Ancient Greek water management : the case of Northern Greece

Vieira, Shelby

08 1900

L’eau est une ressource essentielle pour nourrir les hommes, les animaux, et les plantes. Par contre, les eaux stagnantes peuvent attirer vermine et maladies, et les fortes pluies provoquer des inondations soudaines. Malgré son caractère essentiel, l’archéologie de la gestion de l’eau dans le nord de la Grèce est souvent limitée à quelques paragraphes inscrit dans des études plus vastes, à l’exception de quelques article s comme « Sanitation and Wastewater and Stormwater Management in the Ancient Kingdom of Macedonia » de E. Kaiafa . Ainsi, ce mémoire a pour objectif d’examiner la manière dont les Grecs ont relevé le défi de l’approvisionnement de leurs villes en eau potable et de l’évacuation des eaux usées et impures, aux périodes archaïque, classique et hellénistique. Ce mémoire s’articule en quatre chapitres afin de fournir une analyse descriptive détaillée des différentes facettes de la gestion de l’eau. Après une introduction générale, nous nous pencherons d’abord sur l’attitude des Grecs anciens envers l’eau et sur leur conception d’une source d’eau fraîche. S’ensuivront un survol des condition géographiques en Grèce du Nord ainsi qu’une discussion sur la manière dont celles ci peuvent affecter l’étude des systèmes d’eau de la Grèce antique. Les trois autres chapitres se concentreront sur l’étude des vestiges et archives archéologiques de diverses villes du nord de la Grèce, comme Argilos, Pella, et Thasos. Premièrement, les structures artificielles construites pour récolter les sources d’eau douce seront étudiées. S’ensuivra un chapitre s’attardant à la question de la relation entre la gestion de l’eau, la topographie de la ville, et le drainage urbain et domestique. Finalement, une section portant sur l’évacuation des eaux dans les fortifications du nord de la Grèce conclura cette étude. / Water is an essential resource for nourishing people, animals, and plants. At the same time, stagnant waters attract vermin and disease, and heavy rainfall causes flash floods. The archeology of water management in Northern Greece is often regulated to a few paragraphs in a broader context, except for articles such as E. Kaiafa’s on “Sanitation and Wastewater and Stormwater Management in the Ancient Kingdom of Macedonia.” This thesis explores how the Greeks handled the challenges of sustaining their cities with water and ridding themselves of used and impure waters in the Archaic, Classical and Hellenistic periods. This dissertation is separated into four main chapters in order to provide a descriptive analysis of what pertains to water management. After a general introduction, the first topic of interest outlines the ancient Greek attitudes toward water and their view of a portable water source. To complement this, there is also a discussion on the geographical conditions of northern Greece and how that affects the study of ancient Greek water systems. The other three chapters study the archeological record from various cities all over northern Greece, such as Argilos, Pella, and Thasos. The first of those chapters discusses what manmade structures were constructed to harvest freshwater sources. Following this is a study on the connectivity of water management, the city's topography, and urban and domestic drainage. A section on the water evacuates found on northern Greek fortifications concludes the study.

Archéologie

Grèce du Nord

Archaïque

Classique

Hellénistique

Gestion de l'eau

Sources d’eau

Drainage

Urbanisme

Études environnementales

Archeology

Northern Greece

Archaic

Classical

Hellenistic

Water management

Water sources

Urban planning

Environmental studies

The implementation of the water release module of the WAS program at the Vaalharts Water Users' Association

Jansen van Vuuren, Arno

January 2008

Thesis (M. Tech) - Central University of Technology, Free State, 2008 / Food and water are two basic human needs. International projections indicate that water shortages will be prevalent among poorer countries where resources are limited and population growth is rapid, such as the Middle East, parts of Asia and Africa. Provisional estimates are that South Africa will run out of surplus usable water by 2025, or soon thereafter. Urban and peri-urban areas will therefore require new infrastructure and inter-basin transfers to provide safe water and adequate sanitation. Due to the high cost of these developments, such water is seen as being used for industrial and public needs only and not for irrigation. Currently, the agricultural water users consume the majority of the water used by humans. Taking cognisance of the before mentioned it is a reality that in the future the irrigation sector will have to sacrifice some of its water for public and industrial usage. This suggests growing conflict between the different water users and the agricultural water users. An attempt by the Department of Water Affairs and Forestry (DWAF) to address this conflict has been the implementation of pilot studies to determine the steps Water User Associations (WUAs) could take to ensure more effective water use in the future by the agricultural sector. These steps include an increase in irrigation efficiency according to the benchmarks of crop irrigation requirements and more efficient dam and canal management. The Water Administration System (WAS) has been developed to fulfill this exact requirement as it ensures optimal delivery of irrigation water on demand. The program is designed as a management tool for irrigation schemes, WUAs and water management offices to manage their accounts, and also to manage water supply to clients more efficiently through canal networks, pipelines and rivers. The WAS program consists of four modules that are integrated into a single program. Three modules of the WAS program have already been implemented at the Vaalharts irrigation scheme. This scheme has been transformed from a government controlled scheme to a privately owned scheme, and is now known as the Vaalharts Water User’s Association (VHWUA). The main purpose of this study was to implement the fourth module of the WAS program at the VHWUA as only full functionality of the complete program will ensure effective water use at the scheme. The fourth module calculates the volume of water to be released for all the canals (main canal and all its branches), allowing for lag times, water losses and accruals in order to minimise waste and thus save water. The methodology followed in this study was to first of all develop an understanding of the distribution cycle and the current calculation procedure of the VHWUA. The fourth module was then applied on a typical feeder canal and used to calculate the release volumes in order to compare these results with the current values. The next step was then to verify all data abstracted from the database used by the WAS program to calculate the release volumes. The database consists of information like cross-sectional properties, positioning of the sluices, canal slope, as well as canal capacities. The verification of data was done by field work, by studying existing engineering design drawings, through meetings and consultations with all parties involved in the VHWUA as well as by mathematical calculations. Cross-checking and verification, if necessary, of all above mentioned data were done. After the verification process, the database was updated and another cycle of calculations were run to do the final calibrations. Accurate calibrations were done to the seepage and the lag time coefficient. Some final adjustments were also made to the canal geometry in the database. This was an important part of the study as only a trusted and verified database will deliver correct results, irrespective of the software program used. After calibration of the database, the fourth module was again applied, but this time water losses were included in the calculations and the results revealed trustworthy and accurate real-time release volumes. The study therefore succeeded in the implementation of the fourth module on a typical feeder canal at the VHWUA. The study was concluded by the compilation of a checklist, which the VHWUA can use to implement the module on the whole scheme. This would enable the VHWUA to implement and apply the complete WAS program, which offers all the benefits and answers in every need of any water management office. Sustainable water resource utilisation can only be achieved through proper management. Applying this most effective management program will ensure a cost effective and optimised process at the VHWUA.

Water-supply - South Africa - Vaalharts

Life-giving and life-threatening potential of water and water-related phenomena in the Old Testament wisdom literature : an eco-theological exploration

Kavusa, Kivatsi Jonathan

09 1900

The thrust of this thesis proceeds from two main presuppositions. The first is that the Old Testament wisdom books are generally ignored or not given enough attention in the studies about water and water-related phenomena. The second is that the romantic perspective on elements of the natural world is dominant in eco-theological studies. To highlight this twofold problem, a sample survey into the works of the scholarly biblical dictionaries, encyclopedias, books and articles as well as ecotheological studies is offered in the second chapter of this thesis. In an attempt to (partly) address this problem, this study argues that, firstly, despite a scarcity of scholarly interest in water and water-related phenomena in the Old Testament wisdom books, this body of literature contains a rich variety of references to water and water-related phenomena. Secondly, it is shown in this study that an overly-romantic view of nature does not do justice to the richness, complexity, and variety of portrayals of elements of nature in the texts themselves. In this sense, this study aims at retrieving ecological wisdom from particular texts that give voice to both the life-giving and life-threatening potential of water and water-related phenomena in the Old Testament wisdom books. The exploration is facilitated by elements of the historical-critical and literary approaches through an ecological framework informed by four of the six eco-justice principles of the Earth Bible Project. The thesis suggests that scholars who attempt ecological readings of the Bible will gain more if they also take less favoured texts into consideration. The exploration of water and water-related phenomena in the Old Testament wisdom books, therefore, goes beyond what studies on water or water-related phenomena have hitherto done. Furthermore, a study on both aspects of water as a life-giving and life-threatening entity demonstrates that an eco-friendly view of nature does not do justice to the biblical texts themselves. This will be seen through the third, fourth, fifth and sixth chapters. / Old Testament and Ancient Near Eastern Studies / D. Th. (Old Testament)

Water

Water-related phenomena

Eco-theology

Life-giving water

Life-threatening water

Wisdom literature

Anthropocentrism

Fountains

Streams

Springs

Flood

Drought

Rain

Sheol

Sea/river

Waters

Wells

Cisterns

Water management

Earth Bible Project

Earth Bible principles

220.855537

Water in the Bible

Geochemical and isotope investigations of carbonate sinter – 2000 years of water supply management in Palestine

Sabri, Raghid N. R.

12 December 2016

Over thousands of years, the eastern part of the Mediterranean has developed ways to supply and manage its water resources. The most important evidence of this is the water networks that are distributed in the area. Case studies involving a literature review, fieldwork, sample collection and analysis were conducted that focused on two areas in the West Bank: Nablus city and the northern part of Jordan Valley. These locations were chosen because Nablus city and its vicinity have many of Roman tunnels and aqueducts while the Jordan Valley has many watermills. This study aims to examine the changes in water quality over time in various ways; in an attempt to explain environmental degradation, to understand archeological aspects relating to the water management system, and to piece together what sustained the past environmental development. Throughout centuries carbonate deposits have accumulated along the sidewalls of the water system, containing and archiving geochemical and hydraulic information. These carbonate deposits were sampled from the walls of tunnels together with water samples from the tunnel and surrounding springs in the area. In addition, carbonate sinter has accumulated at the outlet of the watermill on the water shaft. This sinter was also sampled along with water samples from the springs and the water in the Wadi in the area. Water and carbonate samples were analyzed. Water analysis included major cations and anions, trace elements, rare earth elements, 18O/16O isotope ratio, and 87Sr/86Sr isotope ratio. Results indicate the presence of different underground water bodies and Sr resources. Furthermore, thin sections were made from the carbonate samples for SEM–EDX analyses and microscopic investigations. The microscope analysis showed that the distribution of minerals precipitated differs within one sample. Likewise, SEM–EDX results show a variation in element distribution along the growth axis. After finishing the analysis of water samples and thin sections, the layers of the carbonate samples were acidified and trace elements and rare earth elements were measured by means of ICP–MS. Then selected layers were prepared for isotope analyses (18O, 13C, and 87Sr/86Sr) and subsequently measured. The carbonate samples were dated using the U–Th method. Rare earth elements and trace elements measurements provide clear evidence that urbanization has an adverse effect on groundwater quality. Different groundwater bodies were identified by means of geochemical analysis. In the same way, the water sources used to feed the ancient water system were also identified. Through petrological and geochemical analysis, the sustainability of the watermill concept could be demonstrated. This study recommends a more controlled regulation of urbanization expansion. It will only be possible to continue living in this region with sufficient amounts of groundwater and innovative techniques for water supply and management that are environmentally sustainable, as it used to be centuries ago.

Karbonat

Sinter

Geochemie

Geoarchäologie

Wasser

Wasserwirtschaft

Tunnel

Aquädukt

Palästina

Carbonate

sinter

geochemistry

geoarchaeology

water

water management

tunnels

aqueduct

Palestine

ddc:550

Westjordanland

Hydrogeochemie

Hydrogeologie

Tropfstein

Sinter

Nablus <Region>

Quelle <Hydrologie>

Wassergüte

Hydrochemie

Geochemie

Umweltgeochemie

Kalksinter

Isotopengeochemie

Isotopenhydrologie

Sprudelstein

Wasserleitung

Brunnenstube

Influence of matrix effect of selected organochlorine pesticide residues in water from the Jukskei River catchment

Rimayi, Chengetayi Cornelius

11 1900

M. Tech. (Biotechnology) Vaal University of Technology / One of the major problems encountered in qualitative and quantitative determination of residual pesticides by gas chromatography is the matrix effects. Matrix components have a considerable effect on the way analysis is conducted and the quality of results obtained, introducing problems such as inaccurate quantification, low analyte delectability and reporting of false positive or even false negative results. It was aimed to develop and validate a suitable method for counteracting the matrix effects so as to improve the detection and quantification of selected organochlorine pesticide residues from real water samples. The real water samples used were sampled from three points along the Jukskei River catchment area in Gauteng, South Africa for a period of 7 months from January to July 201 0 so as to create a representative sample. An automated solid phase extraction (SPE) method coupled to Gas ChromatographyMass Spectrometry (GC-MS) method for the analysis of 20 selected organochlorine pesticides was developed and validated for the purposes of studying the matrix effects. The analytical method showed a significant degree of validity when tested against parameters such as linearity, repeatability and sensitivity. Endosulphan beta, 4,4' Dichlorodiphenyldichloroethane, and Heptachlor-epoxide had the broadest linear calibration ranges of 1 ppm- 0.0156 ppm. Benzene hexachloride (BHC) delta and Lindane had the lowest statistical limits of detection of 0.018 ppm. Statistical hypothesis testing indicated that there was significant linearity in all selected organochlorine calibration curves. Four different reversed sorbent phases, including LC18, SC18- E and Strata-X (styrene divinyl benzene) were tested for organochlorine retention efficiency. The LC-18 200 mg cartridge proved to be the most robust and effective sorbent phase as it produced better recoveries varying from 90-130% for most analytes. A breakthrough volume of 100 ml for the LC-18 200 mg cartridge was determined using an optimum matrix load curve. It was then concluded that the method developed was suitable for further research towards the influence of the matrix on selective determination of the selected organochlorine pesticides. Four different calibration methods, namely matrix-free external standard, matrixmatched external standard, matrix-free internal standard and matrix-matched internal standard were applied to test the efficiency of computing recoveries. All calibration curves for the 20 organochlorine pesticides showed significant linearity > 0.99 when plotted on both Chemstation and Excel. The calibration methods were tested on three different matrices composed of a high sample matrix (synthetic matrix), a low sample matrix (real sample matrix) and a no sample matrix (ultrapure water). Statistical hypothesis testing led to the decision that there are significant differences between the mean recoveries of the three water sample matrices and also that the differences in the mean recoveries of the three sample matrices are independent of the both the two calibration techniques (internal standard and external standard) and calibration types (matrix-matched and matrix-free) applied. This led to the overall conclusion that the matrix effects have an overwhelming influence on the selective determination of the selected organochlorine pesticides.

Residual pesticides

Matrix components

Matrix effects

Organochlorine pesticide residues

Water samples

Jukskei River catchment area

Solid phase extraction

Gas chromatography mass spectrometry

Heptachlor-epoxide

Endosulphan beta

Dichlorodiphenyldichloroethane

Lindane

571.950968

Water management -- South Africa.

Zpracování plánu společných zařízení pro komplexní pozemkovou úpravu

ANDREJKOVÁ, Michaela

January 2019

This diploma thesis is focused on the elaboration of a plan of joint facilities for comprehensive land treatment in the selected cadastral territory of Dolní Třebonín, located in the South Bohemian Region. The purpose of the thesis is the characterization and evaluation of the cadastral area as part of the need to implement these joint facilities: anti-erosion measures for the protection of agricultural land resources, measures for access to land, measures for protection and creation of the environment and water management measures. The theoretical part of this work is literary research. This section explains basic concepts such as land treatment, forms of land treatment, exploration works and joint facilities. The practical part describes the characteristics of the selected area, the exploration work in the given area and the proposal of the common facilities. The results are processed in textual and graphical form using ArcMap 10.0.

Assessing opportunities to increase global food production within the safe operating space for human freshwater use

Jägermeyr, Jonas

02 June 2017

Die Landwirtschaft ist heute der wichtigste Treiber der globalen Degradation von Ökosystemen. Es existiert jedoch wenig konkretes Wissen, wie Ökosysteme zu schützen sind und gleichzeitig die Nahrungsproduktion für die wachsende Weltbevölkerung gesichert werden kann. In dieser Dissertation untersuche ich Optimierungsmöglichkeiten im landwirtschaftlichen Wassermanagement. Ich quantifiziere praxisorientierte Verbesserungen der Regenwassernutzung und Optimierungen von Bewässerungssystemen, unter Einhaltung der „environmental flow requirements“ (EFRs). Um diese komplexen Interaktionen zu untersuchen, entwickle ich ein agro-hydrologisches Modell auf Basis detaillierter, mechanistischer Prozessabbildung weiter. Erstens, 39% der derzeitigen Wasserentnahmen für Bewässerung sind nicht nachhaltig und somit auf Kosten der Ökosysteme. Zweitens, solche lokalen Wasserentnahmegrenzen legen nahe, dass die globale Grenze für den menschlichen Wasserverbrauch deutlich niedriger liegt, als bisher angenommen (2800 vs 4000 km3yr-1). Drittens, die Implementierung von EFRs würde die landwirtschaftliche Produktion erheblich beeinträchtigen, mit >20% in stark bewässerten Gebieten. Verbesserte Nutzung des Niederschlagswassers und die Optimierung von Bewässerungssystemen, können die weltweite Nahrungsmittelproduktion allerdings um rund 40% nachhaltig steigern - ausreichend, um die Nahrungsmittellücke der wachsenden Weltbevölkerung bis 2050 zu halbieren. Zusammenfassend stellt diese Arbeit die erste umfassende und systematische Einschätzung globaler Potentiale der nachhaltigen Intensivierung der Landwirtschaft aus der Wasserperspektive dar. Die in dieser Arbeit vorgebrachten innovativen und quantitativen Erkenntnisse legen nahe, dass das Potential der diskutierten Interventionen höhere politische Aufmerksamkeit erfahren sollte. Meine Ergebnisse können eine konkretere Diskussion zur Umsetzung der Sustainable Development Goals untermauern. / Agriculture is today''s most important driver of ecosystem degradation across scales. However, there is little evidence on how to attain the historic twin-challenge of maintaining environmental integrity while producing enough food for a growing world population. In this thesis, I assess opportunities in agricultural water management to reconcile future food needs with environmental limits to water use. I explore solution-oriented ways to improve rainfed and irrigation systems alike, while safeguarding environmental flows (EFRs). To study complex interactions quantitatively, I advanced a state-of-the-art global modeling framework based on detailed, mechanistic process representation. First, a systematic upscaling of EFRs to global coverage indicates that 39% of current freshwater withdrawals for irrigation are unsustainable and occur at the cost of ecosystems. Second, accounting for EFRs indicates that the planetary boundary for freshwater use might be notably lower (2800 vs. 4000 km3yr-1) than expected. Third, maintaining EFRs would significantly affect food production, cutting >20% of total kcal production across intensely irrigated areas. Fourth, improving irrigation systems in combination with optimizing the use of precipitation water, provides effective and accessible measures to compensate for adverse impacts from protecting EFRs and climate change. Such integrated interventions could sustainably intensify global food production (+40% kcal) to the degree sufficient to halve the global food gap by 2050. In conclusion, this thesis provides the first comprehensive and systematic assessment of hitherto largely unquantified water opportunities in sustainable intensification of agriculture. While requiring corroboration by finer-scale research, the innovative quantitative foundation provided in this thesis suggests that farm water management merits a rise in political attention, and it can inform a more comprehensive discussion of related SDG target interactions.

Ernährungssicherheit

Nachhaltige Landwirtschaft

Ganzheitliches Farmwassermanagement

Bewässerungseffizienz

Ökosystem-Wasserbedarf

Süßwasserverfügbarkeit

Sustainable Development Goals

Planetary Boundaries

Food security

Sustainable agriculture

Integrated farm water management

Irrigation efficiency

Environmental flow requirements

Freshwater availability

Sustainable Development Goals

Planetary Boundaries

550 Geowissenschaften

31 Geowissenschaften

RB 10663

RB 10582

RB 10363

ddc:550

Dynamics of Coupled Natural-Human-Engineered Systems: An Urban Water Perspective on the Sustainable Management of Security and Resilience

Elisabeth Krueger (6564809)

10 June 2019

<div>The security, resilience and sustainability of water supply in urban areas are of major concern in cities around the world. Their dynamics and long-term trajectories result from external change processes, as well as adaptive and maladaptive management practices aiming to secure urban livelihoods. This dissertation examines the dynamics of urban water systems from a social-ecological-technical systems perspective, in which infrastructure and institutions mediate the human-water-ecosystem relationship. </div><div><br></div><div>The three concepts of security, resilience and sustainability are often used interchangeably, making the achievement of goals addressing such challenges somewhat elusive. This becomes evident in the international policy arena, with the UN Sustainable Development Goals being the most prominent example, in which aspirations for achieving the different goals for different sectors lead to conflicting objectives. Similarly, the scientific literature remains inconclusive on characterizations and quantifiable metrics. These and other urban water challenges facing the global urban community are discussed, and research questions and objectives are introduced in Section 1. </div><div><br></div><div>In Section 2, I suggest distinct definitions of urban water security, resilience and sustainability: Security refers to the state of system functioning regarding water services; resilience refers to ability to absorb shocks, to adapt and transform, and therefore describes the dynamic, short- to medium-term system behavior in response to shocks and disturbances; sustainability aims to balance the needs in terms of ecology and society (humans and the economic systems they build) of today without compromising the ability to meet the needs of future generations. Therefore, sustainability refers to current and long-term impacts on nature and society of maintaining system functions, and therefore affects system trajectories. I suggest that sustainability should include not only local effects, but consider impacts across scales and sectors. I propose methods for the quantification of urban water security, resilience and sustainability, an approach for modeling dynamic water system behavior, as well as an integrated framework combining the three dimensions for a holistic assessment of urban water supply systems. The framework integrates natural, human and engineered system components (“Capital Portfolio Approach”) and is applied to a range of case study cities selected from a broad range of hydro-climatic and socio-economic regions on four continents. Data on urban water infrastructure and services were collected from utilities in two cities (Amman, Jordan; Ulaanbaatar, Mongolia), key stakeholder interviews and a household survey conducted in Amman. Publicly available, empirical utility data and globally accessible datasets were used to support these and additional case studies. </div><div><br></div><div>The data show that community adaptation significantly contributes to urban water security and resilience, but the ability to adapt is highly heterogeneous across and within cities, leading to large inequality of water security. In cities with high levels of water security and resilience, adaptive capacity remains latent (inactive), while water-insecure cities rely on community adaptation for the self-provision of services. The framework is applied for assessing individual urban water systems, as well as for cross-city comparison for different types of cities. Results show that cities fall along a continuous gradient, ranging from water insecure and non-resilient cities with inadequate service provision prone to failure in response to extant shock regimes, to water secure and resilient systems with high levels of services and immediate recovery after shocks. Although limited by diverse constraints, the analyses show that urban water security and resilience tend to co-evolve, whereas sustainability, which considers local and global sustainable management, shows highly variable results across cities. I propose that the management of urban water systems should maintain a balance of security, resilience and sustainability.</div><div><br></div><div>The focus in Section 3 is on intra-city patterns and mechanisms, which contribute to urban water security, resilience and sustainability. In spite of engineering design and planning, and against common expectations, intra-city patterns emerge from self-organizing processes similar to those found in nature. These are related to growth processes following the principle of preferential attachment and functional efficiency considerations, which lead to Pareto power-law probability distributions characteristic of scale-free-like structures. Results presented here show that such structures are also present in urban water distribution and sanitary sewer networks, and how deviation from such specific patterns can result in vulnerability towards cascading failures. In addition, unbounded growth, unmanaged demand and unregulated water markets can lead to large inequality, which increases failure vulnerability. </div><div><br></div><div>The introduction of infrastructure and institutions for providing urban water services intercedes and mediates the human-water relationship. Complexity of infrastructural and institutional setups, growth patterns, management strategies and practices result in different levels of disconnects between citizens and the ecosystems providing freshwater resources. “Invisibility” of services to citizens results from maximized water system performance. It can lead to a lack of awareness about the effort and underlying infrastructure and institutions that operate for delivering services. Data for the seven cities illustrate different portfolios of complexity, invisibility and disconnection. Empirical data gathered in a household survey and key stakeholder interviews in Amman reveals that a misalignment of stakeholder perceptions resulting from the lack of information flow between citizens and urban managers can be misguiding and can constrain the decision-making space. Unsustainable practices are fostered by invisibility and disconnection and exacerbate the threats to urban water security and resilience. Such challenges are investigated in the context of urban water system traps: the poverty and the rigidity trap. Results indicate that urban water poverty is associated with local unsustainability, while rigidity traps combined with urban demand growth gravitate towards global unsustainability. </div><div><br></div><div>Returning to the city-level in Section 4, I investigate urban water system evolution. The question how the trajectories of urban water security, resilience and sustainability can be managed is examined using insights from hydrological and social-ecological systems research. I propose an “Urban Budyko Landscape”, which compares urban water supply systems to hydrological catchments and highlights the different roles of supply- and demand-management of water and water-related urban services. A global assessment of 38 cities around the world puts the seven case studies in perspective, emphasizing the relevance of the proposed framework and the representative, archetypal character of the selected case studies. </div><div><br></div><div>Furthermore, I examine how managing for the different dimensions of the CPA (capital availability, robustness, risk and sustainable management) determines the trajectories of urban water systems. This is done by integrating the CPA with the components of social-ecological system resilience, which explain how control of the different components determines the movement of systems through states of security and resilience in a stability landscape. Finally, potential feedbacks resulting from the global environment are investigated with respect to the role that globally sustainable local and regional water management can play in determining the trajectories of urban water systems. These assessments demonstrate how the impact of supply-oriented strategies reach beyond local, regional and into global boundaries for meeting a growing urban demand, and come at the cost of global sustainability and communities elsewhere.</div><div><br></div><div>Despite stark differences between individual cities and large heterogeneities within cities, convergent trends and patterns emerge across systems and are revealed through application of the proposed concepts and frameworks. The implications of these findings are discussed in Section 5, and are summarized here as follows: </div><div>1) The management of urban water systems needs to move beyond the security and resilience paradigms, which focus on current system functioning and short-term behavior. Sustaining a growing global, urban population will require addressing the long-term, cross-scale and inter-sector impacts of achieving and maintaining urban water security and resilience. </div><div>2) Emergent spatial patterns are driven by optimization for the objective functions. Avoiding traps, cascading failure, extreme inequality and maintaining global urban livability requires a balance of supply- and demand-management, consideration of system complexity, size and reach (i.e., footprint), as well as internal structures and management strategies (connectedness and modularity).</div><div>3) Urban water security and resilience are threatened by long-term decline, which necessitates the transformation to urban sustainability. The key to sustainability lies in experimentation, modularization and the incorporation of interdependencies across scales, systems and sectors.</div><div><br></div>

Environmental Science

Hydrology

Natural Resource Management

Environmental Engineering Design

Environmental Sociology

water supply

resilience

risk

adaptive capacity

complex networks

systems dynamics modeling

urban water management

sustainability

infrastructure

institutions

Amman

Mexico City

Chennai

Ulaanbaatar

Berlin

Melbourne

Singapore

case studies

sustainable cities

Proposta de implantação do índice de abrangência espacial de monitoramento - IAEM por meio da análise da evolução da rede de qualidade das águas superficiais do estado de São Paulo / Proposal of implementation for an Spatial Coverage Monitoring Index - SCMI by temporal analysis of the evolution of the inland waters quality network of São Paulo State

Midaglia, Carmen Lucia Vergueiro

04 December 2009

Esta pesquisa de doutorado faz uma avaliação correlacional entre a evolução espacial da rede de monitoramento de qualidade das águas interiores do Estado de São Paulo, através do número de pontos de amostragem e sua respectiva densidade espacial ao longo dos 30 anos de existência da mesma e o crescimento populacional, através da densidade populacional dos municípios inseridos nas 22 unidades de gerenciamento de recursos hídricos do Estado de São Paulo. Analisa também se estes pontos mantiveram a capacidade de representar o status da qualidade da água em função do crescimento populacional, e se é necessário expandir ou adensar a rede em determinadas regiões. Esta comparação ficou mais racional com o uso dos recursos das geotecnologias e da análise multicritério aplicada ao planejamento e gerenciamento de recursos hídricos, com a construção do SIG SP_WATERNET e através da criação de um índice de avaliação do monitoramento que relaciona as 22 unidades espacialmente e ao longo do período estudado. Este índice pode ressaltar o grau de abrangência e de vulnerabilidade da rede de monitoramento das águas interiores superficiais no Estado de São Paulo. / This Ph.D. research makes a correlational evaluation between the spatial evolution of the monitoring network of inland surface waters of State of São Paulo, through the number of sampling points and its density throughout the 30 years of existence of same and the population growth (urbanization) and the population density in the 22 units of water management units of the São Paulo State. It also analyzes if these points had kept the capacity to represent the status of the quality of the water in function of the population growth, and if it is necessary to expand or to rearrange the network in some regions. This comparison was more rational with the use of the resources of the geo-information applied for water resources planning and management, with the construction of SIG SP_WATERNET and with the proposal of an multi-criteria evaluation monitoring index concerning the 22 water management units throughout a studied period. This index can point out the coverage or the vulnerability of the monitoring efficiency of the superficial waters network of São Paulo State.

Análise ambiental

Análise espaço-temporal

Análise multi-critério

Demography density

Densidade demográfica

Environmental analysis

Geo-technologies

Geotecnologias

Gerenciamento de água

Gestão de recursos hídricos

GIS

Índices de qualidade de água

Multi-criteria evaluation

SIG

Water information system

Water management

Water monitoring density network

Water quality index

Water spatial Support system

Sídlo firmy Dlabaja a.s. / Corporate headquarters Dlabaja a.s.

Dlabaja, Adam

January 2019

The project documentation, processed in the framework of the diploma thesis, solves the new building of the administrative building of the building company in the village Lukov u Moravských Budějovic. The building is made of traditional brick technology therm tl. 50 cm, without insulation, ceilings are reinforced concrete, flat roof, vegetation. Vegetation is also part of the facade of the building, which at the same time serves as a root cleaner. The philosophy of the whole design is to create a high-quality working environment for building company employees, a pleasant environment for customers and to best solve the environmental footprint of the building. The building is designed as a modern office building, with space for leisure activities of staff and their visits, taking into account the responsible approach to the development industrial site and the surrounding nature. The building efficiently manages potable, rain and wastewater, the envelope of the building, and the individual structures are designed to make the entire building as energy-consuming as possible, and do not pump irreparably by nature its natural resources in a larger quantity than necessary.