| Citation: |
Changqing DING. 2010: Crested Ibis. Avian Research, 1(2): 156-162. DOI: 10.5122/cbirds.2010.0009
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As a species of the genus Lophophorus, the Himalayan Monal (Lophophorus impejanus), also known as the Impeyan Monal, is a national first grade protected species in China. Despite considerable number of surveys conducted for years over its ranges, current knowledge of the Himalayan Monal in China is still poor. Thus, an estimate of its distribution, numbers and habitat was conducted during a two-year investigation from 2008 to 2009 in southern Tibet, especially in Lhozhag, Cona and Yadong counties. In total, 12 sightings of the Himalayan Monal were recorded during this study period. We summarize the domestic results achieved so far about this species.
The Himalayan Monal is a relatively large-sized bird within the family Phasianidae. With about 70 cm in length, the weight of males ranges from 1980 to 2380 g and that of females from and 1800 to 2150 g. Adult males possess a long crest, feathered with multi-colored plumage throughout its body, while the females, like other pheasants, are dull in color with their upper parts covered with dark brownish black feathers. Notable features in males are their long crest which is metallic green, changeable reddish copper in the back and sides of the neck and a prominent white back while in flight. Tail feathers of the male are uniformly rufous, darker towards the tips, while the lower tail coverts of the female are white, barred with black and rufous. The female has a prominent white patch in the fore neck and a white strip on the tail. First year males are immature and resemble female chicks, but are larger in the first year and their immaturity is less pronounced (Delacour, 1977).
It is also one of the best recognized pheasant species of the western Himalayas because of the metallic, rainbow-colored plumage, iridescent blue head crest and highly exhibited sexual dimorphism of the male. These characteristics have qualified this mountainous forest bird to the status as national bird of Nepal and the state bird of Uttaranchal and Himalchal Pradesh in India (Ramesh et al., 1999; Ramesh, 2003).
The natural range of the the Himalayan Monal spreads from eastern Afghanistan through the Himalayas, including Pakistan, India (the state of Jammu & Kashmir, Himachal Pradesh, Uttaranchal, Sikkim and Arunachal Pradesh), China (the Tibet region), Nepal and Bhutan. There is also a report of its occurrence in Myanmar, based on a specimen taken in 1969 from the Hpungan pass (27°30′N, 96°48′E), along the Indo-Myanmar border (Yin, 1970). Domestically there is evidence showing that this montane bird is resident on the southern slopes of the Himalaya mountains, specifically in the counties Dingjie, Tingri, Nyalam, Kuala, Yadong, Nyingchi, Medog and Zayu (Zheng and Wang, 1998; Li, 2004) and Gongshan County in the northwest of Yunnan Province (He, 2001). Our data suggest that the Himalayan Monal is mainly found in Medog, Zayu, Cona, Lhunze, Lhozhag, Nyalam, Dingjie, Gamba and Yadong counties, on the south slopes of the Himalayas. Its western-most location was confirmed to be in Nyalam County. The bird ranges in elevation from 3800 to 4300 m in the summer and from 3200 to 3500 m in the winter.
The Himalayan Monal occupies the upper temperate oak-conifer forests and subalpine oak forests interspersed with open grassy slopes, cliffs and alpine meadows between 2400 and 4500 m elevation, mostly concentrating in a narrow belt between 2700 and 3700 m (Grimmett et al., 1998). They exhibit clear migration in elevation, reaching as low as 2000 m in winter (Ramesh, 2003). Our observations showed that the birds mainly occur in rocky forests where the dominant tree species include Quercus semecarpifolia, Picea spinulosa and Abies spectabilis, characterized by DBH > 20 cm and the oldest tree of the stands was estimated to be more than 500 years old. The bush layer is primarily composed of Salix oritrepha and Rosa tibetica interspersed with steep slopes (45°–50°), cliffs and alpine meadows at an elevation of 3800–4000 m. However, they show tolerance to snow and have been observed to dig through snow for roots, tubers, other plant parts and invertebrates (McGowan, 1994; Kumar, 1997).
The Kajiu Monastery, a small Buddhist temple (28°05′38″N, 91°07′34″E) at an elevation of 4000 m is situated on top of a hill in Lakang town, located on the Chinese-Indian border area of Lhozhag County. Our observations suggest that there were 36–37 individual birds, consisting of 8–10 males, 16–20 females and 7–8 sub-adults, inhabiting an area with a radius of of 5 km around the monastery. The birds move up to the monastery along a tortuous path by walking or jumping with slight flapping of the wings when they climb over terraces 1.0–2.0 m high every morning. They spent about two hours to feed on the barrier wall of the temple where the monks provide food to them until they glide swiftly to their natural habitat at the edge of the cliffs. We observed the birds soaring at a distance of more than 500 m, accompanied by hurried and sharp voices when they were interrupted by some disturbances. From 5:00 to 8:00 in the afternoon, they hunted some plants for foods on the meadow nearby cliffs and then hid on the branches of large oak trees at night. The birds are gregarious during the non-breeding season and live in small flocks of the same gender.
We found a ground nest without any content at an elevation of 3940 m (28°05′35″N, 91°07′21″E), located under an oak tree 8 m tall and 30 cm in DBH on a steep slope near a cliff. The measurement of the nest was 3 cm × 35 cm × 39 cm in depth, width and length. Some feathers and excrements were observed inside the nest.
Other sightings of this bird have been made and some references about nesting of the Himalayan Monal exist. For example, Johnsgard (1986) reported that the clutch size of this species is most commonly four or five eggs in the wild, with three-egg clutches also fairly common and sometime only two eggs are present. The eggs described by Ali and Ripley (1983) were pale yellowish or reddish buff, freckled and spotted with reddish brown. The incubation period, as Howman (1993) reported, is 28 days. Whether the males played an active role in chick rearing could not be established, as reported by Johnsgard (1986), although there are a few suggestions in the literature that males help caring for the young. Still, this is certainly not a typical situation and most authorities contend that he takes no part in the rearing phase. Gaston (1981) described that the Himalayan Monal exhibits a special display flight during the breeding season, consisting of extended gliding, with the tail fanned and the wings held well above the level of the body and with a repeated piping call that varies from fairly soft to strident.
We need to refer to the Buddhist temples and their impact on the conservation of wildlife in the Tibet areas, where a large number of monasteries exist. The size of the Chinese population of the Himalayan Monal was estimated in 2004 to be no more than 1000 individual birds (Li, 2004). The population density of this bird species and the forest cover at the temples are significantly larger than that for other areas (Yu et al., unpublished). The reason for this is that the Buddhist monks and their adherents treat wildlife according their faith and traditional culture. As in most Tibetan temples, the monks of the Kajiu Monastery often provide a variety of foods such as highland barley, tsamb and ghee to wild birds. The monasteries are usually the distribution centers for wild birds with the densest populations. As a result, the population density of the Himalayan Monal near the Kajiu Monastery is 2.03 individual birds per km2, which is much greater than that of Yadong and Cona counties (0.052 birds per km2).
Similar to many other spectacular species, the Himalayan Monal is usually captured by local people for their own purposes. The bird has been decisively incorporated into the traditional folklore of many Himalayan cultures (Delacour, 1977). The use of feathers is deemed significant in rituals and local ceremonies among the people across Asia. For example, men in the Indian state of Himachal Pradesh hunted males for their crests, which adorned their ceremonial hats as a sign of high social status and the defining of property qualification, although this pressure subsided after hunting was banned in Himachal Pradesh in 1982 (Kumar et al., 1997; Ramesh, 2003). In addition, pheasants are aesthetically pleasing to humans and irrefutably a source of food. For instance, chickens provide a stable diet for millions of people in the world and sport hunting is very popular entertainment in Europe and America. Thus, several of these factors have collectively contributed to the removal of wild populations in their native regions. As well, pheasant populations have experienced strong depletion, attributed to loss of their habitats by human encroachment and development in most part of their ranges (McGowan and Gillman, 1997).
Another example is Yadong County in Tibet where the Himalayan Monal and Satyr Tragopan (Tragopan satyra) were illegally hunted by local people using traps set on the paths which the birds must pass on snowy days in the winter. These birds are captured to stuff specimens for commercial purposes.
The present state of knowledge of the Himalayan Monal is sketchy and it is necessary to obtain scientific data to understand their behavior and ecological requirements better. This dearth of information may be partly due to its remoteness and lack of accessibility, dense forests and steep terrain of their habitats making them difficult to observe. Furthermore, poaching and habitat degradation from human activities contribute to the situation. We hope that our survey, designed to gather new information on the distribution and ecology of the Himalayan Monal, will encourage further study and conservation of this magnificent species in Tibet and elsewhere. After more investigations, conservation measures for the Himalayan Monal should be implemented for the protection of this species.
We are grateful to the State Forestry Administration to provide financial support to this study. We thank Mr Rong DONG and Mr. Xia LI most sincerely for participating in the fieldwork in a harsh and arduous environment for so long. As well, there are several local people who are not mentioned, but helped in some way or another, which enabled the successful completion of this study. In addition, we are grateful to J.R.B. Miller and G.S. Rawat for their help in providing related literature.
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