| [1] | Schaetzl R J, Anderson S. Soils: Genesis and Geomorphology [M]. New York: Cambridge University Press, 2005: 226-238 |
| [2] | Lerman A, Wu L, Mackenzie F T. CO2 and H2SO4 consumption in weathering and material transport to the ocean, and their role in the global carbon balance [J]. Marine Chemistry, 2007, 106(1-2): 326-350 |
| [3] | White A F. Quantitative approaches to characterizing natural chemical weathering rates // Brantley S L, Kubicji J D, White A F. eds., Kinetics of water-rock interaction [M]. New York: Springer, 2008: 469-543 |
| [4] | Jha, P K, Tiwari J, Singh U K, et al. Chemical weathering and associated CO2 consumption in the Godavari river basin, India [J]. Chemical Geology, 2009, 264(1-4): 364-374 |
| [5] | Goldsmith S T, Carey A E, Johnson B M, et al. Stream geochemistry, chemical weathering and CO2 consumption potential of andesitic terrains, Dominica, Lesser Antilles [J]. Geochimica et Cosmochimica Acta, 2010, 74(1): 85-103 |
| [6] | Xu Z, Liu C Q. Water geochemistry of the Xijiang Basin rivers, South China: Chemical weathering and CO2 consumption [J]. Applied Geochemistr, 2010: 1603-1614 |
| [7] | Gaillardet J, Dupré B, Louvat P, et al. Global silicate weathering and CO2 consumption rates deduced from the chemistry of large rivers [J]. Chemical Geology, 1999, 159(1-4): 3-30 |
| [8] | Wright R F. Influence of acid rain on weathering rates // Lerman A, Meybeck M, eds. Physical and chemical weathering in geochemical cycles [M]. Boston: Kluwer Academic Press, 1988: 181-196 |
| [9] | Velbel M A. Weathering and pedogenesis at the watershed scale: Some recent lessons from studies of acid-deposition effects [J]. Chemical Geology, 1993, 107(3): 337-339 |
| [10] | Guicharnaud R, Paton G I. An evaluation of acid deposition on cation leaching and weathering rates of an Andosol and a Cambisol [J]. Journal of Geochemical Exploration, 2006, 88(1-3): 279-283 |
| [11] | Jassby A D, Reuter J E, Axler R P, et al. Atmospheric deposition of nitrogen and phosphorus in the annual nutrient load of Lake Tahoe (California-Nevada) [J]. Water Resources Research, 1994, 30(7): 2207-2216 |
| [12] | Komai Y, Umemoto S, Inoue T. Influence of acid deposition on inland water chemistry-A case study from Hyogo Prefecture, Japan [J]. Water, Air, and Soil Pollution, 2001, 130(1): 1535-1540 |
| [13] | Vogt R D, Guo J, Luo J. et al. Water chemistry in forested acid sensitive sites in sub-tropical Asia receiving acid rain and alkaline dust [J]. Applied Geochemistry, 2007, 22(6): 1140-1148 |
| [14] | Chetelat B, Liu C Q, Zhao Z Q, et al. Geochemistry of the dissolved load of the Changjiang Basin rivers: Anthropogenic impacts and chemical weathering [J]. Geochimica et Cosmochimica Acta, 2008, 72(17): 4254-4277 |
| [15] | Jin Z, Zhang F. Seasonal contributions of weathering and atmospheric dust to water chemistry in the Lake Qinghai catchment, NE Tibetan Plateau . American Geophysical Union Fall Meeting Abstracts, 2009: 643 |
| [16] | Li S, Xu Z, Wang H, et al. Geochemistry of the upper Han River basin, China 3. Anthropogenic inputs and chemical weathering to the dissolved load [J]. Chemical Geology, 2009, 264(1-4): 89-95 |
| [17] | Stallard R F, Edmond J M. Geochemistry of the Amazon 2. The influence of geology and weathering environment on the dissolved load [J]. Journal of Geophysical Research, 1983, 88(C14): 9671-9688 |
| [18] | Zhang S R, Lu X X, Higgitt D L, et al. Water chemistry of the Zhujiang (Pearl River): Natural processes and anthropogenic influences [J]. Journal of Geophysical Research, 2007, 112, F01011, doi:10.1029/2006JF000493 |
| [19] | 国家环境保护总局《水和废水监测分析方法》编委会. 水和废水监测分析方法 (第四版) [M]. 北京: 中国环境科学出版社, 2002: 258-284 |
| [20] | 鲁如坤. 土壤农业化学分析方法[M]. 北京:中国农业科学出版社, 1999 |
| [21] | 高全洲, 陶贞. 华南滨海花岗岩秋林的化学风化与化学径流[J]. 中国科学: 地球科学, 2010, 40(6): 758-767 |
| [22] | 叶宏萌, 袁旭音, 葛敏霞, 等. 太湖北部流域水化学特征及其控制因素[J]. 生态环境学报, 2010, 19(1): 23-27 |
| [23] | Gibbs R J. Mechanisms controlling world water chemistry [J]. Science, 1970, 170(3962): 1088 |
| [24] | 陆渝蓉. 地球水环境学[M]. 南京: 南京大学出版社, 1999 |
| [25] | Meybeck M. Atmospheric inputs and river transport of dissolved substances // Dissolved Loads of Rivers and Surface Water Quantity/Quality Relationships . Proceedings of the Hamburg Symposium, 1983: 173-192 |
| [26] | Grosbois C, Négrel P, Grimaud D, et al. An overview of dissolved and suspended matter fluxes in the Loire river basin: natural and anthropogenic inputs [J]. Aquatic Geochemistry, 2001, 7(2): 81-105 |
| [27] | 李甜甜, 季宏兵, 江用彬, 等. 赣江上游河流水化学的影响因素及 DIC 来源[J]. 地理学报, 2007, 62(7): 764-775 |
| [28] | 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 |
| [29] | 孙媛媛, 季宏兵, 罗建美, 等. 赣南小流域的水文地球化学特征和主要风化过程[J]. 环境化学, 2006, 25(5): 550-557 |
| [30] | Gao Q, Tao Z, Huang X, et al. Chemical weathering and CO2 consumption in the Xijiang River basin, South China [J]. Geomorphology, 2009, 106(3-4): 324-332 |
| [31] | Xu Z, Liu C Q. Chemical weathering in the upper reaches of Xijiang River draining the Yunnan-Guizhou Plateau, Southwest China [J]. Chemical Geology, 2007, 239(1-2): 83-95 |