[1] Alamusa (阿拉木萨), Pei T-F (裴铁璠), Jiang D-M (蒋德明). A study on soil moisture content and plantation fitness for artificial sand-fixation forest in Horqin sandy land. Advances in Water Science (水科学进展), 2005, 16(3): 426-431 (in Chinese) [2] Li X-R (李新荣), Zhang Z-S (张志山), Huang L (黄 磊), et al. Review of the ecohydrological processes and feedback mechanisms controlling sand-binding vegetation systems in sandy desert regions of China. Chinese Science Bulletin (科学通报), 2013, 58(5-6): 397-410 (in Chinese) [3] Ehleringer JR, Dawson TE. Water uptake by plants: Perspectives from stable isotope composition. Plant, Cell and Environment, 1992, 15: 1073-1082 [4] Lin G-H (林光辉). Stable Isotope Ecology. Beijing: Higher Education Press, 2013 (in Chinese) [5] Ehleringer JR, Phillips SL, Schuster WS, et al. Differential utilization of summer rains by desert plants. Oecologia, 1991, 88: 430-434 [6] Roux XL, Bariac T, Mariotti A. Spatial partitioning of the soil-water resource between grass and shrub components in a West-African humid savanna. Oecologia, 1995, 104: 147-155 [7] Meinzer FC, Andrade JL, Goldstein G, et al. Partitioning of soil water among canopy trees in a seasonally dry tropical forest. Oecologia, 1999, 121: 293-301 [8] Schulze ED, Mooney HA, Sala OE, et al. Rooting depth, water availability, and vegetation cover along an aridity gradient in Patagonia. Oecologia, 1996, 108: 503-511 [9] Nippert JB, Knapp AK. Linking water uptake with rooting patterns in grassland species. Oecologia, 2007, 153: 261-272 [10] Mensforth LJ, Thorburn PJ, Tyerman SD, et al. Sources of water used by riparian Eucalyptus camaldulensis overlying highly saline groundwater. Oecologia, 1994, 100: 21-28 [11] Ewe SM, Sternberg LD, Childers DL. Seasonal plant water uptake patterns in the saline southeast Everglades ecotone. Oecologia, 2007, 152: 607-616 [12] Asbjornsen H, Shepherd G, Helmers M, et al. Seasonal patterns in depth of water uptake under contrasting annual and perennial systems in the Corn Belt Region of the Midwestern US. Plant and Soil, 2008, 308: 69-92 [13] Flanagan LB, Ehleringer JR. Stable isotope composition of stem and leaf water: Applications to the study of plant water-use. Functional Ecology, 1991, 5: 270-277 [14] Zhao X-Y (赵学勇), Zhang C-M (张春民), Zuo X-A (左小安), et al. Challenge to the desertification reversion in Horqin sandy land. Chinese Journal of Applied Ecology (应用生态学报), 2009, 20(7): 1559-1564 (in Chinese) [15] Zhao W-Z (赵文智). Impact of plantation on spatial heterogeneity of soil moisture in Horqin sandy land. Acta Pedologica Sinica (土壤学报), 2002, 39(1): 113-119 (in Chinese) [16] Li X-H (李雪华), Jiang D-M (蒋德明), Alamusa (阿拉木萨), et al. A comparative study on drought-resistance of four plant species in Kerqin sandy land. Chinese Journal of Applied Ecology (应用生态学报), 2002, 13(11): 1385-1388 (in Chinese) [17] Shi X-H (史小红), Liu T-X (刘廷玺), Li C-Y (李畅游), et al. Analysis of soil water characteristics in zone of main plant roots in low sand dune of Horqin sandy land. Journal of Inner Mongolia Agricultural University (Natural Science) (内蒙古农业大学学报:自然科学版), 2003, 24(3): 23-29 (in Chinese) [18] Alamusa (阿拉木萨), Jiang D-M (蒋德明), Pei T-F (裴铁璠). Relationship between root system distribution and soil moisture of artificial Caragana microphylla ve-getation in sandy land. Journal of Soil and Water Conservation (水土保持学报), 2003, 17(3): 78-81 (in Chinese) [19] Alamusa (阿拉木萨), Jiang D-M (蒋德明), Li X-H (李雪华), et al. Study on the dynamic change of soil moisture content in some typical plantations in Horqin sand land. Arid Zone Research (干旱区研究), 2007, 24(5): 604-609 (in Chinese) [20] Niu C-Y (牛存洋), Alamusa (阿拉木萨), Liu Y (刘亚), et al. The characteristics of sand-fixation plantations roots and soil moisture in Horqin sandy land. Journal of Arid Land Resources and Environment (干旱区资源与环境), 2015, 29(10): 106-111 (in Chinese) [21] Song LN, Zhu JJ, Li MC, et al. Water use patterns of Pinus sylvestris var. mongolica trees of different ages in a semiarid sandy land of Northeast China. Environmental and Experimental Botany, 2016, 129: 94-107 [22] Cristina MG, Dawson TE, Nicolas E, et al. Isotopes reveal contrasting water use strategies among coexisting plant species in a Mediterranean ecosystem. New Phyto-logist, 2012, 196: 489-496 [23] Huang L, Zhang ZS. Stable isotopic analysis on water utilization of two xerophytic shrubs in a revegetated de-sert area: Tengger Desert, China. Water, 2015, 7: 1030-1045 [24] Zhou H-Y (周海燕), Zhao A-F (赵爱芬). The physiological state of two variety poplar trees in Horqin sandy land. Journal of Desert Research (中国沙漠), 1999, 19(S1): 73-75 (in Chinese) [25] Alamusa (阿拉木萨), Jiang D-M (蒋德明), Fan S-X (范士香), et al. Soil moisture dynamics under artificial Caragana microphylla shrub. Chinese Journal of Applied Ecology (应用生态学报), 2002, 13(12): 1537-1540 (in Chinese) [26] Zhou X-Y (周学雅), Yang T-T (杨婷婷), Wang A-Z (王安志), et al. Soil water distribution before and after a rainfall event at sand dune-inter dunes in Horqin Sandy Land, Northern China. Chinese Journal of Ecology (生态学杂志), 2017, 36(1): 157-163 (in Chinese) [27] Shi X-H (史小红). Analysis about Plant Evolution Characteristics and Tests of Soil Properties on Horqin Sandy Land. Master Thesis. Hohhot: Inner Mongolia Agricultural University, 2004 (in Chinese) [28] Liu W-R (刘文茹), Peng X-H (彭新华), Shen Y-J (沈业杰), et al. Measurements of hydrogen and oxygen isotopes in liquid water by isotope ratio infrared spectroscopy (IRIS) and their spectral contamination corrections. Chinese Journal of Ecology (生态学杂志), 2013, 32(5): 1181-1186 (in Chinese) [29] Phillips DL, Gregg JW. Source partitioning using stable isotopes: Coping with too many sources. Oecologia, 2003, 136: 261-269 [30] Ellsworth PZ, Williams DG. Hydrogen isotope fractionation during water uptake by wood xerophytes. Plant and Soil, 2007, 291: 93-107 [31] Phillips DL, Newsome SD, Gregg JW. Combining sources in stable isotope mixing models: Alternative methods. Oecologia, 2005, 144: 520-527 [32] Yue X-F (岳祥飞), Zhang T-H (张铜会), Zhao X-Y (赵学勇), et al. Characteristics of precipitation on growing season in the Horqin Sandy Land: A case study in Naiman, Inner Mongolia, China. Journal of Desert Research (中国沙漠), 2016, 36(1): 118-123 (in Chinese) [33] Liu Y (刘 亚), Alamusa (阿拉木萨), Cao J (曹 静). Characteristics of rainfall partitioning by Pinus sylvestris var. mongolica forest canopy in Horqin Sandy Land, northern China. Chinese Journal of Ecology (生态学杂志), 2016, 35(8): 2046-2055 (in Chinese) [34] Pan Y-X (潘颜霞), Wang X-P (王新平), Zhang Y-F (张亚峰), et al. Influence of topography on formation characteristics of hygroscopic and condensate water in Shapotou, Ningxia, China. Journal of Desert Research (中国沙漠), 2014, 34(1): 118-124 (in Chinese) [35] Wang J (王 娟), He S-F (贺山峰), Qiu L-L (邱兰兰), et al. Soil moisture dynamics and evapotranspiration of Caragana microphylla communities in growing season on Horqin Sandy Land. Bulletin of Soil and Water Conservation (水土保持通报), 2009, 29(6): 103-106 (in Chinese) [36] Zhou H (周 海), Zheng X-J (郑新军), Tang L-S (唐立松), et al. Analysis on seasonal dynamics of δ18O and δD in soil water at a saline desert site in the Southeastern Junggar Basin. Journal of Desert Research (中国沙漠), 2014, 34(1): 162-169 (in Chinese) [37] Zheng X-R (郑肖然), Zhao G-Q (赵国琴), Li X-Y (李小雁), et al. Application of stable hydrogen isotope in study of water sources for Caragana microphylla bushland in Nei Mongol. Chinese Journal of Plant Ecology (植物生态学报), 2015, 39(2): 184-196 (in Chinese) [38] Zhao L-J (赵良菊), Xiao H-L (肖洪浪), Cheng G-D (程国栋), et al. A preliminary study of water sources of riparian plants in the lower reaches of the Heihe Basin. Acta Geoscientica Sinica (地球学报), 2008, 29(6): 709-718 (in Chinese) [39] Zhou H (周 海), Zheng X-J (郑新军), Tang L-S (唐立松), et al. Differences and similarities between water sources of Tamarix ramosissima, Nitraria sibirica and Reaumuria soongorica in the southeastern Junggar Basin. Chinese Journal of Plant Ecology (植物生态学报), 2013, 37(7): 665-673 (in Chinese) [40] Zeng Q (曾 巧), Ma J-Y (马剑英). Plant water sources of different habitats and its environmental indication in Heihe River basin. Journal of Glaciology and Geocryology (冰川冻土), 2013, 35(1): 148-155 (in Chinese) [41] Niu C-Y (牛存洋), Alamusa (阿拉木萨), Zong Q (宗 芹), et al. Allocation patterns of above- and below-ground biomass of Caragana microphylla in Horqin Sandy Land, North China. Chinese Journal of Ecology (生态学杂志), 2013, 32(8): 1980-1986 (in Chinese) [42] Li K-F (李凯锋), Luo Y-Y (罗于洋), Zhang H-L (张海龙), et al. The relations between root distribution of Artemisia halodendron and soil water in Horqin. Journal of Arid Land Resources and Environment (干旱区资源与环境), 2012, 26(8): 167-171 (in Chinese) [43] Zhang J-Y (张继义), Zhao H-L (赵哈林). Review on the study of vegetation stability. Chinese Journal of Eco-logy (生态学杂志), 2003, 22(4): 42-48 (in Chinese) [44] Zeng D-H (曾德慧), Jiang F-Q (姜凤岐), Fan Z-P (范志平), et al. Stability of Mongolian pine plantations on sandy land. Chinese Journal of Applied Ecology (应用生态学报), 1996, 7(4): 337-343 (in Chinese) [45] Lei Z-Y (雷泽勇), Liu X-L (刘心玲), Zhou K (周凯), et al. Plant water deficit and moisture restoration in artificial forest of sandy land in northwestern Liaoning Province. Journal of Soil and Water Conservation (水土保持学报), 2009, 23(4): 86-90 (in Chinese) [46] Wu X-Y (吴祥云), Jiang F-Q (姜凤岐), Li X-D (李晓丹), et al. Decline regularity and causes of Pinus sylvestris var. mongolica plantation on sandy land. Chinese Journal of Applied Ecology (应用生态学报), 2004, 15(12): 2225-2228 (in Chinese) [47] Tang H-P (唐海萍), Shi P-J (史培军), Li Z-Z (李自珍). Variation in growth characteristics among different planting patterns of Artemisia ordosica and Caragana korshinskii under varying water availability regimes. Chinese Journal of Plant Ecology (植物生态学报), 2001, 25(1): 6-10 (in Chinese) |