Night Shining Cloud
Noctilucent clouds or night-shining clouds are the highest clouds found in the Earth’s atmosphere located in the mesosphere at an altitude around 76 to 85 km (249,000 to 279,000 ft). The cloud consists of ice crystals and is only visible during astronomical twilight. In Latin, the term Noctilucent means “night-shining”. The clouds are most visible during the summer month and when the Sun is below the horizon from latitude between ±50° and ±70°.
The clouds are too faint to be observed during daylight and are visible only when illuminated by sunlight from below the horizon while lower levels of the atmosphere are in Earth’s shadow.
Noctilucent Meaning
The term Noctilucent means “night-shining” and is an indicator as to what makes them special. Most clouds are dark at night, but night-shining clouds appear to glow a brilliant white or electric blue. Nlc clouds can reflect the light of the sun as shown in the figure given below as they are the highest clouds in the Earth’s atmosphere. The Nlc clouds are located in the mesosphere at an altitude of around 76 to 85 km (249,000 to 279,000 ft).
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Noctilucent Clouds Definition
Noctilucent clouds, also known as polar mesospheric clouds, are very thin clouds of water ice crystals located in the Mesosphere at a height of about 75 km to 90 km.
Noctilucent Cloud Discovery
Noctilucent or night-shining clouds were first observed in 1885, two years after the 1883 eruption of Krakatoa in the straits of Java.
It is not confirmed whether their appearance had anything to do with the volcanic eruptions or whether their occurrence was due to more people observing the incredibly vibrant sunset caused by volcanic debris into the upper atmosphere by eruptions and contributing to their formation.
Subsequent studies have shown that noctilucent clouds are not solely caused by volcanic activity, although dust and water vapour could be inserted in the Earth’s atmosphere by a volcanic eruption and contributed to their formation.
The assumption was made by the scientist at that time that clouds were another phenomenon of volcanic ash, but the cloud persisted after the ash liquidated out of the atmosphere.
In 1972, Nlc clouds were first observed from space by an instrument on the OGO - satellite.
Noctilucent Cloud Formation
The night-shining clouds are made up of small crystals of water ice up to 10 mm in diameter and exist at a height of about 76 to 85 km, higher than any other cloud in the Earth’s atmosphere. Similar to the other clouds. Clouds in the Earth’s lower atmosphere form when water collects on particles, but mesospheric clouds or clouds in the mesosphere may come directly from the water vapour as well as forming on dust particles.
Nlc clouds required water vapour dust, and very cold temperature to form. The source of both dust and water vapour in Earth’s atmosphere is not known with certainty. The dust was expected to come from micrometres, although particles from volcanoes and dust from the troposphere are also possibilities. Scientists believe that moisture could be lifted through the gas in the tropopause, as well as forming the reaction of methane with hydroxyl radicals in the stratosphere. Noctilucent clouds form mostly in the polar regions because the mesosphere is the coldest in that region.
Noctilucent Cloud Observation
Nlc clouds are mostly found colourless or pale blue, but occasionally other colours such as red and green are also observed. The attributes of blue colour come from absorption by ozone in the path of sunlight brightening the Nlc clouds. The Nlc clouds appear as featureless bands, but frequently show different patterns such as streaks, waves, and wavelike undulations.
The Noctilucent occurs during summer from mid-May to mid-August in the northern hemisphere and between mid-November to mid-February in the southern hemisphere. The clouds are very faint and tenuous and may be observed only in twilight around sunrise and sunset when the clouds of the lower atmosphere are in the shadow, but the Nlc clouds are brightened by the Sun. The clouds are best observed when the Sun is between 6° and 16° below the horizon.
Although night-shining clouds are found in both the hemisphere, they have been observed thousands of times during the northern hemisphere and fewer than 100 times during the southern hemisphere.
Also, Nlc clouds are made up of small crystals which are not noticeable to the viewer on the ground because they cannot disperse enough light. The size of the crystals may be 30 mm or less.
Noctilucent Cloud Forms
The noctilucent cloud comes in different forms and patterns. As per the identification scheme introduced by Fogle in 1970, the clouds are classified in five different terms. This classification is further modified and subdivided. In view of the recent research, the World Meteorological Organization now observed four major forms that can be subdivided. The four major forms are:
Type 1 veils are very fragile and lack definite structure, similar to cirrostratus or inadequately defined cirrus.
Type 2 bands are long streaks that rarely appear in roughly parallel groups, usually more widely spaced than the bands or elements seen with cirrocumulus clouds.
Type 3 billows are arranged in a closed-space, roughly parallel short streaks that most often look like cirrus.
Type 4 whorls are more partial, or more often complete rings of cloud with dark centres.
Did You Know?
NLC clouds are the highest cloud in the sky, growing at the edge of space 50 miles above the Earth's surface.
Nlc clouds exist in the atmosphere mesosphere layer.
Nlc clouds are the newest clouds that we all have observed. Scientists first observed the Nlc clouds in 1885 after the same famous explosion of the Krakatoa volcano.
Nlc clouds occur during summer from mid-May to mid-August in the northern hemisphere and between mid-November and mid - February in the southern hemisphere.
FAQs on Noctilucent Cloud
1. What is a noctilucent cloud and why is it named so?
A noctilucent cloud (NLC) is a rare, high-altitude cloud formation that appears as wispy, electric-blue or silvery threads against the night sky. The name is derived from Latin, where 'nocto' means 'night' and 'lucens' means 'shining'. They are called 'night-shining clouds' because they are so high up that they reflect sunlight long after the sun has set below the horizon for ground observers.
2. In which layer of the atmosphere do noctilucent clouds form?
Noctilucent clouds form in the mesosphere, the third layer of Earth's atmosphere, at extremely high altitudes of about 76 to 85 kilometres (47 to 53 miles). This makes them the highest clouds in our planet's atmosphere, forming far above the troposphere where all weather-related clouds are found.
3. What is the composition of noctilucent clouds?
Noctilucent clouds are composed of tiny ice crystals that are about the size of particles in cigarette smoke. These ice crystals are thought to form on very fine dust particles, which may originate from meteoric dust—debris left behind by meteors entering Earth's atmosphere. The extreme cold of the mesosphere allows water vapour to freeze directly onto these nuclei.
4. What is the best time and location to observe noctilucent clouds?
The best time to see noctilucent clouds is during the deep twilight of the summer months. They are most visible from high-latitude locations (between 50° and 70° north or south) when the Sun is between 6 and 16 degrees below the horizon. This specific angle allows the clouds to remain sunlit and visible against a dark sky.
5. Why are noctilucent clouds considered a rare phenomenon?
Noctilucent clouds are rare because their formation depends on a very precise and unusual set of conditions that only occur in the summer mesosphere at high latitudes. These conditions include:
- Extreme Cold: Temperatures must drop below -120°C.
- Water Vapour: Sufficient water vapour must be present, which is uncommon at such high altitudes.
- Cloud Nuclei: A source of fine dust particles (like meteor dust) is needed for ice crystals to form.
6. What is the main difference between noctilucent and nacreous clouds?
While both are high-altitude clouds, the main differences lie in their altitude, appearance, and formation season.
- Altitude: Noctilucent clouds form in the mesosphere (~80 km), while nacreous (or polar stratospheric) clouds form much lower in the stratosphere (~15-25 km).
- Appearance: Noctilucent clouds are silvery or electric-blue, while nacreous clouds are known for their vibrant, iridescent 'mother-of-pearl' colours.
- Season: Noctilucent clouds are a summer phenomenon, whereas nacreous clouds are typically seen in the polar winter.
7. What is the importance of studying noctilucent clouds for climate research?
Studying noctilucent clouds is important because they serve as sensitive indicators of changes in the upper atmosphere. Their increasing frequency, brightness, and appearance at lower latitudes are considered potential signals of global climate change. An increase in methane gas, a greenhouse gas, leads to more water vapour in the mesosphere when it breaks down, potentially creating more NLCs. Therefore, they are valuable for monitoring long-term atmospheric trends.
8. Are noctilucent clouds dangerous to humans or aviation?
No, noctilucent clouds pose no danger to humans or aviation. They form at altitudes far above the flight paths of commercial aeroplanes and weather balloons. They are purely an atmospheric visual phenomenon and do not have any direct physical impact on life or technology on Earth's surface.
9. Can astronauts see noctilucent clouds from space?
Yes, astronauts aboard the International Space Station (ISS) can and frequently do see noctilucent clouds. From their vantage point in orbit, they can view the clouds from above or the side, often observing them as a bright, glowing layer on the edge of the planet's atmosphere. These observations provide a unique, wide-angle perspective that complements ground-based studies.
10. When were noctilucent clouds first scientifically documented?
The first recorded scientific observations of noctilucent clouds were in 1885, two years after the massive eruption of the Krakatoa volcano. It is widely believed that the eruption injected enormous amounts of water vapour and dust high into the atmosphere, creating the perfect conditions for widespread and brilliant NLC displays that drew scientific attention for the first time.
