Optical phenomena of the Atmosphere

1. Nature of light

Light is weightless, immaterial and transverse. Light generated by incandescence and luminescence. Incandescence is the emission of light from hot and luminescence is the emission of light when excited electrons fall to lower energy level. 

The speed of light is constant in vacuum and speed of light through medium is slower than vacuum. It depends on medium which it travel or interact.

2. Properties of light

2.1 Radiation

The sun emits heat and light. These forms constitute only small portion of energy of the total energy that radiates from the sun. This energy called as radiation or electromagnetic radiation. All types of radiation travel in a speed of light (x-rays, radio waves, or heat waves). Electromagnetic radiation comes in various sizes or wavelengths. Earth gets sun radiation in the form of short wave length. 

Radiation often identified when the rays interact with an object. When it is easy to show that will call visible light. It appears “white” in color. White light is corresponding to various colors and each color represent various wave length and over 95% are between 0.1 and 2.5 micrometers and much of this energy concentrated in the visible and near-visible parts of the electromagnetic spectrum. 

 2.3 Reflection

Light travel through vacuum of space in a straight line. Rays enter the surface and bounce back from the surface is to be called reflection. When the rays bounce back from the surface it reflects the surface in same angle. This principle is called as law of reflection.

 Angle of incidence = angle of reflection

Incoming rays = Outgoing ray

This is not perfectly suited for all objects. It depends on interfere particles and wavelength of the light. When light rays reach the rough surface the image appear as multiple images and travel in various directions.

 

2.4 Refraction

When light travel through transparent material it’s not bounce back from material. It transmitted through that material to another medium called refraction. For example when the light passes through water it get bending in the opposite direction. The amount of refraction in air is small and in water is much larger.

We can explain this illusion through sun setting. When the sun near the horizon we can see the sun few minutes after it has set below the horizon. Solar radiation takes eight minutes to reach the earth. Therefore we can see only the eight minutes earlier of the suns apparent located position. This illusion is cause by the result of bending of solar radiation. 

Usually air density increases in earthwards. This gradual density changes are equal for gradual slowing and bending of light. 

3. Rainbows

This optical phenomenon can see when the observer is situated with the sun on one side and rain shower occur in opposite side. The rainbow outer part start with red color and it gradually blends to orange, yellow, green, blue and violet. In this situation observer can see the view of dimmer secondary rainbow near the primary one. The second bow will appear 8⁰ above the primary bow and it in reverse colors order that red in inner part and violet in outer part of the rainbow. 

The sunlight and water droplets are needed for the formation of rainbow. When the light passes through water it speed slowed and gets refracted in different angle and each color of light travel at different velocity in water. 

This phenomenon was demonstrated by Sir Isaac Newton through using a prism. Newton noted when the light passes through prism it refracted twice. Once it enters into the prism and after it exists. In this occasion water droplets act as a prism and disperse the sunlight. The rainbow appears in curved shape because rays reach the observer in the angle of 40⁰ and 42⁰ from the sunlight path. 

    

3. Halos, Sun dogs and Solar pillars 

Halos:

This optical phenomenon can see any observer and it often appear morning and late afternoon when the sun is near the horizon. It also generated by dispersion of sunlight. These halos are mostly associated with cirrus clouds. 

Four types of ice crystals that compose cirrus clouds are contribute to the formation if halos: plates, columns, capped columns and bullets. Sunlight strikes these crystals in all angles and light get scattered and disperse equally in all directions. 

Halos are commonly whitish in color. Ice crystals are dispersing the light as a rain droplets or prism. The color produced by the light reddish band is in inner portion of the ring and other colors tend to washout each other and leave the red surrounded by whitish ring. 

Most spectacular effect that associated with halos is sun dogs or perihelia and sun pillar. Sun dogs forms under the same condition. This phenomenon is happen when the ice crystals are allowed to descend slowly. Sun pillar are most often viewed near sunset or sunrise and appear in vertical from the sun. 

 

 References:

1. Frederick K. Lutgens, Edward J. Tarbuck, Dennis Tasa (2010); The Atmosphere : An introduction to Meterology; Pearson Education, Inc. USA. 

2. http://physics.info/light

3. 

Geology of Himalaya

Himalaya Mountain is a result of formation of tectonic forces and it is a process of two continental collisions. This great mountain modify by weather and erosion continuous process. Himalaya – Tibet region is identifying as an Asia visible water tank. It supplies fresh water for one-fifth of the world population. 

Formation of Himalaya

The Indian subcontinent pushes towards to north in the late Precambrian and Paleozoic period. Himalaya known as a young – folded mountains if compare with Appalachian old mountains which located in America. Himalaya formation is take places in recent earth history. Theory of Himalaya formation is started to develop in 1912 with Alfred Wegner continental drift theory. According to his theory earth joint by giant tectonic plates and today continents are formed from one single land mass and it called as “Pangaea”. Continents are drifted apart from each another due to tectonic activity from this land mass and formed today continents and oceans that we know today. 

Around 200 million years ago the middle era of Precambrian there was a region with an extensive sea stretched presently occupied by Himalaya region. Eurasian north landmass known as Lorezia and South Indian land mass called as Gondwana. These two land masses were divided by Tethys Sea. During this period super continent Pangaea land mass began to split into different land masses and start to move various directions. The Indian plate breaks off from the Pangaea and move northwards toward Eurasian plate. As a result shallow Tethys Sea gets deposited by large amount of sediments. The two land masses Eurasian and Indian sub-continent come to close each other. Indian plate was move 16 cm per year (6 inch per year). 

The initial mountain building process started around 70 million years ago. During this period these land masses get collide and depart from another. As a result Tethys Sea began to fold folded and raised their shallow valleys. Next 65 million years ago second mountain building process started and Tethys sea bed again began to rise. The Sea get backward and sea bed start to elevated with higher mountain ranges. 

Later 25 million years ago, formation of lower Shivalik mountain ranges start the next phase of mountain building and periodic mountain building phases occurred. Indian plate pushed against the Eurasian plate and raise the Himalayan ranges further.

  Function of Himalaya

Himalaya still raising it elevation in small rate after passed it uplift phase. Indian continent continually move toward to north in the rate of 2cm per year. As a result Himalaya is raising it elevation in the rate of 5mm per year. This show the Himalaya is geologically activity and it unstable structure. 

Beneath the Himalaya the earth crust is 60-780 km thicker and this thicker crust formed crustal root to go downward into the mantle and it is an important process for mountain building. Because buoyancy of the root allows the high reaches of the mountain. 

The Himalaya continues to raise it massive weight bear up by crust which located beneath the mountain and it buried into earth crust. If this rock pressed down into mantle, it will start to melt and began to follow slowly. This process creates mountain collapse lower. Several scientists believed this stress cause large earth quakes in this region and there was recorded of severe earth quake incidences. Recent earth quake occurred in Nepal-Himalaya region on April 2015 and it cause large impact in those areas and millions of people get affected.

Biodiversity of Himalaya region

Himalaya region is an accommodation for richness of biodiversity. It is a hotspot for hundreds of specific species and wild animals. Hindu kush – Himalaya (HKH) region is known as a living place for large number of ecosystems in the world. It extends more than 3500m and includes variety of ecosystems. Varied altitude, climate conditions, geography-biophysical conditions and soil formation are contributed for this region biodiversity richness. 

Himalaya Mountain ranges are divided as a complex geology structure. It contains snowcapped peaks, large snow valleys, deep river gorges and high variety of plants. Complex climate conditions, geology process, usage of resources and economic status are the main reason for resource degradation and environment consequences in Himalaya region (jodha, 2001). 

Rodgers (1988) divided the Himalaya regions as a 5 biotic provinces under the biogeography zones:

Trans Himalayas, North West Himalayas, West Himalayas, Central Himalayas and Eastern Himalayas.

Western Himalaya bio zone is a cool and include vegetation cover that opposed to dry conditions. Conifers, legumes and grasses are dominant plants in this region. Eastern Himalaya zone is composites of sub-tropical wet vegetation cover and include magno lias, oaks, laurels, epiphytes, orchids, and fens are seen as a high rate. 

 These biogeography zones are reflecting variety of ecosystems and include cool desert. North ranges of Himalaya represent cool desert ecosystems and it temperature is below -75^oC and this region annually getting 500-800 mm rainfall. This desert occupied with 4500-6000 feet high plateau and it described as a Himalaya transitional biogeography zone by Rodgers & Pawar (1988). This zone extent along to Tibet plateau the origin place for Hindu, Sutlej, Brammaputhra and Yangtze rivers and it invade 2.6 billion square kilometer region. 

Himalaya region is the accommodation for large number of plant species. It include all kind of plants such as, the tropical wet ever green plants to sol forests, marshes, swamps which are belongs to deciduous wet plant species, mix deciduous forests, sub-tropical coniferous forest, Broad leafed temperature forests, temperature wet broad leafed deciduous forests, temperature conifer forests, sub alpine, Alpine plants, Alpine grasses and Alpine savanna.

It occupied with snow leopards, Himalayan brown bear, red banda, Himalayan Lynx, Kahmir stag, Himalayan Musk Deer, Yak, Himalayan Ibex, Himalayan thar and Himalayan Beared vulture wild animals. Vertebrates and invertebrates animals also consider as important wild animals. 

Threats of Biodiversity

Richness biodiversity of Himalaya region expect a sever threats and becoming endangers. Deforestation, over exploitation of resources, filling of wetland drainage system, settlements, fragmentation of lands, population growth is the main reasons for biodiversity loss. Plant species are becoming threats by deforestation, agricultural activities, river valley projects, industry, and urbanization activities (MOEE 1999).

Agro- pastoral is the main reason for resource degradation. Most part of the people in this region depends on agro – pastoral activities. Over grazing activity leads to insufficient food supply and cause spread of diseases, decline in egg products to wild animals. Hunting by wild animals is the main problem for domestic animals. 

Natural disasters and wild fire are other reasons for biodiversity loss. Habitat destruction and fragmentation cause pressure in laying eggs and high mortality. Construction of dams and infrastructure facility, transport systems activities also contribute for habitat fragmentation and of destruction of biodiversity. Hunting wild animals and illegal commercial activities are increasing the risk for species of Himalayan region. Himalayan plants, musk deer, Himalayan black bear, butterflies and Tibetan antelopes are having a high value in international market.  

Indian government takes many steps to prevent these activities and promote to protect the Himalayan region and its biodiversity. Such as protected area networks-biological reserves, national parks and sanctuary and sign in multilateral environment agreements (CITES, CBD……).

Although high rate of arrivals, population pressures, economic development and concomitant excessive utilization of the regions resources are being induce the threats for Himalaya ecosystem and its habitat. 

Himalaya region and climate change

Tibet plateau is a vulnerable place to reflect the world climate conditions. Glacier covers 104,850 km² of areas. This region Temperature rising 0.3^oC per decade and this rate double the world average and glacier reduce by 7% per year. 

Uplift of Himalaya-Tibet plateau cause effects on region and global climate. Estimation shows that Himalaya uplift and climate impacts on Tibet plateau are enhanced the winter and summer monsoons and increase the drought in Central Asia. This trend helps to created Gobi and Mongolian desert and cause dust particles. These dust particles are carried by westerly from the east part of the desert to china and there deposited as a sediment on lands and ocean. 

Himalaya ranges occupied with 37,000km² of ice sheet covers and include more than 15,000 ice sheets. These are annually supplies great amount of fresh water and therefore called as an “Asia water tank” (Dyurgerov and Maer, 1997). Ice sheets include 17% of mountain regions, and other 30-40% is seen as a season snow cover. 

This Asia water tank supplies fresh water for more than 100 million of  population due to dry seasons and provide water for Asian large seven rivers; Ganga, Hindu, Brahmaputra, Salween, Mekong, Yankizen and Guwango. These river valleys are accommodation for 1.3 billion of populations. 

The longest ice sheet of Gangothri which located in Central Himalaya disappearing 3 times faster than last decade. This was 29 km long and 2-6 km width. Lose of this ice sheet cause shortage of water in many rivers and create economic, environment problems for west china, Nepal, Pakistan and North Indian people. Lose of ice sheets reduce the July-September monsoon flow by 2/3 and increase the water shortage for 500 million of population and 37% of Indian agricultural lands. 

Nepal-Himalaya glacier ecosystems got impact by climate change in last several decades and also Nepal consider as a one of the vulnerable country for climate change. 

Dust particles that collected in eastern china seen as a climate records and these are evidence for uplift period and sediments are 8 million years old. Himalaya ranges prevent the precipitation and humidity for Gobi and Mangolian deserts around 8 million years and turn to South and East Tibet plateau. 

Himalaya region ice sheets decline very fast than other parts of the world ice sheets (IPCC). Annually 10-60 m of Himalayan ice sheets are disappearing and if this lose rate continue 80% of the ice sheet will disappear in 2025. 

 References :

(1) THE HIMALAYA MOUNTAINS THEIR AGE, ORIGIN AND SUB- CRUSTAL RELATIONS authored by D. N. WADIA published in 1965

(2) http://library.thinkquest.org/10131/geology.html

(3) Michael Allaby, Dr. Robert R. Coenraads, Dr. Stephen Hutchinson, Karen McGhee, Dr. John O'Byrne, Dr. Ken Rubin (2008): The Encyclopedia of Earth, Sydney.