[1] Sollmann R, White AM, Gardner B, et al. Investigating the effects of forest structure on the small mammal community in frequent-fire coniferous forests using capture-recapture models for stratified populations. Mammalian Biology, 2015, 80: 247-254 [2] Zhang T-S (张天澍), Li K (李 恺), Cai Y-L (蔡永立), et al. Predation and dispersal of Lithocarpus glaber seeds by rodents in Tiantong National Forest Park, Zhejiang Province. Chinese Journal of Applied Ecology (应用生态学报), 2006, 17(3): 457-461 (in Chinese) [3] Smith RB, Lahaye WS. The relationship between spotted owl diet and reproductive success in the San Bernardino Mountains, California. Wilson Bulletin, 1999, 111: 22-29 [4] Pyare S, Longland WS. Patterns of ectomycorrhizal-fungi consumption by small mammals in remnant old-growth forests of the Sierra Nevada. Journal of Mammalogy, 2001, 82: 681-689 [5] Castro J, Leverkus AB, Fuster F. A new device to foster oak forest restoration via seed sowing. New Forests, 2015, 46: 919-929 [6] Fritts SR, Moorman CE, Grodsky SM, et al. Shrew response to variable woody debris retention: Implications for sustainable forest bioenergy. Forest Ecology and Ma-nagement, 2015, 336: 35-43 [7] Rosenzweig ML. A theory of habitat selection. Ecology, 1981, 62: 327-335 [8] Cheng J-R (程瑾瑞), Zhang Z-B (张知彬). Seeds dispersal by rodents. Bulletin of Biology (生物学通报), 2005, 40(4): 11-13 (in Chinese) [9] Blythe RM, Lichti NI, Smyser TJ, et al. Selection, caching, and consumption of hardwood seeds by forest rodents: Implications for restoration of American chestnut: Chestnut restoration-potential role of rodents. Restoration Ecology, 2015, 23: 1-9 [10] Morris DW. Ecological scale and habitat use. Ecology, 1987, 68: 362-369 [11] Wang D-H (王德华). The position and function of small mammals in the ecosystem. Resources and Ecological Environment Network Research (资源生态环境网络研究动态), 1993, 4(1): 21-23 (in Chinese) [12] Bellows AS, Pagels JF, Mitchell JC. Macrohabitat and microhabitat affinities of small mammals in a fragmented landscape on the upper Coastal Plain of Virginia. American Midland Naturalist, 2001, 146: 345-360 [13] Traba J, Acebes P, Campos VE, et al. Habitat selection by two sympatric rodent species in the Monte desert, Argentina. First data for Eligmodontia moreni and Octomys mimax. Journal of Arid Environments, 2010, 74: 179-185 [14] Tarjuelo, Morales, Traba. Breadth and specialization in microhabitat selection: The case of the Algerian mouse (Mus spretus) in Central Spain. Revue D Ecologie, 2011, 66: 1-12 [15] Falkenberg JC, Clarke JA. Microhabitat use of deer mice: Effects of interspecific interaction risks. Journal of Mammalogy, 1998, 79: 558-565 [16] Men X, Guo X, Dong W, et al. Influence of human disturbance to the small mammal communities in the forests. Open Journal of Forestry, 2015, 5(1): 1-9 [17] Jiang Y-X (蒋有绪). Ecological analysis of flora, species correlation and ordination of subalpine forest vegetation in Western Sichuan. Acta Phytoecologica Sinica (植物生态学报), 1982, 4(4): 281-301 (in Chinese) [18] Yang WQ, Wang KY, Kellomki S, et al. Litter dyna-mics of three subalpine forests in western Sichuan. Pedosphere, 2005, 15: 653-659 [19] Zhang R-H (张人禾), Su F-G (苏凤阁), Wang Z-H (江志红), et al. An overview of projected climate and environmental changes across the Tibetan Plateau in the 21st century. Chinese Science Bulletin (科学通报), 2015, 60(32): 3036-3047 (in Chinese) [20] Liu X, Bao WK. Understory plant assemblages present distinct short-term responses to the clear-cutting of an old-growth spruce forest near an alpine timberline. Canadian Journal of Forest Research, 2014, 44: 562-571 [21] Wang Y-T (王玉涛). Studies on natural regeneration of Pinus densata in burned forestlands in western Sichuan Province. Journal of Anhui Agricultural Sciences (安徽农业科学), 2011, 39(13): 7757-7760 (in Chinese) [22] Wu FZ, Yang WQ, Zhang J, et al. Litter decomposition in two subalpine forests during the freeze-thaw season. Acta Oecologica, 2010, 36: 135-140 [23] Tan B (谭 波), Wu F-Z (吴福忠), Yang W-Q (杨万勤), et al. Soil hydrolase characteristics in late soil-thawing period in subalpine/alpine forests of west Sichuan. Chinese Journal of Applied Ecology (应用生态学报), 2011, 22(5): 1162-1168 (in Chinese) [24] Huang W (黄 薇), Xia L (夏 霖), Yang Q-S (杨奇森), et al. Distribution pattern and zoogeographical division of mammals on the Qinghai-Tibet Plateau. Acta Theriologica Sinica (兽类学报), 2008, 28(4): 375-394 (in Chinese) [25] Bian J-H (边疆晖), Fan N-C (樊乃昌), Jing T-C (景泰春), et al. Studies on the successive relation between small mammal community and plant community in alpine meadow. Acta Theriologica Sinica (兽类学报), 1994, 14(3): 209-216 (in Chinese) [26] Bian J-H (边疆晖), Jing T-C (景增春), Fan N-C (樊乃昌), et al. Influence of cover on habitat utilization of plateau pika (Ochotona curzoniae). Acta Theriologica Sinica (兽类学报), 1999, 19(3): 212-220 (in Chinese) [27] Cui Q-H (崔庆虎), Jiang Z-G (蒋志刚), Lian X-M (连新明), et al. Factors influencing habitat selection of root voles (Microtus oeconomus). Acta Theriologica Sinica (兽类学报), 2005, 25(1): 45-51 (in Chinese) [28] Tong M (佟 梦), Pan S-X (潘世秀), Wang X-W (王向伟), et al. Summer habitat selection of alpine musk deer in Xinglongshan National Nature Reserve, Northwestern China. Zoological research (动物学研究), 2010, 31(6): 610-616 (in Chinese) [29] Lu Q-B (鲁庆彬), Zhang Y (张 阳), Zhou C-Q (周材权). Cave-site selection of Qinling zokors with their prevention and control. Acta Ecological Sinica (生态学报), 2011, 31(7): 1993-2001 (in Chinese) [30] Grant WE, Birney EC, French NR, et al. Structure and productivity of grassland small mammal communities related to grazing-induced changes in vegetative cover. Journal of Mammalogy, 1982, 63: 248-260 [31] Peles JD, Barrett GW. Effects of vegetative cover on the population dynamics of meadow voles. Journal of Mammalogy, 1996, 77: 857-869 [32] Craig VJ, Klenner W, Feller MC, et al. Population dynamics of meadow voles (Microtus pennsylvanicus) and long-tailed voles (M. longicaudus) and their relationship to downed wood in early successional forest habitats. Mammal Research, 2015, 60: 29-38 [33] Xu X-J (徐兴军), Lv J-W (吕建伟), Xie Z-L (谢振丽), et al. Effects of habitat complexity on species diversity of small mammals in pastures and forest interlaced regions. Acta Ecological Sinica (生态学报), 2009, 29(6): 2945-2952 (in Chinese) [34] Fan N-C (樊乃昌), Zhang D-C (张道川). Foraging behavior of Ochtona curzoniaia and Ochtona daurica and their adaptation to habitat. Acta Theriologica Sinica (兽类学报), 1996, 16(1): 48-53 (in Chinese) [35] Kotler BP. Risk of predation and the structure of desert rodent communities. Ecology, 1984, 65: 689-701 [36] Kie JG. Optimal foraging and risk of predation: Effects on behavior and social structure in ungulates. Journal of Mammalogy, 1999, 80: 1114-1129 |