[1] Ding JL, Yu DL. Monitoring and evaluating spatial variability of soil salinity in dry and wet seasons in the Werigan-Kuqa Oasis, China, using remote sensing and electromagnetic induction instruments. Geoderma, 2014, 235/236: 316-322 [2] Zhao X (赵 宣), Hao Q-L (郝起礼), Sun Y-Y (孙婴婴). Spatial heterogeneity of soil salinization and its influencing factors in the typical region of the Mu Us Desert-Loess Plateau transitional zone, Northwest China. Chinese Journal of Applied Ecology (应用生态学报), 2017, 28(6): 1761-1768 (in Chinese) [3] Xu Y (许 艳), Pu L-J (濮励杰). The variation of land use pattern in tidal flat reclamation zones in Jiangsu coastal area: A case study of Rudong County of Jiangsu Province. Journal of Natural Resources (自然资源学报), 2014, 29(4): 643-652 (in Chinese) [4] Li X-L (李旭霖), Liu Q-H (刘庆花), Liu X-W (柳新伟), et al. Improving effect of different amendment treatments in coastal saline-alkali soil. Bulletin of Soil and Water Conservation (水土保持通报), 2015, 35(2): 219-224 (in Chinese) [5] Lehmann JD, Joseph S. Biochar for environmental management: Science, technology and implementation. Science and Technology, 2015, 25: 15801-15811 [6] Chen W-F (陈温福), Zhang W-M (张伟明), Meng J (孟 军), et al. Researches on biochar application technology. Engineering Sciences (中国工程科学), 2011, 13(2): 83-88 (in Chinese) [7] Glaser B, Lehmann J, Zech W. Ameliorating physical and chemical properties of highly weathered soils in the tropics with charcoal: A review. Biology and Fertility of Soils, 2002, 35: 219-230 [8] Liang B, Lehmann J, Solomon D, et al. Black carbon increases cation exchange capacity in soils. Soil Science Society of America Journal, 2006, 70: 1719-1730 [9] Steiner C, Glaser B, Teixeira WG, et al. Nitrogen retention and plant uptake on a highly weathered central Amazonian Ferralsol amended with compost and charcoal. Journal of Plant Nutrient and Soil Science, 2008, 171: 893-899 [10] Asai H, Samson BK, Stephan HM, et al. Biochar amendment techniques for upland rice production in Northern Laos. Field Crops Research, 2009, 111: 81-84 [11] Haefele SM, Konboon Y, Wongboon W, et al. Effects and fate of biochar from rice residues in rice-based systems. Field Crops Research, 2011, 121: 430-440 [12] Liu Y-X (刘玉学), Wang Y-F (王耀锋), Lyu H-H (吕豪豪), et al. Effects of biochar application on greenhouse gas emission from paddy soil and its physical and chemical properties. Chinese Journal of Applied Ecology (应用生态学报), 2013, 24(8): 2166-2172 (in Chinese) [13] Tian A-L (田阿林), Lei T (雷 涛), Zou Y-B (邹应斌), et al. Effects of biochar addition on growth and physiological characteristics and yield of rice. China Rice (中国稻米), 2018, 24(3): 25-29 (in Chinese) [14] Cao Y-T (曹雨桐), She D-L (佘冬立). Effects of biochar and PAM application on saline soil hydraulic pro-perties of coastal reclamation region. Chinese Journal of Applied Ecology (应用生态学报), 2017, 28(11): 3684-3690 (in Chinese) [15] Han F-P (韩凤朋), Zheng J-Y (郑纪勇), Li Z-B (李占斌), et al. Effect of PAM on soil physical properties and water distribution. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2010, 26(4):70-74 (in Chinese) [16] Yuan X-F (员学峰), Wu P-T (吴普特), Feng H (冯浩), et al. Role of polyacrylamide on soil structure and increasing yield. Research of Soil and Water Conservation (水土保持研究), 2002, 9(2): 55-58 (in Chinese) [17] Zhang W-M (张伟明), Meng J (孟 军), Wang J-Y (王嘉宇), et al. Effect of biochar on root morphological and physiological characteristics and yield in rice. Acta Agronomica Sinica (作物学报), 2013, 39(8): 1445-1451 (in Chinese) [18] Wang M-H (王明华), Li M (李 明), Gao Q (高 祺), et al. Effects of amendments on growth and physiological characteristics of maize seedlings on saline-alkali soil. Chinese Journal of Ecology (生态学杂志), 2016, 35(11): 2966-2973 (in Chinese) [19] Zhang S-R (张守仁). A discussion on chlorophyll fluorescence kinetics parameters and their significance. Bulletin of Botany (植物学通报), 1999, 16(4): 444-448 (in Chinese) [20] Chen Y (陈 盈), Zhang M-L (张满利), Liu X-P (刘宪平), et al. Effects of biochar on chlorophyll fluorescence at full heading stage and yield components of rice. Crops (作物杂志), 2016(3): 94-98 (in Chinese) [21] Zhao L-Y (赵丽英), Deng X-P (邓西平), Shan L (山 仑). Effects of osmotic stress on chlorophyll fluorescence parameters of wheat seedling. Chinese Journal of Applied Ecology (应用生态学报), 2005, 16(7): 1261-1264 (in Chinese) [22] Ralph PJ, Gademann R. Rapid light curves: A powerful tool to assess photosynthetic activity. Aquatic Botany, 2005, 82: 222-237 [23] Guo X-P (郭相平), Wang F (王 甫), Wang Z-C (王振昌), et al. Effects of irrigation modes on yield and chlorophyll fluorescence characteristics after heading stage of rice. Journal of Irrigation and Drainage (灌溉排水学报), 2017, 36(3): 1-6 (in Chinese) [24] Zhang Z-X (张忠学), Zheng E-N (郑恩楠), Wang C-M (王长明), et al. Effect of different water and nitrogen levels on chlorophyll fluorescence parameters and photosynthetic characteristics of rice. Transactions of the Chinese Society for Agricultural Machinery (农业机械学报), 2017, 48(6): 176-183 (in Chinese) [25] Oguntunde PG, Abiodun BJ, Ajayi AE, et al. Effects of charcoal production on soil physical properties in Ghana. Journal of Plant Nutrition and Soil Science, 2008, 171: 591-596 [26] Wu Z-Z (吴志庄), Gao G-B (高贵宾), Ou J-D (欧建德), et al. Effects of the application of biochar-based fertilizer on chlorophyll contents and photosynthesis & fluorescence characteristics of Tetrastigma hemsleyanum under Moso Bamboo Forest. Journal of Northwest Forestry University (西北林学院学报), 2017, 32(5): 59-63 (in Chinese) [27] Yang Y-H (杨永辉), Wu J-C (武继承), Zhao S-W (赵世伟), et al. Effects of PAM on soil retention water. Journal of Northwest A&F University (Natural Science) (西北农林科技大学学报: 自然科学版), 2007, 35(12): 120-124 (in Chinese) [28] Zhu H (朱 海), Hu S-J (胡顺军), Liu X (刘 翔), et al. Spatio-temporal variations of soil moisture in the root zone of Haloxylon ammodendron at different life stages. Acta Ecologica Sinica (生态学报), 2017, 37(3): 860-867 (in Chinese) [29] van Zwieten L, Kimber S, Morris S, et al. Effects of biochar from slow pyrolysis of papermill waste on agronomic performance and soil fertility. Plant and Soil, 2010, 327: 235-246 [30] Fang B (房 彬), Li X-Q (李心清), Zhao B (赵斌), et al. Influence of biochar on soil physical and chemical properties and crop yields in rainfed field. Ecology and Environment Sciences (生态环境学报), 2014, 23(8): 1292-1297 (in Chinese) [31] Zhou J-S (周劲松), Yan P (闫 平), Zhang W-M (张伟明), et al. Effects of biochar on seedling growth, nutrient absorption of japonica rice and mineral element contents of substrate soil. Chinese Journal of Ecology (生态学杂志), 2016, 35(11): 2952-2959 (in Chinese) [32] Liu S-J (刘世杰), Dou S (窦 森). The effects of black carbon on growth of maize and the absorption and leaching of nutrients. Journal of Soil and Water Conservation (水土保持学报), 2009, 23(1): 79-82 (in Chinese) [33] Zhao P-X (肇普兴), Xia H-J (夏海江). The main role for polyacrylamide to increase yield. Research of Soil and Water Conservation (水土保持研究), 1997, 4(4): 98-104 (in Chinese) [34] Xing R (邢 睿), Huang J-G (黄建国), Jin Y (晋艳), et al. Influence of crosslinked poluacrylate amine and AM fungi on growth, nutrient uptake and physiological indices of flue-cured tobacco seedlings. Journal of Soil and Water Conservation (水土保持学报), 2010, 24(4): 234-237 (in Chinese) |