Tarim
ID
625
Author(s)
Nina Bogutskaya, Jennifer Hales
Countries
Afghanistan
China
Chinese Control Claimed by India
Kyrgyzstan
Pakistan claimed by India
Tajikistan
China
Chinese Control Claimed by India
Tajikistan
Major Habitat Type
Xeric freshwaters and endorheic (closed) basins
Drainages flowing into
Central Asian endorheic basin
Main rivers to other water bodies
The main water bodies of the ecoregion include the Tarim River, Yarkand Darya [Yarkend-Dar’ya = Yarkant He] River, Taushgan-Darya [Taushikan Ho = Toxkan He] River, Hotan He River, Cherchen-darya [Qarqan He] River, Lake Bagrach-kul [Bosten Hu], Lake Lob Nor [Lop Nur], Konche-Dari [Konqi He] River, Lake Aydingkol Hu [Aidin Kol], Ala Gou River, Gaydag Gol [Yuldos Gol = Yuldus = Kaidu He] River, Khutuk- bi [Hutubi He] River, and Turfan [Turpan] Oasis.
Description
Boundaries
The Tarim Depression is a large endhorheic basin that lies between the southern slopes of Tan-Shan (Khalyktau [Halik Shan] Ridge and the Kokte-ketau and Boro-Khotan [Borohoro Shan] Mountains, further east), the northern slopes of the Tibet Upland region [Plateau of Tibet = Qing Zang Gaoyuan], northeastern slopes of the Karakorum [Karakorum Shan], and the Altyntag [Alton Tag= Altin Tagh = Altun Shan] Ridge in the east. The Taklamakan Desert [Taklimakan Shamo] is in the center of the ecoregion.
Topography
The Tarim Depression lies 780-800 m above sea level between mountainous ridges, and has an area of roughly 390,000 km2. A large number of rivers flow from the mountains that frame this depression. During periods of glaciation and colder climates full-flowing rivers crossed the whole hollow (which is now covered by the Taklamakan Desert [Taklimakan Shamo]), and reached the Tarim River that flowed along the northern margin. The terminal water body of the entire drainage system was Lake Lob Nor [Lop Nur], which changed location several times according to geological data. At present, most of the rivers do not connect with each other in their lower reaches since water is diverted for irrigation.
Freshwater habitats
Streams of the Tarim Depression flow from high mountains, and have a typical mountainous character in their upper reaches. Entering the plain, they become slow and much wider, forming branches and oxbows. Because of the general aridization of the climate and human impact, the water content has been heavily reduced. In the 20th century the area of Lob Nor decreased from 28,000 to 2500 km2, and in 1950 it dried up completely. According to data from literature, water from Tarim stopped reaching the lake in 1942 when both the Tarim and Konche-Dar’i [Konqi He] rivers changed their courses due to unknown reasons, and turned to the east at the town of Takanlik. Their water is now lost in sands.
Terrestrial habitats
Most of the ecoregion is covered by the Taklimakan Desert terrestrial ecoregion. Higher elevation ecoregions that circumvent the desert include Tian Shan montane steppe and meadows in the north, Pamir alpine desert and tundra in the west, North Tibetan Plateau - Kunlun Mountains alpine desert in the south, and Quilian Mountains subalpine meadows and Alashan Plateau semi-desert in the east. Pockets of riparian forests occur along the Tarim River.
Description of endemic fishes
The only endemic species in the ecoregion is Phoxinus grumi. This is a “good" species demonstrating clear links with Phoxinus species of the Balkhash and Issyk-kul lake basins. Its distribution shows a remarkable example of occurrence on the margin of the generic range. Its exact distribution has not been studied. It may easily be extinct because of the dessication of small water bodies it inhabits.
Aspiorhynchus (a "good” genus from a taxonomic point of view), is a near-endemic monotypic genus (with ecoregion 707). It inhabits larger rivers and lakes within the Tarim drainage. The species had been quite abundant before the 1980s in one of the large lakes, Bosten. Being a large (up to 770 mm and 3 kg) predator it served as the main commercial fish in the lake. In recent decades its numbers have drastically declined. Now the species is close to extinction because of overfishing and sharp competition with non-indigenous fishes. The European perch (Perca fluviatilis), predating on schizothoracine species and loaches that are the main food object of Aspiorhynchus, markedly destroyed its forage reserve. Besides this, Aspiorhynchus feeds on mollusks, which are now consumed by the introduced Mylopharyngodon. The construction of irrigation dams cut off the spawning migratory routes of the species.
Another near-endemic species, Schizothorax biddulphi, before the 1960s had been the main object of fisheries, together with Aspiorhynchus laticeps. The construction of dams and the introduction and stocking of European perch (Perca fluviatilis), grass carp (Ctenopharyngodon idella), and black carp (Mylopharyngodon piceus) considerably undermined its abundance. Exact data are not known.
Justification for delineation
This ecoregion is a closed endorheic drainage that is now separated into several close streams.
Level of taxonomic exploration
Poor. Urgently needs revision.
References
- Abrosov, V. N. (1973). "Balkhash Lake" Leningrad: Nauka.
- Kessler, K. (1879). "Nouvelle recherches concernant l’ichthyologie de l’Asie Centrale" Bull. de l’Acad. Imper. des Sciences de St.-Petersburg XXV pp. 282-310.
- Mitrofanov, V. P. (1971). "On ichthyogeography of a key region of Palaearctic" Izv. Acad. nauk KazSSR [Proceedings of Academy of Sciences of Kazakhstan SSR] Biol. 2 pp. 158-165.
- Mitrofanov, V. P. and Turkia, A. (1994). "Fish fauna of Tarim basin and its significance for ichthyogeography" Selevinia 4 pp. 18-21.
- Turdakov, F. A. (1963). "Fishes of Kirghizia" Frunze: Izdat. AN KirgizSSR.
- Vasnetsov, V. V. (1950). "Phylogeny of Highland Asian cyprinids Schizotoracinae" Trudy Inst. Morphol. Zhivotn. [Proceedings of Institute of Animal Morphology, Moscow] 2 pp. 3-84.
- Yue, P.;Chen, Y. (1998). "China red data book of endangered animals. Pisces" Beijing, Hong Kong, New York: Science Press.
- Yue, P. Q. (2000). "Fauna Sinica. Osteichthyes. Cypriniformes III" Beijing: Science Press.