The Ultimate Secrets Of Himalayas, Here’s the Juicy Details
Himalayas, Nepali Himalaya, great mountain system of Asia forming a barrier between the Plateau of Tibet to the north and the alluvial plains of the Indian subcontinent to the south...
Himalayas, Nepali Himalaya, great mountain system of Asia forming a barrier between the Plateau of Tibet to the north and the alluvial plains of the Indian subcontinent to the south. The Himalayas include the highest mountains in the world, with more than 110 peaks rising to elevations of 24,000 feet (7,300 meters) or more above sea level. One of those peaks is Mount Everest (Tibetan: Chomolungma; Chinese: Qomolangma Feng; Nepali: Sagarmatha), the world’s highest, with an elevation of 29,032 feet (8,849 meters; see Researcher’s Note: Height of Mount Everest. The mountains’ high peaks rise into the zone of perpetual snow.
For thousands of years, the Himalayas have held a profound significance for the peoples of South Asia, as their literature, mythologies, and religions reflect. Since ancient times the vast glaciated heights have attracted the attention of the pilgrim mountaineers of India, who coined the Sanskrit name Himalaya—from hima (“snow”) and Alaya (“abode”)—for that great mountain system. In contemporary times the Himalayas have offered the greatest attraction and the greatest challenge to mountaineers throughout the world.
The ranges, which form the northern border of the Indian subcontinent and an almost impassable barrier between it and the lands to the north, are part of a vast mountain belt that stretches halfway around the world from North Africa to the Pacific Ocean coast of Southeast Asia. The Himalayas themselves stretch uninterruptedly for about 1,550 miles (2,500 km) from west to east between Nanga Parbat (26,660 feet [8,126 meters]), in the Pakistani-administered portion of the Kashmir region, and Namjagbarwa (Namcha Barwa) Peak (25,445 feet [7,756 meters]), in the Tibet Autonomous Region of China. Between those, western and eastern extremities lie the two Himalayan countries of Nepal and Bhutan. The Himalayas are bordered to the northwest by the mountain ranges of the Hindu Kush and the Karakoram and to the north by the high and vast Plateau of Tibet. The width of the Himalayas from south to north varies between 125 and 250 miles (200 and 400 km). Their total area amounts to about 230,000 square miles (595,000 square km).
Physical features
The most characteristic features of the Himalayas are their soaring heights, steep-sided jagged peaks, valley, and alpine glaciers often of stupendous size, topography deeply cut by erosion, seemingly unfathomable river gorges, complex geologic structure, and series of elevational belts (or zones) that display different ecological associations of flora, fauna, and climate. Viewed from the south, the Himalayas appear as a gigantic crescent with the main axis rising above the snow line, where snowfields, alpine glaciers, and avalanches all feed lower-valley glaciers that in turn constitute the sources of most of the Himalayan rivers. The greater part of the Himalayas, however, lies below the snow line. The mountain-building process that created the range is still active. As the bedrock is lifted, considerable stream erosion and gigantic landslides occur.
Geologic history
Over the past 65 million years, powerful global plate-tectonic forces have moved Earth’s crust to form the band of Eurasian mountain ranges—including the Himalayas—that stretch from the Alps to the mountains of Southeast Asia.
Finally, some 20 million years ago, during the early Miocene Epoch, the tempo of the crunching union between the two plates increased sharply, and Himalayan mountain building began in earnest. As the Indian subcontinental plate continued to plunge beneath the former Tethys trench, the topmost layers of old Gondwana metamorphic rocks peeled back over themselves for a long horizontal distance to the south, forming nappes. Wave after wave of nappes thrust southward over the Indian landmass for as far as 60 miles (about 100 km). Each new nappe consisted of Gondwana rocks older than the last. In time those nappes became folded, contracting the former trench by some 250 to 500 horizontal miles (400 to 800 km). All the while, downcutting rivers matched the rate of uplift, carrying vast amounts of eroded material from the rising Himalayas to the plains where it was dumped by the Indus, Ganges, and Brahmaputra rivers. The weight of that sediment created depressions, which in turn could hold more sediment. In some places, the alluvium beneath the Indo-Gangetic Plain now exceeds 25,000 feet (7,600 meters) in depth.
Probably only within the past 600,000 years, during the Pleistocene Epoch (roughly 2,600,000 to 11,700 years ago), did the Himalayas become the highest mountains on Earth. If strong horizontal thrusting characterized the Miocene and the succeeding Pliocene Epoch (about 23 to 2.6 million years ago), intense uplift epitomized the Pleistocene. Along the core zone of the northernmost nappes—and just beyond—crystalline rocks containing new gneiss and granite intrusions emerged to produce the staggering crests seen today. On a few peaks, such as Mount Everest, the crystalline rocks carried old fossil-bearing Tethys sediments from the north piggyback to the summits.
Once the Great Himalayas had risen high enough, they became a climatic barrier: the marginal mountains to the north were deprived of rain and became as parched as the Plateau of Tibet. In contrast, on the wet southern flanks, the rivers surged with such erosive energy that they forced the crest line to migrate slowly northward. Simultaneously, the great transverse rivers breaching the Himalayas continued their downcutting in pace with the uplift. Changes in the landscape, however, compelled all but those major rivers to reroute their lower courses because, as the northern crests rose, so also did the southern edge of the extensive nappes. The formations of the Siwalik Series were overthrust and folded, and in between the Lesser Himalayas downward to shape the midlands. Now barred from flowing due south, most minor rivers ran east or west through structural weaknesses in the midlands until they could break through the new southern barrier or join a major torrent.
In some valleys, such as the Vale of Kashmir and the Kathmandu Valley of Nepal, lakes formed temporarily and then filled with Pleistocene deposits. After drying up some 200,000 years ago, the Kathmandu Valley rose at least 650 feet (200 meters), an indication of localized uplift within the Lesser Himalayas.
The Outer Himalayas comprise flat-floored structural valleys and the Siwalik Range, which borders the Himalayan mountain system to the south. Except for small gaps in the east, the Siwaliks run for the entire length of the Himalayas, with a maximum width of 62 miles (100 km) in the northern Indian state of Himachal Pradesh. In general, the 900-foot (275-metre) elevation contour line marks their southern boundary; they rise an additional 2,500 feet (760 meters) to the north. The main Siwalik Range has steeper southern slopes facing the Indian plains and descends gently northward to flat-floored basins, called duns. The best-known of those is the Dehra Dun, in southern Uttarakhand state, just north of the border with northwestern Uttar Pradesh state.
The backbone of the entire mountain system is the Great Himalaya Range, rising into the zone of perpetual snow. The range reaches its maximum height in Nepal; among its peaks are 10 of the 13 highest in the world, each of which exceeds 26,250 feet (8,000 meters) in elevation. From west to east those peaks are Nanga Parbat, Dhaulagiri 1, Annapurna 1, Manaslu 1, Xixabangma (Gosainthan), Cho Oyu, Mount Everest, Lhotse, Makalu 1, and Kanchenjunga 1.
The Himalayas are drained by 19 major rivers, of which the Indus and the Brahmaputra are the largest, each having catchment basins in the mountains of about 100,000 square miles (260,000 square km) in extent. Five of the 19 rivers, with a total catchment area of about 51,000 square miles (132,000 square km), belong to the Indus system—the Jhelum, the Chenab, the Ravi, the Beas, and the Sutlej—and collectively define the vast region divided between Punjab state in India and Punjab province in Pakistan. Of the remaining rivers, nine belong to the Ganges system—the Ganges, Yamuna, Ramganga, Kali (Kali Gandak), Karnali, Rapti, Gandak, Bagmati, and Kosi rivers—draining roughly 84,000 square miles (218,000 square km) in the mountains, and three belong to the Brahmaputra system—the Tista, the Raidak, and the Manas—draining another 71,000 square miles (184,000 square km) in the Himalayas.
The major Himalayan rivers rise north of the mountain ranges and flow through deep gorges that generally reflect some geologic structural control, such as a fault line. The rivers of the Indus system as a rule follow northwesterly courses, whereas those of the Ganges-Brahmaputra systems generally take easterly courses while flowing through the mountain region. To the north of India, the Karakoram Range, with the Hindu Kush range on the west and the Ladakh Range on the east, forms the great water divide, shutting off the Indus system from the rivers of Central Asia. The counterpart of that divide on the east is formed by the Kailas Range and its eastward continuation, the Nyainqêntanglha (Nyenchen Tangla) Mountains, which prevent the Brahmaputra from draining the area to the north. South of that divide, the Brahmaputra flows to the east for about 900 miles (1,450 km) before cutting across the Great Himalaya Range in a deep transverse gorge, although many of its Tibetan tributaries flow in an opposite direction, as the Brahmaputra may once have done.
The Great Himalayas, which normally would form the main water divide throughout their entire length, function as such only in limited areas. That situation exists because the major Himalayan rivers, such as the Indus, the Brahmaputra, the Sutlej, and at least two headwaters of the Ganges—the Alaknanda and the Bhagirathi—are probably older than the mountains they traverse. It is believed that the Himalayas were uplifted so slowly that the old rivers had no difficulty in continuing to flow through their channels and, with the rise of the Himalayas, acquired an even greater momentum, which enabled them to cut their valleys more rapidly. The elevation of the Himalayas and the deepening of the valleys thus proceeded simultaneously. As a result, the mountain ranges emerged with a completely developed river system cut into deep transverse gorges that range in depth from 5,000 to 16,000 feet (1,500 to 5,000 meters) and in width from 6 to 30 miles (10 to 50 km). The earlier origin of the drainage system explains the peculiarity that the major rivers drain not only the southern slopes of the Great Himalayas but, to a large extent, its northern slopes as well, the water divide being north of the crest line.
Soils
The north-facing slopes generally have a fairly thick soil cover, supporting dense forests at lower elevations and grasses higher up. The forest soils are dark brown in color and silt loam in texture; they are ideally suited for growing fruit trees. The mountain meadow soils are well developed but vary in thickness and in their chemical properties. Some of the wet deep upland soils of that type in the eastern Himalayas—for example, in the Darjiling (Darjeeling) Hills, and in the Assam valley—have a high humus content that is good for growing tea. Podzolic soils (infertile acidic forest soils) occur in a belt some 400 miles (640 km) long in the valleys of the Indus and its tributary the Shyok River, to the north of the Great Himalaya Range, and in patches in Himachal Pradesh. Farther east, saline soils occur in the dry high plains of the Ladakh region. Of the soils that are not restricted to any particular area, alluvial soils (deposited by running water) are the most productive, though they occur in limited areas, such as the Vale of Kashmir, the Dehra Dun, and the high terraces flanking the Himalayan valleys. Lithosols, consisting of imperfectly weathered rock fragments that are deficient in humus content, cover many large areas at high elevations and are the least-productive soils.
The climate of the Himalayas
The Himalayas, as a great climatic divide affecting large systems of air and water circulation, help determine meteorological conditions in the Indian subcontinent to the south and in the Central Asian highlands to the north. By virtue of its location and stupendous height, the Great Himalaya Range obstructs the passage of cold continental air from the north into India in winter and also forces the southwesterly monsoon (rain-bearing) winds to give up most of their moisture before crossing the range northward. The result is heavy precipitation (both rain and snow) on the Indian side but arid conditions in Tibet. The average annual rainfall on the south slopes varies between 60 inches (1,530 mm) at Shimla, Himachal Pradesh, and Mussoorie, Uttarakhand, in the western Himalayas and 120 inches (3,050 mm) at Darjiling, West Bengal state, in the eastern Himalayas. North of the Great Himalayas, at places such as Skardu, Gilgit, and Leh in the Ladakh portion of the Indus valley, only 3 to 6 inches (75 to 150 mm) of precipitation occur.
Local relief and location determine climatic variation not only in different parts of the Himalayas but even on different slopes of the same range. Because of its favorable location on top of the Mussoorie Range facing the Dehra Dun, the town of Mussoorie, for example, at an elevation of about 6,100 feet (1,900 meters), receives 92 inches (2,335 mm) of precipitation annually, compared with 62 inches (1,575 mm) in the town of Shimla, which lies some 90 miles (145 km) to the northwest behind a series of ridges reaching 6,600 feet (2,000 meters). The eastern Himalayas, which are at a lower latitude than the western Himalayas, is relatively warmer. The average minimum temperature for the month of May, recorded in Darjiling at an elevation of 6,380 feet (1,945 meters), is 52 °F (11 °C). In the same month, at an elevation of 16,500 feet (5,000 meters) in the neighborhood of Mount Everest, the minimum temperature is about 17 °F (−8 °C); at 19,500 feet (6,000 meters) it falls to −8 °F (−22 °C), the lowest minimum having been −21 °F (−29 °C); during the day, in areas sheltered from strong winds that often blow at more than 100 miles (160 km) per hour, the sun is often pleasantly warm, even at high elevations.
There are two periods of precipitation: the moderate amounts brought by winter storms and the heavier precipitation of summer, with its southwesterly monsoon winds. During winter, low-pressure weather systems advance into the Himalayas from the west and cause heavy snowfall. Within the regions where western disturbances are felt, condensation occurs in upper air levels, and, as a result, precipitation is much greater over the high mountains. During that season snow accumulates around the Himalayan high peaks, and precipitation is greater in the west than in the east. In January, for example, Mussoorie in the west receives almost 3 inches (75 mm), whereas Darjiling to the east receives less than 1 inch (25 mm). By the end of May, the meteorological conditions have reversed. Southwesterly monsoon currents channel moist air toward the eastern Himalayas, where the moisture rising over the steep terrain cools and condenses to fall as rain or snow; in June, therefore, Darjiling receives about 24 inches (600 mm) and Mussoorie less than 8 inches (200 mm). The rain and snow cease in September, after which the finest weather in the Himalayas prevails until the beginning of winter in December.
Plantlife
Himalayan vegetation can be broadly classified into four types—tropical, subtropical, temperate, and alpine—each of which prevails in a zone determined mainly by elevation and precipitation. Local differences in relief and climate, as well as exposure to sunlight and wind, cause considerable variation in the species present within each zone. The tropical evergreen rainforest is confined to the humid foothills of the eastern and central Himalayas. The evergreen dipterocarps—a group of timber- and resin-producing trees—are common; their different species grow on different soils and on hill slopes of varying steepness. Ceylon ironwood (Mesua ferrea) is found on porous soils at elevations between 600 and 2,400 feet (180 and 720 meters); bamboos grow on steep slopes; oaks (genus Quercus) and Indian horse chestnuts (Aesculus indica) grow on the lithosol (shallow soils consisting of imperfectly weathered rock fragments), covering sandstones from Arunachal Pradesh westward to central Nepal at elevations from 3,600 to 5,700 feet (1,100 to 1,700 meters). Alder trees (genus Alnus) are found along the watercourses on the steeper slopes. At higher elevations, those species give way to mountain forests in which the typical evergreen is the Himalayan screw pine (Pandanus furcatus). Besides those trees, some 4,000 species of flowering plants, of which 20 are palms, are estimated to occur in the eastern Himalayas.
With decreasing precipitation and increasing elevation westward, the rainforests give way to tropical deciduous forests, where the valuable timber tree sal (Shorea robusta) is the dominant species. Wet sal forests thrive on high plateaus at elevations of about 3,000 feet (900 meters), while dry sal forests prevail higher up, at 4,500 feet (1,400 meters). Farther west, steppe forest (i.e., the expanse of grassland dotted with trees), steppe, subtropical thorn steppe, and subtropical semidesert vegetation occur successively. Temperate mixed forests extend from about 4,500 to roughly 11,000 feet (1,400 to 3,400 meters) and contain conifers and broad-leaved temperate trees. Evergreen forests of oaks and conifers have their westernmost outpost on the hills above Murree, some 30 miles (50 km) northwest of Rawalpindi, in Pakistan; those forests are typical of the Lesser Himalayas, being conspicuous on the outer slopes of the Pir Panjal, in Jammu and Kashmir union territory. Chir pine (Pinus roxburghii) is the dominant species at elevations from 2,700 to 5,400 feet (800 to 1,600 meters). In the inner valleys that species may occur even up to 6,300 feet (1,900 meters). Deodar cedar (Cedrus deodara), a highly valued endemic species, grows mainly in the western part of the range. Stands of that species occur between 6,300 and 9,000 feet (1,900 and 2,700 meters) and tend to grow at still higher elevations in the upper valleys of the Sutlej and Ganges rivers. Of the other conifers, blue pine (Pinus wallichiana) and morinda spruce (Picea smithiana) first appear between about 7,300 and 10,000 feet (2,200 and 3,000 meters).
The alpine zone begins above the tree line, between elevations of 10,500 and 11,700 feet (3,200 and 3,600 meters), and extends up to about 13,700 feet (4,200 meters) in the western Himalayas and 14,600 feet (4,500 meters) in the eastern Himalayas. In that zone can be found all the wet and moist alpine vegetation. Juniper (genus Juniperus) is widespread, especially on sunny sites, steep and rocky slopes, and drier areas. Rhododendron occurs everywhere but is more abundant in the wetter parts of the eastern Himalayas, where it grows in all sizes from trees to low shrubs. Mosses and lichens grow in shaded areas at lower levels in the alpine zone where the humidity is high; flowering plants are found at high elevations.
Animal life
The fauna of the eastern Himalayas is similar to that of the southern Chinese and Southeast Asian regions. Many of those species are primarily found in tropical forests and are only secondarily adapted to the subtropical, mountain, and temperate conditions prevailing at higher elevations and in the drier western areas. The animal life of the western Himalayas, however, has more affinities with that of the Mediterranean, Ethiopian, and Turkmenian regions. The past presence in the region of some African animals, such as giraffes and the hippopotamuses, can be inferred from fossil remains in deposits found in the Siwalik Range. The animal life at elevations above the tree line consists almost exclusively of cold-tolerant endemic species that evolved from the wildlife of the steppes after the uplift of the Himalayas. Elephants and rhinoceroses are restricted to parts of the forested Tarai region—moist or marshy areas, now largely drained—at the base of the low hills in southern Nepal. Asiatic black bears, clouded leopards, langurs (a long-tailed Asian monkey), and Himalayan goat antelopes (e.g., the tahr) are some of the denizens of the Himalayan forests. The Indian rhinoceros was once abundant throughout the foothill zone of the Himalayas but is now endangered, as is the musk deer; both species are dwindling, and few live, other than those in a handful of reserves set up to protect them. The Kashmir stag, or hangul, is near extinction.
In remote sections of the Himalayas, at higher elevations, snow leopards, brown bears, lesser pandas, and Tibetan yaks have limited populations. The yak has been domesticated and is used as a beast of burden in Ladakh. Above the tree line the most numerous animals, however, are diverse types of insects, spiders, and mites, which are the only animal forms that can live as high up as 20,700 feet (6,300 meters).
Fish of the genus Glyptothorax live in most of the Himalayan streams, and the Himalayan water shrew inhabits stream banks. Lizards of the genus Japalura are widely distributed. Typhlops, a genus of blind snake, is common in the eastern Himalayas. The butterflies of the Himalayas are extremely varied and beautiful, especially those in the genus Troides.
Birdlife in the Himalayas is equally rich but is more abundant in the east than in the west. In Nepal alone, almost 800 species have been observed. Among some of the common Himalayan birds are different species of magpies (including the black-rumped, the blue, and the racket-tailed), titmice, choughs (related to the jackdaw), whistling thrushes, and redstarts. A few strong fliers, such as the lammergeier (bearded vulture), the black-eared kite, and the Himalayan griffon (an Old World vulture), also can be seen. Snow partridges and Cornish choughs are found at elevations of 18,600 feet (5,700 meters).
People of the Himalayas
Of the four principal language families in the Indian subcontinent—Indo-European, Tibeto-Burman, Austroasiatic, and Dravidian—the first two are well represented in the Himalayas. In ancient times, people speaking languages from both families mixed in varying proportions in different areas. Their distribution is the result of a long history of penetrations by Central Asian and Iranian groups from the west, Indian peoples from the south, and Asian peoples from the east and north. In Nepal, which constitutes the middle third of the Himalayas, those groups overlapped and intermingled. The penetrations of the lower Himalayas were instrumental to the migrations into and through the river-plain passageways of South Asia.
Generally speaking, the Great Himalayas and the Tethys Himalayas are inhabited by Tibetans and peoples speaking other Tibeto-Burman languages, while the Lesser Himalayas are the home of Indo-European language speakers. Among the latter are the Kashmiri people of the Vale of Kashmir and the Gaddi and Gujari, who live in the hilly areas of the Lesser Himalayas. Traditionally, the Gaddi are a hill people; they possess large flocks of sheep and herds of goats and go down with them from their snowy abode in the Outer Himalayas only in winter, returning again to the highest pastures in June. The Gujari is traditionally a migrating pastoral people who live off their herds of sheep, goats, and a few cattle, for which they seek pasture at various elevations.
The Champa, Ladakhi, Balti, and Dard peoples live to the north of the Great Himalaya Range in the Kashmir Himalayas. The Dard speak Indo-European languages, while the others are Tibeto-Burman speakers. The Champa traditionally lead a nomadic pastoral life in the upper Indus valley. The Ladakhi have settled on terraces and alluvial fans that flank the Indus in the northeastern Kashmir region. The Balti have spread farther down the Indus valley and have adopted Islam.
Other Indo-European speakers are the Kanet in Himachal Pradesh and the Khasi in Uttarakhand. In Himachal Pradesh, most people in the districts of Kalpa and Lahul-Spiti are the descendants of migrants from Tibet who speak the Tibeto-Burman languages.
In Nepal the Pahari, speaking Indo-European languages, constitute the majority of the population, although large groups of Tibeto-Burman speakers are found throughout the country. They include the Newar, the Tamang, the Gurung, the Magar, the Sherpa, and other peoples related to the Bhutia, and the Kirat. The Kirat were the earliest inhabitants of the Kathmandu Valley. The Newar is also one of the earliest groups in Nepal. The Tamang inhabit the high valleys to the northwest, north, and east of Kathmandu Valley. The Gurung live on the southern slopes of the Annapurna massif, pasturing their cattle as high as 12,000 feet (3,700 meters). The Magar inhabit western Nepal but migrate seasonally to other parts of the country. The Sherpa, who live to the south of Mount Everest, is famed mountaineers.
For some 200 years, the Sikkim region (now a state in India) and the kingdom of Bhutan have been safety valves for the absorption of the excess population of eastern Nepal. More Sherpa now live in the Darjiling area than in the Mount Everest homeland. At present, the Pahari constitute the majority who come from Nepal in both Sikkim and Bhutan. Thus, the people of Sikkim belong to three distinct ethnic groups—the Lepcha, the Bhutia, and the Pahari. Generally speaking, the Nepalese and the Lepcha live in western Bhutan and the Bhutia of Tibetan origin in eastern Bhutan.
Arunachal Pradesh is the homeland of several groups—the Abor or Adi, the Aka, the Apa Tani, the Dafla, the Khampti, the Kiowa, the Mishmi, the Momba, the Miri, and the Singpho. Linguistically, they are Tibeto-Burman. Each group has its homeland in a distinct river valley, and all practice shifting cultivation (i.e., they grow crops on a different tract of land each year).
The economy of the Himalayas
Resources
Economic conditions in the Himalayas partly depend on the limited resources available in different parts of that vast region of varied ecological zones. The principal activity is animal husbandry, but forestry, trade, and tourism are also important. The Himalayas abound in economic resources. These include pockets of rich arable land, extensive grasslands and forests, workable mineral deposits, easy-to-harness waterpower, and great natural beauty. The most productive arable lands in the western Himalayas are in the Vale of Kashmir, the Kangra valley, the Sutlej River basin, and the terraces flanking the Ganges and Yamuna rivers in Uttarakhand; those areas produce rice, corn (maize), wheat, and millet. In the central Himalayas in Nepal, two-thirds of the arable land is in the foothills and on the adjacent plains; that land yields most of the total rice production of the country. The region also produces large crops of corn, wheat, potatoes, and sugarcane.
Most of the fruit orchards of the Himalayas lie in the Vale of Kashmir and in the Kullu valley of Himachal Pradesh. Fruits such as apples, peaches, pears, and cherries—for which there is a great demand in the cities of India—are grown extensively. On the shores of Dal Lake in Kashmir, there are rich vineyards that produce grapes used to make wine and brandy. On the hills surrounding the Vale of Kashmir grow walnut and almond trees. Bhutan also has fruit orchards and exports oranges to India.
Tea is grown in plantations mainly on the hills and on the plain at the foot of the mountains in the Darjiling district. Plantations also produce limited amounts of tea in the Kangra valley. Plantations of the spice cardamom are to be found in Sikkim, Bhutan, and the Darjiling Hills. Medicinal herbs are grown on plantations in areas of Uttarakhand.
Transhumance (the seasonal migration of livestock) is widely practiced in Himalayan pastures. Sheep, goats, and yaks are raised on the rough grazing lands available. During summer they graze on the pastures at higher elevations, but when the weather turns cold, shepherds migrate with their flocks to lower elevations.
The explosive population growth that has occurred in the Himalayas and elsewhere in the Indian subcontinent since the 1940s has placed great stress on the forests in many areas. Deforestation to clear land for planting and to supply firewood, paper, and construction materials has progressed up steeper and higher slopes of the Lesser Himalayas, triggering environmental degradation. Only in Sikkim and Bhutan are large areas still heavily forested.
The Himalayas are rich in minerals, although exploitation is restricted to the more accessible areas. The Kashmir region has the greatest concentration of minerals. Sapphires are found in the Zaskar Range, and alluvial gold is recovered in the nearby bed of the Indus River. There are deposits of copper ore in Baltistan, and iron ores are found in the Vale of Kashmir. Ladakh possesses borax and sulfur deposits. Coal seams are found in the Jammu Hills. Bauxite also occurs in Kashmir. Nepal, Bhutan, and Sikkim have extensive deposits of coal, mica, gypsum, and graphite, and ores of iron, copper, lead, and zinc.
The Himalayan rivers have tremendous potential for hydroelectric generation. That potential was first harnessed intensively by India beginning in the 1950s. A giant multipurpose project is located at Bhakra-Nangal on the Sutlej River in the Outer Himalayas; its reservoir was completed in 1963 and has a storage capacity of some 348 billion cubic feet (10 billion cubic meters) of water and a total installed generating capacity of 1,050 megawatts. Other Himalayan rivers—including the Kosi, the Gandak (Narayani), and the Jaldhaka—were then harnessed by India, which then supplied electric power to Nepal and Bhutan. Subsequent major projects in India included the Nathpa Jhakri dam on the Sutlej in Himachal Pradesh and, just downstream from that site, the Rampur station, which became operational in 2014. Nepal has also constructed hydropower projects in the Himalayas, as has China, which completed the Zangmu station on the Yarlung Zangbo (Brahmaputra) River in Tibet in 2015.
Tourism has become an increasingly important source of income and employment in parts of the Himalayas, especially Nepal. In addition to sightseers, there has been a dramatic rise in the number of foreign trekkers in the lower mountain elevations, as well as in mountaineers seeking to climb Everest and the other high peaks. The resultant increased traffic and tourists’ heavy consumption of the region’s limited resources, however, have further stressed the regional environment.
Transportation
Trails and footpaths long were the only means of communication in the Himalayas. Although those continue to be important, especially in the more remote locations, road transport now has made the Himalayas accessible from both north and south. In Nepal an east-west highway stretches through the Tarai lowlands, connecting roads that penetrate into many of the country’s mountain valleys. The capital, Kathmandu, is connected to Pokhara by a low Himalayan highway, and another highway through Kodari Pass gives Nepal access to Tibet. A highway running from Kathmandu through Hetaunda and Birganj to Birauni connects Nepal to Bihar state and the rest of India. To the northwest of Pakistan, the Karakoram Highway links that country with China. The Hindustan-Tibet road, which passes through Himachal Pradesh, has been considerably improved; that 300-mile (480-km) highway runs through Shimla, once the summer capital of India, and crosses the Indo-Tibetan border near Shipki Pass. From Manali in the Kullu valley, a highway now crosses not only the Great Himalayas but also the Zaskar Range and reaches Leh in the upper Indus valley. Leh is also connected to India via Srinagar in the Vale of Kashmir; the road from Srinagar to Leh passes over the 17,730-foot- (5,404-metre-) high Khardung Pass—the first of the high passes on the historic caravan trail to Central Asia from India. Many other new roads have been built since 1950.
From the Indian state of Punjab, the only direct approach to the Vale of Kashmir is by the highway from Jalandhar to Srinagar (summer capital of Jammu and Kashmir union territory) through Pathankot, Jammu, Udhampur, Banihal, and Khahabal. It crosses the Pir Panjal Range through a tunnel at Banihal. The old road from Rawalpindi, Pakistan, to Srinagar lost its importance with the closing of the road at the line of control between the sectors of Kashmir administered by India and Pakistan.
There are two major airstrips in the Himalayas, one at Kathmandu and the other at Srinagar; the airport at Kathmandu is served by international as well as regional flights. Besides those, there is also an increasing number of airstrips of local importance in Nepal and other countries in the region that can accommodate small aircraft. Improvements in both air and ground transportation have facilitated the growth of tourism in the Himalayas.
Study and exploration
The earliest journeys through the Himalayas were undertaken by traders, shepherds, and pilgrims. The pilgrims believed that the harder the journey was, the nearer it brought them to salvation or enlightenment; the traders and shepherds, though, accepted crossing passes as high as 18,000 to 19,000 feet (5,500 to 5,800 meters) as a way of life. For all others, however, the Himalayas constituted a formidable and fearsome barrier.
The first known Himalayan sketch map of some accuracy was drawn up in 1590 by Antonio Monserrate, a Spanish missionary to the court of the Mughal emperor Akbar. In 1733 a French geographer, Jean-Baptiste Bourguignon d’Arville, compiled the first map of Tibet and the Himalayan range based on systematic exploration. In the mid-19th century, the Survey of India organized a systematic program to measure correctly the heights of the Himalayan peaks. The Nepal and Uttarakhand peaks were observed and mapped between 1849 and 1855. Nanga Parbat, as well as the peaks of the Karakoram Range to the north, were surveyed between 1855 and 1859. The surveyors did not assign individual names to the innumerable peaks observed but designated them by letters and Roman numerals. Thus, at first, Mount Everest was simply labeled as “H”; that had been changed to Peak XV by 1850. In 1865 Peak XV was renamed for Sir George Everest, surveyor-general of India from 1830 to 1843. Not until 1852 were the computations sufficiently advanced for it to be realized that Peak XV was higher than any other mountain in the world. By 1862 more than 40 peaks with elevations exceeding 18,000 feet (5,500 meters) had been climbed for surveying purposes.
In addition to the surveying expeditions, various scientific studies of the Himalayas were conducted in the 19th century. Between 1848 and 1849 the English botanist Joseph Dalton Hooker made a pioneering study of the plant life of the Sikkim Himalayas. He was followed by numerous others, including (in the early 20th century) the British naturalist Richard W.G. Hingston, who wrote valuable accounts of the natural history of animals living at high elevations in the Himalayas.
After World War II the Survey of India prepared some large-scale maps of the Himalayas from aerial photographs. Parts of the Himalayas were also mapped by German geographers and cartographers, with the help of ground photogrammetry. In addition, satellite reconnaissance has been employed to produce even more accurate and detailed maps. Aerial photographs have been used in conjunction with other scientific observation methods to monitor the effects of climate change on the Himalayan environment—notably the recession of glaciers.
Himalayan mountaineering began in the 1880s with the Briton W.W. Graham, who claimed to have climbed several peaks in 1883. Though his reports were received with skepticism, they did spark interest in the Himalayas among other European climbers. In the early 20th century the number of mountaineering expeditions increased markedly to the Karakoram Range and to the Kumaun and Sikkim Himalayas. Between World Wars I and II, a certain national preference developed for the various peaks: the Germans concentrated on Nanga Parbat and Kanchenjunga, the Americans on K2 (in the Karakorams), and the British on Mount Everest. Attempts at scaling Everest began in 1921, and about a dozen of them were undertaken before it was first successfully scaled in May 1953 by the New Zealand mountaineer Edmund Hillary and his Tibetan partner Tenzing Norgay. That same year an Austro-German team led by Karl Maria Herrligkoffer reached the summit of Nanga Parbat.
