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United States rainfall climatology

January 31, 2023

The characteristics of United States rainfall climatology differ significantly across the United States and those under United States sovereignty. Late summer and fall tropical cyclones bring precipitation which falls across the Gulf and Atlantic states. During the winter, and spring, Pacific storm systems bring Hawaii and the western United States most of their precipitation. Low pressure systems moving up the East coast bring cold season precipitation to the Mid-West and Northeast states, as well as Great Salt Lake and the Finger Lakes region. The snow to liquid ratio across the contiguous United States averages 13:1, meaning 13 inches (330 mm) of snow melts down to 1 inch (25 mm) of water.[1]

Average precipitation

During the summer, the North American monsoon combined with Gulf of California and Gulf of Mexico moisture moving around the subtropical ridge in the Atlantic Ocean bring the promise of afternoon and evening air-mass thunderstorms to the southern tier of the country as well as the Great Plains. Equatorward of the subtropical ridge, tropical cyclones enhance precipitation across southern and eastern sections of the country, as well as Puerto Rico, the United States Virgin Islands, the Northern Mariana Islands, Guam, and American Samoa. Over the top of the ridge, the jet stream brings a summer precipitation maximum to the Great Plains and western Great Lakes. Large thunderstorm areas known as mesoscale convective complexes move through the Plains, Midwest, and Great Lakes during the warm season, contributing up to 10% of the annual precipitation to the region.

The El Niño–Southern Oscillation affects the precipitation distribution, by altering rainfall patterns across the West, Midwest, the Southeast, and throughout the tropics. There is also evidence that global warming is leading to increased precipitation to the eastern portions of North America, while droughts are becoming more frequent in the western portions. Furthermore, global La Niña meteorological events are generally associated with drier and hotter conditions and further exacerbation of droughts in California and the Southwestern and to some extent the Southeastern United States. Meteorological scientists have observed that La Niñas have become more frequent over time.[2]

General

 
A typical dry lakebed is seen in California, which is experiencing its worst megadrought in 1,200 years, precipitated by climate change, and is therefore water rationing.[3]

The eastern part of the contiguous United States east of the 98th meridian, the mountains of the Pacific Northwest, the Willamette Valley, and the Sierra Nevada range are the wetter portions of the nation, with average rainfall exceeding 30 inches (760 mm) per year. The drier areas are the Desert Southwest, Great Basin, valleys of northeast Arizona, eastern Utah, and central Wyoming.[4][5] Increased warming within urban heat islands leads to an increase in rainfall downwind of cities.[6]

Alaska

See also: Climate of Alaska

Juneau averages over 50 inches (1,270 mm) of precipitation a year, while other areas in southeast Alaska receive over 275 inches (6,980 mm). South central Alaska does not get nearly as much rain as the southeast of Alaska, though it does get more snow. On average, Anchorage receives 16 inches (406 mm) of precipitation a year, with around 75 inches (1,905 mm) of snow. The northern coast of the Gulf of Alaska receives up to 150 inches (3,800 mm) of precipitation annually.[7] Across western sections of the state, the northern side of the Seward Peninsula is a desert with less than 10 inches (250 mm) of precipitation annually, while some locations between Dillingham and Bethel average around 100 inches (2,540 mm) of precipitation. Inland, often less than 10 inches (250 mm) falls a year, but what precipitation falls during the winter tends to stay throughout the season.[8] La Niña events lead to drier than normal conditions, while El Niño events do not have a correlation towards dry or wet conditions. Precipitation increases by 10 to 40 percent when the Pacific decadal oscillation is positive.[9]

West

 
Impact of El Niño and La Niña on North America
See also: Orographic precipitation and Effects of the El Niño–Southern Oscillation in the United States

From September through May, extratropical cyclones from the Pacific Ocean move inland into the region due to a southward migration of the jet stream during the cold season. This shift in the jet stream brings much of the annual precipitation to the region,[10] and also brings the potential for heavy rain events.[11] The West Coast occasionally experiences ocean-effect showers, usually in the form of rain at lower elevations south of the mouth of the Columbia River. These occur whenever an Arctic air mass from western Canada is drawn westward out over the Pacific Ocean, typically by way of the Fraser Valley, returning shoreward around a center of low pressure. Strong onshore flow is brought into the mountain ranges of the west, focusing significant precipitation into the Rocky Mountains, with rain shadows occurring in the Harney Basin,[12] Great Basin,[13] the central valley of California,[14] and the lower Colorado River valley.[15] In general, rainfall amounts are lower on the southern portions of the West coast.[16] The biggest recipients of the precipitation are the coastal ranges such as the Olympic Mountains,[17] the Cascades,[18] and the Sierra Nevada range.[19] Lesser amounts fall upon the Continental Divide. Cold-season precipitation into this region is the main supply of water to area rivers, such as the Colorado River and Rio Grande, and also acts as the main source of water to people living in this portion of the United States.[20] During El Niño events, increased precipitation is expected in California due to a more southerly, zonal, storm track.[21] California also enters a wet pattern when thunderstorm activity within the tropics associated with the Madden–Julian oscillation nears 150E longitude.[11] During La Niña, increased precipitation is diverted into the Pacific Northwest due to a more northerly storm track.[22]

Lake-effect snow off Great Salt Lake

Main article: Great Salt Lake effect

The southern and southeastern sides of the Great Salt Lake receive significant lake-effect snow. Since the Great Salt Lake never freezes, the lake-effect can affect the weather along the Wasatch Front year round.[23] The lake-effect largely contributes to the 55 inches (140 cm) to 80 inches (200 cm) annual snowfall amounts recorded south and east of the lake,[24] with average snowfall amounts exceeding 600 inches (1,500 cm) in the Wasatch Mountains.[25] The snow, which is often very light and dry due to the desert climate, is referred to as "The Greatest Snow on Earth" in the mountains. Lake-effect snow contributes to approximately 6-8 snowfalls per year in Salt Lake City, with approximately 10% of the city's precipitation being contributed by the phenomenon.[26]

North American Monsoon

 
Arizona monsoon season clouds
Main article: North American Monsoon

The North American Monsoon (NAM) occurs from late June or early July into September, originating over Mexico and spreading into the southwest United States by mid-July. This allows the wet season to start in the Southwest during the summer rather than early fall as seen across the remainder of the West.[10] Within the United States, it affects Arizona, New Mexico, Nevada, Utah, Colorado, West Texas, and California. The North American monsoon is known to many as the Summer, Southwest, Mexican or Arizona monsoon.[27][28] It is also sometimes called the Desert Monsoon as a large part of the affected area is desert.

When precipitable water values near 1.32 inches (34 mm), brief but often torrential thunderstorms and the hurricane force winds and hail can occur, especially over mountainous terrain.[29] This activity is occasionally enhanced by the passage of retrograding (westward-moving) upper cyclones moving under the subtropical ridge and the entrainment of the remnants of tropical storms.[30][31] Tropical cyclones from the eastern Pacific contribute to the moisture within the monsoon system, and bring up to 20 percent of the average annual rainfall to southern California.[32] Flash flooding is a serious danger during the monsoon season. Dry washes can become raging rivers in an instant, even when no storms are visible as a storm can cause a flash flood tens of miles away. Lightning strikes are also a significant danger. Because it is dangerous to be caught in the open when these storms suddenly appear, many golf courses in Arizona have thunderstorm warning systems.

As much as 45% of the annual rainfall across New Mexico occurs during the summer monsoon.[33] Many desert plants are adapted to take advantage of this brief wet season. Because of the monsoons, the Sonoran and Mojave are considered relatively "wet" when ranked among other deserts such as the Sahara. Monsoons play a vital role in managing wildfire threat by providing moisture at higher elevations and feeding desert streams. Heavy monsoon rain can lead to excess winter plant growth, in turn a summer wildfire risk. A lack of monsoon rain can hamper summer seeding, reducing excess winter plant growth but worsening drought.

 
Thunderstorms during the North American Monsoon as seen from El Cajon, California. The thunderstorms rarely push beyond the Peninsular Ranges to the clear skies of the coastal strip.

Great Plains

See also: Mesoscale convective system

Downslope winds off the Rocky Mountains can aid in forming the dry line. Major drought episodes in the midwestern United States are associated with an amplification of the upper tropospheric subtropical (or monsoon) ridge across the West and Plains, along with a weakening of the western edge of the "Bermuda high".[34] During the summer, a southerly low-level jet draws moisture from the Gulf of Mexico. Additional moisture comes from more local sources, especially transpiring vegetation. Maximum precipitation generally occurs in late spring and early summer, with minimum precipitation in winter. During La Niña events, the storm track shifts far enough northward to bring wetter than normal conditions (in the form of increased snowfall) to the Midwestern states, as well as hot and dry summers.[35][36]

The convective season for the Plains ranges between May and September. Organized systems of thunderstorms known as mesoscale convective systems develop over the region during this period, with a bulk of the activity occurring between midnight and 6 a.m. local time. The time of maximum precipitation during the day gradually varies from late afternoon near the slopes of the Rockies to early morning near the Ohio River valley,[37] in part reflecting the west-to-east propagation of mesoscale convective systems. Mesoscale convective systems bring 30 to 70 percent of the annual warm season rainfall to the Plains.[38] An especially long-lived and well-organized type of mesoscale convective system called a mesoscale convective complex produces on average 8% to 18% of the annual warm season rainfall across the Plains and Midwest.[39] Squall lines account for 30% of the large thunderstorm complexes which move through the region.[40]

Gulf Coast and Atlantic Coast south of New England

In general, northern and western portions of this region have a winter/spring maximum in precipitation with late summer/early fall being drier,[41] while southern and eastern portions have a summer maximum and winter/early spring minimum in precipitation.

Most locations on the East Coast from Boston northward show a slight winter maximum as winter storms drop heavy precipitation. South of Boston, convective storms are common in the hot summer months and seasonal rainfall shows a slight summer maximum (though not at all stations). As one moves from Virginia Beach southward, summer becomes the wettest season, as convective thunderstorms created in the hot and moist tropical air mass drop brief but intense precipitation. In winter these areas still sees precipitation as low pressure systems moving across the southern United States often tap moisture from the Gulf of Mexico and drop cold season precipitation from eastern Texas to the New York area. On the Florida peninsula, a strong monsoon becomes dominant, with dry winters and heavy summer rainfall. In winter the strong subtropical ridge creates the stable air over Florida with little convection and few fronts. Along the Gulf Coast, and the south Atlantic states, decaying tropical systems added to summers peak rainfall.[42]

Cold season

The subtropical jet stream brings in upper level moisture from the Pacific Ocean during the cold season. Ahead of storm systems, significant moisture becomes drawn in from the Gulf of Mexico, which increases moisture within the atmospheric column and leads to precipitation ahead of extratropical cyclones. During the El Niño portion of ENSO, increased precipitation falls along the Gulf coast and Southeast due to a stronger than normal, and more southerly, polar jet stream.[43] In the area around Memphis, Tennessee and across the state of Mississippi, there are two rainfall maxima in the winter and spring.[44][45] Across Georgia and South Carolina, the first of the annual precipitation maxima occurs in late winter, during February or March.[46][47] Alabama has an annual rainfall maximum in winter or spring and a dry summer.[48]

Warm season

 
U.S. tropical cyclone rainfall maxima per state
See also: United States tropical cyclone rainfall climatology

During the summer, the subtropical ridge in the Atlantic Ocean strengthens, bringing in increasingly humid air from the warm Atlantic, Caribbean, and Gulf of Mexico. Once precipitable water values exceed 1.25 inches (32 mm), afternoon and evening thunderstorms break out at the western periphery of the subtropical ridge across the Southeast on a daily basis. Summer is the time of the second rainfall maximum during the year across Georgia, and the time of the main rainfall maximum in Florida.[46][49] During the late summer and fall, tropical cyclones move into the region from the Atlantic and Gulf of Mexico, supplying portions of the area with one-quarter of their annual rainfall, on average. Fall is the time of the rainfall minimum across Louisiana.[50] Sometimes, Gulf moisture sneaks up the Front Range of Rockies as far north as the northern High Plains, bringing higher dewpoint air into states such as Wyoming and Montana.

Great Lakes

Overall, late spring and early summer is the wettest time of year for the western portion of the region, with a winter minimum in precipitation. This is due to warm, moist, and unstable air moving along the jet stream where it is centralized. Which brings precipitation along the westerlies.[51] In contrast, eastern portions of the regions have two precipitation maximums, one during spring, and again in November. While July and August are the driest months in the region. The reason being that this region is further away from the unstable air of the central U.S and has more moderators to the climate. Due to the fact that storms and winds generally move west to east, the winds that blow from the Great Lakes during the summer keep the area more stable. With thunderstorms generally being less common.[52]

Cold season

Main articles: Lake-effect snow and Snowbelt
 
A linear single band lake effect snowsquall

Extratropical cyclones can bring moderate to heavy snowfall during the cold season. On the backside of these systems, particularly those moving through the eastern United States, lake effect snowfall is possible. Low level cold in the winter sweeping in from Canada combine with relatively warmer, unfrozen lakes to produce dramatic lake-effect snow on the eastern and southern shores of the Great Lakes.[53] Lake-effect precipitation produces a significant difference between the snowfall around the Great Lakes, sometimes within small distances. Lake effect snowfall accounts for 30 to 60 percent of the annual snowfall near the coasts of the Great Lakes.[54] Lake Erie has the distinction of being the only great lake capable of completely freezing over during the winter due to its relative shallowness.[55] Once frozen, the resulting ice cover alleviates lake-effect snow downwind of the lake. The influence of the Great Lakes allows the region to lie within a Humid Continental Climate regime.[56] Although certain scientists have argued that the eastern third resemble more of an oceanic climate[57]

Warm season

 
Satellite view of a supercell near the Great Lakes

Weather systems in the westerlies that cause precipitation move along jet stream, which migrates north into the region by summer. This also increases the likelihood for severe weather to develop due to stronger upper-level divergence in its vicinity.[58] Mesoscale convective complexes move into the region from the Plains from late April through mid-July, with June the peak month for the western portions of the Great Lakes. These systems contribute about 2% of the annual precipitation for the region.[39] Also, remnants of tropical cyclones occasionally move northward into the region, though their overall contribution to precipitation across the region is minimal.[59] From the spring through the summer, areas near the shores of the relatively cooler Great Lakes develop sea breezes, which lowers rainfall amounts and increases sunshine near the immediate coastline.[54] The eastern Great Lakes are significantly drier during the summer.[52]

Northeast

 
Satellite image of the intense nor'easter responsible for the North American blizzard of 2006.

Average precipitation across the region show maxima along the coastal plain and along the mountains of the Appalachians. Between 28 inches (710 mm) and 62 inches (1,600 mm) of precipitation falls annually across the area.[60] Seasonally, there are slight changes to precipitation distribution through the year. For example, Burlington, Vermont has a summer maximum and a winter minimum. In contrast, Portland, Maine has a fall and winter maximum, with a summer minimum in precipitation.[61] Temporally, a maximum in precipitation is seen around three peak times: 3 a.m., 10 a.m., and 6 p.m. During the summer, the 6 p.m. peak is most pronounced.[62]

Cold season

Coastal extratropical cyclones, known as nor'easters, bring a bulk of the wintry precipitation to the region during the cold season as they track parallel to the coastline, forming along the natural temperature gradient of the Gulf stream before moving up the coastline.[63] The Appalachian Mountains largely shield New York City and Philadelphia from picking up any lake-effect snow, though ocean-effect snows are possible near Cape Cod.[64] The Finger Lakes of New York are long enough for lake-effect precipitation. Lake-effect snow from the Finger Lakes occurs in upstate New York until those lakes freeze over.[65] Bay-effect snows fall downwind of Delaware Bay, Chesapeake Bay, and Massachusetts Bay when the basic criteria are met. Ocean effect snows are possible downwind of the Gulf Stream across the Southeast.[66]

Warm season

During the summer and early fall, mesoscale convective systems can move into the area from Canada and the Great Lakes. Tropical cyclones and their remains occasionally move into the region from the south and southwest.[67] Recently, the region has experienced a couple heavy rainfall events that exceeded the 50-year return period, during October 1996 and October 1998, which suggest an increase in heavy rainfall along the coast.[61]

Pacific islands

Hawaii

See also: Kona low
 
Systems such as this Kona low from November 4, 1995 bring Hawaii much of their annual rainfall

Snow, although not usually associated with tropics, falls at higher elevations on the Big Island, on Mauna Loa as well as Mauna Kea, which reaches an altitude of 13,796 feet (4,205 m), in some winter months. Snow only rarely falls on Maui's Haleakala. Mount Waiʻaleʻale (Waiʻaleʻale), on the island of Kauai, is notable for its extreme rainfall, as it has the second highest average annual rainfall on Earth, with 460 inches (12,000 mm).[68] Storm systems affect the state with heavy rains between October and March. Showers are common across the island chain, but thunderstorms are relatively rare. Local climates vary considerably on each island due to their topography, divisible into windward (Koʻolau) and leeward (Kona) regions based upon location relative to the higher mountains. The Kona coast is the only area in Hawaii with a summer precipitation maximum. Windward sides face the east to northeast trade winds and receive much more rainfall; leeward sides are drier and sunnier, with less rain and less cloud cover.[69] In the late winter and spring during El Niño events, drier than average conditions can be expected in Hawaii.[70]

Northern Marianas

The islands have a tropical marine climate moderated by seasonal northeast trade winds. There is a dry season which stretches from December to June, and a rainy season from July to November.[71] Saipan's average annual precipitation is 82.36 inches (2,092 mm), with 67 percent falling during the rainy season.[72] Typhoons frequent the island chain, which can lead to excessive rainfall.[73]

Guam

 
Typhoons, such as Pongsona (2002), can bring excessive rainfall to Guam

Guam's climate is moderated by east to northeast trade winds through the year. The average annual rainfall for the island is 86 inches (2,200 mm).[74] There is a distinct dry season from January to June, and a rainy season from July to December.[75] Typhoons frequent the island, which can lead to excessive rainfall. During El Niño years, dry season precipitation averages below normal. However, the threat of a tropical cyclone is over triple what is normal during El Niño years, so extreme shorter duration rainfall events are possible.[76]

American Samoa

American Samoa's climate regime is dominated by southeast trade winds. The island dependency is wet, with annual rainfall averaging near 120 inches (3,000 mm) at the airport, with amounts closer to 200 inches (5,100 mm) in other areas.[77] There is a distinct rainy season when tropical cyclones occasionally visit between November and April. The dry season lasts from May to October.[78] During El Niño events, precipitation averages about 10 percent above normal, while La Niña events lead to precipitation amounts which average close to 10 percent below normal.[79]

Pago Pago harbor in American Samoa has the highest annual rainfall of any harbor in the world.[80] This is due to the nearby Rainmaker Mountain.[80]

Atlantic islands

Puerto Rico

See also: Climate of Puerto Rico

There is a pronounced rainy season from April to November across the commonwealth, encompassing the annual hurricane season. Due to the Commonwealth's topography, rainfall varies greatly across the archipelago. Pico del Este averages 171.09 inches (4,346 mm) of rainfall yearly while Magueyes Island averages only 29.32 inches (745 mm) a year.[81][82] Despite known changes in tropical cyclone activity due to changes in the El Niño/Southern Oscillation (ENSO),[83] there is no known relationship between rainfall in Puerto Rico and the ENSO cycle. However, when values of the North Atlantic oscillation are high during the winter, precipitation is lower than average for Puerto Rico.[84] There have not been any documented cases of snow falling within Puerto Rico, though occasionally it is brought in from elsewhere as a publicity stunt.[85]

United States Virgin Islands

The climate of the United States Virgin Islands has sustained easterly trade winds through the year. There is a rainy season which lasts from September to November, when hurricanes are more prone to visit the island chain.[86] The average rainfall through the island chain ranges from 51.55 inches (1,309 mm) at Annually to 37.79 inches (960 mm) at East Hill.[87]

Changes due to global warming

 
US precipitation trends (lower 48), 1895–2014. Raw data:[88]
See also: Global warming

Increasing temperatures tend to increase evaporation which leads to more precipitation. As average global temperatures have risen, average global precipitation has also increased. Precipitation has generally increased over land north of 30°N from 1900 to 2005, but declined over the tropics since the 1970s. Eastern portions of North America have become wetter. There has been an increase in the number of heavy precipitation events over many areas during the past century, as well as an increase since the 1970s in the prevalence of droughts—especially in the tropics and subtropics. Over the contiguous United States, total annual precipitation increased at an average rate of 6.1 percent per century since 1900, with the greatest increases within the East North Central climate region (11.6 percent per century) and the South (11.1 percent). Hawaii was the only region to show a decrease (−9.25 percent).[89] From this excess precipitation, crop losses are expected to increase by US$3 billion (2002 dollars) annually over the next 30 years.[90]

See also

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External links

  • Last 24 hours of rainfall over the lower 48 - National Weather Service rainfall network
  • Rainfall forecasts for the lower 48
  • Current map of forecast precipitation over the United States during the next three hours.

January 31, 2023
united, states, rainfall, climatology, characteristics, differ, significantly, across, united, states, those, under, united, states, sovereignty, late, summer, fall, tropical, cyclones, bring, precipitation, which, falls, across, gulf, atlantic, states, during. The characteristics of United States rainfall climatology differ significantly across the United States and those under United States sovereignty Late summer and fall tropical cyclones bring precipitation which falls across the Gulf and Atlantic states During the winter and spring Pacific storm systems bring Hawaii and the western United States most of their precipitation Low pressure systems moving up the East coast bring cold season precipitation to the Mid West and Northeast states as well as Great Salt Lake and the Finger Lakes region The snow to liquid ratio across the contiguous United States averages 13 1 meaning 13 inches 330 mm of snow melts down to 1 inch 25 mm of water 1 Average precipitation During the summer the North American monsoon combined with Gulf of California and Gulf of Mexico moisture moving around the subtropical ridge in the Atlantic Ocean bring the promise of afternoon and evening air mass thunderstorms to the southern tier of the country as well as the Great Plains Equatorward of the subtropical ridge tropical cyclones enhance precipitation across southern and eastern sections of the country as well as Puerto Rico the United States Virgin Islands the Northern Mariana Islands Guam and American Samoa Over the top of the ridge the jet stream brings a summer precipitation maximum to the Great Plains and western Great Lakes Large thunderstorm areas known as mesoscale convective complexes move through the Plains Midwest and Great Lakes during the warm season contributing up to 10 of the annual precipitation to the region The El Nino Southern Oscillation affects the precipitation distribution by altering rainfall patterns across the West Midwest the Southeast and throughout the tropics There is also evidence that global warming is leading to increased precipitation to the eastern portions of North America while droughts are becoming more frequent in the western portions Furthermore global La Nina meteorological events are generally associated with drier and hotter conditions and further exacerbation of droughts in California and the Southwestern and to some extent the Southeastern United States Meteorological scientists have observed that La Ninas have become more frequent over time 2 Contents 1 General 2 Alaska 3 West 3 1 Lake effect snow off Great Salt Lake 3 2 North American Monsoon 4 Great Plains 5 Gulf Coast and Atlantic Coast south of New England 5 1 Cold season 5 2 Warm season 6 Great Lakes 6 1 Cold season 6 2 Warm season 7 Northeast 7 1 Cold season 7 2 Warm season 8 Pacific islands 8 1 Hawaii 8 2 Northern Marianas 8 3 Guam 8 4 American Samoa 9 Atlantic islands 9 1 Puerto Rico 9 2 United States Virgin Islands 10 Changes due to global warming 11 See also 12 References 13 External linksGeneral Edit A typical dry lakebed is seen in California which is experiencing its worst megadrought in 1 200 years precipitated by climate change and is therefore water rationing 3 The eastern part of the contiguous United States east of the 98th meridian the mountains of the Pacific Northwest the Willamette Valley and the Sierra Nevada range are the wetter portions of the nation with average rainfall exceeding 30 inches 760 mm per year The drier areas are the Desert Southwest Great Basin valleys of northeast Arizona eastern Utah and central Wyoming 4 5 Increased warming within urban heat islands leads to an increase in rainfall downwind of cities 6 Alaska EditSee also Climate of Alaska Juneau averages over 50 inches 1 270 mm of precipitation a year while other areas in southeast Alaska receive over 275 inches 6 980 mm South central Alaska does not get nearly as much rain as the southeast of Alaska though it does get more snow On average Anchorage receives 16 inches 406 mm of precipitation a year with around 75 inches 1 905 mm of snow The northern coast of the Gulf of Alaska receives up to 150 inches 3 800 mm of precipitation annually 7 Across western sections of the state the northern side of the Seward Peninsula is a desert with less than 10 inches 250 mm of precipitation annually while some locations between Dillingham and Bethel average around 100 inches 2 540 mm of precipitation Inland often less than 10 inches 250 mm falls a year but what precipitation falls during the winter tends to stay throughout the season 8 La Nina events lead to drier than normal conditions while El Nino events do not have a correlation towards dry or wet conditions Precipitation increases by 10 to 40 percent when the Pacific decadal oscillation is positive 9 West Edit Impact of El Nino and La Nina on North America See also Orographic precipitation and Effects of the El Nino Southern Oscillation in the United States From September through May extratropical cyclones from the Pacific Ocean move inland into the region due to a southward migration of the jet stream during the cold season This shift in the jet stream brings much of the annual precipitation to the region 10 and also brings the potential for heavy rain events 11 The West Coast occasionally experiences ocean effect showers usually in the form of rain at lower elevations south of the mouth of the Columbia River These occur whenever an Arctic air mass from western Canada is drawn westward out over the Pacific Ocean typically by way of the Fraser Valley returning shoreward around a center of low pressure Strong onshore flow is brought into the mountain ranges of the west focusing significant precipitation into the Rocky Mountains with rain shadows occurring in the Harney Basin 12 Great Basin 13 the central valley of California 14 and the lower Colorado River valley 15 In general rainfall amounts are lower on the southern portions of the West coast 16 The biggest recipients of the precipitation are the coastal ranges such as the Olympic Mountains 17 the Cascades 18 and the Sierra Nevada range 19 Lesser amounts fall upon the Continental Divide Cold season precipitation into this region is the main supply of water to area rivers such as the Colorado River and Rio Grande and also acts as the main source of water to people living in this portion of the United States 20 During El Nino events increased precipitation is expected in California due to a more southerly zonal storm track 21 California also enters a wet pattern when thunderstorm activity within the tropics associated with the Madden Julian oscillation nears 150E longitude 11 During La Nina increased precipitation is diverted into the Pacific Northwest due to a more northerly storm track 22 Lake effect snow off Great Salt Lake Edit Main article Great Salt Lake effect The southern and southeastern sides of the Great Salt Lake receive significant lake effect snow Since the Great Salt Lake never freezes the lake effect can affect the weather along the Wasatch Front year round 23 The lake effect largely contributes to the 55 inches 140 cm to 80 inches 200 cm annual snowfall amounts recorded south and east of the lake 24 with average snowfall amounts exceeding 600 inches 1 500 cm in the Wasatch Mountains 25 The snow which is often very light and dry due to the desert climate is referred to as The Greatest Snow on Earth in the mountains Lake effect snow contributes to approximately 6 8 snowfalls per year in Salt Lake City with approximately 10 of the city s precipitation being contributed by the phenomenon 26 North American Monsoon Edit Arizona monsoon season clouds Main article North American Monsoon The North American Monsoon NAM occurs from late June or early July into September originating over Mexico and spreading into the southwest United States by mid July This allows the wet season to start in the Southwest during the summer rather than early fall as seen across the remainder of the West 10 Within the United States it affects Arizona New Mexico Nevada Utah Colorado West Texas and California The North American monsoon is known to many as the Summer Southwest Mexican or Arizona monsoon 27 28 It is also sometimes called the Desert Monsoon as a large part of the affected area is desert When precipitable water values near 1 32 inches 34 mm brief but often torrential thunderstorms and the hurricane force winds and hail can occur especially over mountainous terrain 29 This activity is occasionally enhanced by the passage of retrograding westward moving upper cyclones moving under the subtropical ridge and the entrainment of the remnants of tropical storms 30 31 Tropical cyclones from the eastern Pacific contribute to the moisture within the monsoon system and bring up to 20 percent of the average annual rainfall to southern California 32 Flash flooding is a serious danger during the monsoon season Dry washes can become raging rivers in an instant even when no storms are visible as a storm can cause a flash flood tens of miles away Lightning strikes are also a significant danger Because it is dangerous to be caught in the open when these storms suddenly appear many golf courses in Arizona have thunderstorm warning systems As much as 45 of the annual rainfall across New Mexico occurs during the summer monsoon 33 Many desert plants are adapted to take advantage of this brief wet season Because of the monsoons the Sonoran and Mojave are considered relatively wet when ranked among other deserts such as the Sahara Monsoons play a vital role in managing wildfire threat by providing moisture at higher elevations and feeding desert streams Heavy monsoon rain can lead to excess winter plant growth in turn a summer wildfire risk A lack of monsoon rain can hamper summer seeding reducing excess winter plant growth but worsening drought Thunderstorms during the North American Monsoon as seen from El Cajon California The thunderstorms rarely push beyond the Peninsular Ranges to the clear skies of the coastal strip Great Plains EditSee also Mesoscale convective system Downslope winds off the Rocky Mountains can aid in forming the dry line Major drought episodes in the midwestern United States are associated with an amplification of the upper tropospheric subtropical or monsoon ridge across the West and Plains along with a weakening of the western edge of the Bermuda high 34 During the summer a southerly low level jet draws moisture from the Gulf of Mexico Additional moisture comes from more local sources especially transpiring vegetation Maximum precipitation generally occurs in late spring and early summer with minimum precipitation in winter During La Nina events the storm track shifts far enough northward to bring wetter than normal conditions in the form of increased snowfall to the Midwestern states as well as hot and dry summers 35 36 The convective season for the Plains ranges between May and September Organized systems of thunderstorms known as mesoscale convective systems develop over the region during this period with a bulk of the activity occurring between midnight and 6 a m local time The time of maximum precipitation during the day gradually varies from late afternoon near the slopes of the Rockies to early morning near the Ohio River valley 37 in part reflecting the west to east propagation of mesoscale convective systems Mesoscale convective systems bring 30 to 70 percent of the annual warm season rainfall to the Plains 38 An especially long lived and well organized type of mesoscale convective system called a mesoscale convective complex produces on average 8 to 18 of the annual warm season rainfall across the Plains and Midwest 39 Squall lines account for 30 of the large thunderstorm complexes which move through the region 40 Gulf Coast and Atlantic Coast south of New England EditIn general northern and western portions of this region have a winter spring maximum in precipitation with late summer early fall being drier 41 while southern and eastern portions have a summer maximum and winter early spring minimum in precipitation Most locations on the East Coast from Boston northward show a slight winter maximum as winter storms drop heavy precipitation South of Boston convective storms are common in the hot summer months and seasonal rainfall shows a slight summer maximum though not at all stations As one moves from Virginia Beach southward summer becomes the wettest season as convective thunderstorms created in the hot and moist tropical air mass drop brief but intense precipitation In winter these areas still sees precipitation as low pressure systems moving across the southern United States often tap moisture from the Gulf of Mexico and drop cold season precipitation from eastern Texas to the New York area On the Florida peninsula a strong monsoon becomes dominant with dry winters and heavy summer rainfall In winter the strong subtropical ridge creates the stable air over Florida with little convection and few fronts Along the Gulf Coast and the south Atlantic states decaying tropical systems added to summers peak rainfall 42 Cold season Edit The subtropical jet stream brings in upper level moisture from the Pacific Ocean during the cold season Ahead of storm systems significant moisture becomes drawn in from the Gulf of Mexico which increases moisture within the atmospheric column and leads to precipitation ahead of extratropical cyclones During the El Nino portion of ENSO increased precipitation falls along the Gulf coast and Southeast due to a stronger than normal and more southerly polar jet stream 43 In the area around Memphis Tennessee and across the state of Mississippi there are two rainfall maxima in the winter and spring 44 45 Across Georgia and South Carolina the first of the annual precipitation maxima occurs in late winter during February or March 46 47 Alabama has an annual rainfall maximum in winter or spring and a dry summer 48 Warm season Edit U S tropical cyclone rainfall maxima per state See also United States tropical cyclone rainfall climatology During the summer the subtropical ridge in the Atlantic Ocean strengthens bringing in increasingly humid air from the warm Atlantic Caribbean and Gulf of Mexico Once precipitable water values exceed 1 25 inches 32 mm afternoon and evening thunderstorms break out at the western periphery of the subtropical ridge across the Southeast on a daily basis Summer is the time of the second rainfall maximum during the year across Georgia and the time of the main rainfall maximum in Florida 46 49 During the late summer and fall tropical cyclones move into the region from the Atlantic and Gulf of Mexico supplying portions of the area with one quarter of their annual rainfall on average Fall is the time of the rainfall minimum across Louisiana 50 Sometimes Gulf moisture sneaks up the Front Range of Rockies as far north as the northern High Plains bringing higher dewpoint air into states such as Wyoming and Montana Great Lakes EditOverall late spring and early summer is the wettest time of year for the western portion of the region with a winter minimum in precipitation This is due to warm moist and unstable air moving along the jet stream where it is centralized Which brings precipitation along the westerlies 51 In contrast eastern portions of the regions have two precipitation maximums one during spring and again in November While July and August are the driest months in the region The reason being that this region is further away from the unstable air of the central U S and has more moderators to the climate Due to the fact that storms and winds generally move west to east the winds that blow from the Great Lakes during the summer keep the area more stable With thunderstorms generally being less common 52 Cold season Edit Main articles Lake effect snow and Snowbelt A linear single band lake effect snowsquall Extratropical cyclones can bring moderate to heavy snowfall during the cold season On the backside of these systems particularly those moving through the eastern United States lake effect snowfall is possible Low level cold in the winter sweeping in from Canada combine with relatively warmer unfrozen lakes to produce dramatic lake effect snow on the eastern and southern shores of the Great Lakes 53 Lake effect precipitation produces a significant difference between the snowfall around the Great Lakes sometimes within small distances Lake effect snowfall accounts for 30 to 60 percent of the annual snowfall near the coasts of the Great Lakes 54 Lake Erie has the distinction of being the only great lake capable of completely freezing over during the winter due to its relative shallowness 55 Once frozen the resulting ice cover alleviates lake effect snow downwind of the lake The influence of the Great Lakes allows the region to lie within a Humid Continental Climate regime 56 Although certain scientists have argued that the eastern third resemble more of an oceanic climate 57 Warm season Edit Satellite view of a supercell near the Great Lakes Weather systems in the westerlies that cause precipitation move along jet stream which migrates north into the region by summer This also increases the likelihood for severe weather to develop due to stronger upper level divergence in its vicinity 58 Mesoscale convective complexes move into the region from the Plains from late April through mid July with June the peak month for the western portions of the Great Lakes These systems contribute about 2 of the annual precipitation for the region 39 Also remnants of tropical cyclones occasionally move northward into the region though their overall contribution to precipitation across the region is minimal 59 From the spring through the summer areas near the shores of the relatively cooler Great Lakes develop sea breezes which lowers rainfall amounts and increases sunshine near the immediate coastline 54 The eastern Great Lakes are significantly drier during the summer 52 Northeast Edit Satellite image of the intense nor easter responsible for the North American blizzard of 2006 Average precipitation across the region show maxima along the coastal plain and along the mountains of the Appalachians Between 28 inches 710 mm and 62 inches 1 600 mm of precipitation falls annually across the area 60 Seasonally there are slight changes to precipitation distribution through the year For example Burlington Vermont has a summer maximum and a winter minimum In contrast Portland Maine has a fall and winter maximum with a summer minimum in precipitation 61 Temporally a maximum in precipitation is seen around three peak times 3 a m 10 a m and 6 p m During the summer the 6 p m peak is most pronounced 62 Cold season Edit Coastal extratropical cyclones known as nor easters bring a bulk of the wintry precipitation to the region during the cold season as they track parallel to the coastline forming along the natural temperature gradient of the Gulf stream before moving up the coastline 63 The Appalachian Mountains largely shield New York City and Philadelphia from picking up any lake effect snow though ocean effect snows are possible near Cape Cod 64 The Finger Lakes of New York are long enough for lake effect precipitation Lake effect snow from the Finger Lakes occurs in upstate New York until those lakes freeze over 65 Bay effect snows fall downwind of Delaware Bay Chesapeake Bay and Massachusetts Bay when the basic criteria are met Ocean effect snows are possible downwind of the Gulf Stream across the Southeast 66 Warm season Edit During the summer and early fall mesoscale convective systems can move into the area from Canada and the Great Lakes Tropical cyclones and their remains occasionally move into the region from the south and southwest 67 Recently the region has experienced a couple heavy rainfall events that exceeded the 50 year return period during October 1996 and October 1998 which suggest an increase in heavy rainfall along the coast 61 Pacific islands EditHawaii Edit See also Kona low Systems such as this Kona low from November 4 1995 bring Hawaii much of their annual rainfall Snow although not usually associated with tropics falls at higher elevations on the Big Island on Mauna Loa as well as Mauna Kea which reaches an altitude of 13 796 feet 4 205 m in some winter months Snow only rarely falls on Maui s Haleakala Mount Waiʻaleʻale Waiʻaleʻale on the island of Kauai is notable for its extreme rainfall as it has the second highest average annual rainfall on Earth with 460 inches 12 000 mm 68 Storm systems affect the state with heavy rains between October and March Showers are common across the island chain but thunderstorms are relatively rare Local climates vary considerably on each island due to their topography divisible into windward Koʻolau and leeward Kona regions based upon location relative to the higher mountains The Kona coast is the only area in Hawaii with a summer precipitation maximum Windward sides face the east to northeast trade winds and receive much more rainfall leeward sides are drier and sunnier with less rain and less cloud cover 69 In the late winter and spring during El Nino events drier than average conditions can be expected in Hawaii 70 Northern Marianas Edit The islands have a tropical marine climate moderated by seasonal northeast trade winds There is a dry season which stretches from December to June and a rainy season from July to November 71 Saipan s average annual precipitation is 82 36 inches 2 092 mm with 67 percent falling during the rainy season 72 Typhoons frequent the island chain which can lead to excessive rainfall 73 Guam Edit Typhoons such as Pongsona 2002 can bring excessive rainfall to Guam Guam s climate is moderated by east to northeast trade winds through the year The average annual rainfall for the island is 86 inches 2 200 mm 74 There is a distinct dry season from January to June and a rainy season from July to December 75 Typhoons frequent the island which can lead to excessive rainfall During El Nino years dry season precipitation averages below normal However the threat of a tropical cyclone is over triple what is normal during El Nino years so extreme shorter duration rainfall events are possible 76 American Samoa Edit American Samoa s climate regime is dominated by southeast trade winds The island dependency is wet with annual rainfall averaging near 120 inches 3 000 mm at the airport with amounts closer to 200 inches 5 100 mm in other areas 77 There is a distinct rainy season when tropical cyclones occasionally visit between November and April The dry season lasts from May to October 78 During El Nino events precipitation averages about 10 percent above normal while La Nina events lead to precipitation amounts which average close to 10 percent below normal 79 Pago Pago harbor in American Samoa has the highest annual rainfall of any harbor in the world 80 This is due to the nearby Rainmaker Mountain 80 Atlantic islands EditPuerto Rico Edit See also Climate of Puerto Rico There is a pronounced rainy season from April to November across the commonwealth encompassing the annual hurricane season Due to the Commonwealth s topography rainfall varies greatly across the archipelago Pico del Este averages 171 09 inches 4 346 mm of rainfall yearly while Magueyes Island averages only 29 32 inches 745 mm a year 81 82 Despite known changes in tropical cyclone activity due to changes in the El Nino Southern Oscillation ENSO 83 there is no known relationship between rainfall in Puerto Rico and the ENSO cycle However when values of the North Atlantic oscillation are high during the winter precipitation is lower than average for Puerto Rico 84 There have not been any documented cases of snow falling within Puerto Rico though occasionally it is brought in from elsewhere as a publicity stunt 85 United States Virgin Islands Edit The climate of the United States Virgin Islands has sustained easterly trade winds through the year There is a rainy season which lasts from September to November when hurricanes are more prone to visit the island chain 86 The average rainfall through the island chain ranges from 51 55 inches 1 309 mm at Annually to 37 79 inches 960 mm at East Hill 87 Changes due to global warming Edit US precipitation trends lower 48 1895 2014 Raw data 88 See also Global warming Increasing temperatures tend to increase evaporation which leads to more precipitation As average global temperatures have risen average global precipitation has also increased Precipitation has generally increased over land north of 30 N from 1900 to 2005 but declined over the tropics since the 1970s Eastern portions of North America have become wetter There has been an increase in the number of heavy precipitation events over many areas during the past century as well as an increase since the 1970s in the prevalence of droughts especially in the tropics and subtropics Over the contiguous United States total annual precipitation increased at an average rate of 6 1 percent per century since 1900 with the greatest increases within the East North Central climate region 11 6 percent per century and the South 11 1 percent Hawaii was the only region to show a decrease 9 25 percent 89 From this excess precipitation crop losses are expected to increase by US 3 billion 2002 dollars annually over the next 30 years 90 See also Edit United States portalClimate of the United States Drought in the United States Dust Bowl Floods in the United States List of wettest tropical cyclones in the United States Susan van den Heever atmospheric scientist and professorReferences Edit Martin A Baxter Charles E Graves and James T Moore A Climatology of Snow to Liquid Ratio for the Contiguous United States Retrieved on 2008 03 21 Seth Borenstein Associated Press science writer May 28 2022 Weather s unwanted guest Nasty La Nina keeps popping up 9news com Retrieved June 4 2022 Scientists are noticing that in the past 25 years the world seems to be getting more La Ninas than it used to Irina Ivanova June 2 2022 California is rationing water amid its worst drought in 1 200 years CBS News Retrieved June 4 2022 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12 3 197 202 doi 10 1016 S0959 3780 02 00008 0 Archived from the original PDF on 2010 01 20 Retrieved 2009 07 17 External links EditLast 24 hours of rainfall over the lower 48 National Weather Service rainfall network Rainfall forecasts for the lower 48 Current map of forecast precipitation over the United States during the next three hours Retrieved from https en wikipedia org w index php title United States rainfall climatology amp oldid 1124920483, wikipedia, wiki, book, books, library,

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