[1] Harrison S P,Gornish E S,Copeland S. Climate-driven diversity loss in a grassland community[J]. PNAS,2015,112(28):8672-8677 [2] Pfeifer-Meister L,Bridgham S D,Reynolds L L,et al. Climate change alters plant biogeography in Mediterranean prairies along the West Coast,USA[J]. Global Change Biology,2016,22(2):845-855 [3] Greve P,Orlowsky B,Mueller B,et al. Global assessment of trends in wetting and drying over land[J]. Nature Geoscience,2014,7(10):716-721 [4] Knapp A,Hoover D L,Wilcox K R,et al. Characterizing differences in precipitation regimes of extreme wet and dry years:Implications for climate change experiments[J]. Global Change Biology,2015,21(7):2624-2633 [5] Westra S,Fowler H J,Evans J P,et al. Future changes to the intensity and frequency of short-duration extreme rainfall[J]. Reviews of Geophysics,2014,52(3):522-555 [6] Dietze M C,Sala A,Carbone M S,et al. Nonstructural Carbon in Woody Plants[J]. Annual Review of Plant Biology,2014,65(1):667-687 [7] Zhang T,Cao Y,Chen Y M,et al. Non-structural carbohydrate dynamics in Robinia pseudoacacia,saplings under three levels of continuous drought stress[J]. Trees,2015,29(6):1837-1849 [8] Arx G V,Arzac A,Fonti P,et al. Responses of sapwood ray parenchyma and non-structural carbohydrates of Pinus sylvestris to drought and long-term irrigation[J]. Functional Ecology,2017,31(7):1371-1382 [9] Caccia F D,Chaneton E J,Kitzberger T. Direct and indirect effects of understorey bamboo shape tree regeneration niches in a mixed temperate forest[J]. Oecologia,2009,161(4):771-780 [10] 张程,张明娟,徐驰,等. 宁夏沙湖几种主要荒漠植物成丛性分析[J]. 植物生态学报,2007,31(1):32-39 [11] Cahill C. The multifunctionality of agriculture[J]. Eurochoices,2001,1(1):36-41 [12] Bertness M D,Callaway R. Positive interactions in communities[J]. Trends in Ecology and Evolution,1994,9(5):191-193 [13] Callaway R M,Brooker R W,Choler P,et al. Positive interactions among alpine plants increase with stress[J]. Nature(London),2002,417(6891):844-848 [14] 韩梅,杨利民,张永刚,等. 中国东北样带羊草群落C3和C4植物功能群生物量及其对环境变化的响应[J]. 生态学报,2006,26(6):1825-1832 [15] 严巧娣,苏培玺,高松. 干旱程度对C3植物红砂和C4植物珍珠光合生理参数的影响[J]. 中国沙漠,2012,32(2):364-371 [16] Hunter A F,Aarssen L W. Plants helping plants[J]. Bioscience,1988,38(1):34-40 [17] 种培芳,刘晟彤,李毅,等. 红砂对大气CO2浓度升高及降水变化的生长响应[J]. 草地学报,2017,25(5):1061-1068 [18] 单立山,李毅,张正中,等. 2种典型荒漠植物细根序级结构及功能特征分析[J]. 草地学报,2017,25(5):1014-1019 [19] Su P X,Yan Q L,Xie T T,et al. Associated growth of C3 and C4 desert plants helps the C3 species at the cost of the C4 species[J]. Acta Physiologiae Plantarum,2012,34:2057-2068 [20] 周海燕,谭会娟,张志山,等. 红砂和珍珠对极端环境的生理响应与调节机制[J]. 中国沙漠,2012,32(1):24-32 [21] 单立山,苏铭,张正中,等. 不同生境下荒漠植物红砂-珍珠猪毛菜混生根系的垂直分布规律[J]. 植物生态学报,2018,42(4):23-28 [22] 张海娜. 荒漠植物红砂和珍珠种间联生的相互作用关系[D]. 兰州:中国科学院寒区旱区环境与工程研究所,2014:67-72 [23] 苏铭,单立山,张正中,等. 荒漠环境梯度下联生红砂(Reaumuria soongorica)、珍珠(Salsola passerina)荧光特性[J]. 中国沙漠,2018,38(06):145-152 [24] 晨乐木格,刘茂松,黄峥等. 竞争对马尾松和木荷觅取异质分布养分行为的影响[J]. 植物生态学报,2009,33(1):81-88 [25] Maestre F T,Callaway R M,Valladares F,et al. Refining the stress-gradient hypothesis for competition and facilitation in plant communities[J]. Journal of Ecology,2009,97(2):199-205 [26] Liancourt P,Bagoussepinguet Y L,Rixen C,et al. SGH:stress or strain gradient hypothesis? Insights from an elevation gradient on the roof of the world[J]. Annals of Botany,2017,120(1):1-10 [27] Maestre F T,Valladares F,Reynolds J F. Is the change of plant-plant interactions with abiotic stress predictable? A meta-analysis of field results in arid environments[J]. Journal of Ecology,2005,93:748-757 [28] Lortie C J,Callaway R M. Re-analysis of meta-analysis:support for the stress-gradient hypothesis[J]. Journal of Ecology,2006,94(1):7-16 [29] Ma C C,Gao Y B,Guo H Y,et al. Interspecific transition among Caragana microphylla,C. davazamcii and C. korshinskii along geographic gradient Ⅱ. Characteristics of photosynthesis and water metabolism[J]. Acta Botanica Sinica,2003,45(10):1228-1237 [30] Jiang G M,Dong M. A comparative study on photosynthesis and water use efficiency between clonal and non clonal plant species along the northeast China Transect (NECT)[J]. Acta Botanica Sinica,2000,42(8):855-863 [31] Pyankov V I,Gunin P D. C4 plants geographical distribution in relation in the vegetation of Mongolia:their natural occurrence and to climate[J]. Oecologia (Berlin),2000,123(1):15-31 [32] 王会肖,刘昌明. 作物光合、蒸腾与水分高效利用的试验研究[J]. 应用生态学报,2003,14(10):1632-1636 [33] 严巧娣. C3植物红砂和C4植物珍珠混生光合生理特征及种间相互作用研究[D]. 兰州:中国科学院寒区旱区环境与工程研究所,2010:64-66 |