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机构地区:[1]中国科学院寒区旱区环境与工程研究所冰冻圈科学国家重点实验室/天山冰川观测试验站,甘肃兰州730000 [2]天水师范学院资源与环境工程学院,甘肃天水741000
出 处:《冰川冻土》2016年第2期312-322,共11页Journal of Glaciology and Geocryology
基 金:国家自然科学基金项目(41261017)资助
摘 要:为了更好地理解化学离子在雪坑中的迁移和保存,进一步解释冰芯记录,基于乌鲁木齐河源1号冰川海拔4 130 m处的雪冰化学资料,研究了气温和降水与离子淋溶过程的关系.结果表明:气温与离子浓度呈负相关关系,夏季的雪坑离子浓度波动剧烈,冬季的雪坑离子浓度相对稳定.离子浓度随正积温的升高呈指数衰减趋势,当正积温至0℃以上时,离子浓度急剧降低;当正积温升至60℃左右时,离子浓度呈缓慢降低.不同离子的淋溶过程对正积温的响应有所不同,随着正积温的增加,SO^(2-)_4,NO^-_3,Na_+,Cl_-,NH^+_4和Ca^(2+)的衰减趋势非常显著,而Mg^(2+)和K^+则呈现无规律性的变化.淋溶因子指出,融水渗浸作用导致雪坑中大部分离子被淋溶;不同离子的淋溶因子也有明显差异,Mg^(2+)淋溶因子最小(0.43),SO^(2-)_4淋溶因子最大(0.84),说明Mg^(2+)最为稳定,而SO^(2-)_4最易淋溶.降水对雪坑离子浓度的影响较为微弱,主要通过增加表层雪离子浓度而提升整个雪坑的离子浓度.We examine the impact of air temperature and precipitation on the chemical ionic concentration from successive snowpacks on &252;r&252;mqi Glacier No.1 in eastern Tianshan,central Asia. Data suggest that the arrival of high temperatures has more impaction on ionic concentration in snowpack. Therefore,we establish the correla-tion between positive accumulated temperatures and ionic concentration. The results indicate that ion concentra-tions are exponential decline along with positive accumulated temperature in strong elution periods. During this process,ionic concentration reduced sharply at first,then,generally decreased as temperature rising proceeds until it dropped to the minimum. Elution Factor shows most of ions were leached out from snowpack after sum-mer melting at &252;r&252;mqi Glacier No.1. The continuous precipitation could increase the ions concentrations in snow-pack through enhancing them in surface snow. However,the relationship is weak.
关 键 词:乌鲁木齐河源1号冰川 淋溶 离子浓度 正积温 降水
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