Wang G X, Li S N, Hu H C, et al. Water regime shifts in the active soil layer of the Qinghai-Tibet Plateau permafrost region, under different levels of vegetation. Geoderma, 2009, 149(3-4): 280-289.
[2]
Jorgenson M T, Racine C H, Walters J C, et al. Permafrost degradation and ecological changes associated with a warming climate in central Alaska. Climatic Change, 2001, 48(4): 551-579.
[3]
Boer G J, Flato G, Reader M C, et al. A transient climate change simulation with greenhouse gas and aerosol forcing: experimental design and comparison with the instrumental record for the twentieth century. Climate Dynamics, 2000, 16(6): 405-425.
[4]
Johns T C, Carnell R E, Crossley J F, et al. The second Hadley Centre coupled ocean-atmosphere GCM: Model description, spinup and validation. Climate Dynamics, 1997, 13(2): 103-134.
[5]
Osterkamp T E, Jorgenson M T, Schuur E, et al. Physical and ecological changes associated with warming permafrost and thermokarst in interior Alaska. Permafrost and Periglacial Processes, 2009, 20(3): 235-256.
[6]
Osterkamp T E. Establishing long-term permafrost observatories for active-layer and permafrost investigations in Alaska: 1977-2002. Permafrost and Periglacial Processes, 2003, 14(4): 331-342.
[7]
Christensen T R, Johansson T R, Akerman H J, et al. Thawing sub-arctic permafrost: Effects on vegetation and methane emissions. Geophysical Research Letters, 2004, 31(4): 501-504.
[8]
Hinzman L D, Goering D J, Kane D L. A distributed thermal model for calculating soil temperature profiles and depth of thaw in permafrost regions. Journal of Geophysical Research, 1998, 103(D22): 28975-28991.
[9]
Camill P. Peat accumulation and succession following permafrost thaw in the boreal peatlands of Manitoba, Canada. Ecoscience, 1999, 6(4): 592-602.
[10]
Kokelj S V, Zajdlik B, Thompson M S. The impacts of thawing permafrost on the chemistry of lakes across the subarctic boreal-Tundra Transition, Mackenzie Delta Region, Canada. Permafrost and Periglacial Processes, 2009, 20(2): 185-199.
[11]
Kokfelt U, Rosen P, Schoning K, et al. Ecosystem responses to increased precipitation and permafrost decay in subarctic Sweden inferred from peat and lake sediments. Global Change Biology, 2009, 15(7): 1652-1663.
[12]
Schuur E, Crummer K G, Vogel J G, et al. Plant species composition and productivity following permafrost thaw and thermokarst in alaskan tundra. Ecosystems, 2007, 10(2): 280-292.
[13]
Bhiry N, Payette S, Robert E C. Peatland development at the arctic tree line (Quebec, Canada) influenced by flooding and permafrost. Quaternary Research, 2007, 67(3): 426-437.
[14]
Kemper J T, Macdonald S E. Effects of contemporary winter seismic exploration on low arctic plant communities and permafrost. Arctic Antarctic and Alpine Research, 2009, 41(2): 228-237.
[15]
Lloyd A H, Yoshikawa K, Fastie C L, et al. Effects of permafrost degradation on woody vegetation at arctic treeline on the Seward Peninsula, Alaska. Permafrost and Periglacial Processes, 2003, 14(2): 93-101.
[16]
Wania R, Ross I, Prentice I C. Integrating peatlands and permafrost into a dynamic global vegetation model: 1. Evaluation and sensitivity of physical land surface processes. Global Biogeochemical Cycles, 2009, 23(3): 1-19.
[17]
Bakalin V A, Vetrova V P. Vegetation-permafrost relationships in the zone of sporadic permafrost distribution in the Kamchatka Peninsula. Russian Journal of Ecology, 2008, 39(5): 318-326.
[18]
Nguyen T N, Burn C R, King D J, et al. Estimating the extent of near-surface permafrost using remote sensing, mackenzie Delta, Northwest Territories. Permafrost and Periglacial Processes, 2009, 20(2): 141-153.
[19]
Sannel A, Kuhry P. Long-term stability of permafrost in subarctic peat plateaus, west-central Canada. Holocene, 2008, 18(4): 589-601.
[20]
Wu Q B, Li X, Li W J. The prediction of permafrost change along the Qinghai-Tibet Highway, China. Permafrost and Periglacial Processes, 2000, 11(4): 371-376. 3.0.CO;2-T target="_blank">
Trakhtenbrot A, Kadmon R. Effectiveness of environmental cluster analysis in representing regional species diversity. Conservation Biology, 2006, 20(4): 1087-1098.
[24]
Araujo M B, Humphries C J, Densham P J, et al. Would environmental diversity be a good surrogate for species diversity. Ecography, 2001, 24(1): 103-110.
[25]
Davies R G, Orme C, Webster A J, et al. Environmental predictors of global parrot (Aves: Psittaciformes) species richness and phylogenetic diversity. Global Ecology and Biogeography, 2007, 16(2): 220-233.
[26]
Keller A, Rodel M O, Linsenmair K E, et al. The importance of environmental heterogeneity for species diversity and assemblage structure in Bornean stream frogs. Journal of Animal Ecology, 2009, 78(2): 305-314.
Levin L A, Etter R J, Rex M A, et al. Environmental influences on regional deep-sea species diversity. Annual Review of Ecology and Systematics, 2001, 32: 51-93.
[30]
Dai Y C, Yang Z L, Cui B K, et al. Species diversity and utilization of medicinal mushrooms and fungi in China. International Journal of Medicinal Mushrooms, 2009, 11(3): 287-302.
[31]
Nagaike T. A review of ecological studies on the effects of forest management on plant species diversity. Japanese Journal of Ecology, 2002, 52(1): 35-54.
[32]
Orlov N L, Sang N N, Cuc H T. Description of a new species and new records of Rhacophorus genus (Amphibia: Anura: Rhacophoridae) with a review of amphibians and reptiles diversity of Ghu Yang Sin National Park (Dac Lac Province, Vietnam). Russian Journal of Herpetology, 2008, 15(1): 67-84.
[33]
Li L, Zeng D. Relationships between species diversity and ecosystem functioning: A review. Chinese Journal of Ecology, 2008, 27(11): 2010-2017.
