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Determining sustainable groundwater withdrawal at the Cone Ranch property in south west FloridaSenh, Sin. January 2005 (has links)
Thesis (M.A.)--State University of New York at Binghamton, Dept. of Geological Sciences and Environmental Studies, 2005. / Includes bibliographical references.
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Numerical simulation of groundwater withdrawal within the Mercury Valley Hydrographic Area, NevadaGilliam, Anna Brooke. January 2004 (has links)
Thesis (M.S.)--University of Nevada, Reno, 2004. / "December, 2004." Includes bibliographical references (leaves 79-83). Online version available on the World Wide Web.
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Evaluating cumulative effects of ground-water withdrawals on streamflowPrudic, David E. January 2007 (has links)
Thesis (Ph. D.)--University of Nevada, Reno, 2007. / "May, 2007." Includes bibliographical references (leaves 307-323). Online version available on the World Wide Web.
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Statistically Evaluating Water Consumption Historically and Across Multiple Users in VirginiaDiCarlo, Morgan 11 June 2018 (has links)
This study explores key aspects of water usage in Virginia via a broad-scale analysis of multiple water users through thirty years of time-series records from the Virginia Water Use Data System. A full spectrum of users is considered, including water used for energy, industrial, agricultural and municipal applications. The extent of the relationship between the volume of water used and drivers like economic and climatic conditions are not well defined in humid environments like Virginia. Mann-Kendall testing is applied to identify water use trends through time both statewide and at the county level. A panel regression is employed to identify relationships between water use and explanatory variables of climatic and economic conditions, both spatially and temporally. Key trends include that industrial and energy sector water withdrawals per facility are significantly decreasing over time. Water used for agricultural applications was found to increase on warmer than average years and decrease on wetter than average years, indicating the panel regression methodology successfully demonstrated and quantified intuitive trends. Interestingly, municipal and industrial water usage had a statistically significant relationship with the Gini coefficient, a measure of inequality in rainfall distribution, indicating intraseasonal variability may play an important role in water use trends that is not apparent using seasonal averages alone. Overall, this work contributes to the understanding of water use trends at the state level for Virginia, and better characterizes long-term trends and short-term variability in water withdrawal. / MS / This work applies statistical methods to better understand water use trends through time and across the state of Virginia. The primary data source is a record spanning thirty years of water use, reported by more than 2,400 users in all counties of Virginia to the Department of Environmental Quality (VDEQ). This analysis includes a full spectrum of water sectors, including water used domestically (municipal), water used for manufacturing (industrial), agriculture applications and water used in the production of energy. The first objective is to determine if water use, normalized by changes in population and the number of users, is increasing or decreasing over time for each county in Virginia.
Once the trends through time are identified, the next objective is to better define the underlying factors (explanatory variables) which may drive changes in how much water is used. One potential factor includes changes in the economic conditions. For example, the economic recession in 2008 caused some decline in industrial production. Did this likewise cause a reduction in water used by industrial facilities? Particularly, the analysis considers how the annual average temperature, total annual precipitation, rainfall variability and the length of heatwaves that occur in a given year might impact the amount of water withdrawn in that year. This work addresses a knowledge gap about how water use is impacted by climate change in humid environments like Virginia.
This work aims to establish whether or not there is a significant relationship between time, climate, economic change and water use in Virginia. The trends identified in this study will support the management of water supplies in Virginia and the development a more informed state water resources plan.
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The effects of irrigation water withdrawals on macroinvertebrate community structure and life history strategies /Miller, Scott W. January 1900 (has links)
Thesis (Ph. D.)--Oregon State University, 2008. / Printout. Includes bibliographical references (leaves 100-108). Also available on the World Wide Web.
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Selective withdrawal of a linearly stratified fluid in a triangular reservoirHnidei, Stephen D. January 1990 (has links)
The water in most reservoirs is density stratified with depth. This stratification leads to the inhibition of vertical movement, consequently, when water is withdrawn from the reservoir it tends to move in a jet-like layer called a withdrawal layer, towards the sink. By placing the sink at a certain depth, one is able to selectively withdrawal water from a limited range of depths and thus obtain water of a desired quality.
Much work has been done in this field by considering a simplified boundary geometry, usually rectangular. However little attention has been given to the effects of accurate boundary geometry. For this thesis, five numerical experiments were conducted for the problem of a two-dimensional, viscous, incompressible, slightly-stratified flow towards a sink in a triangular reservoir. / Science, Faculty of / Mathematics, Department of / Graduate
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Decision Support Systems for Water Environment Management in Rural Areas under Hydrological and Socio-Economic Uncertainties / 水文学的および社会経済学的不確実性下にある農村地域の水環境管理に対する意思決定支援システムGoden, Mabaya 23 September 2016 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第20005号 / 農博第2189号 / 新制||農||1045(附属図書館) / 学位論文||H28||N5014(農学部図書室) / 33101 / 京都大学大学院農学研究科地域環境科学専攻 / (主査)教授 藤原 正幸, 教授 村上 章, 准教授 宇波 耕一 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM
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ASSESSMENT OF WATER USE AND INDIRECT WATER REUSE IN A LARGE SCALE WATERSHED: THE WABASH RIVERMaria Julia Wiener (9465605) 16 December 2020 (has links)
<p>In
the context of climate change, increasing demands for freshwater make it
necessary to manage our water resources in a sustainable way and find
innovative ways to extend their life. An integrated water management approach
needs to consider anthropogenic water use and reuse which represent major
components of the current water cycle. In particular, unplanned, or de facto,
indirect water reuse occurs in most of the U.S. river systems; however, there
is little real-time documentation of it. Despite the fact that there are
national and state agencies that systematically collect data on water
withdrawals and wastewater discharges, their databases are organized and
managed in a way that limits the ability to combine reported water data to
perform large scale analysis about water use and indirect reuse. To better
document these issues and to demonstrate the utility of such an analysis, I
studied the Wabash River Watershed located in the U.S. Midwest. Existing data
for freshwater extraction, use, discharge, and river streamflow were collected,
curated and reorganized in order to characterize the water use and reuse within
the basin. Indirect water reuse was
estimated by comparing treated wastewater discharges with stream flows at
selected points within the watershed. Results show that during the low flow
months of July-October 2007, wastewater discharges into the Wabash River basin
contributed 82 to 121% of the stream flow, demonstrating that the level of
water use and unplanned reuse is significant. These results suggest that
intentional water reuse for consumptive purposes such as landscape or
agricultural irrigation could have substantial ecological impacts by
diminishing stream flow during vulnerable low flow periods. This research also
completed a time series watershed-scale analysis of water use and unplanned
indirect reuse for the Wabash River Watershed from 2009 to 2017. Results
document the occurrence of indirect water reuse over time, ranging from 3% to
134% in a water-rich area of the U.S. The time series analysis shows that
reported data effectively describe the water use trends through nine years,
clearly reflecting both anthropogenic and natural events in the watershed, such
as the retirement of thermoelectric power plants, and the occurrence of an extreme
drought in 2012. Results demonstrate the feasibility and significance of using
available water datasets to perform large scale water use analysis, describe
limitations encountered in the process, and highlight areas for improvement in
water data management.</p>
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L’irrigation dans le bassin du Rhône : gestion de l’information géographique sur les ressources en eau et leurs usages / Irrigation in the Rhône basin : geographic information system about freshwater resources and water usesRichard-Schott, Florence 06 December 2010 (has links)
L’irrigation a connu de grands changements dans le bassin du Rhône français durant les trente dernières années du vingtième siècle. La mise en œuvre d’un Système d’Information sur le bassin du Rhône (SIR) montre l’existence de quatre grands systèmes d’irrigation qui s’individualisent au sein de plusieurs « régions d’irrigation ». Ces dernières révèlent des dynamiques contrastées, mettant à mal l’idée que l’irrigation aurait connu une expansion continue et homogène, même si les superficies irriguées augmentent globalement. Ces dynamiques spatiales s’expliquent par les profondes transformations d’une pratique modernisée, utilisant des techniques toujours plus économes en eau. C’est d’ailleurs le deuxième enseignement de la recherche : l’accroissement général des superficies irriguées n’a pas entraîné une augmentation des demandes en eau. Celles-ci ont plutôt tendance à diminuer, de l’ordre de 30 % en trente ans. Sous l’impulsion des gestionnaires, les irrigants font un usage de plus en plus raisonné des ressources en eau et, à terme, il ne faut certainement pas considérer l’irrigation comme une menace généralisée pour les équilibres environnementaux... Le mémoire de thèse s’accompagne d’un système de gestion de l’information géographique et d’un atlas en version électronique. / Over the last thirty years of the twentieth century, irrigation in the French basin of the Rhône river has undergone substantial change. The implementation of a Geographic Information System on the Rhône basin (SIR) demonstrates the existence of four main irrigation systems individualized within several “irrigation regions.” These reveal in turn a series of contrasted dynamics, putting into question the idea that irrigation expansion had been both continuous and homogeneous, even though the total surface area irrigated actually increased. These spatial dynamics can be accounted for by the deep transformations due to a modernised practice that relies on techniques ever more sparing with water. This is in fact the second lesson one can draw from this study : the general increase in irrigated surface areas did not lead to an increase in water demand. On the contrary, water demand has tended to diminish, in the order of 30% over thirty years. Driven by management, the cultivators’ use of water resources is more and more reasoned, so that in the long run irrigation is surely no global threat to environmental balance. The thesis includes a system for managing geographic information as well as an electronic atlas.
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A spatial decision support system for groundwater abstraction impact assessment and licensingBasson, F. C. (Frederick Christoffel) January 2005 (has links)
Thesis (MSc)--Stellenbosch University, 2005. / ENGLISH ABSTRACT: Water resources in South Africa are limited and groundwater plays an important role in
supporting basic human needs, sustaining ecosystems and enabling industrial and agricultural
development. Sound management practices are necessary to ensure sustainable development
of water resources. All groundwater usage must be licensed in compliance with the National
Water Act of 1998. A Spatial Decision Support System (SDSS) can be used to assist in the
groundwater usage licensing process of the Department of Water Affairs and Forestry
(DWAF).
The main aim of this study was to develop a SDSS, named Groundwater Abstraction &
Licence Evaluation Tool (GALET), that could assist in the process of allocating water use
licences and determining the local impact of abstraction, based on existing theory and data.
The development was done within ArcView 3.2 using the scripting language Avenue. The
Sandveld, an arid stretch of land along the west coast of South Africa that is heavily impacted
by groundwater abstraction, was the chosen study area. The data collected for this study
included existing borehole, recharge, rainfall and geological information.
GALET proved to be capable of calculating essential information needed to evaluate
groundwater abstraction, which included drawdown in the water table, zone of influence and
the possible effects on features such as rivers and wetlands. Targeted potential users regarded
GALET as a useful tool in the process of licensing and groundwater abstraction impact
assessment and plans are under way to implement GALET or a derivative thereof at the
DWAF regional offices. / AFRIKAANSE OPSOMMING: Waterhulpbronne in Suid-Afrika is beperk en grondwater speel 'n belangrike rol in die
ondersteuning van basiese menslike behoeftes, volhouding van ekosisteme asook industriële
en landbou-ontwikkeling. Betroubare bestuurspraktyke is noodsaaklik om die volhoubare
ontwikkeling van waterhulpbronne te verseker. Alle grondwatergebruik moet volgens die
Nasionale Waterwet van 1998 gelisensieer word. 'n Ruimtelike Besluitnemings
Ondersteuning Stelsel (RBOS) kan as 'n hulpmiddel gebruik word in die lisensiëringsproses
van die Departement van Waterwese en Bosbou.
Die hoofdoel van hierdie studie was om 'n RBOS, genoem Groundwater Abstraction &
Licence Evaluation Tool (GALET), te ontwikkel wat as hulpmiddel gebruik kan word in die
allokeringsproses van watergebruiklisensies en die bepaling van die impak van
grondwateronttrekking op die omgewing, gebaseer op bestaande teorie en data. Die
ontwikkeling is in ArcView 3.2 met die programmeringstaal Avenue gedoen. Die Sandveld,
'n ariede streek aan die weskus van Suid-Afrika wat onderhewig is aan grootskaalse
grondwateronttrekking, is gekies as die studie area. Die data wat vir hierdie studie ingesamel
is sluit bestaande boorgat, grondwateraanvulling, reënval en geologiese inligting in.
GALET was in staat om belangrike inligting aangaande die evaluering van
grondwateronttrekking te bereken, o.a. die daling van die grondwatervlak, die impaksone en
die moontlike effekte op landvorms soos riviere en vleilande. Die teikengroep potensiële
gebruikers het GALET as 'n nuttige hulpmiddel in die proses van lisensiëring en
grondwateronttrekking impakbepaling beskou en planne is onderweg om dit of 'n aangepaste
program by die streekskantore van die Departement van Waterwese en Bosbou te
implementeer.
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