[1] |
Laouali D, Delon C, Adon M, et al. Source contributions in precipitation chemistry and analysis of atmospheric nitrogen deposition in a Sahelian dry savanna site in West Africa[J]. Atmospheric Research, 2021, 251:105423.
doi: 10.1016/j.atmosres.2020.105423
|
[2] |
Vet R, Artz R S, Carou S, et al. A global assessment of precipitation chemistry and deposition of sulfur, nitrogen, sea salt, base cations, organic acids, acidity and pH, and phosphorus[J]. Atmospheric Environment, 2014, 93:3-100.
|
[3] |
马珊, 夏敦胜, 李忠勤, 等. 沙尘暴对天山托木尔峰青冰滩72号冰川环境的影响[J]. 冰川冻土, 2018, 40(4):685-694.
|
|
[ Ma Shan, Xia Dunsheng, Li Zhongqin, et al. Impact of sandstorm events on the environment of the Qingbingtan Glacier No.72 in the Mt. Tumur, Tianshan Mountains[J]. Journal of Glaciology and Geocryology, 2018, 40(4):685-694. ]
|
[4] |
Akpo A, Galy-Lacaux C, Laouali D, et al. Precipitation chemistry and wet deposition in a remote wet savanna site in West Africa: Djougou (Benin)[J]. Atmospheric Environment, 2015, 115:110-123.
doi: 10.1016/j.atmosenv.2015.04.064
|
[5] |
汪少勇, 何晓波, 吴锦奎, 等. 长江源区大气降水化学特征及离子来源[J]. 环境科学, 2019, 40(10):4431-4438.
|
|
[ Wang Shaoyong, He Xiaobo, Wu Jinkui, et al. Chemical characteristics and ionic sources of precipitation in the source region of the Yangtze River[J]. Environmental Science, 2019, 40(10):4431-4438. ]
|
[6] |
Galy-Lacaux C, Laouali D, Descroix L, et al. Long term precipitation chemistry and wet deposition in a remote dry savanna site in Africa (Niger)[J]. Atmospheric Chemistry and Physics, 2009, 9:1579-1595.
|
[7] |
Cook E M, Sponseller R, Grimm N B, et al. Mixed method approach to assess atmospheric nitrogen deposition in arid and semi-arid ecosystems[J]. Environmental Pollution, 2018, 239:617-630.
doi: 10.1016/j.envpol.2018.04.013
|
[8] |
Xiao J, Jin Z D, Hu D, et al. Geochemistry and solute sources of surface waters of the Tarim River Basin in the extreme arid region, NW Tibetan Plateau[J]. Journal of Asian Earth Sciences, 2012, 54-55:162-173.
doi: 10.1016/j.jseaes.2012.04.009
|
[9] |
Wu G J, Zhang X L, Zhang C L, et al. Concentration and composition of dust particles in surface snow at Urumqi Glacier No.1, Eastern Tien Shan[J]. Global and Planetary Change, 2010, 74:34-42.
doi: 10.1016/j.gloplacha.2010.07.008
|
[10] |
Wang J, Han H D, Zhao Q D, et al. Hydrochemical denudation and transient carbon dioxide drawdown in the highly glacierized, shrinking Koxkar basin, China[J]. Advances in Meteorology, 2016, 1:1-11.
|
[11] |
Wu H W, Wu J L, Li J, et al. Spatial variations of hydrochemistry and stable isotopes in mountainous river water from the Central Asian headwaters of the Tajikistan Pamirs[J]. Catena, 2020, 193:104639.
doi: 10.1016/j.catena.2020.104639
|
[12] |
Li Y F, Huang J, Li Z, et al. Atmospheric pollution revealed by trace elements in recent snow from the central to the northern Tibetan Plateau[J]. Environmental Pollution, 2020, 263(Part A):114459.
doi: 10.1016/j.envpol.2020.114459
|
[13] |
刘小康, 饶志国, 张肖剑, 等. 天山地区大气降水氧同位素的影响因素及其对西风环流变化的指示意义[J]. 地理学报, 2015, 70(1):97-109.
doi: 10.11821/dlxb201501008
|
|
[ Liu Xiaokang, Rao Zhiguo, Zhang Xiaojian, et al. Variations in the oxygen isotopic composition of precipitation in the Tianshan Mountains region and their significance for the Westerly circulation[J]. Acta Geographica Sinica, 2015, 70(1):97-109. ]
doi: 10.11821/dlxb201501008
|
[14] |
贾文雄, 李宗省. 祁连山东段降水的水化学特征及离子来源研究[J]. 环境科学, 2016, 37(9):3322-3332.
|
|
[ Jia Wenxiong, Li Zongxing. Hydrochemical characteristics and sources of ions in precipitation at the East Qilian Mountains[J]. Environmental Science, 2016, 37(9):3322-3332. ]
|
[15] |
Han H D, Wang J, Wei J F, et al. Backwasting rate on debris-covered Koxkar glacier, Tuomuer mountain, China[J]. Journal of Glaciology, 2010, 56:287-296.
doi: 10. |