- Resource Management and Geography - Research Publications
Resource Management and Geography - Research Publications
Permanent URI for this collection
11 results
Filters
Reset filtersSettings
Statistics
Citations
Search Results
Now showing
1 - 10 of 11
-
ItemGovernmentality and the conduct of water: China's South-North Water Transfer ProjectRogers, S ; Barnett, J ; Webber, M ; Finlayson, B ; Wang, M (WILEY, 2016-10)Governmentality is a way of thinking about dispersed practices of governing, including attempts to render space governable. China's South–North Water Transfer (SNWT) project, the world's largest interbasin water transfer project, is a programme of government that attempts to render the distribution of water across space more governable and administrable. This article analyses English and Chinese academic, media and government documents through a governmentality lens. It aims to examine the SNWT project's machinery, mentality and spatiality, including its narrative, its constitution of objects and subjects in space, its multiple techniques of government, and its physical and administrative assemblages. In decentring the problem of the state in relation to the SNWT project we can learn much about both the politics of water and the nature of Chinese governmentalities. This article shows how the SNWT naturalises water scarcity, normalises the pre‐eminence of North China, sustains engineering over regulatory solutions and reconfigures hydrosocial relations, while also outlining the limits to and endemic conflicts within this vast programme of government.
-
ItemResearch on Adaptability of Farmers after the Loess Plateau Ecological Immigration <br/>—A Case Study in Checheng Village, Ji CountyFeng, Q ; Xue, L ; Wang, Y (Scientific Research Publishing, Inc., 2015)
-
ItemConstructing Water Shortages on a Huge River: The Case of ShanghaiWebber, M ; Barnet, J ; Chen, Z ; Finlayson, B ; Wang, M ; Chen, D ; Chen, J ; Li, M ; Wei, T ; Wu, S ; Xu, H (WILEY, 2015-11)Abstract Shanghai is located on the world's third largest river (by volume). Yet it faces the risk of shortages of drinking water. Many decisions and environmental characteristics have contributed to this threat. First, Shanghai has become dependent on water brought into the municipality by rivers. Second, it has become increasingly reliant on water from the Changjiang (Yangzi River), principally in order to control the levels of pollution in the water that enters its treatment plants. Third, for reasons associated with inter‐provincial administrative arrangements, the city's water intakes are located within the municipality, within the estuary zone and subject to tidal intrusions of salt water. Fourth, at high tide and when the Changjiang's discharge is low, salt intrudes far into the estuary, beyond the current water intakes. If sea levels rise, these intrusions will become more pronounced. Fifth, large‐scale central government infrastructure projects (such as dams and the South‐North Transfer) are altering the hydrological characteristics of the river. Such projects raise the probability of salt water intrusions into the water intake zone. The Shanghai and central governments have thus made a series of decisions that, taken together, have led the municipality to rely on a source of drinking water that is increasingly unreliable and subject to the risk of shortages due to salt water intrusions. Why these decisions have been made – independently – is an important problem for those who would understand the provision of water for cities and the practical efficacy of Chinese governance systems.
-
ItemEnergy conservation in China's energy-intensive enterprises: An empirical study of the Ten-Thousand Enterprises ProgramLo, K ; Li, H ; Wang, M (ELSEVIER, 2015-08)
-
ItemImpact of the Three Gorges Dam, the South-North Water Transfer Project and water abstractions on the duration and intensity of salt intrusions in the Yangtze River estuaryWebber, M ; Li, MT ; Chen, J ; Finlayson, B ; Chen, D ; Chen, ZY ; Wang, M ; Barnett, J (COPERNICUS GESELLSCHAFT MBH, 2015)Abstract. This paper assesses the impacts of the Three Gorges Dam, the South–North Water Transfer Project and other water abstractions on the probability of long-duration salt intrusions into the Yangtze River estuary. Studies of intrusions of saltwater into estuaries are typically constrained by both the short duration of discharge records and the paucity of observations of discharge and salinity. Thus, studies of intrusions of saltwater into estuaries typically seek to identify the conditions under which these intrusions occur, using detailed observations for periods of 20–60 days. The paper therefore first demonstrates a method by which to identify the conditions under which intense intrusions of long-duration occur and then applies that method to analyse the effect of the three projects. The paper constructs a model of the relationship between salinity and discharge and then employs Monte Carlo simulation methods to reconstruct the probability of observing intrusions of differing intensities and durations in relation to discharge. The model predicts that the duration of intrusions with chlorinity ≥ 250 mg L−1 (or ≥ 400 or 500 mg L−1) increases as the number of consecutive days with discharge ≤ 12 000 m3 s−1 (or ≤ 8000 m3 s−1 increases. The model predicts that in 1950–2014, the number of consecutive days with chlorinity ≥ 250 mg L−1 averaged 21.34 yr−1; if the three projects operate according to their normal rules, that average would rise to 41.20 yr−1. For a randomly selected year of discharge history from the period 1950–2014, under normal operating rules for these projects the probability of an intrusion rises from 0.25 (for 30-day intrusions) or 0.05 (for 60-day intrusions) to 0.57 or 0.28, respectively.
-
ItemReducing Carbon Emissions from Shopping Trips: Evidence from ChinaLI, J ; ZHANG, PY ; LO, K ; WANG, M (MDPI, 2015)With rising income and the emergence of modern shopping centers in urban China, shopping trips by private car becomes more and more common, leading to higher carbon emissions in the transport sector. Encouraging car owners to shift transport mode from private car to public transport could achieve significant emissions reductions. This study estimate carbon emissions savings by shifting from private cars to public transport for shopping trips in urban China, using Shenyang, one of the largest cities in China, as a case study. Our results show that the average carbon emissions per shopper is 426.9 g, and the carbon emissions on weekends is 13% higher than weekdays. Moreover, shoppers travelling by private car emitted five times more carbon emission than those by public transport. We also found that car ownership gradually increased as accessibility to public transport decreased, and that more car owners chose to travel by private cars than public transport in areas with limited access. This study, thus, highlights the potential for high-quality public transport to reduce the transport sector’s carbon emissions in urban China.
-
ItemNo Preview AvailableThe impact of water transfers from the lower Yangtze River on water security in ShanghaiChen, D ; Webber, M ; Finlayson, B ; Barnett, J ; Chen, Z ; Wang, M (ELSEVIER SCI LTD, 2013-12)Shanghai is a megacity that increasingly relies on water drawn from the Yangtze River estuary. During periods of low flow, water in the estuary can become too saline for use in city water supplies. River flow is measured at the Datong gauging station 680 km upstream from the river mouth. Several existing and planned river water extractions are located below Datong, including the Eastern Route of the South-North Water Diversion Project (ERP). The effect of these extractions on discharge into the estuary and the associated salinity levels may be significant, even though the extractions are not reflected in the discharge at Datong. We estimate the effects of these downstream extractions on water discharge into the estuary (rather than at Datong), particularly the critical discharge level below which salinity compromises water security in Shanghai. Our results show that the ERP will cause the discharge into the estuary to fall below critical levels between December and February in dry years and January to February in normal years. Future water transfer projects along the lower Yangtze River will further compound the problem. Maintaining Shanghai's water security is therefore a significant challenge for China's water resource management institutions.
-
ItemThe Yellow River in transitionWebber, M ; Barnett, J ; Wang, M ; Finlayson, B ; Dickinson, D (ELSEVIER SCI LTD, 2008-08)
-
ItemThe Shenyang-Dalian mega-urban region in transitionWang, M ; Li, G (LIVERPOOL UNIV PRESS, 2008)
-
ItemImpact of the Global Economic Crisis on China's Migrant Workers: A Survey of 2,700 in 2009Wang, M (ROUTLEDGE JOURNALS, TAYLOR & FRANCIS LTD, 2010-03-01)