Scientists Found Influences of Dust on Alpine Glacier Meltwater in the Western Qilian Mountains
Mar 28, 2014 Email"> PrintText Size
The dust and particles, which are carried by the atmospheric transmission, have important influences on the processes of the atmosphere, hydrosphere and other spheres of the biogeochemical cycle.
Scientists from Cold and Arid Regions Environmental and Engineering Research Institute (CAREERI) discussed the temporal variation of various physicochemical species in the meltwater runoff of Laohugou Glacier No. 12 and their correlation with dust particles in summer 2012.
During melting period, large amount of dust particles are melted from ice and snow of the glacier and dispersed into the meltwater, then transporting, which is very important for the change of physicochemical characteristics of glacier meltwater.
Scientists found that the volume-size distribution of dust particles in the meltwater of glacier No. 12 is mainly composed by three parts, which is fine aerosol particles (with diameter of 0-3.0μm, mainly PM 2.5),atmospheric dust (with diameter of 3.0-20μm), and local dust particles (20-100μm), respectively. Comparison of dust particles in the snowpack and meltwater runoff indicates that, large part of dust particles in the meltwater may have originated from dust of the snow and ice, and transported into the meltwater runoff.
Moreover, the temporal variation of dust and major ions (especially crustal species such as Ca2+, Na+, Mg2+, K+, and Cl-) is very similar with each other, showing great influence of dust particles to the chemical constituents of the glacier meltwater runoff. Particles concentration is relatively high in July, and decrease in August, which is well correlated with glacier melting velocity in this region.
However, SO42- and NO3- concentration show an increasing trend during June to September, which may be caused by anthropogenic species input. SPM and TDS also show a similar change trend with dust particles in the meltwater, implying significant influences of glacier dust particles to TDS in the glacier region of Laohugou in Qilian Mountains in central Asia.
This study is financially supported by the National Natural Science Foundation of China (No. 41301065). This paper has been published on the Advances in Water Science Feb. 2014.
The dust and particles, which are carried by the atmospheric transmission, have important influences on the processes of the atmosphere, hydrosphere and other spheres of the biogeochemical cycle.
Scientists from Cold and Arid Regions Environmental and Engineering Research Institute (CAREERI) discussed the temporal variation of various physicochemical species in the meltwater runoff of Laohugou Glacier No. 12 and their correlation with dust particles in summer 2012.
During melting period, large amount of dust particles are melted from ice and snow of the glacier and dispersed into the meltwater, then transporting, which is very important for the change of physicochemical characteristics of glacier meltwater.
Scientists found that the volume-size distribution of dust particles in the meltwater of glacier No. 12 is mainly composed by three parts, which is fine aerosol particles (with diameter of 0-3.0μm, mainly PM 2.5),atmospheric dust (with diameter of 3.0-20μm), and local dust particles (20-100μm), respectively. Comparison of dust particles in the snowpack and meltwater runoff indicates that, large part of dust particles in the meltwater may have originated from dust of the snow and ice, and transported into the meltwater runoff.
Moreover, the temporal variation of dust and major ions (especially crustal species such as Ca2+, Na+, Mg2+, K+, and Cl-) is very similar with each other, showing great influence of dust particles to the chemical constituents of the glacier meltwater runoff. Particles concentration is relatively high in July, and decrease in August, which is well correlated with glacier melting velocity in this region.
However, SO42- and NO3- concentration show an increasing trend during June to September, which may be caused by anthropogenic species input. SPM and TDS also show a similar change trend with dust particles in the meltwater, implying significant influences of glacier dust particles to TDS in the glacier region of Laohugou in Qilian Mountains in central Asia.
This study is financially supported by the National Natural Science Foundation of China (No. 41301065). This paper has been published on the Advances in Water Science Feb. 2014.
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