William K. Jaeger scite author profile

[1] Water scarcity may appear to be a simple concept, but it can be difficult to apply to complex natural-human systems. While aggregate scarcity indices are straightforward to compute, they do not adequately represent the spatial and temporal variations in water scarcity that arise from complex systems interactions. The uncertain effects of future climate change on water scarcity add to the need for clarity on the concept of water scarcity. Starting with a simple but robust definition-the marginal value of a unit of water wehighlight key aspects of water scarcity and illustrate its many biophysical and socioeconomic determinants. We make four central observations. First, water scarcity varies greatly across location, time, and a multitude of uses that are valued either directly or indirectly by society. Second, water scarcity is fundamentally a normative, anthropocentric concept and, thus, can and should be distinguished from the related, purely descriptive notion of water deficit. While such an anthropocentric perspective may seem limiting, it has the potential to encompass the vast range of interests that society has in water. Third, our ability to understand and anticipate changes in water scarcity requires distinguishing between the factors that affect the value or benefits of water from those affecting the costs of transforming water in space, time and form. Finally, this robust and rigorous definition of water scarcity will facilitate better communication and understanding for both policymakers and scientists.

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Land-use regulations and property values in Portland, Oregon: A regression discontinuity design approach

Grout

Jaeger

Plantinga

2011

Regional Science and Urban Economics

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Finding water scarcity amid abundance using human–natural system models

Jaeger

Amos

Bigelow

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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Water scarcity afflicts societies worldwide. Anticipating water shortages is vital because of water's indispensable role in social-ecological systems. But the challenge is daunting due to heterogeneity, feedbacks, and water's spatial-temporal sequencing throughout such systems. Regional system models with sufficient detail can help address this challenge. In our study, a detailed coupled human-natural system model of one such region identifies how climate change and socioeconomic growth will alter the availability and use of water in coming decades. Results demonstrate how water scarcity varies greatly across small distances and brief time periods, even in basins where water may be relatively abundant overall. Some of these results were unexpected and may appear counterintuitive to some observers. Key determinants of water scarcity are found to be the cost of transporting and storing water, society's institutions that circumscribe human choices, and the opportunity cost of water when alternative uses compete.

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Smallholder Wood Production and Population Pressure in East Africa: Evidence of an Environmental Kuznets Curve?

Patel¹,

Pinckney²,

Jaeger³

1995

Land Economics

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How has Oregon's land use planning system affected property values?

2012

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William K. Jaeger

Toward a formal definition of water scarcity in natural‐human systems

Land-use regulations and property values in Portland, Oregon: A regression discontinuity design approach

Finding water scarcity amid abundance using human–natural system models

Smallholder Wood Production and Population Pressure in East Africa: Evidence of an Environmental Kuznets Curve?

How has Oregon's land use planning system affected property values?

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