| [1] | Bradshaw A D. Evolutionary significance of phenotypic plasticity in plants[J]. Advances in genetics, 1965, 13(1):115-155. |
| [2] | Schlichting C D. The evolution of phenotypic plasticity in plants[J]. Annual review of ecology and systematics, 1986, 17:667-693. |
| [3] | Stearns S C. The evolutionary significance of phenotypic plasticity[J]. Bioscience, 1989, 39(7):436-445. |
| [4] | Strand J A, Weisner S E B. Phenotypic plasticity-contrasting species-specific traits induced by identical environmental constraints[J]. New Phytologist, 2004, 163(3):449-451. |
| [5] | Sultan S E. An emerging focus on plant ecological development[J]. New Phytologist, 2005, 166(1):1-5. |
| [6] | Weinig C. Plasticity versus canalization:population differences in the timing of shade-avoidance responses[J]. Evolution, 2000, 54(2):441-451. |
| [7] | Portsmuth A, Niinemets ü. Structural and physiological plasticity in response to light and nutrients in five temperate deciduous woody species of contrasting shade tolerance[J]. Functional Ecology, 2007, 21(1):61-77. |
| [8] | Niinemets U. Photosynthesis and resource distribution through plant canopies[J]. Plant, Cell & Environment, 2007, 30(9):1052-1071. |
| [9] | Maun M A. Adaptations enhancing survival and establishment of seedlings on coastal dune systems[J]. Vegetatio, 1994, 111(1):59-70. |
| [10] | Brown J F. Effects of experimental burial on survival, growth, and resource allocation of three species of dune plants[J]. Journal of Ecology, 1997, 85(2):151-158. |
| [11] | Yu F, Dong M, Krüsi B. Clonal integration helps Psammochloa villosa survive sand burial in an inland dune[J]. New Phytologist, 2004, 162(3):697-704. |
| [12] | Maun M A. Adaptations of plants to burial in coastal sand dunes[J]. Canadian Journal of Botany, 1998, 76(5):713-738. |
| [13] | Van der Valk A G. Mineral cycling in coastal foredune plant communities in Cape Hatteras National Seashore[J]. Ecology, 1974, 55(6):1349-1358. |
| [14] | Maun M A, Lapierre J. The effects of burial by sand on Ammophila breviligulata[J]. The Journal of Ecology, 1984, 72(3):827-839. |
| [15] | Disraeli D J. The effect of sand deposits on the growth and morphology of Ammophila breviligulata[J]. The Journal of Ecology, 1984, 72(1):145-154. |
| [16] | Liu B, Liu Z, Guan D. Seedling growth variation in response to sand burial in four Artemisia species from different habitats in the semi-arid dune field[J]. Trees, 2008, 22(1):41-47. |
| [17] | Shi L, Zhang Z J, Zhang C Y, et al. Effects of sand burial on survival, growth, gas exchange and biomass allocation of Ulmus pumila seedlings in the Hunshandak Sandland, China[J]. Annals of botany, 2004, 94(4):553-560. |
| [18] | Dech J P, Maun M A. Adventitious root production and plastic resource allocation to biomass determine burial tolerance in woody plants from central Canadian coastal dunes[J]. Annals of botany, 2006, 98(5):1095-1105. |
| [19] | Zhao W Z, Li Q Y, Fang H Y. Effects of sand burial disturbance on seedling growth of Nitraria sphaerocarpa[J]. Plant and soil, 2007, 295(1):95-102. |
| [20] | 张金鑫, 卢琦, 吴波,等. 白刺枝叶生长对人工模拟降雨的响应[J]. 林业科学研究, 2012, 25(2):130-137. |
| [21] | 朱雅娟, 贾子毅, 吴波,等. 模拟增雨对荒漠灌木白刺枝叶生长的促进作用[J]. 林业科学研究, 2012, 25(5):626-631. |
| [22] | 何季, 吴波, 贾子毅,等. 白刺光合生理特性对人工模拟增雨的响应[J]. 林业科学研究, 2013, 26(1):58-64. |
| [23] | 任昱, 吴波, 卢琦,等. 荒漠植物白刺叶片气孔性质对模拟增雨的响应[J]. 林业科学研究, 2015, 28(6):865-870. |
| [24] | 倪建伟, 杨秀艳, 张华新,等. 唐古特白刺悬浮细胞对盐胁迫的生长与生理响应[J]. 林业科学研究, 2015, 28(2):194-201. |
| [25] | 倪建伟, 武香, 张华新,等. 3种白刺耐盐性的对比分析[J]. 林业科学研究, 2012, 25(1):48-53. |
| [26] | 陈建勋, 王晓峰. 植物生理学实验指导(第二版)[M].广州:华南理工大学出版社,2006. |
| [27] | Bergamini A, Peintinger M. Effects of light and nitrogen on morphological plasticity of the moss Calliergonella cuspidata[J]. Oikos, 2002, 96(2):355-363. |
| [28] | De Kroon H, Huber H, Stuefer J F, et al. A modular concept of phenotypic plasticity in plants[J]. New phytologist, 2005, 166(1):73-82. |
| [29] | Shibaike H, Ishiguri Y, Kawano S. Plastic responses to nutrient and light intensity gradients in populations of Oxalis corniculata L.(Oxalidaceae)[J]. Plant Species Biology, 1996, 11(2-3):213-223. |
| [30] | McConnaughay K D M, Coleman J S. Biomass allocation in plants:ontogeny or optimality? A test along three resource gradients[J]. Ecology, 1999, 80(8):2581-2593. |
| [31] | Sultan S E. Phenotypic plasticity for plant development, function and life history[J]. Trends in plant science, 2000, 5(12):537-542. |
| [32] | Pigliucci M. Phenotypic plasticity:beyond nature and nurture[M]. Baltimore:JHU Press, 2001. |
| [33] | 靳甜甜, 刘国华, 胡婵娟, 等. 黄土高原常见造林树种光合蒸腾特征[J]. 生态学报, 2008, 28(11):5758-5765. |
| [34] | 高百可, 杨劫, 刘瑞香. 不同土壤水分条件下中国沙棘雌雄株光合作用, 蒸腾作用及水分利用效率特征[J]. 生态学报, 2009, 29(11):6025-6034. |
| [35] | Maun M A. effects of burial by sand on survival and growth of Calamovilfa longifolia[J]. Ecoscience, 1996, 3:93-100. |