This species is listed as Vulnerable because its population breeds at a small number of wetland locations in arid regions that could be strongly influenced by changes in climate. With such a restricted breeding distribution it is therefore susceptible to stochastic effects and human impacts. The population is also thought to be declining as a result of reclamation of coastal wetlands for development, and human disturbance on breeding grounds that has caused increased mortality of eggs and chicks.
Sibley, C. G.; Monroe, B. L. 1990. Distribution and taxonomy of birds of the world. Yale University Press, New Haven, USA.
Distribution and populationLarus relictus
44-45 cm. Medium-sized, thickset gull. Similar spp. Non-breeding adults are larger, stockier, thicker-billed and longer-legged than Brown-headed Gull L. brunnicephalus and Black-headed Gull L. ridibundus, with more uniformly dark-smudged ear-coverts and hind crown, white-tipped primaries, prominent, isolated black subterminal markings on outer primaries, and no white leading edge to outer wing. Breeders are black-hooded (including nape), with broad, broken white eye-ring.
breeds at two localities in eastern Kazakhstan
(but regularly at only one [Rubini and Berezovikov 2002]), one in Russia
and several in Mongolia,
whilst the largest colonies are thought to occur in China
, at Honjian Nur Lake, Shaanxi (up to 5,000 pairs [He Fenqi and Ren Yong-qui 2006]) and previously at Taolimiao-Alashan Nur on the Ordos Plateau in Inner Mongolia (up to 3,000 pairs [He Fenqi and Qiao Zhenzhong in litt.
2004]), although this site was recently abandoned (He Fenqi and Ren Yong-qui 2006). Its non-breeding range is poorly understood, but some are known to winter in South Korea
, whist large numbers (7,880 near Tanggu, coastal Tianjin [P. Holt in litt
. 2012]) have recently been found at Bohai Bay on the coast of eastern China, and over 8,000 have been counted in the Nanpu-Caofedian area of coastal Tangshan, Hebei (per
P. Holt in litt
. 2011). There is also evidence that some winter inland on the northern flank of the Qinghai-Tibet plateau, China. Both breeding and wintering ranges are known to fluctuate widely in response to weather conditions. The population has been estimated at 12,000 individuals (Rose and Scott 1997); however, counts of over 7,000 nests in the Ordos uplands of Inner Mongolia and in northern China in 2010 and 2011 (per
He Fenqi in litt
. 2011) suggest that the number of mature individuals exceeds the previous estimate and probably falls somewhere in the region of 10,000-19,999.Population justification
The population was estimated at 12,000 individuals by Rose and Scott (1997); however, over 7,000 nests were recorded in 2010 and 2011 in the Ordos uplands of western Inner Mongolia and northern China (He Fenqi in litt.
2011), strongly suggesting that the total number of mature individuals exceeds the previous estimate. The population is thus placed in the band for 10,000-19,999 mature individuals, equating to 15,000-29,999 individuals in total, rounded here to 15,000-30,000 individuals.Trend justification
Populations at some breeding sites, e.g. Honjian Lake, have increased, whilst others have declined dramatically, and population trends are difficult to interpret. However, the population is suspected to be decreasing at a moderate rate, as threats such as the reclamation of coastal wetlands for development, and human disturbance at breeding sites, and instability of breeding areas owing to weather fluctuations continue to influence most of the range. Loss of ephemeral wetland habitats in arid regions, associated with climate change, could greatly affect this species in the near future.Ecology
All known breeding colonies are below 1,500 m, in the arid-steppe zone, on islands in saline and slightly saline lakes with fluctuating water-levels. No nesting occurs if lakes dry up, if the islands become joined to the shore, or if the water-level is too high and the islands become too small or overgrown with vegetation. Some important non-breeding sites are on estuarine mud and sandflats.Threats
Changes in water-level affect breeding success, and the loss of ephemeral wetland habitats in arid regions, associated with climate change, could greatly affect this species in the near future (He Fenqi et al
. 2005), although geographic shifts and fluctuations could result, rather than chronic declines. Climate models used to predict scenarios until 2080 suggest a trend of increasing aridisation of current steppe areas in Kazakhstan and an overall shift of vegetation zones into Siberia (Tchebakova et al
. 2009), probably resulting in the drying-out of shallow saline lakes used for nesting in north-eastern Kazakhstan, although many lakes in southern Siberia would be expected to become more saline owing to these climatic changes, providing replacement habitat for this mobile species (J. Kamp in litt
. 2012). The former breeding site of Lake Balkhash is unlikely to be recolonised if the drying trend there continues (J. Kamp in litt
. 2012). The major breeding colony at Taolimiao-Alashan Nur, China, has been affected by recent tourist developments, and habitat degradation since 2002, caused by drought, human disturbance and unsustainable water use, has resulted in the absence of nesting activity by this species since 2006 (He Fenqi in litt
. 2011). For similar reasons Hongjian Nur in the Ordos uplands has decreased from an area of over 60 km2
to c.40 km2
, and now shows a pH value of up to 9.6, thus threatening the colony there (He Fenqi in litt
. 2011). Competition for breeding sites and predation by other gulls, as well as mortality from hailstorms and flooding, can affect breeding productivity. Human disturbance has caused increased mortality of eggs and chicks in Russia and China, by making them vulnerable to bad weather, predation and desertion. In South Korea, most of the mudflats at the Nakdong estuary have been reclaimed and it is likely that many other coastal wetlands are under similar pressure from development. The major wintering area at Bohai Bay, China, has been affected by reclamation for oilfields, harbours, roads and other developments, and plans are in hand to reclaim 43% of the remaining habitat (Yang Liu et al
. 2006). In addition, the Bohai Sea is amongst the world's most polluted, and expansion of offshore oil extraction in Bohai Bay will increase the likelihood of spills, such as those that occurred from the Penglai offshore oilfield in June 2011 (P. Holt in litt
. 2011). Other coastal wintering areas are under threat from development, as demonstrated by a massive reclamation project in Tianjin, resulting in the displacement of the wintering population northwards to the Nanpu-Caofedian area of coastal Tangshan, Hebei, which is in turn threatened by another reclamation project (P. Holt in litt
. 2011). Another threat in coastal wintering areas of that of disturbance caused by increasingly mechanised shellfish harvesting (P. Holt in litt
. 2011).Conservation Actions Underway
CITES Appendix I. CMS Appendix I. It is protected from hunting in Russia. A nature reserve was established to protect breeding sites in Alakol' Lake (Kazakhstan). Breeding sites in Russia are protected in the Tsasuchey-Torey Sanctuary and several localities in Mongolia are Ramsar Sites. A poster campaign has been carried out to inform communities on the Ordos Plateau about the importance of the breeding colonies. A nature reserve has been delimited around the major breeding site at Taolimiao-Alashan Nur, China (He Fen-qi and Qiao Zhen-zhong in litt.
2004). Conservation Actions Proposed
Conduct surveys to locate further breeding sites in Russia, Mongolia and China, with the aim of establishing new protected areas. Extend the protected area at Taolimiao-Alashan Nur, China, to incorporate breeding sites used in dry years (He Fen-qi and Qiao Zhen-zhong in litt.
2004). Conduct surveys to locate further wintering areas, possibly including the use of satellite tracking. Survey the southern part of Bothai Bay, China, to determine the full size of the wintering population there. Study its habitat requirements and evaluate the threat posed by development. Increase wardening at major breeding colonies and conduct education campaigns amongst local communities to minimise disturbance. List it as a protected species in Mongolia.
BirdLife International. 2001. Threatened birds of Asia: the BirdLife International Red Data Book. BirdLife International, Cambridge, U.K.
Brazil, M. 2009. Birds of East Asia: eastern China, Taiwan, Korea, Japan, eastern Russia. Christopher Helm, London.
He Fen-qi; Ren Yong-qi. 2006. Alternative choosing of breeding sites of those Ordos Relict Gulls. China Nature 4: 16-17.
He Fen-qi; Xing Xiao-jun; Ala Tungbao; Ren Yong-qi. 2005. Impact of climate charge to the breeding colonies of the Relict Gull. In: Li Dian-mo and Xu Ru-mei (eds), Species Endangerment and Conservation, pp. 291-309. Science Press, Beijing.
Rose, P. M.; Scott, D. A. 1997. Waterfowl population estimates. Wetlands International, Wageningen, Netherlands.
Rubini, B.; Berezovikov, N. N. 2002. The fluctuation of breeding numbers of Relict Gull Larus relictus on Lake Alakol (SE Kazakhstan): a review of surveys from 1968 to 2001. Acrocephalus 23(115): 185-188.
Tchebakova, N. M.; Parfenova, E.; Soya, A. J. 2009. The effects of climate, permafrost and fire on vegetation change in Siberia in a changing climate. Environmental Ressearch Letters 4.
Wetland International - China Office. 2006. Relict Gull surveys in Hongjianao, Shaanxi Province. Newsletter of China Ornithological Society 15(2): 29.
Yang Liu; Holt, P. I.; Jin-yu Lei; Yu Zhang; Zheng-wang Zhang. 2006. Distribution, numbers and age structure of Relict Gull Larus relictus in Bohai Bay, China. Waterbirds 29(3): 375-380.
Further web sources of information
Detailed species accounts from the Threatened birds of Asia: the BirdLife International Red Data Book (BirdLife International 2001).
Text account compilers
Benstead, P., Gilroy, J., Harding, M., Taylor, J.
He, F., Holt, P., Kamp, J., Qiao, Z.
IUCN Red List evaluators
Butchart, S., Symes, A.
BirdLife International (2014) Species factsheet: Larus relictus. Downloaded from
http://www.birdlife.org on 20/04/2014.
Recommended citation for factsheets for more than one species: BirdLife International (2014) IUCN Red List for birds. Downloaded from
http://www.birdlife.org on 20/04/2014.
This information is based upon, and updates, the information published in BirdLife International (2000)
Threatened birds of the world. Barcelona and Cambridge, UK: Lynx Edicions and BirdLife International, BirdLife International (2004)
Threatened birds of the world 2004 CD-ROM and BirdLife International (2008) Threatened birds of the world 2008 CD-ROM. These sources provide the information for species accounts for the birds on the IUCN Red List.
To provide new information to update this factsheet or to correct any errors, please email BirdLife
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