基于生态圈层结构稳定的地下水位计算与调控

Calculation and regulation of groundwater level based on the stability of groundwater-dependent ecosystem

  • 摘要: 干旱区绿洲灌区水资源集中开发使用,改变了地下水潜流场分布,造成了盐渍化和荒漠化并存的生态问题,严重威胁着绿洲的生态安全。以生态圈层结构理论为基础,深化研究潜水影响层概念内涵,构建干旱平原区潜水蒸发概念性模型,以黑河罗城灌区为例,从机理上揭示干旱区荒漠化与盐渍化的地下水埋深条件并进行定量计算与调控,主要成果如下:①描述了造成内陆河干旱区绿洲内部盐渍化和过渡带荒漠化的潜水蒸发运移规律,利用潜水影响层定义了盐渍化与荒漠化地下水临界埋深,并进行了定量计算,得到罗城灌区绿洲内部次生盐渍化的地下水临界埋深为1.3~1.5 m,过渡带荒漠化地下水临界埋深为8~13 m;②讨论了潜水影响层厚度定量公式中关键参数土壤当量孔径和液体表面张力在不同生态问题中的合理取值;③提出一种协同缓解干旱区盐渍化和荒漠化的地下水位调控方案,实现改善灌区内部盐渍化、控制过渡带荒漠化和水资源高效利用等多个目标。

     

    Abstract: Human activities have dramatically changed the subsurface flow and caused problems such as salinization and desertification that degrade groundwater-dependent the ecosystem. Taking the shallow groundwater layer as the link, a conceptual model of phreatic water evaporation in arid plains is established. The model analyses the groundwater depth conditions of desertification and salinization in arid areas, and calculates threshold water table required for preventing these problems. The Luocheng Irrigation District at the junction of the middle and lower reaches of Heihe River is taken as an example to study the relation between groundwater depths and ecosystems patterns. The contributions of this study include: ① Describing the soil water movement principle caused by desertification outside the salinized oasis in the arid area, based on which, the method for calculating the threshold groundwater depth for preventing salinization is provided. By calculation, the critical groundwater depth leading to soil salinization is 1.3~1.5 m and the calculated critical groundwater level is 8~13 m; ② Discussing the appropriate values of soil equivalent pore diameter and liquid surface tension used for estimating the maximum rising height of capillary water; ③ Proposing a scheme to regulate the groundwater level regulation via controlling irrigation in the area to protect groundwater-dependent ecosystems while satisfying water demand for irrigation and other purposes.

     

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