摘要 : We assessed the impact of forest management on woodpecker community structure sub-Himalayan dipterocarp sal (<i>Shorea robusta</i>) forests. We selected eight sites representing four management-based 'forest types' (natural unwork... 展开 We assessed the impact of forest management on woodpecker community structure sub-Himalayan dipterocarp sal (<i>Shorea robusta</i>) forests. We selected eight sites representing four management-based 'forest types' (natural unworked sal, old- and young managed sal, and teak plantations). At each site, bird surveys were conducted along 2-km-long transects, 20 times during breeding and non-breeding seasons. Habitat characteristics were enumerated using circular and belt plots. Species composition across forest types was compared using multi-response permutation procedures. Indicator analysis identified woodpecker species preferring particular forest types. Biomass, abundance, and mean species richness of woodpeckers were highest in natural sal, intermediate in managed sal, and lowest in teak. There were apparent differences in woodpecker densities between seasons. Densities were higher in breeding season than non-breeding season for natural sal, while the opposite was true for managed sal. Woodpecker species composition significantly differed across forest types. The four largest species, including grey-headed (<i>Picus canus</i>) and greater yellownape (<i>Picus flavinucha</i>) that were identified as indicators, predominated natural sal but were scarce in other types. At a broader level, mean species richness of woodpeckers strongly indicated mean richness of other avifauna during breeding season. Our study suggests that forest management has significantly altered the sub-Himalayan woodpecker community structure. Managed sal forests, particularly teak plantations, are largely unable to support the original woodpecker assemblage during breeding season, although they provide foraging grounds during non-breeding season. 收起