Monday, September 29, 2014

Exploring ecotourism in Chhattisgarh of India

Chhattisgarh state of India has emerged from ocean floor
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pic credit: AFP
a new island appeared on a Pakistani coastal town of Gwadar
Geologist believe that Chhattisgarh state of India was part of the ocean floor some 280,000,000 years ago. 

Earhquake and some other geological disturbances must have raised this portion up creating this land mass (report appeared in Bhaskar/13th October 2013 Sunday/pp3), just like in September 2013 a new island has emerged near Pakistan. Seismic activity appears to have sparked this unusual land formation, (http://www.bbc.com/news/world-asia-24272552).


Sonhat block of Koriya district in Chhattisgarh state of India does have remains which could easily be seen, fossilized molluscs (Seepi) are so abundantly scattered. Geological Survey of India has marked this region for the Ecotourism, which belongs to period between Eocene to Pliocene epoch.

These fossils date back to millions of years, are scattered in between Hasdeo river and Halia Nala, almost in one kilometer of area.

bhaskar/13t october 2013

This is the reason that plains of Raipur (state capital) is full of Lime stones below it's earth crust; declared reserved area by Geological Survey of India, naming it 'Marine Gondwana Fossils'.

Geological structure of Chhattisgarh state of India varies from most ancient to most recent rock types, which contains vivid mineral deposits in abundance.

*author extends thanks to Ms Padmavati Pandey for her valuable input and meaningful discussions during the preparation of this post.
#Globally seismic monitor link in real time:
http://www.iris.edu/hq/sis/data/seismon
#Globally lightning monitor site in real time:
http://www.lightningmaps.org/realtime

#Sun movement and sunlight phases during the given day at the given location.
suncalc.net

Thursday, September 25, 2014

Indian geological history based on rock types

Himalayan range emerged from the Tethys ocean
Alps, Carpathian in Europe, Hindukush in Afganistan to the west of Himalaya 
and mountains of Burma in the east,----millions of years ago it all were part of a great ocean Tethys

The Sea floor of the Tethys ocean was raised up by the collision to for the Himalayas. That is why you can find sea shell fossils on the top of Mount Everest! This is a destructive plate margin.

Continent to north to Tethys was Northern Pangea (Laurasia/Angaraland
and continent to south was Southern Pangea (Gondwanaland).

Various geological factors caused Tethys ocean to come up above the water level. 
This water scattered in the lower part of Gondwanaland
Gondwanaland looked fragmented in parts 
and so Indian Ocean came in existence.

At one time, the Indian craton was a segment of the Pangaea supercontinent. During that period, it was linked with Southern Africa and Madagascar on the southwestern shore and Australia beside the eastern shore. During the Jurassic era, at approximately 160 Ma (ICS 2004), fissuring led Pangaea to split into two supercontinents i.e. Laurasia (in the north) and Gondwana (in the south). However, the Indian craton stayed linked to Gondwana till the supercontinent started to split into pieces approximately in the beginning phase of the Cretaceous era around 125 Ma (ICS 2004). The tectonic plate of India started moving to the north in the direction of the Eurasian plate. This geological process, which is going on at present, is associated with the sealing of the Tethys Ocean. The Tethys Ocean’s sealing had resulted in formation of the Caucasian Mountain Range in West Asia and the Alps in Europe. It also formed the Tibetan highland in South Asia and the Himalayan Mountain Ranges.
pic courtesy: http://science.taskermilward.org.uk/mod1/KS4Chemistry/AQA/Module2/10_2_15.htm
#reference for classification of Indian rocks:http://www.thecsatupsc.com/2013/04/classification-of-indian-rocks.html


Geological history of India based on rock types
The Geological History of India began with the geographical transformation of other parts of the earth, to be precise, 4.57 Ga (billion years back). 
India is famous for its varied geological features
Various parts of India are made up of rocks of all categories of several geologic periods
A few of the rocks are poorly malformed and metamorphosed. 
At the same time, other types of rocks are newly silted alluvial soils that are still to go through chemical and physical changes. 
Source of minerals of significant diversity is seen in the subcontinent area in substantial amount.(text courtesy:http://www.mapsofindia.com/500-things-to-know-about-india/geological-history-of-india/)


Map of chronostratigraphic divisions of India
There are three types of rocks: igneous, metamorphic, and sedimentary. The first two are formed under conditions of extreme heat and pressure.
Igneous rocks are formed when magma cools into solid form. This can happen on the surface with volcanic discharge, but primarily takes place beneath the earth’s crust. A majority — about 90% — of igneous rocks are silicate minerals, which are rich in silicon and oxygen. Quartz is among the most familiar and abundant of this type; clays and feldspar are other examples.
 Metamorphic rocks are formed when a preexisting rock, called a protolith, is under conditions of high heat and pressure, causing it to metamorphose chemically, structurally, or both. The protolith might be an igneous, sedimentary, or another metamorphic rock. Slate, marble, and quartzite are some examples of this type.

Sedimentary rocks are less abundant than the other two varieties, composing only 5% or so of the earth’s crust. This type of rock is formed over long periods of time as tiny grains of material are pressed against each other and join loosely. The process by which sedimentary rocks are formed is delicate enough that fossils can be preserved within them. Common examples include sandstone, chalk, and limestone.
picture credit:http://en.wikipedia.org
text credit:http://www.wisegeek.org/what-are-the-different-types-of-rocks.htm


Geology and major structures of Himalayas
picture credit:http://www.geo.arizona.edu/geo5xx/geo527/Himalayas/geology.html
Three clear regions of India based on rock types
The geological history of India, it ranges from most archaic to most newly formed rock types.

As rocks date back to Pre Archaen and Pre Cambrian period, their age could well be compared with the age of India itself

The latest rocks of Quarternary period are found in alluvial deposits (in the form of layer after layer deposits).

The three divisions based on rock types are as follows:

1. A substantial territory of peninsular India, which is also known as the Indian Shield, comprises schists and Archean gneisses and these are the earliest forms of rocks seen in India. These are 'original' rocks, made by cooling of the Earth from molten phase. This is part of the Gondwanaland.

2. Rocks of Himalayan mountain and newly formed other moulded related mountain range which are formed later to the rocks of peninsular India, is called Tertiary rocks. Such rocks were formed of the deposits from the base of the ocean.

3.  Indo-Gangetic basin , which were formed later to Himalayan mountain range, are Quarternary rocks formed by the alluvial deposits of alluvial soil. This soil is worn down from the Himalayas by rivers originating from Himalayan mountain range.

Above three physical regions of India  were formed gradually one after other.

Rock type reserve
Archaic Archean rocks are best for Iron and Gold reserve while rocks of Carboniferous period are known for Coal reserve. 
There are more chances of finding mineral oil in rocks formed by the precipitates of ocean

Himalayan rivers are older than Himalayas
There are two major river systems in India based on the origin:

1.Himalayan Rivers: These rivers are again subdi­vided into two groups. Trans Himalayan and Hima­layan. The Trans-Himalayan Rivers originate beyond the Great Himalayas. These are the Indus, the Sutlej and the Brahmaputra rivers. Himalayan rivers are those which originate in the Himalayas and flow through the Northern Plains, e.g., the Ganga, the Yamuna and their tributaries. These rivers are useful for irrigation and navigation and the lowlands drained by them have fertile alluvial deposits. 

The main Himalayan river systems are the Ganga, the Indus and the Brahmaputra river systems. The Himalayan rivers form large basins. Many rivers pass through the Himalayas. These deep valleys with steep rock sides were formed by the down - cutting of the river during the period of the Himalayan uplift. They perform intense erosional activity up the streams and carry huge load of sand and silt. In the plains, they form large meanders, and a variety of depositional features like flood plains, river cliffs and levees.

These rivers are perennial as they get water from the rainfall as well as the melting of ice. Nearly all of them create huge plains and are navigable over long distances of their course. These rivers are also harnessed in their upstream catchment area to generate hydroelectricity.

2.Peninsular rivers: The main peninsular river systems include the Narmada, the Tapti, the Godavari, the Krishna, the Kaveri and the Mahanadi river systems. The Peninsular rivers flow through shallow valleys. A large number of them are seasonal as their flow is dependent on rainfall. The intensity of erosional activities is also comparatively low because of the gentler slope. The hard rock bed and lack of silt and sand does not allow any significant meandering. Many rivers therefore have straight and linear courses. These rivers provide huge opportunities for hydro-electric power.
Image Courtesy : gsabulletin.gsapubs.org/content/122/3-4/336/F1.large.jpg
Pic courtesy: http://www.mapsofindia.com/maps/india/geographical.htm
source: www.wikimedia.org
*author extends thanks to Ms Padmavati Pandey for her valuable input and meaningful discussions during the preparation of this post.
#Find out where an earthquake has occurred today !!
http://www.iris.edu/hq/sis/data/seismon 

#reference for Indian rivers in nutshell: http://www.winentrance.com/general_knowledge/geography/rivers.html