[1] Zhang Y M, Chen J, Wang X Q, et al. The distribution patterns of biological soil crust in Gurbantunggut Desert. Acta Geographica Sinica, 2005, 60(1): 53-60. 张元明, 陈晋, 王雪芹, 等. 古尔班通古特沙漠生物结皮的分布特征. 地理学报, 2005, 60(1): 53-60. [2] Zhao Y G, Xu M X, Wang Q J, et al. Impact of biological soil crust on soil physical and chemical properties of rehabilitated grassland in Hilly loess plateau, China. Journal of Natural Resources, 2006, 21(3): 441-448. 赵允格, 许明祥, 王全九, 等. 黄土丘陵区退耕地生物结皮对土壤理化性状的影响. 自然资源学报, 2006, 21(3): 441-448. [3] Zhang J H, Wu B, Jia Z Y, et al. Pattern of biological soil crust and its driving factors under Artemisia ordosica in Mu Us sandy land. Forest Research, 2010, 23(6): 866-871. 张军红, 吴波, 贾子毅, 等. 毛乌素沙地油蒿植冠下生物结皮分布特征及其影响因素研究. 林业科学研究, 2010, 23(6): 866-871. [4] Zhao Y, Chen Y L, Xu B X.Effect of degradation stage of Artemisia ordosica on colonization and development of biological soil crusts. Journal of Desert Research, 2016, 34(4): 983-989. 赵洋, 陈永乐, 徐冰鑫. 油蒿(Artemisia ordosica)退化阶段对生物土壤结皮拓殖和发育的影响. 中国沙漠, 2016, 36(4): 983-989. [5] Guo Y R, Zhao H L, Zuo X A, et al. Crust development and subsurface soil properties under dominant shrubs in the process of dune restoration Horqin sand land. Environmental Science, 2008, 29(4): 1027-1034. 郭轶瑞, 赵哈林, 左小安, 等. 科尔沁沙地沙丘恢复过程中典型灌丛下结皮发育特征及表层土壤特性. 环境科学, 2008, 29(4): 1027-1034. [6] Zhao H L, Zhao X Y, Zhang T H.Restoration process and mechanism of Horqin sand desertification. Beijing: China Ocean Press, 2003. 赵哈林, 赵学勇, 张铜会. 科尔沁沙地沙漠化过程及其恢复机理. 北京: 海洋出版社, 2003. [7] Yan D R.The effects of biological crusts on the nutrient absorption of vascular plants. Journal of Arid Land Resources and Environment, 2009, 23(10): 177-181. 闫德仁. 沙漠生物结皮对维管植物养分吸收的影响. 干旱区资源与环境, 2009, 23(10): 177-181. [8] Zhang Y M, Pan H X, Pan B R.Distribution characteristics of biological crust on sand dune surface in Gurbantunggut desert, Xinjiang. Journal of Soil and Water Conservation, 2004, 4: 61-64. 张元明, 潘惠霞, 潘伯荣. 古尔班通古特沙漠不同地貌部位生物结皮的选择性分布. 水土保持学报, 2004, 4: 61-64. [9] Dadkhah A.Phytotoxic effect of aqueous extract of eucalyptus, sunflower and sugar beet on seed germination, growth and photosynthesis of Amaranthus retroflexus. Allelopathy, 2012, 29(2): 23-35. [10] Wang C Q, Liu Q, Li L.Isolation and identification of ethylether extract from Casuarina equisetifolia. Forestry Science & Technology, 2011, 36(1): 30-33. 王春晴, 刘强, 李蕾. 木麻黄乙醚浸提液的分离及鉴定. 林业科技, 2011, 36(1): 30-33. [11] Lin W X.Study on regular response of Casuarina self-allelopathy. Fuzhou: Fujian Agriculture and Forestry University, 2005. 林武星.木麻黄(Casuarina equisetifolia)自身他感作用响应规律的研究. 福州: 福建农林大学, 2005. [12] Chen C D, Zhang L Y, Hu W K.The basic characteristics of plant communities, flora and their distribution, the sand district of Gurbantunggut. Acta Phytoecology and Geobotanic Sinica, 1983, 7(2): 89-99. 陈昌笃, 张立运, 胡文康. 古尔班通古特沙漠的沙地植物群落、区系及其分布的基本特征. 植物生态学与地植物学丛刊, 1983, 7(2): 89-99. [13] Xia Y, Zhang L Y, Yang W K, et al. The vegetation and its features in the desert grass land nature reserve of Xinjiang. Arid Zone Research, 1997, 14(3): 41-47. 夏阳, 张立运, 杨维康, 等. 新疆荒漠类草地自然保护区的植被及其特征. 干旱区研究, 1997, 14(3): 41-47. [14] Han H Y.Biological soil crust carbon emission and its effects on soil respiration in alpine sandy land. Beijing: Chinese Academy of Forestry, 2014. 韩海燕. 高寒沙地生物结皮碳释放及其对土壤呼吸的影响. 北京: 中国林业科学研究院, 2014. [15] Wu L, Su Y G, Zhang Y M.Effects of simulated precipitation on apparent carbon flux of biologically crusted soils in the Gurbantunggut desert in Xinjiang, Northwestern China. Acta Ecologica Sinica, 2012, 32(13): 4103-4113. 吴林, 苏延桂, 张元明. 模拟降水对古尔班通古特沙漠生物结皮表观土壤碳通量的影响. 生态学报, 2012, 32(13): 4103-4113. [16] Yan D R, Yang J P, An X L, et al. Report of crust sand fixation by alga. Journal of Arid Land Resources and Environment, 2004, 18(5): 147-150. 闫德仁, 杨俊平, 安晓亮, 等. 荒漠藻固沙结皮试验研究初报. 干旱区资源与环境, 2004, 18(5): 147-150. [17] Zhao J C, Huang S L, Li M, et al. Experimental studies on the characteristics of gemma development in Barbula indica. Bulletin of Botanic Research, 2005, 25(2): 169-172. 赵建成, 黄士良, 李敏, 等. 小扭口藓(Barbula indica)芽孢发育特征的实验研究. 植物研究, 2005, 25(2): 169-172. [18] Nie H L, Wu N, Liang S M, et al. Effects of different sand burial depths on the growth of fragments of Tortula desertorum. Arid Zone Research, 2006, 23(1): 66-70. 聂华丽, 吴楠, 梁少民, 等. 不同沙埋深度对刺叶墙藓植株碎片生长的影响. 干旱区研究, 2006, 23(1): 66-70. [19] Bu C F, Yang J Z, Zhang X C.Cultivation experiment of moss plants crusts from biological soil crusts in Mu Us sandy land. Journal of Desert Research, 2011, 31(4): 937-941. 卜崇峰, 杨建振, 张兴昌. 毛乌素沙地生物结皮层藓类植物培育试验研究. 中国沙漠, 2011, 31(4): 937-941. [20] Zuo X A, Zhao X Y, Zhao H L, et al. Effects of shrub on understory herbaceous plants and soil properties in the restoration processes of degraded vegetation in Horqin sand land. Ecology and Environmental Sciences, 2009, 18(2): 643-647. 左小安, 赵学勇, 赵哈林, 等. 沙地退化植被恢复过程中灌木发育对草本植物和土壤的影响. 生态环境学报, 2009, 18(2): 643-647. [21] Duncan D H, Vesk P A.Biological soil crust distribution is related to patterns of fragmentation and land use in a dryland agricultural landscape of southern Australia. Landscape Ecology, 2008, 23: 1093-1105. [22] Wang J Z, Zhang B C, Zhang Y M, et al. Effects of shrubs of Ephedra distachya and Artemisia arenaria on algal distribution. Arid Zone Research, 2013, 30(2): 271-275. 王敬竹, 张丙昌, 张元明, 等. 蛇麻黄和沙蒿两种典型灌丛对藻类分布的影响. 干旱区研究, 2013, 30(2): 271-275. |