Groundwater Level Declination in Bangladesh: System Dynamics Approach to Solve Irrigation Water Demand During Boro Season

EarthSciRN: Water Resources Management (Topic) Pub Date : 2017-06-30 DOI:10.2139/ssrn.3589087

Ashraful Haque Mollah

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引用次数: 3

Abstract

Groundwater has been declining in Bangladesh since introduction of deep tube wells (DTWs) and shallow tube wells (STWs) in late 1970s. Seasonal variation of groundwater has been shifted upto 4 meters during last 33 years. During Boro seasons groundwater table dropped drastically than other seasons. This study hypothesized that groundwater extraction is much higher than the natural recharge plus percolated irrigated water. Farmer´s perception is that if they dig deeper the supply would not be a problem, which led uncontrolled use of shallow tube wells (STWs) to extract water from lowered zones. This study selected an area that is 20 km away from Dhaka city having intensive Boro production. Analyzing the interview data (to know about the practices by farmers at present and before) and Bangladesh Water Development Board groundwater table data, we tried to simulate the problematic scenario with the help of simulation software called iThink. To address the problem 3 different policies have been investigated to achieve sustainable solution of the problem. The chosen policies were -

(1) Harnessing only groundwater;

(2) Alternative cropping; and

(3) Depending more to surface water.

The simulation results show that alternative cropping and going for surface water could solve the problem as well as able to restore the groundwater to its previous condition. But moving to surface water is a passive solution independent to farmers´ decision. Alternative cropping through proper knowledge transfer mechanism is more sustainable solution considering present and future water crises.

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孟加拉国地下水位下降:解决Boro季节灌溉用水需求的系统动力学方法

自从20世纪70年代末引入深管井(DTWs)和浅管井(STWs)以来，孟加拉国的地下水一直在下降。近33年来，地下水的季节变化幅度高达4米。Boro季节地下水位下降幅度比其他季节大。本研究假设地下水采掘量远高于自然补给量和渗透灌溉水。法默的看法是，如果他们挖得更深，供应就不会成为问题，这导致了不受控制地使用浅管井(STWs)从较低的区域抽取水。本研究选择了一个距离达卡市20公里的地区，该地区有密集的Boro生产。分析访谈数据(了解农民现在和以前的做法)和孟加拉国水发展局的地下水位数据，我们试图借助模拟软件iThink来模拟问题场景。为了解决这个问题，研究了三种不同的政策，以实现问题的可持续解决。所选择的政策是:(1)只利用地下水;(2)交替种植;(3)更多地依赖地表水。模拟结果表明，交替种植和取用地表水可以解决这一问题，并能使地下水恢复原状。但转移到地表水是一个被动的解决方案，独立于农民的决定。考虑到当前和未来的水危机，通过适当的知识转移机制替代种植是更可持续的解决方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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