Himalayas and Tibetan plateau

The Himalayas form a topographically extremely complex region, extending 1500 miles from Nanga Parbat (8125 m) in the west to Namcha Barwa (7756 m) in the east. At their western extremity, they are part of a confused mass of peaks, passes, and glaciers where the western Kun Lun, Karakoram, Pir Panjal, and Pamirs form an area the size of France. The Himalayas contain the world’s highest mountain, Mount Everest (8848 m), and many other peaks over 7500 m. The main range forms the watershed between Central Asia and India, and there are middle ranges at intermediate altitudes. The outer Himalayas (up to 1500 m) form foothills rising from the plains of India.

The Tibetan plateau is an area occupied by Tibetans, who have a well-defined culture. It extends in the south to the Himalayas and high Himalayan valleys. To the west, the plateau is demarcated by the northward curve of the Himalayas that continues into Kashmir, Baltistan, and then to Gilgit and the Karakoram. To the north, the peaks (up to 7700 m) of the Kun Lun range, 1500 miles long, mark off the plateau of Tibet from Xinjiang, a vast desert region. To the east, it extends to the Koko Nor or Qinghai Lake and, further south, the valleys of Qinghai and Sikiang and the gorge country of southeast Tibet.

The area covers about 1.5 million square miles and is the largest and highest plateau in the world, much of it at an altitude of 4600–4900 m. It presents an enormous range of climate and topography. The major climatic contrast is between the southern side of the Himalayas and the high valleys exposed to the summer Indian monsoon with very high rainfall, particularly in the east, and the aridity and low rainfall of the Tibetan plateau. The change is so abrupt that in some passes in the eastern Himalayas, vegetation may change from tropical to subarctic within a few yards.

Tibetans have been subject to influences from China, India, Central Asia, and the Middle East for many centuries (Stein 1972). Permanent buildings are found up to 3500 m with nomadic populations at higher levels. Neolithic human remains have been found near Lhasa (Ward 1990; Ward 1991). Aldenderfer (2011) suggested, “Although the data are sparse, both archaeology and genetics suggest that the plateau was occupied in the Late Pleistocene, perhaps as early as 30,000 yr ago.” Recent studies indicate the earliest habitation of the Tibetan plateau occurred 30,000 to 40,000 years before present (Zhang et al. 2018). There were almost certainly later migrations, with evidence of permanent settlements dating from about 6500, 5900, and 3750 years ago.

With increasing numbers of Han Chinese immigrants, there are more than three million people living at or above more than 3000 m. It is estimated that the amount of land available for agriculture is only 5% of the total. The 1100 km Golmud to Lhasa rail link, three quarters of which is at altitudes above 4000 m, opened in July 2006. By making it possible to travel from all parts of China to Lhasa by rail, the railway has facilitated large increases in the number of Han Chinese tourists and residents in Tibet. The tourist population faces a risk of acute altitude illness, described further in Chapters 20–22, while those who relocate to Tibet are at risk for chronic forms of altitude illness described in Chapter 24.

Andean Mountains of South America

The highland zone of the Andes Mountains extends from Colombia in the north to central Chile in the south. It is flanked by an arid desert on its west with a deeply eroded escarpment to the east, which adjoins the Amazon basin. The central Andean region has three broadly defined areas running parallel with the Pacific Ocean: The cordillera occidental, the altiplano (a broad undulating plain at 4000 m in the middle), and the cordillera oriental in the east.

The earliest archeological evidence for human occupation dates back 12,000 years (MacNeish 1971) and has been found at Ayacucho, Peru, at 2900 m; other early finds are recorded in central Chile, Venezuela, and Argentina. However, this date and the evidence for it have been questioned by Lynch (1990), who suggests a maximum date of 12,000 years ago, which is supported by more recent studies indicating humans reached high altitude regions in the Andes shortly after the arrival of modern humans in South America (Rademaker et al. 2014). The skeleton of a man who lived 9500 years ago has been found at Lauricocha (4200 m) in Peru (Hurtado 1971). It is widely accepted that South American indigenous peoples migrated into the American continent from the Mongolian area via the Bering land bridge. The pre-Inca civilizations were situated mainly along the Pacific coast and the population subsisted mainly on seafood. Little is known of the highland population during this period.

Both agriculture and stock raising dominate the subsistence economy, with the upper limit of agriculture at 4000 m and the upper limit of vegetation at 4600 m. Mining is carried out at even greater altitudes, as described in Chapter 5, and tourism is a major source of visitors and revenue for the region.

Ethiopian highlands

No well-circumscribed highland zone exists in the Ethiopian highlands. The country is intersected by many rift valley systems, establishing a connection between the African Rift Valley in the south and the Red Sea. The valley systems divide the country into three reasonably well-defined regions: The western highlands, the eastern highlands, and the rift valley itself with the lowland area. Some of the earliest hominids occupied wooded habitats between the Main Ethiopian Rift (MER) and the Afar Rift between 5.54 and 5.77 million years ago, providing important clues into the impact of climate and savannah habitat on hominid origins (WoldeGabriel et al. 2001). It appears that modern human populations have migrated in and out of the Ethiopian highlands for possibly the past 70,000 years (Hassen 1990), with recent archaeological evidence suggesting high altitude human settlements (above 4000 m) dated to 47,000 to 31,000 years ago in the Bale Mountains (Ossendorf et al. 2019).

The northern part of the western highlands, the Amhara highlands, attains the greatest altitude (2400–3700 m) and is the home to some species that are not located anywhere else in the world: Geladas, the Ethiopian wolf, and ibex. Much of Ethiopian history centers on this area, which has been settled for many centuries. It is inhabited by the largest of Ethiopia’s many population groups, the Amharas and Tigraeans, who are the descendants of people who came from southern Arabia prior to 1000 BC (Sellassie 1972).

Much of the population of Ethiopia lives above 2000 m. Gondar (3000 m), in the Amhara highlands with a population of about 200,000, became the second largest city in Africa, and it remained the capital of Ethiopia until the middle of the first century, when Addis Ababa was founded. Teff, a type of grass that produces a small seed, is grown up to 3000 m and is the mainstay of the agricultural economy.

Ethiopian, as well as Kenyan, distance runners are among the most elite in the world (Wilber et al. 2012). Efforts to understand the environmental and genetic contributions to endurance running in these populations are under way (Georgiades et al. 2003). Numerous high altitude training centers in Ethiopia and those at moderate altitudes in Kenya (e.g., Iten and Eldoret, between 2100 and 2700 m) showcase the extraordinary performance of individuals in these populations and attract visitors from throughout the world interested in high altitude training.

Rainfall

In Asia, the monsoon flows from east to west across India, cooling as it is forced to ascend by the Himalayas. Water vapor condenses and falls as rain, and as it passes to the west, the monsoon becomes depleted of water; the eastern Himalayas are thus very wet, while the western part of the range is dry. Whereas in Darjeeling, the annual rainfall is 2000–3000 mm a year, it is 1500 mm in the central Himalayas at Simla and only 75 mm in the west at Ladakh. The Karakoram is arid, whereas the eastern Himalayan region is tropical.

There is also considerable north–south variation with subarctic species on the Tibetan plateau and tropical species often only a few hundred yards away to the south. This is particularly marked on some passes in the eastern Himalayas. On the plateau, although monsoon clouds are seen on the Tangulla range, about 700 km north of Lhasa, precipitation is small. In the deserts of the Tarim basin and Tsaidam to the north of the Tibetan plateau, annual rainfall may be less than 100 mm.

In the Andes, the Pacific coastal strip is desert. The western slopes of the Andes are dry, cacti and eucalyptus trees flourish, and only a few high mountains are snow-covered. The eastern slopes, which descend to the Amazon basin, become progressively more humid and tree-covered as one moves down in elevation.

The Ethiopian highlands tend to have temperatures much lower than surrounding regions. Highland residents more than 2000 m above sea level may experience average temperatures near 16°C, a stark contrast to neighboring areas only hundreds of miles away, such as the Danakil Depression (100 m below sea level), with temperatures that may reach 50°C. Despite proximity to the equator, tropical monsoons that are common from June through September are also much cooler due to increased elevation.

Temperature

As noted in Chapter 2, temperature falls with increasing elevation. There is no uniform value for this decline, but a rate of 1°C for every 150 m increase in elevation is often given. Mountain temperatures vary between ranges based on the location relative to the equator and other factors. Temperatures as low as –73°C have been recorded on Denali (Dixon 1938) and −88.2°C in Antarctica. Mountain ranges located at far lower elevations, however, can also have quite low temperatures depending on local weather patterns. For example, on the summit of Ben Nevis in Scotland, a peak of only 1300 m, the mean temperature over a 17-year period from 1884 to 1901 was –0.1°C with a range from −17°C to +19°C.

At a given location on a particular mountain, temperatures can also vary significantly over the course of the year. For example, in Antarctica, the temperatures ranged from the low of –88.2°C, as noted previously, to as high as 15°C, whereas at the South Col on Mount Everest (7896 m), monthly median temperatures of –11.9°C in July to –26.3°C in December have been documented. When accounting for wind chill, these values fall to –18.7°C and –39.3°C, respectively (Moore et al. 2012). These low temperatures are of great clinical relevance as they significantly increase the risk of cold injuries including hypothermia and frostbite, which are described further in Chapter 27.

As global temperatures rise, it is expected that temperatures in highland regions will increase as well. Climate-sensitive diseases are impacted by temperature, as is the case with malaria, whereby temperatures below a specific threshold prohibit survival of parasites (18°C for Plasmodium falciparum and 15°C for P. vivax

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