The Southern Alps (Māori: Kā Tiritiri o te Moana; officially Southern Alps / Kā Tiritiri o te Moana)[1] are a mountain range extending along much of the length of New Zealand's South Island, reaching its greatest elevations near the range's western side. The name "Southern Alps" generally refers to the entire range, although separate names are given to many of the smaller ranges that form part of it.

Southern Alps / Kā Tiritiri o te Moana
Snow highlights the mountain range in this satellite image
Highest point
PeakAoraki / Mount Cook
Elevation3,724 m (12,218 ft)
Coordinates43°35′44.69″S 170°8′27.75″E / 43.5957472°S 170.1410417°E / -43.5957472; 170.1410417
Dimensions
Length500 km (310 mi)
Geography
LocationSouth Island, New Zealand
Range coordinates43°30′S 170°30′E / 43.500°S 170.500°E / -43.500; 170.500
Southern Alps in winter

The range includes the South Island's Main Divide, which separates the water catchments of the more heavily populated eastern side of the island from those on the west coast.[2] Politically, the Main Divide forms the boundary between the Marlborough, Canterbury and Otago regions to the southeast and the Tasman and West Coast regions to the northwest.

Names edit

The Māori name of the range is Kā Tiritiri o te Moana, meaning "the Mirage of the Ocean".[1]

The English explorer James Cook bestowed the name Southern Alps on 23 March 1770, admiring their "prodigious height".[3] They had previously been noted by Abel Tasman in 1642, whose description of the South Island's west coast is often translated as "a land uplifted high".[4]

Following the passage of the Ngāi Tahu Claims Settlement Act 1998, the official name of the range was updated to Southern Alps / Kā Tiritiri o te Moana.[5]

Geography edit

 
View of the western Southern Alps from State Highway 6 near Hari Hari, Westland

The Southern Alps run approximately 500 km[6] northeast to southwest. Its tallest peak is Aoraki / Mount Cook, the highest point in New Zealand at 3,724 metres (12,218 ft). The Southern Alps include sixteen other points that exceed 3,000 metres (9,800 ft) in height (see NZ mountains by height). The mountain ranges are bisected by glacial valleys, many of which are infilled with glacial lakes on the eastern side including Lake Coleridge in the north and Lake Wakatipu in Otago in the south. According to an inventory conducted in the late 1970s, the Southern Alps contained over 3,000 glaciers larger than one hectare,[7] the longest of which – the Tasman Glacier – is 23.5 kilometres (14.6 mi) in length which has retreated from a recent maximum of 29 kilometres (18 mi) in the 1960s.[8][9]

Settlements include Maruia Springs, a spa near Lewis Pass, the town of Arthur's Pass, and Mount Cook Village.

Major crossings of the Southern Alps in the New Zealand road network include Lewis Pass (SH 7), Arthur's Pass (SH 73), Haast Pass (SH 6), and the road to Milford Sound (SH 94).

Climate edit

New Zealand has a humid maritime, temperate climate with the Southern Alps lying perpendicular to the prevailing westerly flow of air. Annual precipitation varies greatly across the range, from 3,000 millimetres (120 in) at the West Coast, 15,000 millimetres (590 in) close to the Main Divide, to 1,000 millimetres (39 in) 30 kilometres (19 mi) east of the Main Divide.[10] This high precipitation aids the growth of glaciers above the Snow line. Large glaciers and snowfields can be found west of or on the Main Divide, with smaller glaciers farther east (See Glaciers of New Zealand).

Because of its orientation perpendicular to the prevailing westerly winds, the range creates excellent wave soaring conditions for glider pilots. The town of Omarama, in the lee of the mountains, has gained an international reputation for its gliding conditions. The prevailing westerlies also create a weather pattern known as the Nor'west arch, in which moist air is pushed up over the mountains, forming an arch of cloud in an otherwise blue sky. This weather pattern is frequently visible in summer across Canterbury and North Otago. The 'Nor'wester' is a foehn wind similar to the Chinook of Canada, where mountain ranges in the path of prevailing moisture laden winds force air upwards, thus cooling the air and condensing the moisture to rain, producing hot dry winds in the descending air lee of the mountains.

Geology edit

 
View of Aoraki / Mount Cook, the highest peak, from the Hooker Valley Track
 
Shaded and colored image from the Shuttle Radar Topography Mission—shows an elevation model of New Zealand's Alpine Fault running about 500 km (300 mi) long. The escarpment is flanked by a chain of hills squeezed between the fault and the mountains of the Southern Alps. Northeast is towards the top.

The Southern Alps lie along a geological plate boundary, part of the Pacific Ring of Fire, with the Pacific Plate to the southeast pushing westward and colliding with the northward-moving Indo-Australian Plate to the northwest.[11] Over the last 45 million years, the collision has pushed up a 20 km thickness of rocks on the Pacific Plate to form the Alps, although much of this has been eroded away. Uplift has been most rapid during the last 5 million years, and the mountains continue to be raised today by tectonic pressure, causing earthquakes on the Alpine Fault and other nearby faults. Despite the substantial uplift, most of the relative motion along the Alpine Fault is transverse, not vertical.[12] However, significant dip-slip occurs on the plate boundary to the north and east of the North Island, in the Hikurangi Trench and Kermadec Trench. The transfer of motion from strike-slip on the Alpine Fault to dip-slip motion at these subduction zones to the north creates the Marlborough Fault System, which has resulted in significant uplift in the region.

In 2017 a large international team of scientists reported they had discovered beneath Whataroa, a small township on the Alpine Fault, "extreme" hydrothermal activity which "could be commercially very significant".[13][14]

Flora edit

The mountains are rich in flora with about 25% of the country's plant species being found above the treeline in alpine plant habitats and grassland with mountain beech forest at lower elevations (of the eastern side but not in Westland). The cold windswept slopes above the treeline are covered with areas of fellfield. To the east, the Alps descend to the Canterbury-Otago tussock grasslands. Plants adapted to the alpine conditions include woody shrubs like Hebe, Dracophyllum, and Coprosma, the conifer snow totara (Podocarpus nivalis) and Carex sedge grasses.[15]

Fauna edit

Wildlife of the mountains includes the endemic rock wren (Xenicus gilviventris). There are also a number of endemic insects adapted to these high altitudes, like flies, moths, beetles, bees, and the mountain stone wētā, which can freeze solid over winter to survive the alpine conditions. The beech forests of the lower elevations are important habitat for several birds, such as the great spotted kiwi (Apteryx haastii), the South Island kākā (Nestor meridionalis meridionalis), and the orange-fronted kākāriki (Cyanoramphus malherbi). The Kea can be found in the forested foothills as well as higher, colder elevations. It is the world's only alpine parrot, and was once hunted as a pest.

Threats and preservation edit

The mountains are inaccessible and retain their natural vegetation. A large proportion of the range is well protected as part of various national parks, notably the Westland Tai Poutini National Park, Mount Aspiring National Park, and Aoraki / Mount Cook National Park or protected areas such as Lake Sumner Forest Park. Indigenous plant life is affected by introduced animals such as red deer (Cervus elaphus), chamois (Rupicapra rupicapra), and Himalayan tahr (Hemitragus jemlahicus) all of which have at times been targeted for culling, while the birds and reptiles are vulnerable to introduced predators.

Panoramic view edit

Panoramic winter view from the summit of Hamilton Peak in the Craigieburn Range.

References edit

  1. ^ a b "Place name detail: Southern Alps". New Zealand Gazetteer. New Zealand Geographic Board. Retrieved 21 December 2020.
  2. ^ Beck, Alan Copland (2009) [1966]. "Topography". In McLintock, A.H. (ed.). Te Ara – the Encyclopedia of New Zealand. Archived from the original on 22 October 2012.
  3. ^ Reed, A. W. (1975). Place names of New Zealand. Wellington: A. H. & A. W. Reed. ISBN 0-589-00933-8. p. 384.
  4. ^ Orsman, H. and Moore, J. (eds) (1988) Heinemann Dictionary of New Zealand Quotations, Heinemann, Page 629.
  5. ^ "Ngāi Tahu Claims Settlement Act 1998". Retrieved 30 October 2018.
  6. ^ Taonga, New Zealand Ministry for Culture and Heritage Te Manatu. "1. – Mountains – Te Ara: The Encyclopedia of New Zealand". www.teara.govt.nz. Archived from the original on 6 May 2015.
  7. ^ Chinn TJ (2001). "Distribution of the glacial water resources of New Zealand" (PDF). Journal of Hydrology. 40 (2). New Zealand: 139–187. Archived from the original (PDF) on 16 October 2008.
  8. ^ Lambert M, ed. (1989). Air New Zealand Almanack. Wellington: New Zealand Press Association. p. 165.
  9. ^ Charlie Mitchell (15 February 2017). "When the world's glaciers shrunk, New Zealand's grew bigger". Stuff. Retrieved 15 February 2017.
  10. ^ Willsman AP; Chinn TJ; Hendrikx J; Lorrey A (2010). New Zealand Glacier Monitoring: End of Summer Snowline Survey 2010 (PDF) (Report). New Zealand: NIWA. Archived (PDF) from the original on 29 October 2017.
  11. ^ Campbell, Hamish; Hutching, Gerard (2007). In search of ancient New Zealand. North Shore, N.Z.: Penguin; GNS Science. p. 35. ISBN 978-0-143-02088-2.
  12. ^ Campbell & Hutching 2007, pp. 204–205.
  13. ^ Sutherland, Rupert; Townend, John; Toy, Virginia; Upton, Phaedra; Coussens, Jamie; Allen, Michael; and 60 others (June 2017). "Extreme hydrothermal conditions at an active plate-bounding fault". Nature. 546 (7656): 137–140. Bibcode:2017Natur.546..137S. doi:10.1038/nature22355. PMID 28514440. S2CID 205256017. Retrieved 6 February 2021.{{cite journal}}: CS1 maint: numeric names: authors list (link)
  14. ^ Elder, Vaughan (18 May 2017). "Geothermal discovery on West Coast". Otago Daily Times. Archived from the original on 14 March 2018. Retrieved 6 February 2021.  'Nobody on our team, or any of the scientists who reviewed our plans, predicted that it would be so hot down there. This geothermal activity may sound alarming but it is a wonderful scientific finding that could be commercially very significant for New Zealand.' 
  15. ^ "South Island montane grasslands". Terrestrial Ecoregions. World Wildlife Fund.

External links edit