[1] Ren G-Y (任国玉), Feng G-L (封国林), Yan Z-W (严中伟). Progresses in observation studies of climate extremes and changes in mainland China. Climatic and Environmental Research (气候与环境研究), 2010, 15(4): 337-353 (in Chinese) [2] Sorte CJB, Jones SJ, Miller LP. Geographic variation in temperature tolerance as an indicator of potential population responses to climate change. Journal of Experimental Marine Biology & Ecology, 2011, 400: 209-217 [3] Woodward FI. Climate and plant distribution. Geographi-cal Journal, 1987, 69: 189-197 [4] Sakai A, Larcher W. Frost survival of plants: Responses and adaptation to freezing stress. Perspective on Politics, 1987, 4: 583-584 [5] Read J, Busby JR. Comparative response to temperature of the major canopy species of Tasmanian cool temperate rainforest and their ecological significance. Ⅱ. Net photosynthesis and climate analysis. Australian Journal of Botany, 1990, 31: 185-205 [6] Woolsey ES, Keith SA, Byrne M, et al. Latitudinal variation in thermal tolerance thresholds of early life stages of corals. Coral Reefs, 2015, 34: 471-478 [7] Bennett S, Wernberg T, Joy BA, et al. Central and rear-edge populations can be equally vulnerable to warming. Nature Communications, 2015, 6: 10280 [8] Grime JP. Plant strategies and vegetation processes. Biologia Plantarum, 1979, 23: 254-254 [9] DeHayes DH, Ingle MA, Waite CE. Nitrogen fertilization enhances cold tolerance of red spruce seedlings. Canadian Journal of Forest Research, 1989, 19: 1037-1043 [10] Taulavuori K, Taulavuori E, Sheppard LJ. Truths or myths, fact or fiction, setting the record straight concerning nitrogen effects on levels of frost hardiness. Environmental and Experimental Botany, 2014, 106: 132-137 [11] Cunningham S, Read J. Comparison of temperate and tropical rainforest tree species: Growth responses to temperature. Journal of Biogeography, 2003, 30: 143-153 [12] Cunningham SC, Read J. Foliar temperature tolerance of temperate and tropical evergreen rain forest trees of Australia. Tree Physiology, 2006, 26: 1435-1443 [13] Morin X, Améglio T, Ahas R, et al. Variation in cold hardiness and carbohydrate concentration from dormancy induction to bud burst among provenances of three European oak species. Tree Physiology, 2007, 27: 817-825 [14] Hofmann M, Jager M, Bruelheide H. Relationship between frost hardiness of adults and seedlings of different tree species. iForest: Biogeosciences and Forestry, 2014, 7: 282-288 [15] Randriamanana TR, Nybakken L, Lavola A, et al. Sex-related differences in growth and carbon allocation to defence in Populus tremula as explained by current plant defence theories. Tree Physiology, 2014, 34: 471-487 [16] Neuner G, Buchner O. Assessment of foliar frost damage: A comparison of in vivo chlorophyll fluorescence with other viability tests. Journal of Applied Botany & Food Quality, 1999, 73: 50-54 [17] Rehm EM, Feeley KJ. Freezing temperatures as a limit to forest recruitment above tropical Andean treelines. Ecology, 2015, 96: 1856-1865 [18] Bigras FJ. Selection of white spruce families in the context of climate change: Heat tolerance. Tree Physiology, 2000, 20: 1227-1234 [19] Offord CA. Pushed to the limit: Consequences of climate change for the Araucariaceae: A relictual rain forest family. Annals of Botany, 2011, 108: 347-357 [20] Kohyama T, Hotta M. Significance of allometry in tropical saplings. Functional Ecology, 1990, 4: 515-521 [21] Zhang H-Y (张海燕), Wang C-K (王传宽), Wang X-C (王兴昌), et al. Spatial variation of non-structural carbohydrates in Betula platyphylla and Tilia amurensis stems. Chinese Journal of Applied Ecology (应用生态学报), 2013, 24(11): 70-72 (in Chinese) [22] Hofmann M, Durka W, Liesebach M, et al. Intraspecific variability in frost hardiness of Fagus sylvatica L. European Journal of Forest Research, 2015, 134: 433-441 [23] Lenz A, Hoch G, Vitasse Y. Fast acclimation of freezing resistance suggests no influence of winter minimum temperature on the range limit of European beech. Tree Physiology, 2016, 36: 490-501 [24] Yang X, Huang Z, Zhang K, et al. C:N:P stoichiome-try of Artemisia species and close relatives across northern China: Unravelling effects of climate, soil and taxonomy. Journal of Ecology, 2015, 103: 1020-1031 [25] Reich PB, Oleksyn J. Global patterns of plant leaf N and P in relation to temperature and latitude. Procee-dings of the National Academy of Sciences of the United States of America, 2004, 101: 11001-11006 [26] Villellas J, Ehrlén J, Olesen JM, et al. Plant perfor-mance in central and northern peripheral populations of the widespread Plantago coronopus. Ecography, 2013, 36: 136-145 [27] Lei J-P (雷静品), Xiong D-P (熊定鹏), Liu J-F (刘建锋), et al. Effects of habitat change on nutrient contents in Quercus variabilis seedlings. Chinese Journal of Applied Ecology (应用生态学报), 2012, 23(6): 1441-1446 (in Chinese) [28] Fu J, Huang B. Effects of foliar application of nutrients on heat tolerance of creeping bentgrass. Journal of Plant Nutrition, 2003, 26: 81-96 [29] Fischer C, Höll W. Food reserves of Scots pine (Pinus sylvestris L.). Trees, 1992, 5: 187-195 [30] Myers JA, Kitajima K. Carbohydrate storage enhances seedling shade and stress tolerance in a neotropical forest. Journal of Ecology, 2007, 95: 383-395 [31] Würth MKR, Peláez-Riedl S, Wright SJ, et al. Non-structural carbohydrate pools in a tropical forest. Oecologia, 2005, 143: 11-24 [32] Fajardo A, Piper FI, Cavieres LA. Distinguishing local from global climate influences in the variation of carbon status with altitude in a tree line species. Global Ecology & Biogeography, 2011, 20: 307–318 [33] Andivia E, Fernández M, Vázquez-Piqué J, et al. Two provenances of Quercus ilex ssp. ballota (Desf) Samp. nursery seedlings have different response to frost tole-rance and autumn fertilization. European Journal of Forest Research, 2012, 131: 1091-1101 [34] Repo T, Mononen K, Alvila L, et al. Cold acclimation of pedunculate oak (Quercus robur L.) at its northern most distribution range. Environmental and Experimental Botany, 2008, 63: 59-70 [35] Morin X, Augspurger C, Chuine I. Process-based mo-deling of species’ distributions: What limits temperate tree species’ range boundaries? Ecology, 2007, 88: 2280-2291 [36] Bansal S, Harrington CA, Clair JBS. Tolerance to multiple climate stressors: A case study of Douglas-fir drought and cold hardiness. Ecology and Evolution, 2016, 6: 2074-2083 |