Pages

Monday, 16 July 2012

The Grand Canyon

The Grand Canyon!





The Grand Canyon is a huge fissure in the Colorado Plateau that exposes uplifted Proterozoic and Paleozoic strata, and is also one of the 19 distinct physiographic sections of the Colorado Plateau province. It is not the deepest canyon in the world (Kali Gandaki Gorge in Nepal is far deeper), nor the widest (Capertee Valley in Australia is about 0.6 mi/1 km wider and longer than Grand Canyon); however, the Grand Canyon is known for its visually overwhelming size and its intricate and colorful landscape. Geologically it is significant because of the thick sequence of ancient rocks that are beautifully preserved and exposed in the walls of the canyon. These rock layers record much of the early geologic history of the North American continent.


Uplift associated with mountain formation later moved these sediments thousands of feet upward and created the Colorado Plateau. The higher elevation has also resulted in greater precipitation in the Colorado River drainage area, but not enough to change the Grand Canyon area from being semi-arid. The uplift of the Colorado Plateau is uneven, and the Kaibab Plateau that Grand Canyon bisects is over a thousand feet higher at the North Rim (about 1,000 ft/300 m) than at the South Rim. Almost all runoff from the North Rim (which also gets more rain and snow) flows toward the Grand Canyon, while much of the runoff on the plateau behind the South Rim flows away from the canyon (following the general tilt). The result is deeper and longer tributary washes and canyons on the north side and shorter and steeper side canyons on the south side.


Temperatures on the North Rim are generally lower than the South Rim because of the greater elevation (averaging 8,000 ft/2,438 m above sea level). Heavy rains are common on both rims during the summer months. Access to the North Rim via the primary route leading to the canyon (State Route 67) is limited during the winter season due to road closures. Views from the North Rim tend to give a better impression of the expanse of the canyon than those from the South Rim.


The Colorado River basin (of which the Grand Canyon is a part) has developed in the past 40 million years. A recent study places the origins of the canyon beginning some 17 million years ago. Previous estimates had placed the age of the canyon at 5 to 6 million years. The study, which was published in the journal Science in 2008, used uranium-lead dating to analyze calcite deposits found on the walls of nine caves throughout the canyon. There is a substantial amount of controversy because this research suggests such a substantial departure from prior widely supported scientific consensus.


The result of all this erosion is one of the most complete geologic columns on the planet.


The major geologic exposures in the Grand Canyon range in age from the 2 billion year old Vishnu Schist at the bottom of the Inner Gorge to the 230 million year old Kaibab Limestone on the Rim. There is a gap of about one billion years between the stratum that is about 500 million years old and the lower level, which is about 1.5 billion years old. This large unconformity indicates a period of erosion between two periods of deposition.


Many of the formations were deposited in warm shallow seas, near-shore environments (such as beaches), and swamps as the seashore repeatedly advanced and retreated over the edge of a proto-North America. Major exceptions include the Permian Coconino Sandstone, which contains abundant geological evidence of aeolian sand dune deposition. Several parts of the Supai Group also were deposited in non–marine environments.


The great depth of the Grand Canyon and especially the height of its strata (most of which formed below sea level) can be attributed to 5,000 to 10,000 feet (1500 to 3000 m) of uplift of the Colorado Plateau, starting about 65 million years ago (during the Laramide Orogeny). This uplift has steepened the stream gradient of the Colorado River and its tributaries, which in turn has increased their speed and thus their ability to cut through rock (see the elevation summary of the Colorado River for present conditions).

Weather conditions during the ice ages also increased the amount of water in the Colorado River drainage system. The ancestral Colorado River responded by cutting its channel faster and deeper.


The base level and course of the Colorado River (or its ancestral equivalent) changed 5.3 million years ago when the Gulf of California opened and lowered the river's base level (its lowest point). This increased the rate of erosion and cut nearly all of the Grand Canyon's current depth by 1.2 million years ago. The terraced walls of the canyon were created by differential erosion.

Between three million and 100,000 years ago, volcanic activity deposited ash and lava over the area which at times completely obstructed the river. These volcanic rocks are the youngest in the canyon.


Tuesday, 10 July 2012

Nevado del Ruiz... Its Back

Volcano Name- Nevado del Ruiz
Volcano Type- strata volcano

location- colombia

  • The Colombian volcano Nevado del Ruiz is an active  stratovolcano with a history of generating deadly volcanic mudflows lahars- from relatively small-volume eruptions.
  • In 1595, a lahar swept down the valleys of the River Guali and the River Lagunillas, killing 636 people.
  •  In 1845, an immense lahar flooded the upper valley of the River Lagunillas, killing over 1000 people.
  • It continued for 70 kilometers downstream before spreading across a plain in the lower valley floor.
  • The young village of Armero was built directly on top of the 1845 mudflow deposit.
  •  Over the ensuing years, Armero grew into a vibrant town with over 27,000 residents.
  • On November 13, 1985, history repeated itself for the third time in 400 years, with another eruption and another deadly lahar racing down the River Lagunillas.
  •  This time, over 23,000 people were killed, including most of the residents of Armero. With proper planning, this tragedy could have been averted.
  • over the last week the volcano has rumbeld back into life as can be seen on the web-Cams on the BBC page : http://www.bbc.co.uk/programmes/p00tmqd6/features/webcams 
  • what could this mean for the people who live below the volcano?.. it remains to be seen... however hopefully due to the increase in knowlage of the volcano and increased monitoring the effects will be mitigated and the damages decreased!

Volcano Fact File; Niriagongo

Volcano name- Niriagongo
Volcano type- Strato Volcano

volcano location- DRC

• Mount Nyiragongo is a stratovolcano in the Virunga Mountains associated with the Albertine Rift.

• It is located inside Virunga National Park, in the Democratic Republic of the Congo, about 20 km north of the town of Goma and Lake Kivu and just west of the border with Rwanda.

The main crater is about two km wide and usually contains a lava lake. The crater presently has two distinct cooled lava benches within the crater walls - one at about 3175m (10,400 ft) and a lower one at about 2975 m (9800 ft).

Nyiragongo's lava lake has at times been the most voluminous known lava lake in recent history. The depth of the lava lake varies considerably.

A maximum elevation of the lava lake was recorded at about 3250 m (10,700 ft) prior to the January 1977 eruption - a lake depth of about 600 m (2000 ft).

• A recent very low elevation of the lava lake was recorded at about 2700 m (8800 ft).

Nyiragongo and nearby Nyamuragira are together responsible for 40% of Africa's historical eruptions

• Not much is known about how long the volcano has been erupting, but since 1882, it has erupted at least 34 times, including many periods where activity was continuous for years at a time, often in the form of a churning lava lake in the crater.

The volcano partly overlaps with two older volcanoes, Baratu and Shaheru, and is also surrounded by hundreds of small volcanic cinder cones from flank eruptions.

• Volcanism at Nyiragongo is caused by the rifting of the Earth's crust where two parts of the African Plate are breaking apart. A hot spot is probably also partly responsible for the great activity at Nyiragongo and Nyamuragira.

• The lava emitted in eruptions at Nyiragongo is often unusually fluid. Nyiragongo's lavas are made of melilite nephelinite, an alkali-rich type of volcanic rock whose unusual chemical composition may be a factor in the unusual fluidity of the lavas there. Whereas most lava flows move rather slowly and rarely pose a danger to human life,

• Nyiragongo's lava flows may race downhill at up to 60 miles per hour (up to 100 km/h). This is because of the extremely low silica content (the lava is mafic).

• Hawaiian volcanic eruptions are also characterised by lavas with low silica content, but the Hawaiian volcanoes are broad, shallow-sloped shield volcanoes in contrast to the steep-sided cone of Nyiragongo, and the silica content is high enough to slow most Hawaiian flows to walking pace.

• The lava lake activity continued through 2010. At present, the lake is mostly confined within a broad, steep-sided cinder cone on the crater floor, roughly 60 feet high by 600 feet wide.

Monday, 9 July 2012

Volcano Fact file


Volcano Name- Kilauea

Volcano Type- shield volcano


Location- Hawaii


• located in a crater 3,646 ft (1,111 m) deep.


• Kilauea can be found on the Big Island of Hawaii, on the southeastern slope of Mauna Loa, Hawaii Volcanoes National Park.


• Kilauea is one of largest active craters in the world, has a circumference of 8 mi (13 km) and is surrounded by a wall of volcanic rock 200 to 500 ft (61—152 m) high.

• Kilauea is also the youngest volcano in Hawaii. In its floor is Halemaumau, a fiery pit. The usual level of the lake of molten lava is c.740 ft (230 m) below the pit's rim. The oldest dated rock is about 23,000 years old and the oldest eruption of Kilauea was about 300,000-600,000 years ago.


Kilauea was formed under a hot spot under the crust. So were the other volcanoes on the Big Island such as Kohala, Mauna Kea, Mauna Loa, and Hualalai.


• There have been 34 eruptions since 1952 and 61 eruptions total. In early 1973, an earthquake occurred that caused Kilauea to stop erupting and instead erupt near the craters Pauahi and Hi'iaka.


Current eruption began January 3, 1983 and is called Pu'u'O'o.

Hawaii, nicknamed BIG ISLAND because of it's 8 major volcanoes, is currently 4038 square miles (approx. 6 500 square km ) and grows around 42 acres every year thanks to all of mount Kilauea's eruptions.


Mount Kilauea is one of 5 active volcanoes in Hawaii, others are Loihi, Mauna Loa, Hualalai and Haleakala.


• Mount Kilauea Volcano is home of Fire Goddess, Pele.

VOLCANOES!

Well inspired by this weeks BBC program Volcano Live... i am going to start profiling the various volcanoes mentioned on the program!