[1] Xia J-B (夏江宝), Zhao X-M (赵西梅), Zhao Z-G (赵自国), et al. Migration characteristics of soil water and salt and their interaction under different groundwater levels. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2015, 31(15): 93-100 (in Chinese) [2] Ma Y-L (马玉蕾), Wang D (王 德), Liu J-M (刘俊民), et al. Relationships between typical vegetations, soil salinity, and groundwater depth in the Yellow River Delta of China. Chinese Journal of Applied Ecology (应用生态学报), 2013, 24(9): 2423-2430 (in Chinese) [3] Mancarella S, Orsini F, Van Oosten MJ, et al. Leaf sodium accumulation facilitates salt stress adaptation and preserves photosystem functionality in salt stressed Ocimum basilicum. Environmental and Experimental Botany, 2016, 130: 162-173 [4] Nair PKR. Classification of agroforestry systems. Agroforestry Systems, 1985, 3: 97-128 [5] Xia J-B (夏江宝), Chen Y-P (陈印平), Wang G-X (王贵霞), et al. Distribution characteristics of soil carbon and nitrogen under different afforestation modes of saline land in the Yellow River Delta. Acta Ecologica Sinica (生态学报), 2015, 35(14): 4633-4641 (in Chinese) [6] Monteith JL, Ong CK, Corlett JE. Microclimatic interactions in agroforestry systems. Forest Ecology and Mana-gement, 1991, 45: 31-44 [7] Ong CK, Corlett JE, Singh RP. Above and belowground interaction in agroforestry systems. Forest Ecology and Management, 1991, 45: 45-57 [8] Cai C-F (蔡崇法), Wang F (王 峰), Ding S-W (丁树文), et al. Nutrients competition and its action mecha-nism between component parts in inter-cropping systems and agroforestry. Research of Soil and Water Conservation (水土保持研究), 2000, 7(3): 219-222 (in Chinese) [9] Jose S, Gillespie AR, Pallardy SG. Interspecific interactions in temperate agroforestry. Agroforestry Systems, 2004, 61: 237-255 [10] Rao MR, Nair PKR, Ong CK. Biophysical interactions in tropical agroforestry systems. Agroforestry Systems, 1997, 38: 3-50 [11] Yun L (云 雷), Bi H-X (毕华兴), Tian X-L (田晓玲), et al. Main interspecific competition and land productivity of fruit-crop intercropping in loess region of West Shanxi. Chinese Journal of Applied Ecology (应用生态学报), 2011, 22(5): 1225-1232 (in Chinese) [12] Zhang L-Y (张雷一), Zhang J-R (张静茹), Liu F (刘 方), et al. A review of ecological benefits of silvopasture systems. Pratacultural Science (草业科学), 2014, 31(9): 1789-1797 (in Chinese) [13] Qin S-G (秦树高), Wu B (吴 斌), Zhang Y-Q (张宇清). A review of above-ground interactions in silvopasture systems. Acta Ecologica Sinica (生态学报), 2010, 30(13): 3616-3627 (in Chinese) [14] Bao S-D (鲍士旦). Soil and Agricultural Chemistry Analysis. Beijing: China Agriculture Press, 2000 (in Chinese) [15] Whittaker RH. Vegetation of the Siskiyou Mountains, Oregon and California. Ecological Monographs, 1960, 30: 279-338 [16] Shi P-L (石培礼), Li W-H (李文华). Quantitative methodologies for ecotone determination. Acta Ecologica Sinica (生态学报), 2002, 22(4): 586-592 (in Chinese) [17] Li L-G (李丽光), He X-Y (何兴元), Li X-Z (李秀珍). Research advances in depth of edge influence of landscape boundary. Chinese Journal of Applied Ecology (应用生态学报), 2006, 17(5): 935-938 (in Chinese) [18] Li L-G (李丽光), He X-Y (何兴元), Li X-Z (李秀珍), et al. Depth of edge influence on agriculture-fore-stry boundary in arid valley of upper reaches of Minjiang River, China. Chinese Journal of Applied Ecology (应用生态学报), 2004, 15(10): 1804-1808 (in Chinese) [19] You W-Z (尤文忠), Zeng D-H (曾德慧), Liu M-G (刘明国), et al. Spatial heterogeneity of soil moisture after raining at forest-grassland landscape boundary in hilly area of loess plateau. Chinese Journal of Applied Ecology (应用生态学报), 2005, 16(9): 1951-1956 (in Chinese) [20] Chao L-M (朝鲁蒙), Wang J-X (王进鑫), Hou L (侯 琳), et al. Distribution of soil water distance of edge influence at different vegetation compound boundary. Science of Soil and Water Conservation (中国水土保持科学), 2007, 5(3): 28-32 (in Chinese) [21] Xu W-D (徐文铎). Kira’s temperature indices and their application in the study of vegetation. Chinese Journal of Ecology (生态学杂志), 1985, 17(3): 35-39 (in Chinese) [22] Gómez-Plaza A, Martínez-Mena M, Albaladejo J, et al. Factors regulating spatial distribution of soil water content in small semiarid catchments. Journal of Hydrology, 2001, 253: 211-226 [23] Wang J, Fu BJ, Qiu Y, et al. Geostatistical analysis of soil moisture variability on Da Nangou catchment of the Loess Plateau, China. Environmental Geology, 2001, 41: 113-120 [24] Zhang P-R (张鹏锐), Li X-L (李旭霖), Cui D-J (崔德杰), et al. Characteristics of water and salt under different land use in heavy coastal saline-alkaline land. Journal of Soil and Water Conservation (水土保持学报), 2015, 29(2): 117-121 (in Chinese) [25] Wang Z-R (王卓然), Zhao G-X (赵庚星), Gao M-X (高明秀), et al. Spatial variation of soil water and salt and microscopic variation of soil salinity in summer in typical area of the Yellow River Delta in Kenli County. Acta Ecologica Sinica (生态学报), 2016, 36(4): 1040-1049 (in Chinese) [26] Wang D (王 丹), Bi H-X (毕华兴), Xu H-S (许华森), et al. The dynamic change and the competition area of soil moisture in apple-peanut intercropping system. Agricultural Research in the Arid Areas (干旱地区农业研究), 2018, 36(1): 89-94 (in Chinese) [27] Gautam MK, Mead DJ, Chang SX, et al. Spatial variation and understory competition effect of Pinus radiata fine roots in a silvopastoral system in New Zealand. Agroforestry Systems, 2002, 55: 89-98 [28] Roux X, 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 [29] Dulormne M, Sierra J, Bonhomme R, et al. Seasonal changes in tree-grass complementarity and competition for water in a subhumid tropical silvopastoral system. European Journal of Agronomy, 2004, 21: 311-322 [30] Lyu Z-Z (吕真真), Yang J-S (杨劲松), Liu G-M (刘广明), et al. Relationship between soil salinization and groundwater characteristics in the Yellow River Delta. Acta Pedologica Sinica (土壤学报), 2017, 54(6): 1377-1385 (in Chinese) [31] Li S-X (李淑霞), Liu Y-B (刘亚斌), Zhong P (钟鹏), et al. Soil salt reduction effect of four herbaceous and shrubby species in the Xining Basin, Qinghai Pro-vince. Arid Zone Research (干旱区研究), 2019, 36(1): 147-158 (in Chinese) [32] Fountoulakis MS, Sabathianakis G, Kritsotakis I, et al. Halophytes as vertical-flow constructed wetland vegetation for domestic wastewater treatment. Science of the Total Environment, 2017, 583: 432-439 [33] Hasanuzzaman M, Nahar K, Alam MM, et al. Potential use of halophytes to remediate saline soils. BioMed Research International, 2014, 2014: 1-12 [34] He Z-J (何子建), Shi W-J (史文娟), Yang J-Q (杨军强). Water and salt transport and desalination effect of halophytes intercropped cotton field with drip irrigation under film. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2017, 33(23): 129-138 (in Chinese) |