澜沧江高坝大库物质迁移转化特征及其机制

Characteristics and associated mechanisms of substance transport and transform in large reservoirs along the Lancang River

  • 摘要: 针对澜沧江高坝大库对物质迁移转化的影响问题, 自主研发了深库智慧采样设备和潜流带动态监测系统, 于2016年、2017年、2018年开展了澜沧江上游1 290 km的9个梯级水库的监测分析, 实现了280 m最大工作水深的垂向分层水样与沉积物样无扰动采集和潜流带水土环境界面的多指标监测。研究发现: 梯级水库促进了水体中生物有效磷、氨氮占比和沉积物中生物有效磷释放的沿程增加;沉积物中甲基汞的分布与泥沙颗粒沉降有关, 受到水力停留时间和库龄的共同调控;温室气体的排放通量因建坝有所提升, 但远低于世界平均水平;潜流带因干湿交替频率和面积的增加, 加强了水库关键带脱氮和温室气体削减效应;水库中微生物群落并未因建坝隔离, 在沿程和垂向上, 水温都是其关键影响因子。

     

    Abstract: To clarify the characteristics of substance transport and transformation in large reservoirs along the Lancang River, new equipment has been independently developed for automatic monitoring in the subsurface zone and intelligent sampling of water and sediment in a high and large reservoir. In-suit water samples with the maximum working water depth of 280 meters have been collected in 9 cascade reservoirs along the 1 290 km of Upper Langcang River in 2016, 2017, and 2018. In addition, multi-index monitoring at the water-sediment interface in reservoir riparian has also been conducted. It is found that cascade dams promoted the increase of the proportion of bioavailable phosphorus and ammonia nitrogen in water and the release of bioavailable phosphorus in sediments; The distribution of methylmercury in sediments was related to sediment particle sedimentation, regulated by hydraulic retention time and reservoir age. The emission flux of greenhouse gases increased due to the dam construction, while it was far lower than the world average level. The increase in frequency and area of wetting drying alternation in the subsurface flow zone strengthened the effect of nitrogen removal and thus reduced greenhouse gas release in reservoir riparian. The bacterial community could not be isolated by the dams. Water temperature was the key factor affecting the bacterial community on both the river scale and reservoir scale.

     

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