry zone separating them. To the east in the equatorial and tropical zones, the amount of precipitation decreases. The driest areas in the northern hemisphere are adjacent to California, in the southern - to the Peruvian and Chilean basins (coastal areas receive less than 50 mm of precipitation per year).
Everyone knows that water occupies most of the globe. The largest ocean in the world in terms of area and depth is the Pacific Ocean. It extends from North and South America to the continent of Eurasia, in the south it washes Antarctica. Therefore, the factors influencing the climate of the Pacific Ocean are very diverse.
The influence of the Earth's climatic zones on the climate of the Pacific Ocean
Since the Pacific Ocean water basin is huge, it affects all climate zones of the Earth. For example:
- tropical;
- subequatorial;
- equatorial;
- subarctic;
- moderate;
- subtropical;
- subantarctic.
Climatic zones, due to the influence of continents and solar radiation, conditionally divide the ocean into zones with different atmospheric pressure. For example, there is an area of low pressure at the equator. Further to the south and north it changes to an area of high pressure. As a result, an alternation of regions occurs and under this influence of the atmosphere winds (trade winds) and ocean currents arise.
The influence of winds and precipitation on climate
Air masses passing over the surface of the ocean are saturated with moisture. It is interesting to note that the amount of precipitation that falls in the coastal areas of the Pacific Ocean also varies depending on the distance from the equator.
Let's consider the principle of storm formation. Due to the difference in pressure at the boundaries of climatic zones, as well as under the influence of the Asian continent, from which dry and cold air blows, strong hurricanes and typhoons form in the southern hemisphere of the Earth. Sometimes they are destructive. Not only are the economies of Asia-Pacific countries suffering, but there may also be loss of life. Major hurricanes are given names, for example:
- Dolphin (formed in May 2015);
- Muifa (April 2017);
- Talim (September 2017);
- Hanoun (October 2017);
- Damri (November 2017).
In the Pacific Ocean, from 30 to 80 typhoons are formed per year. The most dangerous months, when the number of hurricanes is maximum, are from June to October.
Humanity has not yet learned to stop the destructive power of typhoons, but their timely detection, with the help of meteorological satellites, allows us to avoid numerous casualties, since people have time to leave the danger zone.