Friday, December 18, 2009

Nepal Geography:

Continent: Asia
Region: Southern Asia
Indian subcontinent
Coordinates: 33°00'N 80°00' E
Area: Ranked 93rd147,181 km2 (56,826.9 sq mi)
92.94% land
7.06 % water
Borders: Total land borders:2,926 km (?? miles)
China (PRC):1,236 km (?? miles)
India:1,690 km (1,050 miles)
Highest point: Mount Everest8,848 m (29,028 ft)
Longest river: Karnali
Largest lake: Rara Lake
Nepal measures about 800 kilometers along its himalayan axis by 150 to 250 kilometers across. With 147,181 square kilometers it slightly outranks Bangladesh or the state of Arkansas. Nepal is landlocked by India on three sides and China's Xizang Autonomous Region (Tibet) to the north. West Bengal's narrow Siliguri Corridor or Chicken's Neck separate Nepal and Bangladesh. To the east are Sikkim -- presently part of India -- and Bhutan. Nepal depends on India for transit facilities and access to the sea -- the Bay of Bengal -- even for most goods imported from China.
Geographic coordinates: 28°00′N 84°00′E / 28°N 84°E / 28; 84
The Land :
For a small country, Nepal has tremendous geographic diversity. It rises from less than 100 meters elevation in the tropical Terai -- the northern rim of the Gangetic Plain, beyond the perpetual snow line to some 90 peaks over 7,000 meters including Earth's highest 8,848 meter Mount Everest or Sagarmatha. In addition to the continuum from tropical warmth to cold comparable to polar regions, average annual precipitation varies from as little as 160mm in the rainshadow north of the Himalaya to as much as 5,500mm on windward slopes.
Along a south-to-north transect, Nepal can be divided into three belts: Terai, Hill and Mountain Regions. In the other direction it is divided into three major river systems, from east to west: Koshi, Gandaki/Narayani and Karnali (including the Mahakali/Sarda along the western border), all tributaries of the Ganges. The Ganges-Yarlung Zangbo/Brahmaputra watershed largely coincides with the Nepal-Tibet border, however several Ganges tributaries rise inside Tibet.
The Terai Region :
The Terai or Madhesh region begins at the Indian border and includes the northermost part of the flat, intensively farmed Gangetic Plain called the Outer Terai. This is culturally an extension of northern India with Hindi, Awadhi, Bhojpuri and Maithili spoken more than Nepali, however it was annexed to Nepal by conquest and by treaty with the British.
The Outer Terai ends at the first range of foothills called the Siwaliks or Churia. This range has a densely forested skirt of coarse alluvium called the bhabhar along its base. Below the bhabhar, finer, less permeable sediments force groundwater to the surface in a zone of springs and marshes. In Persian, terai refers to wet or marshy ground. Before the use of DDT it was dangerously infested with malaria. Nepal's rulers used it as a defensive frontier called the char kose jhadi (twelve kilometer forest).
Above the bhabhar belt, the Siwaliks rise to about 700 meters with peaks as high as 1,000 meters, steeper on their southern flanks because of faults known as the Main Frontal Thrust. This range is composed of poorly consolidated, coarse sediments that do not retain water or support soil development so there is virtually no agricultural potential. Hillside vegetation is limited to scrub forest and the area functions as a deserted buffer zone allowing the development of distinctive cultures in valleys and hills further north. In several places beyond the Siwaliks there are dun valleys called Inner Terai with productive soil. Among these are Dang and Deukhuri in western Nepal and the Rapti Valley (Chitwan) in central Nepal. Population in these valleys was historically limited by malaria and mainly limited to the Tharu ethnic group that had developed genetic resistance. Around 1960 DDT came into use to suppress mosquitos and the way was open to settlement from the land-poor hills to the detriment of Tharus.
The Terai ends and the Hills begin at a higher range of foothills called the Mahabharat Range.
The Hill Region :
Situated south of the Mountain Region, the Hill Region (Pahar in Nepali) is mostly between 700 and 4,000 meters altitude. This region begins at the Mahabharat Lekh (Lesser Himalaya) where a fault system called the Main Boundary Thrust creates an escarpment 1,000 to 1,500 meters high, to a crest between 1,500 and 2,700 meters. These steep southern slopes are nearly uninhabited, thus an effective buffer between languages and culture in the Terai and Hill regions. Northern slopes are gentler and moderately well populated.
North of this range, Nepali-speaking Hindus and Newar merchants who also speak Newari densely populate valleys suited to rice cultivation as high as 2,000 meters. The increasingly urbanized Kathmandu and Pokhara valleys fall within this region. Indigenous janajati ethnic groups -- natively speaking highly localized Tibeto-Burman languages and dialects -- populate hillsides up to about 3,000 meters. This group includes Magar and Kham Magar west of Pokhara, Gurung south of the Annapurnas, Tamang around the periphery of Kathmandu Valley and Rai and Limbu further east. Beyond microclimates suited to rice cultivation and proximity to water for irrigation, these cultivate maize, millet, barley and potatoes as staple crops. Temperate and subtropical fruits are grown as cash crops. Marijuana is grown and processed into Charas (hashish), but less than was produced before international pressure persuaded the government to outlaw it in the 1970s. There is increasing reliance on animal husbandry with elevation, using land above 3,000 meters for summer grazing and moving herds to lower elevations in winter. Outside the rice-growing lower valleys, hill populations suffer chronic food deficits. Many menfolk find employment in the Terai, in India or overseas to earn cash for imported grain. The Hill region ends dramatically where the main Himalayan Range abruptly rises thousands of meters.
The Mountain Region :
Perspective view of the Himalaya and Mount Everest as seen from space looking south-south-east from over the Tibetan Plateau. (annotated version)
The Mountain Region or Parbat abruptly rises into the zone of perpetual snow along the Main Central Thust fault zone. South of this fault system, "hills" do not greatly exceed treeline at about 3,500 meters. North of it the Himalayas rise as a virtual wall beyond the snowline at 5,000 to 5,500 meters to some 90 peaks over 7,000 meters (22,965') and eight exceeding 8,000 meters (26,246') including Mount Everest at 8,848 meters and Kanchenjunga at 8,598 meters. Unlike the Mahabharats, the Himalaya are not continuous across Nepal. Instead there are some 20 subranges including the Kanchenjunga massif, Kumbu around Mt. Everest. Langtang north of Kathmandu, Annapurna north of Pokhara and Dhaulagiri further west, then Kanjiroba north of Jumla.
Alpine, often semi-arid valleys -- including Humla, Jumla, Dolpo, Mustang, Manang and Khumbu-- cut between himalayan subranges or lie north of them. They are lightly populated by people with Tibetan affinities called Bhotiya or Bhutia including the famous Sherpas in Kumbu valley near Mount Everest. Permanent villages are found as high as 4,500 meters with summer encampments even higher. These peoples traditionally grazed yaks, grew cold-tolerant crops such as potatoes, barley and millet, and traded across the mountains, e.g. Tibetan salt for rice from lowlands in Nepal and India. Since the 1950s they have also found work as high altitude porters, guides, cooks and other accessories to tourism and alpinism.
Bhutiya language and culture extend north into Tibet proper, wih the international border following the Himalayan crest in eastern Nepal. In central and western Nepal the border mostly follows the watershed between the Ganges and Yarlung Zangbo (Brahmaputra) basins along (~6,000 meter) ranges tens of kilometers north of the highest peaks
Climate :
Nepal has tremendous variation in climate. Its latitude is about the same as that of Florida so Terai land up to 500 meters has a fully tropical climate, with a subtropical zone extending up to 1,200 meters which is the lower limit of frost in winter. Warm temperate climates prevail from 1,200 up to 2,400 meters where snow occasionally falls. Then there is a cold zone to 3,600 meters (treeline), a subarctic or alpine zone to 4,400 meters and fully arctic climate above that. Precipitation generally decreases from east to west with increasing distance from the Bay of Bengal, source of the summer monsoon. Eastern Nepal gets about 2,500mm annually; the Kathmandu area about 1,400mm and western Nepal about 1,000mm. This pattern is modified by adabiatic effects as rising air masses cool and drop their moisture content on windward slopes, then warm up as they descend so relative humidity drops. Annual precipitation reaches 5,500mm on windward slopes in the Annapurna Himalaya beyond a relatively low stretch of the Mahabharat Range. In rainshadows beyond the high mountains, annual precipitation drops as low as 160mm, creating a cold semi-desert.
Furthermore the year is divided into a wet season from June to September -- as summer warmth over Inner Asia creates a low pressure zone that draws in air from the Indian Ocean -- and a dry season from October to June as cold temperatures in the vast interior creates a high pressure zone causing dry air to flow outward. April and May are months of intense water stress when cumulative effects of the long dry season are exacerbated by temperatures rising over 40 celsius (100 fahrenheit). Seasonal drought intensifies in the Siwaliks hills consisting of poorly-consolidated, coarse, highly permeable sediments that do not retain water, so hillsides are covered with tropical scrub forest that is extremely drought-tolerant. In fact outside marsh and riparian zones, most of Nepal's native vegetation is adapted to withstand drought, although less so at higher elevations where cooler temperatures mean less water stress.
The monsoon is preceeded by a buildup of thunderstorm activity in the hills that helps farmers irrigate rice seedbeds. Sustained rain on average arrives in early June as rising temperatures over Inner Asia creates a low pressure zone that draws in air from the Indian Ocean, but this can vary up to a month. Significant failure of monsoon rains historically meant drought and famine while above-normal rains still cause flooding and landslides with losses in human lives, farmland and buildings. The monsoon also complicates transportation with roads and trails washing out while unpaved roads and airstrips may become unusable and cloud cover reduces safety margins for aviation. Rains diminish in September and generally end by mid-October, ushering in generally cool, clear, and dry weather, as well as the most relaxed and jovial period in Nepal. By this time, the harvest is completed and people are in a festive mood. The two biggest and most important Hindu festivals-- Dashain and Tihar (Dipawali)--arrive during this period, about one month apart. The postmonsoon season lasts until about December.
After the postmonsoon comes the winter monsoon, a strong northeasterly flow marked by occasional, short rainfalls in the lowlands and plains and snowfalls in the high-altitude areas. Precipitation varies from year to year but increases markedly with elevation. Adequate snowfall in the Himalaya is important for sufficient spring and summer meltwater for irrigation in the lower hills and valleys. At lower elevations, winter rainfall is needed for the success of winter crops such as wheat, barley and vegetables. In this season the Himalaya function as a barrier to cold air masses from Inner Asia, so southern Nepal and northern India have warmer winters than would otherwise be the case. April and May are dry and hot, especially below 1,200 meters where afternoon temperatures may exceed 40 celsius.
River system :
Nepal has three categories of rivers. The largest river systems -- from east to west Koshi, Gandaki/Narayani, Karnali/Goghra and Mahakali -- originate in or beyond the high Himalaya and maintain substantial flows from glacial melt through the hot, droughty spring before the summer monsoon. These largest rivers cross the mountains in deep gorges before emerging onto the plains where they have deposited megafans exceeding 10,000 square kilometers' area.
the Koshi is also called Sapta Koshi for its seven Himalayan tributaries: Indrawati, Bhote Koshi, Tama Koshi, Dudh Koshi, Liku, Arun, and Tamor. The Arun rises about 150 kilometers inside Tibet.
The Gandaki/Narayani also has seven Himalayan tributaries: Daraudi, Seti Gandaki, Madi, Kali, Marsyandi, Budhi, and Trisuli also called Sapta Gandaki. The Kali Gandaki flows between the 8,000 meter Dhaulagiri and Annapurna ranges in the world's deepest valley. After the seven upper tributaries have joined, the river becomes the Narayani inside Nepal, however it is called the Gandak in India.
The Karnali drains western Nepal, with the Bheri and Seti as major tributaries. The upper Karnali rises inside Tibet near sacred Lake Manasarovar and Mount Kailash. The area around these features is the hydrographic nexus of South Asia by containing the sources of the Indus, Sutlej, Ganges tributary Karnali and Yarlung Zangbo/Brahmaputra. It is the center of the universe according to traditional cosmography. The Mahakali or Kali along the Nepal-India border on the west joins the Karnali in India, where the river is known as Goghra or Ghaghara.
Second category rivers rise in the Middle Hills and Mahabharat Range, from east to west the Mechi, Kankai and Kamala south of the Kosi; the Bagmati that drains Kathmandu Valley between the Kosi and Gandaki systems, then the West Rapti and the Babai between the Gandaki and Karnali systems. Without glacial sources, annual flow regimes are more variable although limited flow persists through the dry season.
Third category rivers rise in the outermost Siwalik foothills and are mostly seasonal.
None of these river systems support significant commercial navigation. Instead, deep gorges create obstacles to establishing transport and communication networks and de-fragmenting the economy. Foot-trails are still primary transportation routes in many hill districts.
River Management :
All three categories are capable of causing serious floods, for example the West Rapti in the second category is called Gorakhpur's Sorrow for its history of urban flooding. Koshi River in the first category caused a major flood in August 2008 in Bihar state, India after breaking through a poorly-maintained embankment just inside Nepal.
Since uplift and erosion are more or less in equilibrium in the Himalaya, rapid uplift is balanced by annual increments of cubic kilometers of sediments washing down from the mountains, then on the plains settling out of suspension on vast alluvial fans or inland deltas over which rivers meander and change course at least every few decades, causing some experts to question whether manmade embankments can contain the problem of flooding. Traditional Mithila culture along the lower Koshi in Nepal and Bihar celebrated the river as the giver of life for its fertile alluvial soil, yet also the taker of life through its catastrophic floods.
Another approach would be to build large dams -- in gorges crossing the Mahabharat Range or further upstream -- with storage capacities measured in cubic kilometers to capture high flows during the monsoon when there is usually enough rainfall on the plains if not flooding, then releasing water for hydroelectric generation and irrigation especially during the hot and dry pre-monsoon "summer". Nepal would appear to have unusual potential given its average annual 150 cm. of precipitation and thousands of meters of relief between mountains and plains, but there has only been limited development of this potential for example on the Kali Gandaki north of Tansen.
Building dams in Nepal is controversial for several reasons. First, the region is seismically active. Dam failures caused by earthquakes could cause tremendous death and destruction downstream, particularly on the densely populated Gangetic Plain. Second, global warming has led to the formation of glacial lakes dammed by unstable moraines. Sudden failures of these moraines could lead to cascading failures of manmade structures downstream. Third, sedimentation rates in the Himalaya are extremely high, leading to rapid loss of storage capacity as sediments accumulate behind dams. Fourth, there are complicated questions of cross-border equity in how India and Nepal would share costs and benefits that have proven difficult to resolve in the context of frequent acrimony between the two countries.
Area and boundaries :
Area
· Total: 147,181 km²
· Land: 143,181 km²
· Water: 4,000 km²
Area - comparative
Roughly 1⅔ Tasmania's size
Roughly twice New Brunswick's size
Slightly less than twice Scotland's size
Slightly larger than Arkansas
Land boundaries
· Total: 2,926 km
· Border countries: China 1,236 km, India 1,690 km
Coastline
0 km (landlocked)
Maritime claims
None (landlocked)
Elevation extremes
· Lowest point: Kanchan Kalan 70 m
· Highest point: Sagarmatha (Mount Everest) 8,848 m
Resources and land use
Natural resources
Quartz, water, timber, hydropower, scenic beauty, small deposits of lignite, copper, cobalt, iron ore
Land use
· Arable land: 21.68%
· Permanent crops: 0.64%
· Other: 77.68% (2001)
Irrigated land
11,350 km² (1998 est.)
Forests :
25.4% of Nepal's land area, or about 36,360 km² (14,039 mi²) is covered with forest according to FAO figures from 2005. FAO estimates that around 9.6% of Nepal's forest cover consists of primary forest which is relatively intact. About 12.1% Nepal's forest is classified as protected while about 21.4% is conserved according to FAO. About 5.1% Nepal's forests are classified as production forest. Between 2000-2005, Nepal lost about 2640 km² of forest. Nepal's 2000-2005 total deforestation rate was about 1.4% per year meaning it lost an average of 530 km² of forest annually. Nepal's total deforestation rate from 1990-2000 was 920 km² or 2.1% per year. The 2000-2005 true deforestation rate in Nepal, defined as the loss of primary forest, is -0.4% or 70 km² per year.
Deforestation is driven by multiple processes. In the hills, conversion of forests to agricultural land -- even on steep hillsides via terracing -- is historically important, but has lessened in recent decades due to a shortage of remaining suitable terrain in the hills while mosquito suppression having opened formerly malarial land for settlement in the Terai. As a result, forest land in the Terai is being cleared by settlers.
In the hills, greater contemporary impacts involve degradation of forests rather than outright clearing. Degradation is caused by harvesting firewood, and to a lesser extent wood for traditional architecture. These harvests are often carried to unsustainable levels. Trees are also severely damaged by intensive harvesting of leaves as fodder, especially in the driest months preceeding the summer monsoon. Households typically keep at least one cow or buffalo for milk production and may also keep oxen for agricultural labor. In addition goats are herded as the main source of meat that is culturally acceptable to upper-caste Hindus.