Genetic structure of regional water vole populations and footprints of reintroductions: a case study from southeast England

Water shortage problems are increasing in many water-deficient areas. Most of the current research on multi-source combined water supplies depends on an overall generalization of regional water supply systems, which are seldom broken down into the detail required to address specific research objectives. This paper proposes the concept of a water treatment and distribution station (water station), and generalizes the water supply system into three modules: water supply source, water station, and water user. Based on a topological diagram of the water network (supply source–station–user), a refined water resource allocation model was established. The model results can display, in detail, the water supply source, water supply quantity, water distribution engineering, and other information of all users in each water distribution area. This makes it possible to carry out a detailed analysis of the supply and demand of users, and to provide suggestions and theoretical guidance for regional water distribution implementation. Tianjin’s water resource allocation was selected as a case study, and a water resource allocation scheme for a multi-source, combined water supply, was simulated and discussed.

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A SEM Water Pollutants Emissions Reduction Optimization Model for Pollutant Total Amount Control in a Region

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.610-613.1579 ◽

2012 ◽

Vol 610-613 ◽

pp. 1579-1582 ◽

Cited By ~ 2

Author(s):

Jing Ya Wen ◽

Yan Hu ◽

Zhao Sun ◽

Zhuang Li ◽

Yu Li

Keyword(s):

Water Pollution ◽

Optimization Model ◽

Emission Reduction ◽

Technical Support ◽

Emissions Reduction ◽

Environment Protection ◽

Validity And Reliability ◽

Total Amount Control ◽

Regional Water

On account of severe water pollution condition, this paper combines structure emissions reduction, engineering emissions reduction and management emissions reduction (namely SEM emissions reduction), builds an optimization model for total amount control of regional water pollution, and puts the above model into practice to validate its validity and reliability. According to the case study, the emission reduction of COD and NH3-N are 43.94 and 7.09 (104 tons), respectively. The optimal total costs of reduction is 36.89 (billion yuan), which decreases 7.47% than the existed recommended scheme (39.87 billion yuan). This method can be used for providing technical support and thus achieves the 12th Five-year goals of the environment protection plan more effectively.

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A Case Study of Genetic Structure in a Plant Metapopulation

Metapopulation Biology ◽

10.1016/b978-012323445-2/50023-7 ◽

1997 ◽

pp. 429-454 ◽

Cited By ~ 40

Author(s):

Barbara E. Giles ◽

Jér ome^Goudet

Keyword(s):

Genetic Structure

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Impact of downscaled rainfall biases on projected runoff changes

Hydrology and Earth System Sciences ◽

10.5194/hess-24-2981-2020 ◽

2020 ◽

Vol 24 (6) ◽

pp. 2981-2997

Author(s):

Stephen P. Charles ◽

Francis H. S. Chiew ◽

Nicholas J. Potter ◽

Hongxing Zheng ◽

Guobin Fu ◽

...

Keyword(s):

Water Supply ◽

Grid Point ◽

Daily Rainfall ◽

Rainfall Runoff ◽

Rainfall Frequency ◽

Rainfall Runoff Model ◽

Projected Changes ◽

Runoff Model ◽

Regional Water

Abstract. Realistic projections of changes to daily rainfall frequency and magnitude, at catchment scales, are required to assess the potential impacts of climate change on regional water supply. We show that quantile–quantile mapping (QQM) bias-corrected daily rainfall from dynamically downscaled WRF simulations of current climate produce biased hydrological simulations, in a case study for the state of Victoria, Australia (237 629 km2). While the QQM bias correction can remove bias in daily rainfall distributions at each 10 km × 10 km grid point across Victoria, the GR4J rainfall–runoff model underestimates runoff when driven with QQM bias-corrected daily rainfall. We compare simulated runoff differences using bias-corrected and empirically scaled rainfall for several key water supply catchments across Victoria and discuss the implications for confidence in the magnitude of projected changes for mid-century. Our results highlight the imperative for methods that can correct for temporal and spatial biases in dynamically downscaled daily rainfall if they are to be suitable for hydrological projection.

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