[1] Moles A T,Hodson D W, Webb C J. Seed size and shape and persistence in the soil in the New Zealand flora [J].Oikos, 2000, 89(3):541-545. [2] Morali K S. Patterns of seed size, germination and seed viability of tropical tree species in southern India [J]. Biotropica, 1997, 29(3):271-278. [3] Kidson R, Westoby M. Seed size and seedling dimensions in relation to seedling establishment [J]. Oecologia, 2000, 125(1):11-17. [4] 张世挺,杜国祯,陈家宽.种子大小变异的进化生态学研究现状与展望[J].生态学报,2003,23(2):353-364. [5] 中国农业科学院农业气象研究室.北方耐旱技术[M]. 北京: 农业出版社, 1980. [6] 郭淑青,齐威,王玉林,等.青藏高原东缘海拔对植物种子大小的影响[J].草业学报,2010,19(1):50-58. [7] Vera ML. Effects of altitude and seed size on germination and seedling survival of heathland plants in north Spain[J]. Plant Ecology,1997,133:101-106. [8] Miller GR, Cummins RR. Role of buried viable seeds in the decolonization of disturbed ground by heather (Calluna vulgaris(L) Hull) in the Cairngorm Mountains, Scotland, UK[J]. Arctic and Alpine Research, 1987, 19:396-401. [9] Lord JM. Variation in Festuca novae-zelandiae (Hack) cockayne germination behaviour with altitude of seed source[J]. New Zealand Journal of Botany, 1994, 32:227-235. [10] 王桔红,张勇,崔现亮,等.不同海拔梯度糙皮桦和紫果云杉种子的萌发变异[J].生态学杂志,2009,28 (4):589-594 [11] Reynolds M P, Fischer R A, Balota M, et al. Physiological and morphological traits associated with spring wheat yield under hot irrigated conditions[J]. Australian Journal of Physiology (Australia), 1994, 21(6):717-730. [12] 周桂莲,杨慧霞.小麦抗旱性鉴定的生理生化指标及其分析评价[J].干旱地区农业研究,1996,14(2):65-69. [13] 张娟,张正斌,谢惠民,等.小麦叶片水分利用效率及相关生理性状的关系研究[J].作物学报, 2005, 12 (31): 1593 -1599. [14] 冯佰利,张宾,高小丽,等.抗旱小麦的冷温特征及其生理特性分析[J].作物学报,2004,30(12):1215-1219. [15] 齐威,郭淑青,崔现亮,等.青藏高原东部4科植物种子大小和比叶面积随海拔和生境的变异[J].草业学报,2012,21(6):42-50. [16] Pluess A R, Schutz W, Stocklin J. Seed weight increase with altitude in Swiss Alps between related species but not among population of individual species[J]. Oecologia,2005,144:55-61. [17] Bu H Y, Ch X L, Xu X L, et al. Seed mass and germination in an alpine meadow on the eastern Tsinghai-Tibet plateau[J]. Plant Ecology,2007,191:127-149. [18] 王进,罗光宏,颜霞,等.干旱胁迫对苦豆子种子吸胀萌发和幼苗生长的影响[J].中草药,2011,42(9): 1807-1811. [19] 高小宽,白丽荣,刘国杰.干旱胁迫对大豆种子萌发及幼苗生长的影响[J].湖北农业科学,2012,51(24):56 18-5620. [20] 马海鸽,蒋齐,王占军等. PEG胁迫下野生甘草种子萌发和幼苗生长[J].草业科学,2014,31(8):1487-1492. [21] 崔现亮,罗娅婷,苏志龙,等.光照对不同海拔的南川绣线菊和锥花小檗种子萌发的影响[J].生态学杂志,2015,34(3):642-647. [22] 王敏,姚维传,张从宇等.小麦抗旱性的形态性状及初生根解剖结构研究[J].种子,2002,6:14-25. [23] 姚晓华,吴昆仑.PEG预处理对青稞种子萌发和幼苗生理特性的影响[J].西北植物学报,2012,32(7):1403-1411. [24] 李才生,胡寿祥,巫薇薇,干旱胁迫下维生素C对玉米根系生长的影响.[J]西南农业学报,2010,23(1):293-295. [25] 左文博,吴静利,杨奇,等.干旱胁迫对小麦根系活力和可溶性糖含量的影响[J].华北农学报,2010, 25(6):191-193. [26] Gazal R M, Kubiske M E, Influence of initial root length on physiological responses of cherrybark oke and shumard oke seedlings to field drought conditions[J]. Forest Ecology Management, 2004,189:295-305. [27] Nehaus B A, Turner D W, Colmer T D, et al. Drying half the root-zone of potted avocado(Persea Americana Mill cv Hass) trees avoids the symtoms of water deficit that occur under complete root-zoon drying[J]. Jou rnal of Horticultural Science and Biotechnology, 2007,82(5):679-689.
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