C. Annette Johnson scite author profile

The increasing worldwide contamination of freshwater systems with thousands of industrial and natural chemical compounds is one of the key environmental problems facing humanity. Although most of these compounds are present at low concentrations, many of them raise considerable toxicological concerns, particularly when present as components of complex mixtures. Here we review three scientific challenges in addressing water-quality problems caused by such micropollutants. First, tools to assess the impact of these pollutants on aquatic life and human health must be further developed and refined. Second, cost-effective and appropriate remediation and water-treatment technologies must be explored and implemented. Third, usage and disposal strategies, coupled with the search for environmentally more benign products and processes, should aim to minimize introduction of critical pollutants into the aquatic environment.

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Estimating Uncertain Flow and Transport Parameters Using a Sequential Uncertainty Fitting Procedure

Abbaspour

Johnson

Genuchten

2004

Vadose Zone Journal

839

537

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and Erofeeva, 2002), and seawater intrusion (Iribar et al., 1997). Inversely obtained hydrologic parameters are always uncertainInverse modeling has brought new opportunities, but (nonunique) because of errors associated with the measurements and also new challenges. Some of the advantages are savings the invoked conceptual model, among other factors. Quantification of Springs Road, Riverside, CA 92507.

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Groundwater Arsenic Contamination Throughout China

Rodríguez‐Lado

Sun

Berg

et al. 2013

Science

776

289

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Arsenic-contaminated groundwater used for drinking in China is a health threat that was first recognized in the 1960s. However, because of the sheer size of the country, millions of groundwater wells remain to be tested in order to determine the magnitude of the problem. We developed a statistical risk model that classifies safe and unsafe areas with respect to geogenic arsenic contamination in China, using the threshold of 10 micrograms per liter, the World Health Organization guideline and current Chinese standard for drinking water. We estimate that 19.6 million people are at risk of being affected by the consumption of arsenic-contaminated groundwater. Although the results must be confirmed with additional field measurements, our risk model identifies numerous arsenic-affected areas and highlights the potential magnitude of this health threat in China.

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Environmental Selenium Research: From Microscopic Processes to Global Understanding

Winkel

Johnson

Lenz

et al. 2011

Environ. Sci. Technol.

377

281

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Selenium is a natural trace element that is of fundamental importance to human health. The extreme geographical variation in selenium concentrations in soils and food crops has resulted in significant health problems related to deficient or excess levels of selenium in the environment. To deal with these kinds of problems in the future it is essential to get a better understanding of the processes that control the global distribution of selenium. The recent development of analytical techniques and methods enables accurate selenium measurements of environmental concentrations, which will lead to a better understanding of biogeochemical processes. This improved understanding may enable us to predict the distribution of selenium in areas where this is currently unknown. These predictions are essential to prevent future Se health hazards in a world that is increasingly affected by human activities.

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