Interference competition over shared resources is expected to be intensive in harsh environments between phylogenetically and morphologically similar species. We document interspecific dominance and nest habitat selection by two pika-burrow nesting Montifringilla species, white-rumped snowfinches M. taczanowskii (WRS), and rufous-necked snowfinches M. ruficollis (RNS), which commonly inhabit alpine meadows in the northeastern Tibetan plateau. Relative to the critical point (<0.60) for coexistence, high overlaps (0.68-0.86) between the two species in egg-laying date, nest site distribution and nesting burrow attributes suggested strong interspecific competition over these niches. This is also predicted by the ratios of inter-species body mass (1.4) and linear dimensions (1.1-1.2) below the minimum value (2.0 and 1.3) for stable coexistence of closely related species. Larger-sized WRS was behaviorally dominant over pikas and over smallsized RNS. Being dominant, WRS established nesting territories in areas with moderately steep slopes from which they required most of the food resources during the breeding season; in contrast, RNS exhibited no territoriality and had to nest at margins between WRS's territories and fed at dispersed sites. For the same reason, WRS mainly used active, and RNS used inactive, pika burrows. The asymmetric competition over nesting habitats could contribute to the relatively high nesting success and breeding density of the superior species. We argue that there is a spectrum in interspecific competition strength, from stable coexistence to complete exclusion along a gradient of increased environmental harshness, and the guild of the two snowfinch species is at a mediate position of the spectrum.
The dramatic population crashes of 3 species of Gyps vulture have raised concerns about the status of their lesser-known congeners. Among these is the Himalayan griffon, G. himalayensis, an iconic vulture of the Tibetan plateau. The continued existence of this scavenger has not only ecological but also cultural implications because of their unique role in the centuries-old sky burial tradition that is followed by nearly 5 million Tibetan people. A lack of baseline information of the Himalayan griffon limits our ability to take conservation measures. The presented data, which were collected during 1996 and 2004 to 2007, indicate that this species is still widespread throughout the plateau and has not experienced a major population decline, likely as a result of protection by Tibetan Buddhism and limited disturbances from human activities largely due to the remoteness of the plateau. Both site and road counts showed that open meadow habitats had the highest griffon abundance, followed by alpine shrub and forest habitats. Estimates based on road transect counts showed that 229,339 Himalayan griffons (+/- 40,447) occupy the 2.5 million km2 Tibetan plateau. In contrast, the maximum carrying capacity of the plateau, on the basis of the total biomass of potential food resources, is 507,996 griffons, with meadow habitats accounting for about 76% of the total population. Griffons depend largely on livestock carcasses for food and forage in groups averaging 5.5 (range 1-100) individuals. Domestic yaks provide about 64% of the griffons' diet, while wild ungulates and human corpses provide 1% and 2%, respectively. Compared with its lowland congeners, this, the only high-elevation Gyps species, had both low population density and small group size, a likely response to the harsh environmental conditions. Although griffon abundance appears relatively stable in their fairly pristine environment, precautionary measures, including investigation of threats, monitoring of population dynamics, and establishment of modern conservation consciousness among Tibetan Buddhists, should be carried out to ensure that this abundance continues.
Most species in the genus Garrulax are found in subtropical or tropical areas of southeastern Asia, with few species adapted to temperate or high‐altitude climates. We examined the behavior and reproductive ecology of Brown‐cheeked Laughing Thrushes (G. henrici) from 1999 to 2005 at Xiongse Valley, Tibet. Cup‐shaped nests located 0.4–2.6 m above ground were found in 13 different species of plants, with roses and barberries the most common nest substrates. Laughing thrushes were socially monogamous and no territorial behaviors were observed. Egg‐laying was initiated in early May and ended by late August, with clutch sizes of either 2 or 3 eggs . Incubation started with the first egg being laid and the incubation period lasted 13–17 d . Young fledged at 14–16 d posthatching . Of 38 nesting attempts with known fates, at least one nestling hatched in 32 nests (84%) and at least one young fledged from 21 nests (55%). The mean number of fledglings per successful nest was 2.2 (range 1–3; N= 21 nests). Compared to lowland congeners, Brown‐cheeked Laughing Thrushes produced smaller clutches and larger eggs. Such differences suggest that laughing thrushes may invest more energy in fewer offspring at higher altitudes, as reported for other avian species and populations, and this may represent an adaptive response to high‐altitude environments where climates are harsh and food availability may be limiting.
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