Withdrawing Water from an Aquifer: The Economics

PSN: Water (Topic) Pub Date : 2017-05-30 DOI:10.2139/ssrn.2974630

P. Debaere

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Abstract

Water is a renewable natural resource. Driven by solar energy and gravity, the global water cycle indefinitely circulates water through the atmosphere, over continents, and across oceans. On a more local level, however, water sometimes has more of a nonrenewable character because it can be depleted, at least to some degree. Withdrawing too much water from an aquifer that has only limited recharge, for example, diminishes stored water. This note discusses groundwater withdrawal, how it is optimally done, and how it depends on the particular institutional setting. Excerpt UVA-GEM-0119 Feb. 25, 2014 Withdrawing Water from AN Aquifer: THE ECONOMICS Water is a renewable natural resource. Driven by solar energy and gravity, the global water cycle indefinitely circulates water through the atmosphere, over continents, and across oceans. On a more local level, however, water sometimes has more of a nonrenewable character because it can be depleted, at least to some degree. Withdrawing too much water from an aquifer that has only limited recharge, for example, diminishes stored water. This note discusses groundwater withdrawal, how it is optimally done, and how it depends on the particular institutional setting. Unlike surface water, which is measured as a flow over a period of time, groundwater is a stored stock and is measured at a particular moment in time. Withdrawing groundwater now, therefore, will require explicit consideration of future water use: Indeed, using more scarce groundwater today means having less stored for the future. Consequently, water users will want to use available groundwater optimally over time (i.e., they will want to use water in such a way that it achieves the maximum possible benefit over cost, explicitly comparing the benefits and costs of water use at each moment in time). Figure 1. Demand for water and the cost of pumping. . . .

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从含水层中取水:经济学

水是可再生的自然资源。在太阳能和重力的推动下，全球水循环在大气、大陆和海洋之间无限循环。然而，在更局部的层面上，水有时更具有不可再生的特征，因为它至少在某种程度上可能会枯竭。例如，从补给有限的含水层中抽取过多的水会减少储存的水。本说明讨论地下水抽取，如何进行最佳抽取，以及它如何取决于特定的制度设置。从含水层取水:经济学水是一种可再生的自然资源。在太阳能和重力的推动下，全球水循环在大气、大陆和海洋之间无限循环。然而，在更局部的层面上，水有时更具有不可再生的特征，因为它至少在某种程度上可能会枯竭。例如，从补给有限的含水层中抽取过多的水会减少储存的水。本说明讨论地下水抽取，如何进行最佳抽取，以及它如何取决于特定的制度设置。与地表水不同，地表水是一段时间内的流量，地下水是一种储存的资源，在特定的时间点测量。因此，现在开采地下水需要明确考虑未来的用水:事实上，今天使用更多稀缺的地下水意味着未来储存的更少。因此，随着时间的推移，水用户将希望以最佳方式使用可用的地下水(即，他们将希望以这样一种方式使用水，以实现最大可能的收益超过成本，明确比较每个时刻用水的收益和成本)。图1所示。对水的需求和抽水成本. . . .

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PSN: Water (Topic)

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