Global ETD Search

11	Agricultural Water Use in Lake Urmia Basin, Iran : An Approach to Adaptive Policies and Transition to Sustainable Irrigation Water Use Faramarzi, Nahal January 2012 (has links) The Lake Urmia positioned in a closed basin in north-west Iran, positioned at altitude 1250 m above the sea level, and has been rapidly drying since 1990. The lake water level has declined to 1271.58 m in 2008 from the last highest record 1277.80 m in 1994. The lake water volume has fluctuated during the observation period and shows a drop from of 32 to 14.5 million cubic meters, while the lake salinity has increased from 205 to 338 g/l due to the evaporation and water inflow reduction. In the Lake Urmia basin, there has been an increase in public awareness of the possible environmental threat and the unpleasant socio-economical consequences on the region’s inhabitants. The main aim of this study is to assess the current water use pattern in the Urmia Lake basin system with emphasis on the agricultural sub-system, and to propose adaptive measures and sustainable water management scenarios. The study shows that the main cause for these changes are the diversion of rivers and streams for agricultural irrigation; agriculture is a sector with one of the highest water demands, and frequent drought in early 2000s exacerbated the situation. In addition, a growing population and the increased development of agricultural land has led to an increase in unsustainable practices which have an unpredictable impact on the Lake Urmia ecosystem. This study investigates sustainable water use strategies for Lake Urmia basin, and considers economic and environmental factors, including the loss of valuable ecosystems that highlights social and ethical issues for the current and coming generations. Sustainable Development Lake Urmia Basin Sustainable water management Sustainable agriculture Irrigation water management Adaptive policies Sustainability
12	Water planning and management for large scale river basins case of study : the Rio Grande/Rio Bravo transboundary basin Sandoval Solis, Samuel 12 October 2011 (has links) Because water is not equitably distributed in time and place, in the right quantity with the adequate quality, water planning and management is used to redistribute the resource in such a way that tries to satisfy the necessities of water users, including the environment. Policies are proposed to improve the water management, however, selecting the best alternative can be difficult when tradeoffs among alternatives improve certain aspects of the planning and management and worsen others. This research establishes a methodology to evaluate water management policies in order to clearly and systematically identify policies that improve the water management. First, each water user, system or environmental requirement are evaluated using performance criteria. Second, performance criteria are summarized using the Sustainability Index. Finally, individual Sustainability Indices are grouped using the Sustainability by Group Index. The Sustainability by Group Index makes it possible to compare groups of water users and regions at a glance. This methodology has been successfully applied in the Rio Grande/Rio Bravo basin, a transboundary basin between the United States and Mexico. A set of scenarios was defined by water users, authorities and environmental organizations of the basin from both countries. A water resources planning model was constructed to represent the water management of the basin. The model was used to evaluate several scenarios and the benefits or damages that each policy provides. Two winning scenarios (called Meta-scenarios) that improve the management for water users, the environment and international treaty obligations were identified. Meta-scenario A is an immediate action scenario that includes: buyback of water rights, improvement in irrigation infrastructure, water demand reduction for irrigation districts in Mexico and the US, groundwater banking and the inclusion of environmental flows. Meta-scenario B is a short term scenario that includes the policies of Meta-scenario A plus expanded buyback of water rights, additional improvements in infrastructure and sharing of water savings between farmers in the US and Mexico. Results have been presented to decision makers and water users in both countries who will ultimately decide if they should implement the suggested policies. Most importantly, some alternative policies are now known that can help to improve the water management in the basin, for whom and where. / text Water management Rio Grande/Rio Bravo Sustainability index Sustainable water resources Scenarios analysis Meta-scenarios
13	Decentralized Urban Wastewater Reuse in China : - with Focus on Grey Water Zhong, Ling January 2013 (has links) Grey water reuse has attracted more and more attention among researchers and professionals in recent years. As most of the Chinese cities are undergoing the process of fast urbanization and economic development, many water-related problems have occurred and urban water resources management has become a strategic issue. The urge to reconsider the conventional ways of utilizing water and discharging the wastewater in cities is calling. As a relatively simple and flexible way, decentralized grey water reuse system can help to make the first step in achieving a sustainable urban water management. However, whether it is feasible in China is still a question. This paper aims at looking for the answer based on a survey and interviews with professionals in the fields from different Chinese cities. The result shows “reuse” as one of the solutions of solving water shortage and achieving sustainable water management is not as simple as one may think. In general, decentralized urban grey water / wastewater reuse is not easy to flourish in China in the near future though most of the respondents hold a positive attitude about reuse itself. To explain this difference between attitude and actual planning we need more historical, political and social-economic understanding with a touch of “Chinese characteristics”. grey water reuse reclaimed wastewater decentralized urban China sustainable water management
14	Inclusive public spaces for water management in rural India / A design framework of the public spaces associated with water infrastructure in rural India to promote sustainable water management Wong, Tsz Wai January 1900 (has links) Master of Landscape Architecture / Department of Landscape Architecture/Regional and Community Planning / Alpa Nawre / Stephanie A. Rolley / In underprivileged communities in developing countries, water is essential for basic survival. Particularly for rural communities, water supports irrigation for agriculture and, hence, the livelihood of villagers. Based on a forecast by the Asian Development Bank, India is expected to reach a water deficit of 50% by 2030 (Dutta, 2017). Without awareness of conservation and efforts to conserve water resources and protect them from being polluted by industries and communities, rural Indian communities will continue to suffer from water mismanagement and the loss of potential long-term environmental, social, and economic benefits that water can bring to a community. Nonetheless, better water management is attainable in rural communities. Given the model Indian villages that have been transformed into sustainable communities by implementing and managing effective blue-green infrastructure through community participation, landscape architects are proven that they are capable of various roles in leading, initiating, and providing design and technical support for water infrastructure projects of different scales in rural India. Since stewardship and maintenance of these systems are critical for long-term effectiveness, the core idea of this design project is leveraging local efforts and community power to build and maintain functional water infrastructure as a better, more sustainable water management strategy. In this study, public space associated with water infrastructure is considered as a potential driver for local efforts to maintain the water management landscape when those public spaces are designed for inclusiveness and diversity. Thus, the project goal is to create or transform the public space associated with existing water infrastructure into an inclusive, productive community place that can generate environmental, social, and economic benefits, as a strategy for sustainable water management in rural India. Currently, the proposed water management landscape in this study is a diverse public space shared by community members of different ages, genders, classes, castes, and religions. The research methodology divides into three phases. The first phase addresses the general water issues and the cultural background of rural India through literature and preliminary site inventory using the GIS data provided by the Panchayat of Dhamori. The second phase presents the perceptions of villagers in Dhamori about using water and public space after collecting quantitative and qualitative data through site observation and participatory planning. By synthesizing and analyzing the knowledge generated from the participatory process on-site, the final phase interprets and addresses the emergent problems through developing a design framework for conceptual site design. Sustainable water management Public space Rural India Participatory planning Landscape Architecture
15	Coordination and Power in Water Governance: The Case of Prescott Active Management Area January 2017 (has links) abstract: Studies of governance have focused on the interactions among diverse actors while implicitly recognizing the role of power within those relationships. Explicit power analyses of water governance coordination are needed to better understand the conditions for and barriers to sustainability. I therefore utilized a novel conceptual framework to analyze vertical and horizontal governance, along with power, to address how governance interactions affect water sustainability in terms of (1) interactions among governance actors across local to state levels; (2) coordination among actors at the local level; and (3) the exercise of power among assorted actors. I adopted a qualitative case study methodology that involved triangulating interview transcripts, policy documents, and other data in the case study area of Prescott, Arizona. Across governance scales, my analysis found that informational and contentious interactions occur around water management plans, groundwater withdrawal fees, and growth debates due to the stipulations of Arizona’s Groundwater Management Act. Locally, municipalities in different groundwater basins coordinate by pooling resources for water development due to shared growth visions. However, municipalities within the same groundwater basin are divided in their pursuit of the state-mandated goal of safe yield due to discontent arising from differing growth visions, libertarian values of water control, and unequal responsibilities among actors in conserving water or monitoring use. Finally, local and state actors exercise power through litigation, legislation, and political processes to pursue their interests, thereby limiting coordination for water sustainability. My explicit analysis of power reveals that coordination occurs not just because of water policies but due to interest-based water narratives (growth and libertarian). The emphasis of growth proponents on supply augmentation and libertarian opposition to regulations pose significant barriers to water sustainability. Successful policy-based pursuits of water sustainability will, thus, require an acknowledgment of these management asymmetries and commitments to addressing them. / Dissertation/Thesis / Doctoral Dissertation Geography 2017 Geography Sustainability Water resources management Policy Power Prescott AMA Sustainable Water Governance Water Governance Water Sustainability
16	Urban Development and Sustainable Water Management of Southwest Cities January 2013 (has links) abstract: Water is the defining issue in determining the development and growth of human populations of the Southwest. The cities of Las Vegas, Phoenix, Tucson, Albuquerque, and El Paso have experienced rapid and exponential growth over the past 50 years. The outlook for having access to sustainable sources of water to support this growth is not promising due to water demand and supply deficits. Regional water projects have harnessed the Colorado and Rio Grande rivers to maximize the utility of the water for human consumption and environmental laws have been adopted to regulate the beneficial use of this water, but it still is not enough to create sustainable future for rapidly growing southwest cities. Future growth in these cities will depend on finding new sources of water and creative measures to maximize the utility of existing water resources. The challenge for southwest cities is to establish policies, procedures, and projects that maximizes the use of water and promotes conservation from all areas of municipal users. All cities are faced with the same challenges, but have different options for how they prioritize their water resources. The principal means of sustainable water management include recovery, recharge, reuse, and increasing the efficiency of water delivery. Other strategies that have been adopted include harvesting of rainwater, building codes that promote efficient water use, tiered water rates, turf removal programs, residential water auditing, and native plant promotion. Creating a sustainable future for the southwest will best be achieved by cities that adopt an integrated approach to managing their water resources including discouraging discretionary uses of water, adoption of building and construction codes for master plans, industrial plants, and residential construction. Additionally, a robust plan for education of the public is essential to create a culture of conservation from a very young age. / Dissertation/Thesis / M.S. Applied Biological Sciences 2013 Environmental education Environmental management Sustainability development southwest cities sustainable water management
17	Barriers to sustainable water resources management : Case study in Omnogovi province, Mongolia Enkhtsetseg, Mandukhai January 2017 (has links) This study examines the barriers to sustainable water resources management in water vulnerable, yet a mining booming area. The case study is conducted in Omnogovi province of Mongolia in Nov-Dec 2016. This study presents how the Omnogovi province manages its water with increased mining and examines what hinders the province from practicing sustainable water resources management and examines the involvement of residents in the water resources management of Omnogovi province. Qualitative approaches such as semi-structured interviews, participatory observation and literature review were used in this study. This study demonstrates that the water resources management of Omnogovi province is unsustainable in this time period, yet the implementation of IWRM approach has improved the water resources management of the province. The barriers to sustainable water resources management in Omnogovi province are inefficient governance and poor enforcement of law, today. Despite it, data-scarcity and transboundary water issues might become barriers to practice efficient water resources management in the province. The involvement of residents in water resources management of Omnogovi province is deficient, yet the implementation of participatory approach and establishment of RBC might improve the participatory governance. The study shows IWRM can improve the water resources management of a developing country, yet it can be time-consuming, costly and challenging to implement in a country, which is still in socio-economic and political transition. Integrated Water Resources Management water security Mongolia Human Geography Kulturgeografi
18	Contribution to Sustainable Water Management in oligotrophic mountainous rivers : Sunlight induced inactivation of Escherichia coli under the influence of physicochemical parameters water-color and water depth Student 1, efternamn:Szépfalusi, Béla January 2022 (has links) Water is essential for life on earth. Human society is challenged to sustain sufficient water quantity of good quality. This objective is reflected in sustainable development goal 6, “clean water and sanitation”. Water monitoring is part of sustainable water management and aims to evaluate the physical, chemical and biological status of a water body. Regular monitoring in the catchment area of Indalsälven (Sweden) is conducted by the Indalsälven Water Conservation Association (IWCA). In this area counts of Escherichia coli (E. coli) between 0 and 500 colony forming units (CFU) were monitored from 1993 – 2022 at the closest monitoring station Enkroken. This implies that drinking water quality standards were exceeded during many occasions (≥10 E. coli CFU/100ml). It is known that survival of E. coli in aquatic environments is dependent on nutrient levels, turbidity, sedimentation, pH level, predation, microbial community composition, temperature, and solar radiation. Low water depth and clear water with poor nutrient level in Enan and Handölan, tributaries to Indalsälven, are believed to cause solar radiation to be the main driver for inactivation of E. coli. Inactivation behaviour of indicator bacteria for faecal contamination such as E. col, is assumed to reflect on other bacteria that were excreted in the same way. The objective of the research was to investigate to which extent river color and river depth under the influence of sunlight affected E. coli inactivation in pristine like conditions such as the upper catchment area of Indalsälven. In this study, conditions from the research area were mimicked in 4 laboratory experiments. Results showed that neither 10 nor 35µW/cm2 led to additional inactivation due to sunlight. In a following experiment the liquid depth was reduced, with as a result that the inactivation of bacteria started to be influenced by sunlight when the depth was reduced to 14.4cm or lower. A fourth experiment was conducted at 14.4cm depth and additional color concentration 50 and 100 mg/l Pt. Results indicated that inactivation influenced by sunlight was reduced at color level 50 or more to a level that was equal to no sunlight radiation. A median depth of 0.2 cm and median color level of 15 mg/l Pt in the catchment area of Indalsälven suggests that inactivation of E. coli is very likely influenced by the sun, upstream the measuring point Enkroken and at points where the river is as shallow 14.4cm or less. Sunlight radiation might be underestimated in the conducted laboratory experiments, therefore continuous on-site research is suggested. / <p>2022-06-19</p> bacterial inactivation E. coli UV-radiation water color water depth sustainable water management Environmental Sciences Miljövetenskap
19	Blind belief in a commodified natural resource : a grounded theory Pearce, Rebecca January 2013 (has links) This research examines the application of a Classic Glaserian Grounded Theory methodology to the phenomenon of drought when viewed from the perspective of household water users in southern England. The resulting conceptual work calls into question the effectiveness of water-wise messaging and current Government policies on water management, by highlighting the double assurances afforded to the public through their own observations of the natural cycling of water resources between atmosphere and land, and the continuous operation of the regulated water industry, that together sustain blind belief in the ongoing availability of potable water resources. To establish a clear separation between the development of substantive theory and mixed method studies that claim to take a grounded theory approach that are generally more popular within the discipline of Human Geography, the theory is presented alongside two pieces of work; a collection of modern drought histories and a questionnaire. Developed as part of the necessary process of cycling alternate projects to enable a theory to emerge from the data whilst the researcher is distracted from forcing her own ideas onto it, both these pieces can be viewed separately or as supportive companions to the theory. Additionally, in acknowledging the difficulty in presenting a Classic Grounded Theory in the traditional discussional form, for the benefit of the reader the theory is preceded by an autoethnography, which incorporates descriptive elements taken from field notes and the author’s personal water diary. These works draw data from subjects in three counties in England (Norfolk, Kent, and Devon), following the northwest – southeast rainfall gradient. Supplementary material for the drought histories is drawn from local and national archives and recorded oral histories. The primary emphasis of this work is placed on assessing the merits of each of the methods deployed in addressing environmental social science issues in the context of climate change, which hitherto have been focused on perception questionnaires and the development of popular cultural typologies. 363.61
20	Watershed-Scale Modeling for Water Resource Sustainability in the Tuul River Basin of Mongolia Norvanchig, Javzansuren 09 July 2018 (has links) (PDF) Water scarcity is a prevalent issue all over the world. Growing water abstractions combined with uncertain effects of climate increase competition for scarce water resources worldwide, especially in arid and semiarid regions. It is crucial to assess and manage available water resources to ensure its sustainability. There is a need for integrated water management at a watershed scale. Watershed models are a useful tool to support sustainable water management and investigate effects of hydrologic responses at various scales under climate change conditions and to simulate effects of the management decisions. This study aims to assess the sustainability of water resources in the Tuul River Basin in Mongolia using SWAT (Soil Water Assessment Tool) model to understand ecohydrological processes in the basin. The model is used to analyze the trends in water usage on a watershed and subwatershed basis. The water supply and demand dynamics at each sub watershed levels are analyzed to develop a sustainability index based on specific criteria of water sustainability. Sustainability index was used for better water management by targeting areas of the watershed. Using the analysis, strategies for water demand management for the Tuul River basin area were developed. I expect the results of the study with transform water resource situation in the region through better information on the dynamics of the system and will help in alleviating water issues in similar regions of the country and of the world. The model can be a useful tool to support decision makers and to simulate and analyze the effects of water management practices. water resources water supply water demand Tuul river sustainable water resources Natural Resources and Conservation Water Resource Management

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