[1] 孙涛, 马明, 王定勇. 中亚热带典型林分不同层次氮硫湿沉降动态变化[J]. 环境科学, 2014, 35(12): 4475-4481. [2] 孙涛, 马明, 王定勇. 中亚热带典型森林生态系统对降水中铅镉的截留特征[J]. 生态学报, 2016, 36(1): 218-225. [3] 张胜利, 李光录. 秦岭火地塘森林生态系统不同层次的水质效应[J]. 生态学报, 2007, 27(5): 1838-1844. [4] Ma M, Wang D, Du H, et al. Atmospheric mercury deposition and its contribution of the regional atmospheric transport to mercury pollution at a national forest nature reserve, southwest China[J]. Environmental Science and Pollution Research, 2015, 22(24): 20007-20018. [5] Ma M, Wang D, Du H, et al. Mercury dynamics and mass balance in a subtropical forest, southwestern China[J]. Atmospheric Chemistry and Physics, 2016, 16(7): 4529-4537. [6] Potter C S, Ragsdale H L, Swank W T. Atmospheric deposition and foliar leaching in a regenerating southern Appalachian forest canopy[J]. Journal of Ecology, 1991, 79(1): 97-115. [7] 周光益, 徐义刚, 吴仲民. 广州市酸雨对不同森林冠层淋溶规律的研究[J]. 林业科学研究, 2000, 13(6): 598-607. [8] 赵喆. 论我国森林资源的利用与保护对策[J]. 天津科技, 2012, (4): 35-36. [9] 彭岚, 何祖威. 重庆能源工业可持续发展的思考[J]. 重庆大学学报, 2002, 25(8): 120-124. [10] 陶大钧, 张信华. 酸性降雨的物理和化学性质研究[J]. 环境污染与防治, 1989, (1): 26-28. [11] Mergel A, Kloos K, Bothe H. Seasonal fluctuations in the population of denitrifying and N?-fixing bacteria in an acid soil of a Norway spruce forest[J]. Plant and Soil, 2001, 230(1): 145-160. [12] Balestrini R, Tagliaferri A. Atmospheric deposition and canopy exchange processes in alpine forest ecosystems (northern Italy)[J]. Atmospheric Environment, 2001, 35(36): 6421-6433. [13] Polkowska ?, Astel A, Walna B, et al. Chemometric analysis of rainwater and throughfall at several sites in Poland[J]. Atmospheric Environment, 2005, 39(5): 837-855. [14] Neal C, Reynolds B, Neal M, et al. Soluble reactive phosphorus levels in rainfall, cloud water, throughfall, stemflow, soil waters, stream waters and groundwaters for the Upper River Severn area, Plynlimon, mid Wales[J]. Science of the Total Environment, 2003, s 314–316: 99-120. [15] 彭培好, 王金锡. 人工桤柏混交林中降雨对养分物质的淋溶影响[J]. 生态学杂志, 1996, (5): 12-15. [16] Talkner U, Kr?mer I, H?lscher D, et al. Deposition and canopy exchange processes in central-German beech forests differing in tree species diversity[J]. Plant and Soil, 2010, 336(1): 405-420. [17] Burbanogarcés M L, Figueroacasas A, Pe?a M. Bulk precipitation, throughfall and stemflow deposition of N-NH4+, N-NH3 and N-NO3- in an Andean forest[J]. Journal of Tropical Forest Science, 2014, 26(4): 446-457. [18] Vitousek P M. Litterfall, Nutrient Cycling, and Nutrient Limitation in Tropical Forests[J]. Ecology, 1984, 65(1): 285. [19] Mergel A, Kloos K, Bothe H. Seasonal fluctuations in the population of denitrifying and N2-fixing bacteria in an acid soil of a Norway spruce forest[J]. Plant and Soil, 2001, 230(1): 145-160. [20] 王少平, 俞立中, 许世远. 上海青紫泥土壤氮素淋溶及其对水环境影响研究[J]. 长江流域资源与环境, 2002, 11(6): 554-558. [21] Beale S I. Enzymes of chlorophyll biosynthesis[J]. Photosynthesis Research, 1999, 60(1): 43-73. [22] 唐先干, 杨金玲, 张甘霖. 皖南山区降水酸性特征与元素沉降通量[J]. 环境科学, 2009, 30(2): 356-361. [23] 安思危, 孙涛, 马明. 中亚热带常绿阔叶林湿沉降过程中盐基离子变化特征[J]. 环境科学, 2015, 36(12): 4414-4419. [24] 地表水环境质量标准[J]. 中国环保产业, 2002, (6): 8-9. [25] 卫生部. 生活饮用水卫生标准[J]. 经济管理文摘, 2006, (11): 36-38.
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