Night

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For other uses, see Night (disambiguation).

The night sky over a lake
Night sky over a bog in Estonia, with light pollution visible on the horizon

Night or nighttime is the period of ambient darkness when the Sun is below the horizon.

The word can be used in a social sense as the time between bedtime and morning. In common communication, it is a farewell (sometimes lengthened to "good night"), mainly when someone is going to sleep or leaving.[1]

Astronomical night is the period between astronomical dusk and astronomical dawn when the Sun is between 18 and 90 degrees below the horizon and does not illuminate the sky. As seen from latitudes between about 48.56° and 65.73° north or south of the equator, complete darkness does not occur around the summer solstice because, although the Sun sets, it is never more than 18° below the horizon at lower culmination, −90° Sun angles occur at the Tropic of Cancer on the December solstice and Tropic of Capricorn on the June solstice, and at the equator on equinoxes. And as seen from latitudes greater than 72° north or south of the equator, complete darkness does not occur in both equinoxes because, although the Sun sets, it is never more than 18° below the horizon.

The opposite of night is day (or "daytime", to distinguish it from "day" referring to a 24-hour period time). Twilight is the period of night after sunset or before sunrise when the Sun still illuminates the sky when it is below the horizon. At any given time, one side of Earth is bathed in sunlight (the daytime), while the other side is in darkness caused by Earth blocking the sunlight. The central part of the shadow is called the umbra, where the night is darkest.

Natural illumination at night is still provided by a combination of moonlight, planetary light, starlight, zodiacal light, gegenschein, and airglow. In some circumstances, aurorae, lightning, and bioluminescence can provide some illumination. The glow provided by artificial lighting is sometimes referred to as light pollution because it can interfere with observational astronomy and ecosystems.

Astronomy[edit]

A planet's rotation causes nighttime and daytime. When a place on Earth is pointed away from the Sun, that location experiences night. The Sun appears to set in the West and rise in the East due to Earth's rotation.[2] Many celestial bodies, including the other planets in the solar system, have a form of night.[2][3]

Earth[edit]

Day and night during the winter solstice in the northern hempisphere

The length of night on Earth varies depending on the time of year. Longer nights occur in winter, with the winter solstice being the longest.[4] Nights are shorter in the summer, with the summer solstice being the shortest.[4] Earth orbits the Sun on an axis tilted 23.44 degrees.[5] Nights are longer when a hemisphere is tilted away from the Sun and shorter when a hemisphere is tilted toward the sun.[6] As a result, the longest night of the year for the Northern Hemisphere will be the shortest night of the year for the Southern Hemisphere.[6]

Night's duration varies least near the equator. The difference between the shortest and longest night increases approaching the poles.[7] At the equator, night lasts roughly 12 hours throughout the year.[8] The tropics have little difference in the length of day and night.[7] At the 45th parallel, the longest winter night is roughly twice as long as the shortest summer night.[9] Within the polar circles, night will last the full 24 hours of the winter solstice.[6] The length of this polar night increases closer to the poles. Utqiagvik, Alaska, the northernmost point in the United States, experiences 65 days of polar night.[10] At the pole itself, polar night lasts 179 days from September to March.[10]

Diagram of atmospheric refraction at sunrise and sunset

Over a year, there is more daytime than nighttime because of the sun's size and atmospheric refraction. The Sun is not a single point.[11] Viewed from Earth, the Sun ranges in angular diameter from 31 to 33 arcminutes.[12] When the center of the Sun falls level with the western horizon, half of the Sun will still be visible during sunset. Likewise, by the time the center of the Sun rises to the eastern horizon, half of the Sun will already be visible during sunrise.[13] This shortens night by about 3 minutes in temperate zones.[14] Atmospheric refraction is a larger factor.[11] Refraction bends sunlight over the horizon.[14] On Earth, the Sun remains briefly visible after it has geometrically fallen below the horizon.[14] This shortens night by about 6 minutes.[14] Scattered, diffuse sunlight remains in the sky after sunset and into twilight.[15]

The drainage basin of the Nile river and delta at night

There are multiple ways to define twilight, the gradual transition to and from darkness when the Sun is below the horizon.[16] "Civil" twilight occurs when the Sun is between 0 to 6 degrees below the horizon. Nearby planets like Venus and bright stars like Sirius are visible at this point.[17] "Nautical" twilight continues until the Sun is 12 degrees below the horizon.[18] During nautical twilight, the horizon is visible enough for navigation.[19] "Astronomical" twilight continues until the Sun has sunk 18 degrees below the horizon.[17][20] That is the point where refracted sunlight is no longer visible.[20]

Similar to the duration of night itself, the duration of twilight varies according to latitude.[20] At the equator, day quickly transitions to night, while the transition can take weeks near the poles.[20] The duration of twilight is longest at the summer solstice and shortest near the equinoxes.[21] Moonlight, starlight, airglow, and light pollution create the skyglow that dimly illuminates nighttime.[22][23] The amount of skyglow increases each year due to artificial lighting.[22]

Other celestial bodies[edit]

The Moon's phase at hourly intervals throughout 2020, as viewed from the Northern Hemisphere

Night exists on the other planets and moons in the solar system.[2][3] The length of night is affected by the rotation period and orbital period of the celestial object.[24] The lunar phases visible from Earth result from nightfall on the Moon.[25] The Moon has longer nights than Earth, lasting about two weeks.[24] This is half of the synodic lunar month, the time it takes the Moon to cycle through its phases.[26] The Moon is tidally locked to Earth; it rotates so that one side of the Moon always faces the Earth.[27] The side of the Moon facing away from Earth is called the far side of the Moon and the side facing Earth is called the near side of the Moon. During lunar night on the near side, Earth is 50 times brighter than a full moon.[28] Because the Moon has no atmosphere, there is an abrupt transition from day to night without twilight.[29]

Sunset on Mars

Night varies from planet to planet within the Solar System. Mars's dusty atmosphere causes a lengthy twilight period. The refracted light ranges from purple to blue, often resulting in glowing noctilucent clouds.[30] Venus and Mercury have long nights because of their slow rotational periods.[31] The planet Venus rotates once every 243 Earth days.[32] Because of its unusual retrograde rotation, nights last 116.75 Earth days.[33] The dense greenhouse atmosphere on Venus keeps its surface hot enough to melt lead throughout the night.[34][35] Its planetary wind system, driven by solar heat, reverses direction from day to night. Venus's winds flow from the equator to the poles on the day side and from the poles to the equator on the night side.[36][37] On Mercury, the planet closest to the Sun, the temperature drops over 1,000°F after nightfall.[38]

The day-night cycle is one consideration for planetary habitability or the possibility of extraterrestrial life on distant exoplanets.[39] Some exoplanets, like those of TRAPPIST-1, are tidally locked. Tidally locked planets have equal rotation and orbital periods, so one side experiences constant day, and the other side constant night. In these situations, astrophysicists believe that life would most likely develop in the twilight zone between the day and night hemispheres.[40][41]

Biology[edit]

The giant moray eel is most active by night. Its brain has adapted to rely less on visual input and more on its sense of smell.[42]

Living organisms react directly to the darkness of night.[43] Light and darkness also affect circadian rhythms, the physical and mental changes that occur in a 24-hour cycle.[44] This daily cycle is regulated by an internal "biological clock" that is adjusted by exposure to light.[44] The length and timing of nighttime depend on location and time of year.[45] Organisms that are more active at night possess adaptations to the night's dimmer light, increased humidity, and lower temperatures.[46]

Animals[edit]

Animals that are active primarily at night are called nocturnal and usually possess adaptations for night vision.[47] In vertebrates' eyes, two types of photoreceptor cells sense light.[48] Cone cells sense color but are ineffective in low light; rod cells sense only brightness but remain effective in very dim light.[49] The eyes of nocturnal animals have a greater percentage of rod cells.[48] In most mammals, rod cells contain densely packed DNA near the edge of the nucleus. For nocturnal mammals, this is reversed with the densely packed DNA in the center of the nucleus, which reduces the scattering of light.[50]

Nocturnal insects drawn to an artificial light

The compound eyes of insects can see at even lower levels of light. For example, the elephant hawk moth can see in color, including ultraviolet, with only starlight.[47] Nocturnal insects navigate using moonlight, lunar phases, infrared vision, the position of the stars, and the Earth's magnetic field.[51] Artificial lighting disrupts the biorhythms of many animals.[52] Night-flying insects that use the moon for navigation are especially vulnerable to disorientation from increasing levels of artificial lighting.[53] Artificial lights attract many night-flying insects that die from exhaustion and nocturnal predators.[54] Decreases in insect populations disrupt the overall ecosystem because their larvae are a key food source for smaller fish.[55] Dark-sky advocate Paul Bogard described the unnatural migration of night-flying insects from the unlit Nevada desert into Las Vegas as "like sparkling confetti floating in the beam's white column".[56]

Time-expanded recording of a bat using echolocation to home in on its prey

Some nocturnal animals have developed other senses to compensate for limited light. Many snakes have a pit organ that senses infrared light and enables them to detect heat. Nocturnal mice possess a vomeronasal organ that enhances their sense of smell. Bats heavily depend on echolocation.[57] Echolocation allows an animal to navigate with their sense of hearing by emitting sounds and listening for the time it takes them to bounce back.[57] Bats emit a steady stream of clicks while hunting insects and home in on prey as thin as human hair.[58]

Fuseli's The Nightmare

People and other diurnal animals sleep primarily at night.[59] Humans, other mammals, and birds experience multiple stages of sleep visible via electroencephalography.[60] The stages of sleep are wakefulness, three stages of non-rapid eye movement sleep (NREM) including deep sleep, and rapid eye movement (REM) sleep.[61] During REM sleep, dreams are more frequent and complex.[62] Studies show that some reptiles may also experience REM sleep.[63] During deep sleep, memories are consolidated into long-term memory.[64] Invertebrates most likely experience a form of sleep as well. Studies on bees, which have complex but unrelated brain structures, have shown improvements in memory after sleep, similar to mammals.[65]

Compared to waking life, dreams are sparse with limited sensory detail. Dreams are hallucinatory or bizarre, and they often have a narrative structure.[66] Many hypotheses exist to explain the function of dreams without a definitive answer.[66] Nightmares are dreams that cause distress. The word "night-mare" originally referred to nocturnal demons that were believed to assail sleeping dreamers, like the incubus (male) or succubus (female).[67] It was believed that the demons could sit upon a dreamer's chest to suffocate a victim, as depicted in John Henry Fuseli's The Nightmare.[67]

Fungi[edit]

Fungi can sense the presence and absence of light, and the nightly changes of most fungi growth and biological processes are direct responses to either darkness or falling temperatures.[45] By night, fungi are more engaged in synthesizing cellular components and increasing their biomass.[68] For example, fungi that preys on insects will infect the central nervous system of their prey, allowing the fungi to control the actions of the dying insect. During the late afternoon, the fungi will pilot their prey to higher elevation where wind currents can carry its spores further. The fungi will kill and digest the insect as night falls, extending fruiting bodies from the host's exoskeleton.[69] Few species of fungi have true circadian rhythms.[45] A notable exception is Neurospora crassa, a bread mold, widely used to study biorhythms.[70]

Plants[edit]

Time-lapse video of a night-blooming cereus

During the day, plants engage in photosynthesis and release oxygen. By night, plants engage in respiration, consuming oxygen and releasing carbon dioxide.[71] Plants can draw up more water after sunset, which facilitates new leaf growth.[72] As plants cannot create energy through photosynthesis after sunset, they use energy stored in the plant, typically as starch granules.[73] Plants use this stored energy at a steady rate, depleting their reserves almost right at dawn.[73] Plants will adjust their rate of consumption to match the expected time until sunrise. This avoids prematurely running out of starch reserves,[73] and it allows the plant to adjust for longer nights in the winter.[74] If a plant is subjected to artificially early darkness, it will ration its energy consumption to last until dawn.[74]

Succulent plants, including cacti, have adapted to the limited water availability in arid environments like deserts.[75] The stomata of cacti do not open until night.[76] When the temperature drops, the pores open to allow the cacti to store carbon dioxide for photosynthesis the next day, a process known as crassulacean acid metabolism (CAM).[76][77] Cacti and most night-blooming plants use CAM to store up to 99% of the carbon dioxide they use in daily photosynthesis.[78][79] Ceroid cacti often have flowers that bloom at night and fade before sunrise.[80] As few bees are nocturnal, night-flowering plants rely on other pollinators including moths, beetles, and bats.[81] These flowers rely more on the pollinators' sense of smell with strong perfumes to attract moths and foul-smelling odors to attract bats.[82]

Eukaryotic and prokaryotic organisms that engage in photosynthesis are also affected by nightfall. Like plants, algae will switch to taking in oxygen and processing energy stored as starch.[83][84] Cyanobacteria, also known as blue algae, switch from photosynthesis to nitrogen fixation after sunset,[85] and they absorb DNA at a much higher rate.[86]

Effects on life[edit]

Social[edit]

Further information: Nightlife and Timeline of lighting technology
Regent Street, London, England, at 10:00 pm

The first constant electric light was demonstrated in 1835.[87] As artificial lighting has improved, especially after the Industrial Revolution, nighttime activity has increased and become a significant part of the economy in most places. Many establishments, such as nightclubs, bars, convenience stores, fast-food restaurants, gas stations, distribution facilities, and police stations now operate 24 hours a day or stay open as late as 1 or 2 a.m. Even without artificial light, moonlight sometimes makes it possible to travel or work outdoors at night.

Nightlife is a collective term for entertainment that is available and generally more popular from the late evening into the early hours of the morning.[88] It includes pubs, bars, nightclubs, parties, live music, concerts, cabarets, theatre, cinemas, and shows. These venues often require a cover charge for admission. Nightlife entertainment is often more adult-oriented than daytime entertainment.

Cultural and psychological[edit]

Nótt, the personification of night in Norse mythology, rides her horse in this 1887 painting by Peter Nicolai Arbo.
Noc na Ukrainie (Ukraine by Night) – a picture presenting a specific atmosphere of winter night in 19th century Ukraine by Józef Chełmoński, 1877 oil on canvas, 69 × 129 cm (National Museum in Warsaw, Poland)
Vincent van Gogh's 1889 painting The Starry Night[89]

Night is often associated with danger and evil, because of the psychological connection of night's all-encompassing darkness to the fear of the unknown and darkness's hindrance of a major sensory system (the sense of sight). Nighttime is naturally associated with vulnerability and danger for human physical survival. Criminals, animals, and other potential dangers can be concealed by darkness. Midnight has a particular importance in human imagination and culture.

Upper Paleolithic art was found to show (by André Leroi-Gourhan) a pattern of choices where the portrayal of animals that were experienced as dangerous were located at a distance from the entrance of a cave dwelling at a number of different cave locations.[90]

The belief in magic often includes the idea that magic and magicians are more powerful at night. Séances of spiritualism are usually conducted closer to midnight. Similarly, mythical and folkloric creatures such as vampires, ghosts and werewolves are described as more active at night. In almost all cultures, legendary stories warn of the night's dangers.

The cultural significance of the night in Islam differs from that in Western culture. The Quran was revealed during the Night of Power, the most significant night according to Islam. Muhammad made his famous journey from Mecca to Jerusalem and then to heaven in the night. Another prophet, Abraham, came to realize the supreme being in charge of the universe at night.

People who prefer nocturnal activity are called night owls.[91]

See also[edit]

Notes[edit]

  1. ^ "Definition of good night". merriam-webster.com. Retrieved 31 December 2019.
  2. ^ a b c Lunar Planetary Institute n.d.
  3. ^ a b Bolles 2024.
  4. ^ a b Greene 2003, p. 31.
  5. ^ Dobrijevic 2022, "What Causes the Summer Solstice".
  6. ^ a b c Dobrijevic 2022.
  7. ^ a b UCSB 2015.
  8. ^ Steiger & Bunton 1995, "Night and Day".
  9. ^ Steiger & Bunton 1995, "Twilight".
  10. ^ a b Mulvaney 2024.
  11. ^ a b Greene 2003, p. 33.
  12. ^ Gaherty 2013.
  13. ^ Katz 2021.
  14. ^ a b c d McClure 2024.
  15. ^ Shubinski 2023.
  16. ^ Greene 2003, p. 86.
  17. ^ a b Mason 1933, p. 690.
  18. ^ Ottewell 2019.
  19. ^ Kher & Bikos n.d.
  20. ^ a b c d Shubinski 2023, "In twilight".
  21. ^ Greene 2003, pp. 86–87.
  22. ^ a b Sokol 2023.
  23. ^ Flanders 2008, "Natural".
  24. ^ a b David 2022.
  25. ^ Bolles 2024, The View From Home.
  26. ^ Greene 2003, p. 43.
  27. ^ Gunn n.d.
  28. ^ Plait 2023.
  29. ^ Greene 2003, p. 84.
  30. ^ Atkinson 2024.
  31. ^ Planetary Society n.d., "Solar Day Length".
  32. ^ Margot et al. 2021, p. 676.
  33. ^ Williams 2017.
  34. ^ Planetary Society n.d., "Global Average Temperature".
  35. ^ Venus Facts
  36. ^ Svedhem et al. 2007, pp. 629–630.
  37. ^ Gohd 2021.
  38. ^ Bolles 2024a.
  39. ^ Clery 2017.
  40. ^ Walla 2019.
  41. ^ Lewis 2023.
  42. ^ Iglesias et al. 2018, p. 17.
  43. ^ Dunlap & Loroso 2018, p. 515.
  44. ^ a b BRAIN 2004, "Sleep and Circadian Rhythms".
  45. ^ a b c Dunlap & Loroso 2018, p. 517.
  46. ^ Borges 2018, "Abstract".
  47. ^ a b Gaston et al. 2012, p. 1261.
  48. ^ a b Jacobs 2009, p. 2961.
  49. ^ Shen 2012.
  50. ^ Cell 2009.
  51. ^ Danthanarayana 1986, p. 3.
  52. ^ Edwards 2018, p. 241.
  53. ^ Pennisi, Benthe & Haberland 2021, p. 556.
  54. ^ Pennisi, Benthe & Haberland 2021, p. 557.
  55. ^ Pennisi, Benthe & Haberland 2021, pp. 556–557.
  56. ^ Edwards 2018, p. 239.
  57. ^ a b Edwards 2018, p. 238.
  58. ^ Langley 2021, "Bat signals".
  59. ^ Moorcroft 2005, p. 33.
  60. ^ Vorster & Born 2015, p. 108.
  61. ^ Patel et al. 2024, "Mechanism".
  62. ^ Hoel 2021, "Introduction".
  63. ^ Dunham 2016.
  64. ^ Vorster & Born 2015, p. 115.
  65. ^ Vorster & Born 2015, p. 113.
  66. ^ a b Hoel 2021, "Contemporary Theories of Dreams".
  67. ^ a b Harris 2004, pp. 439–440.
  68. ^ Dunlap & Loroso 2018, p. 528.
  69. ^ Lovett & Leger 2018, pp. 935–936.
  70. ^ Dunlap & Loroso 2018, pp. 515–517.
  71. ^ Fricke 2020, p. 1152.
  72. ^ Fricke 2020, p. 1154.
  73. ^ a b c Scialdone & Howard 2015, p. 1.
  74. ^ a b Scialdone & Howard 2015, p. 2.
  75. ^ Hewitt 1997, p. 10.
  76. ^ a b Hewitt 1997, p. 12.
  77. ^ Herrera 2009, p. 645.
  78. ^ Borges, Somanathan & Kelber 2016, p. 399.
  79. ^ Herrera 2009, p. 646.
  80. ^ Hewitt 1997, pp. 60–61.
  81. ^ Borges, Somanathan & Kelber 2016, p. 404.
  82. ^ Hewitt 1997, p. 13.
  83. ^ Carnegie Institution 2014.
  84. ^ Lutz n.d.
  85. ^ Coombs 2006.
  86. ^ Leitch 2020.
  87. ^ Matulka, Rebecca; Wood, Daniel (22 November 2013). "The History of the Light Bulb". Department of Energy. Archived from the original on 25 May 2021. Retrieved 25 May 2021.
  88. ^ "Nightlife – Definition of nightlife by Merriam-Webster". merriam-webster.com.
  89. ^ moma learning. MoMA. Retrieved May 23, 2021.
  90. ^ Leroi-Gourhan; Lewis-Williams, JD (24 April 2014). Zvelebil, Marek; Jordan, Peter; Cummings, Vicki (eds.). Art for the Living, in, The Oxford Handbook of the Archaeology and Anthropology of Hunter-Gatherers (Ebook). OUP Oxford. ISBN 9780191025266. Retrieved 26 May 2021. The source doesn't state whether the location "painted in the depths" had natural light or no natural light.
  91. ^ Klein, Stefan (2008). Time. p. 20.

References[edit]

External links[edit]

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