[1] Wu D (吴 丹), Wang S-G (王式功), Shang K-Z (尚可政). Progress in research of acid rain in China. Arid Meteorology (干旱气象), 2006, 24(2): 70-77 (in Chinese) [2] Yi J-X (易杰祥), Lv L-X (吕亮雪), Liu G-D (刘国道). Research on soil acidification and acidic soil’s melioration. Journal of South China University of Tropical Agriculture (华南热带农业大学学报), 2006, 12(1): 23-28 (in Chinese) [3] Likens GE, Driscoll CT, Buso DC. Long-term effects of acid rain: Response and recovery of a forest ecosystem. Science, 1996, 272: 244-246 [4] Liao B-H (廖柏寒), Jiang Q (蒋 青). Acid deposition and acidification of forest soils in southern China. Agro-Environment Protection (农业环境保护), 2002, 21(2): 110-114 (in Chinese) [5] Fu X-P (付晓萍), Tian D-L (田大伦). Research progress of the effect of acid rain on plant. Journal of Northwest Forestry University (西北林学院学报), 2006, 21(4): 23-27 (in Chinese) [6] Liu K-H (刘可慧), Peng S-L (彭少麟), Mo J-M (莫江明), et al. The process and mechanism of rain deposition upon forest plants. Ecology and Environment (生态环境), 2005, 14(6): 953-960 (in Chinese) [7] Tang S-S (唐仕姗), Yang W-Q (杨万勤), Xiong L (熊 莉), et al. C, N and P stoichiometric characteri-stics of different root orders for three dominant tree species in subalpine forests of western Sichuan, China. Chinese Journal of Applied Ecology (应用生态学报), 2015, 26(2): 363-369 (in Chinese) [8] Liu J-X (刘菊秀). Current and future study about effects of acid deposition on forest ecosystems. Chinese Journal of Ecology (生态学杂志), 2003, 22(5): 113-117 (in Chinese) [9] Tong G-H (童贯和), Liang H-L (梁惠玲). Effects of simulated acid rain and its acidified soil on soluble sugar and nitrogen contents of wheat seedlings. Chinese Journal of Applied Ecology (应用生态学报), 2005, 16(8): 1487-1492 (in Chinese) [10] Koerselman W, Meuleman AF. The vegetation N:P ratio: A new tool to detect the nature of nutrient limitation. Journal of Applied Ecology, 1996, 33: 1441-1450 [11] Chen FS, Feng X, Liang C. Endogenous versus exogenous nutrient affects C, N, and P dynamics in decomposing litters in mid-subtropical forests of China. Ecological Research, 2012, 27: 923-932 [12] Liu G-S (刘广深), Xu Z-J (许中坚), Xu W-B (徐文彬), et al. Decline of available phosphorus in soil affected by ‘acid rain’. Acta Mineralogica Sinica (矿物学报), 2002, 22(1): 35-38 (in Chinese) [13] Chen X (陈 希), Chen F-S (陈伏生), Ye S-Q (叶素琼), et al. Responses of rhizosphere nitrogen and phosphorus transformations to different acid rain intensities in a hilly red soil tea plantation. Chinese Journal of Applied Ecology (应用生态学报), 2015, 26(1): 1-8 (in Chinese) [14] Ling D-J (凌大炯), Zhang J-E (章家恩), Ouyang Y (欧阳颖). Advancements in research on impact of acid rain on soil ecosystem: A review. Soils (土壤), 2007, 39(4): 514-521 (in Chinese) [15] Zhang H (张 华), Yang Y-K (杨永奎), Xie D-T (谢德体), et al. Effect of acid rain on leaching loss of nitrogen and phosphorus. Journal of Soil and Water Conservation (水土保持学报), 2007, 21(1): 22-25 (in Chinese) [16] Feng Z-W (冯宗炜), Zhang J-W (张家武), Chen C-Y (陈楚莹). Injuries to tree leaves by simulated acid rain and resistant nature of the trees. Environment Science (环境科学), 1988, 9(5): 30-33 (in Chinese) [17] Li J (李 敬), Hu X-F (胡小飞), Duan X-H (段小华), et al. Effects of simulated acid rain and aluminum addition on growth and physiological and biochemical characteristics of tea plants. Acta Agriculturae Universitatis Jiangxiensis (江西农业大学学报), 2012, 34(6): 1186-1192 (in Chinese) [18] Zhu YX, Chen FX. The magnesium nutrition of tea garden on hilly red soil of southern China. Journal of Tea Science, 2000, 20: 95-100 [19] Zeng K (曾 凯), Ju W-M (居为民), Tu L-Y (涂良瑛), et al. Characteristics of acid rain in the suburb and urban areas of Nanchang during 2006 and 2007. Journal of Agro-Environment Science (农业环境科学学报), 2010, 29(3): 609-612 (in Chinese) [20] Lee JJ, Neely GE, Perrigan SC, et al. Effect of simulated sulfuric acid rain on yield, growth and foliar injury of several crops. Environmental and Experimental Botany, 1981, 21: 171-185 [21] Liu Y (刘 煜), Hu X-F (胡小飞), Chen F-S (陈伏生), et al. Temperature sensitivity of CO2 fluxes from rhizosphere soil mineralization and root decomposition in Pinus massoniana and Castanopsis sclerophylla forests. Chinese Journal of Applied Ecology (应用生态学报), 2013, 24(6): 1501-1508 (in Chinese) [22] Fang XM, Chen FS, Hu XF. Aluminum and nutrient interplay across an age-chronosequence of tea plantations within a hilly red soil farm of subtropical China. Soil Science and Plant Nutrition, 2014, 60: 448-459 [23] Singh AJ, Byerlee D. Relative variability in wheat yields across countries and over time. Journal of Agricultural Economics, 1990, 41: 21-32 [24] Chen FS, Niklas KJ, Liu Y, et al. Nitrogen and phosphorus additions alter nutrient dynamics but not resorption efficiencies of Chinese fir leaves and twigs differing in age. Tree Physiology, 2015, 35: 1106-1117 [25] Nordin A, Högberg P, Näsholm T. Soil nitrogen form and plant nitrogen uptake along a boreal forest productivity gradient. Oecologia, 2001, 129: 125-132 [26] Yang X-H (杨秀虹), Qiu R-L (仇荣亮), Cen H-X (岑慧贤). Study on sensitivity of terrestrial ecosystem to acid deposition and influencing factors. Agro-Environmental Protection (农业环境保护), 1999, 18(2): 92-95 (in Chinese) [27] Wu D (吴 迪), Zhang R (张 蕊), Gao S-H (高升华), et al. Effects of simulated nitrogen deposition on the each component of soil respiration in the Populus L. plantations in a riparian zone of the mid-lower Yangtze River. Acta Ecologica Sinica (生态学报), 2015, 35(3): 717-724 (in Chinese) [28] Dick RP. Soil enzyme activities as integrative indicators of soil health// Pankhurst CE, Doube BM, Gupta VVSR, eds. Biological Indicators of Soil Health. Wallingford, UK: CAB International, 1997: 121-156 [29] Liang J (梁 骏), Mai B-R (麦博儒), Zheng Y-F (郑有飞), et al. Effects of simulated acid rain on the growth, yield and quality of rape. Acta Ecologica Sinica (生态学报), 2008, 28(1): 274-283 (in Chinese) [30] Bollons HM, Barraclough PB. Inorganic orthophosphate for diagnosing the phosphorus status of wheat plants. Journal of Plant Nutrition, 1997, 20: 641-655 [31] Zhao Q (赵 琼), Zeng D-H (曾德慧). Phosphorus cycling in terrestrial ecosystems and its controlling factors. Acta Phyotceootgica Sinica (植物生态学报), 2005, 29(1): 153-163 (in Chinese) [32] Braakhekke WG, Hooftman DA. The resource balance hypothesis of plant species diversity in grassland. Journal of Vegetation Science, 1999, 10: 187-200 [33] Hodge A. The plastic plant: Root responses to heterogeneous supplies of nutrients. New Phytologist, 2004, 162: 9-24 |