J. Liu scite author profile

A B S T R A C TAnow possible. An interactive edit feature was added to address the main sources of error in automatic shape classification, enabling the operator to inspect the assigned morphotype of each bacterium based on visual recognition of its distinctive pseudocolor, reassign it to another morphotype class if necessary, and add up to five other morphotypes to the classification scheme. The shape classifier reports on the number and types of different morphotypes present and the abundance among each of them, thus providing the data needed to compute the morphological diversity within the microbial community. An example of how CMEIAS can augment the analysis of microbial community structure is illustrated by studies of morphological diversity as an indicator of dynamic ecological succession following a nutrient shift-up perturbation in two continuously fed, anaerobic bioreactors with morphologically distinct start communities. Various steps to minimize the limitations of computer-assisted microscopy to classify bacterial morphotypes using CMEIAS are described. In summary, CMEIAS is an accurate, robust, flexible semiautomatic computing tool that can significantly enhance the ability to quantitate bacterial morphotype diversity and should serve as a useful adjunct to the analysis of microbial community structure. This first version of CMEIAS will be released as free, downloadable plug-ins so it can provide wide application in studies of microbial ecology.

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Quantifying changes in water use and groundwater availability in a megacity using novel integrated systems modeling

Hyndman

Deines

et al. 2017

Geophysical Research Letters

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Water sustainability in megacities is a growing challenge with far‐reaching effects. Addressing sustainability requires an integrated, multidisciplinary approach able to capture interactions among hydrology, population growth, and socioeconomic factors and to reflect changes due to climate variability and land use. We developed a new systems modeling framework to quantify the influence of changes in land use, crop growth, and urbanization on groundwater storage for Beijing, China. This framework was then used to understand and quantify causes of observed decreases in groundwater storage from 1993 to 2006, revealing that the expansion of Beijing's urban areas at the expense of croplands has enhanced recharge while reducing water lost to evapotranspiration, partially ameliorating groundwater declines. The results demonstrate the efficacy of such a systems approach to quantify the impacts of changes in climate and land use on water sustainability for megacities, while providing a quantitative framework to improve mitigation and adaptation strategies that can help address future water challenges.

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Parallel contraction of fibonacci trees and prefix computations on a family of interconnection topologies

Hsu

Page

Liu

1992

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Distributed algorithms for shortest-path, deadlock-free routing and broadcasting in a class of interconnection topologies

Liu

Hsu

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Distributed algorithms for shortest-path, deadlock-free routing and broadcasting in Fibonacci cubes

Liu

Hsu

1992

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J. Liu

CMEIAS: A Computer-Aided System for the Image Analysis of Bacterial Morphotypes in Microbial Communities

Quantifying changes in water use and groundwater availability in a megacity using novel integrated systems modeling

Parallel contraction of fibonacci trees and prefix computations on a family of interconnection topologies

Distributed algorithms for shortest-path, deadlock-free routing and broadcasting in a class of interconnection topologies

Distributed algorithms for shortest-path, deadlock-free routing and broadcasting in Fibonacci cubes

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