Accumulation of humic substances, such as humic acid and fulvic acid, during humification of foliar litters is one of the main pathways of soil formation and carbon sequestration in alpine forest ecosystems, where low temperature and frequent geological activities often limit soil formation. Snow cover, a typical meteorological characteristic during winter in alpine forests, may play an important role in foliar litter humification thanks to its insulation effect during the snow covering stage and its leaching effect during the snow cover melting stage. What's more, the ongoing climate change is altering the pattern of snow cover, which could also have some essential effects on litter humification. However, the results so far available are still not clear which limits the understanding of foliar litter humification and its response to changes in winter snow regime in cold biomes. Therefore, to explore effects of snowpacks different in depth on accumulation of humic acid and fulvic acid during the early foliar litter humification stage, a field litterbag experiment was conducted in an alpine forest in Southwest China in the winter of 2012/2013. Air-dried foliar litters of six local species dominant in the region, namely, fir (Abies faxoniana) , cypress (Sabina saltuaria) , larch (Larix mastersiana) , birch (Betula albo-sinensis) , willow (Salix paraplesia) and azalea (Rhododendron lapponicum) were incubated under snowpacks different in depth (deep snowpack, moderate snowpack, thin snowpack and no snowpack) , naturally formed at the forest gap center, canopy gap, extended gap and under the closed canopy, respectively. Thereafter, concentrations of humic acid carbon and fulvic acid carbon were measured, and for calculation of net accumulations at three critical stages, i.e. snow cover forming stage, snow covering stage and snow cover melting stage, in the first winter of the incubation as foliar litter humification proceeded. Results clearly showed that the concentrations of humic acid and fulvic acid carbons both displayed a rising tendency with the snow cover decreasing in depth during the three critical stages, and the net accumulations of the two humic substances also exhibited a similar trend at the snow cover forming and melting stages, but a reverse trend at the snow covering stage. However, net accumulation of the two humic substances was affected by the initial concentration of acid-insoluble residues in the foliar litters. In terms of net accumulation of humic acid carbon in the foliar litters incubated under snowpacks of any depth, the six different species of foliar litters followed an order of larch > willow > fir > azalea > birch > cypress. The net accumulation of humic acid carbon in the foliar litters of cypress, larch and willow significantly increased with the snowpacks decreasing in depth, but the net accumulation of humic acid carbon in the foliar litters of fir, birch and azalea were lower under thin and no snowpack than under deep and moderate snowpacks. However, fulvic acid carbon in the foliar litters except for that of birch was observed degrading to a varying extent, showing an order of larch > azalea > willow > cypress > fir > birch. Humic acid carbon accumulated in all foliar litters but fulvic acid carbon decomposed under snowpacks at the snow cover forming stage, and net accumulations of both humic acid and fulvic acid carbons in the foliar litter of fir, cypress, birch and azalea significantly increased with the snowpacks decreasing in depth. Humic acid and fulvic acid carbons in the foliar litters except for that of cypress decomposed at the snow covering stage, and net accumulation of fulvic acid carbon in the foliar litters except for that of willow significantly decreased with the snowpacks decreasing in depth.