[1] Gornall J L,Jonsdottir I S,Woodin S J,et al.Arctic mosses govern below-ground environment and ecosystem processes[J].Oecologia,2007,153(4):931-941.
[2] DeLuca T H,Zackrisson O,Nilsson M C,et al.Quantifying nitrogen-fixation in feather moss carpets of boreal forests[J].Nature,2002,419(6910):917-920.
[3] Kip N,Winden J F,Pan Y,et al.Global prevalence of methane oxidation by symbiotic bacteria in peat-moss ecosystems[J].Nature Geoscience,2010,3(9):617-621.
[4] 徐杰,白学良,田桂泉,等.腾格里沙漠固定沙丘结皮层藓类植物的生态功能及与土壤环境因子的关系[J].中国沙漠,2005,25(2):92-100.
[5] Belnap J.The world at your feet:desert biological soil crusts[J].Frontiers in Ecology and the Environment,2003,1(4):181-189.
[6] 李新荣,张元明,赵允格.生物土壤结皮研究:进展、前沿与展望[J].地球科学进展,2009,24(1):11-24.
[7] 王新平,肖洪浪,张景光,等.荒漠地区生物土壤结皮的水文物理特征分析[J].水科学进展,2006,17(5):592-598.
[8] 李守中,肖洪浪,罗芳,等.沙坡头植被固沙区生物结皮对土壤水文过程的调控作用[J].中国沙漠,2005,25(2):86-91.
[9] 孟杰,卜崇峰,赵玉娇,等.陕北水蚀风蚀交错区生物结皮对土壤酶活性及养分含量的影响[J].自然资源学报,2010,25(11):1864-1874.
[10] 张静,张元明: 冻融过程对生物结皮中齿肋赤藓叶绿素荧光特性的影响[J].中国沙漠,2011,31(6):1479-1487.
[11] Oliver M J,Wood A J.Desiccation tolerance in mosses[M]//Koval T M.Stress-Inducible Processes in Higher Eukaryotic Cells.New York,US:Springer,1997:1-26.
[12] Proctor M C F.The bryophyte paradox: tolerance of desiccation,evasion of drought[J].Plant Ecology,2000,151(1):41-49.
[13] 陶冶,张元明.叶片毛尖对齿肋赤藓结皮凝结水形成及蒸发的影响[J].生态学报,2012,32(1):7-16.
[14] 谢敏,回嵘,刘立超,等.降雪对荒漠地区藓类结皮中真藓生理生化的影响[J].生态学报,2017,37(3):1-7.
[15] 尹本丰,张元明.荒漠区不同微生境下齿肋赤藓对一次降雪的生理生化响应[J].植物生态学报,2014,38(9):978-989.
[16] 尹本丰,张元明.冻融过程对荒漠区不同微生境下齿肋赤藓渗透调节物含量和抗氧化酶活力的影响[J].植物生态学报,2015,39(5):517-529.
[17] 石勇,赵昕,贾荣亮,等.逐渐干旱胁迫下生物土壤结皮中真藓和土生对齿藓的活性氧清除机制[J].中国沙漠,2012,32(3):683-690.
[18] 石勇,杨小菊,赵昕,等.逐渐干旱胁迫下生物土壤结皮中土生对齿藓和真藓信号转导物质的响应[J].生态学杂志,2012,31(5):1136-1142.
[19] 张静,张元明.模拟降雨对齿肋赤藓(Syntrichia caninervis)生理特性的影响[J].中国沙漠,2014,34(2):433-440.
[20] Oliver M J,Wood A J,O'Mahony P.How some plants recover from vegetative desiccation: A repair based strategy[J].Acta Physiologiae Plantarum,1997,19(4):419-425.
[21] Proctor M C F,Oliver M J,Wood A J,et al.Desiccation-tolerance in bryophytes: a review[J].Bryologist,2007,110(4):595-621.
[22] 张亚峰,王新平,虎瑞,等.荒漠灌丛微生境土壤温度的时空变异特征--灌丛与降水的影响[J].中国沙漠,2013,33(2):536-542.
[23] Bolling J D,Walker L R.Fertile island development around perennial shrubs across a Mojave Desert chronosequence[J].Western North American Naturalist,2002,62(1):88-100.
[24] Pintado A,Sancho L G,Green T G A,et al.Functional ecology of the biological soil crust in semiarid SE Spain: sun and shade populations of Diploschistes diacapsis (Ach.) Lumbsch[J].Lichenologist,2005,37(5):425-432.
[25] Herrnstadt I,Kidron G J: Reproductive strategies of Bryum dunense in three microhabitats in the Negev Desert[J].Bryologist,2005,108(1):101-109.
[26] Stark L R,McLetchie D N,Mishler B D.Sex expression,plant size,and spatial segregation of the sexes across a stress gradient in the desert moss Syntrichia caninervis[J].The Bryologist,2005,108(2):183-193.
[27] 许红梅,尹本丰,李进,等.采自不同微生境的齿肋赤藓(Syntrichia caninervis)沙培植株生长与叶形态差异[J].中国沙漠,2015,35(2):373-379.
[28] Reynolds L A,McLetchie DN.Short distances between extreme microhabitats do not result in ecotypes in Syntrichia caninervis[J].Journal of Bryology,2011,33(2):148-153.
[29] Wurth M K R,Pelaez-Riedl S,Wright S J,et al.Non-structural carbohydrate pools in a tropical forest[J].Oecologia,2005,143(1):11-24.
[30] 潘庆民,韩兴国,白永飞,等.植物非结构性贮藏碳水化合物的生理生态学研究进展[J].植物学通报,2002,19(1):30-38.
[31] 郑云普,王贺新,娄鑫,等.木本植物非结构性碳水化合物变化及其影响因子研究进展[J].应用生态学报,2014,25(4):1188-1196.
[32] Guo Q X,Li J Y,Zhang Y X,et al.Species-specific competition and N fertilization regulate non-structural carbohydrate contents in two Larix species[J].Forest Ecology and Management,2016,364:60-69.
[33] 张立运,陈昌笃.论古尔班通古特沙漠植物多样性的一般特点[J].生态学报,2002,22(11):1923-1932.
[34] 周永斌,吴栋栋,于大炮,等.长白山不同海拔岳桦非结构碳水化合物含量的变化[J].植物生态学报,2009,33(1):118-124.
[35] 杜尧,韩轶,王传宽.干旱对兴安落叶松枝叶非结构性碳水化合物的影响[J].生态学报,2014,34(21):6090-6100.
[36] Wullschleger S D,Tschaplinski T J,Norby R J.Plant water relations at elevated CO2-implications for water-limited environments[J].Plant Cell and Environment,2002,25(2):319-331.
[37] Stark L R,Oliver MJ,Mishler B D,McLetchie D N:Generational differences in response to desiccation stress in the desert moss Tortula inermis[J].Annals of Botany,2007,99(1):53-60.
[38] 吴玉环,黄国宏,高谦,等.苔藓植物对环境变化的响应及适应性研究进展[J].应用生态学报,2001,12(6):943-946.
[39] 潘昕,邱权,李吉跃,等.干旱胁迫对青藏高原6种植物生理指标的影响[J].生态学报,2014,34(13):3558-3567.
[40] 吴楠,魏美丽,张元明.生物土壤结皮中刺叶赤藓质膜透性对脱水、复水过程的响应[J].自然科学进展,2009,19(9):942-951.
[41] 陈文佳,张楠,杭璐璐,等.干旱胁迫与复水过程中遮光对细叶小羽藓的生理生化影响[J].应用生态学报,2013,24(1):57-62.
[42] 赵福成,景立权,闫发宝,等.灌浆期高温胁迫对甜玉米籽粒糖分积累和蔗糖代谢相关酶活性的影响[J].作物学报,2013,39(9):1644-1651.
[43] 黄东亮,李双喜,廖青,等.植物蔗糖磷酸合成酶研究进展[J].中国生物工程杂志,2012,32(6):109-119.
[44] Cole H A,Newmaster S G,Bell F W,et al.Influence of microhabitat on bryophyte diversity in Ontario mixedwood boreal forest[J].Canadian Journal of Forest Research,2008,38(7):1867-1876.
[45] Hespanhol H,Seneca A,Figueira R,et al.Microhabitat effects on bryophyte species richness and community distribution on exposed rock outcrops in Portugal[J].Plant Ecology & Diversity,2011,4(2):251-264.
[46] Takala T,Kouki J,Tahvanainen T.Bryophytes and their microhabitats in coniferous forest pastures: should they be considered in the pasture management?[J].Biodiversity and Conservation,2014,23(12):3127-3142.
[47] Schmalholz M,Granath G.Effects of microhabitat and growth form on bryophyte mortality associated with leaf litter burial in a boreal spruce forest[J].Journal of Vegetation Science,2014,25(2):439-446.
[48] Bowker M A,Stark L R,McLetchie D N,et al.Sex expression,skewed sex ratios,and microhabitat distribution in the dioecious desert moss Syntrichia caninervis (Pottiaceae)[J].American Journal of Botany,2000,87(4):517-526.
