Thematische Bibliographien / Ecological water management

Inhaltsverzeichnis

  1. Zeitschriftenartikel
  2. Dissertationen
  3. Bücher
  4. Buchteile
  5. Konferenzberichte
  6. Berichte der Organisationen

Auswahl der wissenschaftlichen Literatur zum Thema „Ecological water management“

Autor: Grafiati
Veröffentlicht am 25. Juni 2021
Zuletzt aktualisiert am 1. Februar 2022

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Zeitschriftenartikel zum Thema "Ecological water management"

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Richter, Brian D., Ruth Mathews, David L. Harrison und Robert Wigington. „ECOLOGICALLY SUSTAINABLE WATER MANAGEMENT: MANAGING RIVER FLOWS FOR ECOLOGICAL INTEGRITY“. Ecological Applications 13, Nr. 1 (Februar 2003): 206–24. http://dx.doi.org/10.1890/1051-0761(2003)013[0206:eswmmr]2.0.co;2.

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Eaton, J. W. „Ecological Aspects of Water Management in Britain“. Journal of Applied Ecology 26, Nr. 3 (Dezember 1989): 835. http://dx.doi.org/10.2307/2403695.

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Claassen, M., und PW Wade. „Ecological Risk Assessment in Water Resource Management“. African Journal of Aquatic Science 26, Nr. 2 (August 2001): 131–34. http://dx.doi.org/10.2989/16085910109503734.

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Maza, Maria, Javier Lara, Barbara Ondiviela und Inigo J. Losada. „WAVE ATTENUATION MODELLING BY SUBMERGED VEGETATION: ECOLOGICAL AND ENGINEERING ANALYSIS“. Coastal Engineering Proceedings 1, Nr. 33 (14.12.2012): 62. http://dx.doi.org/10.9753/icce.v33.management.62.

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The correct address of wave characteristics in the vicinity of submerged vegetation is crucial to perform an ecological analysis. Although several attempts have been done in the past using an analytical approach or depth averaged models, the rigidity of the assumptions used to solve the physics produced limited application to real cases. The use of a NS model called IH-2VOF is used first to minimize the number of predefined assumptions for wave propagation and the non-linear interactions between waves and plants and second to explore the possibility to improve existing turbulence models to consider wave interaction with vegetation. The IH2-VOF model has been validated using large scale experiments developed by Stratigaki et al. (2011). The model has shown a high degree of accordance between the lab data and the numerical predictions in free surface evolution. Numerical predictions of the velocity field have been compared both over and inside the vegetation showing also a high degree of accordance. Drag coefficients obtained during the model calibration are in accordance with previous studies such as Mendez et al. (1999). The influence of wave height, wave period, water depth and patch density have been studied using additional numerical simulations with irregular waves. Both the wave period and the water depth have been revealed as the most important parameters in the modification of the flow patterns around the patch.
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Novotny, V., D. Clark, R. J. Griffin und D. Booth. „Risk based urban watershed management under conflicting objectives“. Water Science and Technology 43, Nr. 5 (01.03.2001): 69–78. http://dx.doi.org/10.2166/wst.2001.0253.

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Ecological impairment and flooding caused by urbanization can be expressed numerically by calculating the risks throughout the watershed (floodplain) and along the main stems of the streams. The risks can be evaluated in terms of the present and/or future. This article describes the methodologies for ascertaining the risks in the Geographical Information Systems (GIS) environment. The objectives of urban flood controls and ecological preservation/restoration of urban waters are often conflicting and, in the past, the sole emphasis on flood control led to destruction of habitat and deterioration of water quality. An optimal solution to these two problems may be achieved by linking the risks to the concepts of risk communication, risk perception, and public willingness to pay for projects leading to ecological restoration and ecologically sustainable flood control. This method is appropriate because, in each case, public funds are used and the projects require approval and backing of policy makers and stakeholders. This article briefly describes a research project that attempts to resolve the conflict between the flood protection and stream ecological preservation and restoration and suggests alternative ways of expressing benefits of urban stream flood control and restoration projects.
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Jin, Chun Jiu, Jian Qiao Zhang, Yi Zhang, Na Li, Jun Peng, Ajay Kumar Jha und Chong Liu. „Research on the Watershed Ecological Risk Management“. Applied Mechanics and Materials 448-453 (Oktober 2013): 272–76. http://dx.doi.org/10.4028/www.scientific.net/amm.448-453.272.

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The risk management of watershed ecology is an important topic in the field of water resources management. To improve the present situation of the water ecological risk management in Songhua River and Liao River watershed, based on the policy of eco-management of the important water function zone in China, and the potential risk source investigation of watershed, investigate hazard components, predict risk probability and the possible negative effects, put forward the mitigation measure on water ecological response in watershed. It is necessary to explore water ecotoxicological variation, resolve biodiversity watershed, establish a suitable ecological evaluation index system, and put forward the multi-objective of optimizing management strategies.
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Goethals, Peter L. M. „Special issue ‘Ecological informatics applications in water management’“. Aquatic Ecology 41, Nr. 3 (15.05.2007): 371–72. http://dx.doi.org/10.1007/s10452-007-9100-8.

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Josefsson, Henrik. „Good Ecological Potential – A Credible Objective for Water Management?“ Journal for European Environmental & Planning Law 13, Nr. 2 (23.06.2016): 167–89. http://dx.doi.org/10.1163/18760104-01302004.

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It is notable that of the environmental objectives of the Water Framework Directive (wfd), good ecological potential has been given less attention. The Weser case has made it possible to establish a more detailed understanding of ‘ecological potential’. An analysis indicates that the main approach to implementing ‘ecological potential’, the non-wfd mitigation-measure approach, creates discontinuity among the environmental objectives, which the wfd reference method does not. Even if the mitigation-measure approach accommodates enhancements, bodies of water are still not classified in accordance with the wfd. If a body of water is incorrectly classified, both good ecological potential and the non-deterioration prohibition should not be binding, as the ‘ecological status’ has not been determined. Furthermore, two different and uncoordinated forms of ‘ecological potential’ establish diverging quality standards, and risk legal uncertainty and inconstancy among Member States.
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Qiao, Liang, Miao Dai und Meng Na Li. „Integrated Water Resource Management in Yinchuan Plain“. Applied Mechanics and Materials 448-453 (Oktober 2013): 1057–61. http://dx.doi.org/10.4028/www.scientific.net/amm.448-453.1057.

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Based on the analysis of the current state of water resources and utilization characters, the optimizing and allocating model of water resources in Yinchuan plain is established by multi-objective planning methodology. Systematic viewpoint runs throughout the whole modeling process. Furthermore, by employing the established model, the proper allocation of the industrial and agricultural water, the ecological environment water and integrated development of surface water and groundwater are discussed. The more reasonable water utilization structure is suggested. The water resource for agriculture is decreasing, while the water resource for people life, industry and ecologic environment are increasing. This change of water utilization is correspond to economic and social development trend.
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Lu, Meng, und Yan Qing Nie. „Beidaihe Area Water Ecological Environment Protection“. Advanced Materials Research 864-867 (Dezember 2013): 1298–301. http://dx.doi.org/10.4028/www.scientific.net/amr.864-867.1298.

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This paper makes a survey on water ecological environment of Beidaihe area of China. It analyzed the main factors influencing water ecological environment, including upstream section of river water quality; ecological runoff is not enough; breed unitary and overfishing; lack specialized management institutions. This paper put forward the measures and suggestions on water ecological environment protection: establishment transregional river pollution management mechanism; strengthen wetland protected area construction; develop the publicity channels and increase public awareness of ecological protection.
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Dissertationen zum Thema "Ecological water management"

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Leung, Wai-shun Wilson. „Ecological water quality indices in environmental management /“. View the Table of Contents & Abstract, 2006. http://sunzi.lib.hku.hk/hkuto/record/B3712058X.

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Leung, Wai-shun Wilson, und 梁威信. „Ecological water quality indices in environmental management“. Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2006. http://hub.hku.hk/bib/B45013482.

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Lozano, Sacha. „An Ecological Design Approach to Wastewater Management“. ScholarWorks @ UVM, 2008. http://scholarworks.uvm.edu/graddis/141.

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Global water depletion and unsustainable food production systems represent two iconic crises of our time. These two crises have important themes in common, referring to basic human needs and the way we interact with landscapes in order to satisfy them. But they are also closely related to the way we produce and dispose wastes in our current societal organization. Insufficient, or inadequate, sanitation and waste management practices continue to undermine not only human well-being, but the entire planet’s ecological integrity, on which humans depend. An ecological design approach to manage human waste invites to learn how to participate more harmoniously within the planet’s recycling of matter, using renewable energy sources and mimicking nature’s low entropic states to maintain the life-support systems that we and our economies are part of. This thesis is an in-depth exploration of such an approach, and an attempt to integrate several elements from ecology, engineering, economics, and community development, around issues of water quality, sanitation and waste management in Latin America. As a whole, the thesis explores how can this transdisciplinary approach translate into coherent, feasible, and concrete action, providing appropriate solutions for sanitation, in ways that are effective and viable on a long term, for Latin American rural communities. Three different papers address different dimensions of the problem, focusing on domestic wastewater and human excreta, as a type of waste of major importance to ecological integrity, public health and economic development. Two of the papers are case studies, carried out at two different rural communities in South West Colombia; one of them focuses on technological and ecological aspects, and the other focuses on social and economic considerations, for a multifunctional-ecological waste management. In the first paper I present an overview of the sanitation problem in Latin America, and the opportunities and challenges of managing waste with an ecological and multifunctional perspective. More specifically, this papers attempts to provide a sound conceptual framework for managing wastewater (sewage) as a valuable resource, in a way that: 1) is affordable –or even profitable– by small communities in developing countries; 2) is safe to the environment and to public health; and 3) provides opportunities for recycling nutrients and organic matter (available in wastewaters), to restore and protect water and soil resources, while enhancing rural livelihoods in tropical agroecosystems. The second paper evaluates the performance and feasibility of an experimental, solar-energy-based, wetland mesocosm, as a complementary aerobic unit to enhance anaerobic wastewater treatment, in a rural locality of the Cauca Valley in Colombia. In the third paper I explore the integration between ecological design and community-based solutions to sanitation, and discuss opportunities and challenges of implementing ecological waste management in the particular bioregional and socioeconomic context of a proposed ecological-low-income co-housing project, in another rural community of Colombia. In doing this, several arguments are presented to support the idea that assuming the responsibility of managing its own waste can be a powerful and transformative experience for a community to fundamentally change its perspective and understanding of its place within the planet. Furthermore, managing waste can be an integrative force linking economic, social and environmental considerations, and favoring human-scale development, genuine progress, and self-reliance in a community. In its broadest level my research aims at reviewing and questioning the very notion of “waste” and the articulation between humans, nature, and technology within that context.
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Charles, Sean P. „The Development of Ecological Functions in Created Forested Wetlands“. W&M ScholarWorks, 2013. https://scholarworks.wm.edu/etd/1539617942.

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Wetland mitigation has become a 2.4 billion dollar per year industry in the U.S. and in Virginia it leads to the replacement of 77 ha of palustrine forested wetlands (PFWs) per year with mitigation wetlands, including created forested wetlands (CFWs). Mitigation hinges on the idea that compensation wetlands lead to “no net loss of wetland function” when compared to impacted wetlands. We assessed the functions of provision of habitat and biogeochemical functions associated with production of biomass, the retention and removal of nutrients and the accumulation of soil C over 8 years in seven CFWs of approximately 11 and 20 years and compared them to natural reference wetlands (NRWs). CFW plant communities were similar to NRWs in all measured parameters in the herbaceous and shrub/sapling strata and in all strata combined. However, non-native dominance showed a significant positive linear relationship with CFW age. In the tree strata, 11 year old (yo) CFWs had lower richness than NRWs and both age classes of CFWs had lower FQI than NRWs. NRWs held 10 to 20 times more carbon in woody biomass than CFWs. Tree species composition was significantly different between CFWs and NRWs, however NRW trees were similar to CFW saplings. 11 yo CFWs held lower percentages of C, N and P and had higher Db than NRWs in both the 0-10 and 10-20 cm depth. 20 yo CFWs developed similar levels of %C, %P, bulk density (Db), and nutrient ratios in the surface and displayed rapid increases in %C and %N over 8 years. However, CFWs offered 45% lower soil total soil C storage and 50% lower %N. Furthermore, all CFWs stored lower nutrient levels than NRWs in the 10-20 cm soil depth. We found that FQI correlated positively with total C accumulation rates in woody biomass and soil C, indicating that biogeochemical function and the provision of habitat can be complimentary in CFWs. Finally, 11 and 20 yo CFWs adhered to the regulatory performance standards established for Virginia in terms of stems per ha and wetland indicator status, but all wetlands (including NRWs) failed to achieve <5% non-native species cover.
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Tillman, Dorothy Hamlin. „Coupling of ecological and water quality models for improved water resource and fish management“. [College Station, Tex. : Texas A&M University, 2008. http://hdl.handle.net/1969.1/ETD-TAMU-2334.

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Cooper, V. A. „Development of the role of biological investigations in UK water pollution management“. Thesis, University of Sunderland, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.262880.

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Claassen, Marius. „The development and application of ecological risk assessment in South African water resource management“. Thesis, Rhodes University, 2006. http://hdl.handle.net/10962/d1006177.

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The provision of goods and services by aquatic ecosystems plays an important role in socio-economic development and livelihoods in the southern African region. Water resource management in South Africa developed from an agrarian and pastoral focus up to 1956 to also supporting mining and industrial activities. This led to the introduction of the resource water quality objectives and pollution prevention approaches, which balanced the needs for development and protection. Prior to 1994, access to water resources was limited to riparian property owners and a minority of the population who controlled industrial and mining activities. The establishment of a democratic government amplified the need for accelerated socio-economic development, with equity, efficiency and sustainability being the principles of such development. New approaches were needed, which could achieve these development objectives and secure the resource base for future generations. An overview of the scientific process highlighted a risk based approach as potentially supporting the much needed balance between development and protection. The aims of this thesis is to develop a framework and process for the application of ecological risk assessment to water resource management in South Africa, to use case studies to draft guidelines for ecological risk assessment and to assess the degree to which ecological risk assessment can contribute to effective water resource management in South Africa. The United States Environmental Protection Agency’s guidelines for ecological risk assessment were identified amongst international best practice as meeting the requirements for local application. A framework was drafted for ecological risk assessment in South Africa, with the main phases being to agree on objectives, formulate the analysis plan, analyse information, characterise risk and manage risk. Modifications from the Environmental Protection Agency’s process include the order of activities in the first phase, the explicit testing of hypotheses and clarification of the evaluation of existing data or collection of new data. An industrial effluent case study was used to assess the applicability of the proposed framework. The case study dealt specifically with the assessment of risks posed by current conditions and long term licence conditions. The framework was found to be useful to identify weaknesses in the established monitoring programme and to evaluate lines of evidence to assess the degree to which the stated conditions would have unacceptable consequences. The study highlighted several weaknesses in the suggested framework, of which the most critical is the interpretation of the risk hypothesis as a testable null hypothesis. It became clear that cause-effect relationships should be stated as the risk hypothesis, whereas the assessment should evaluate expressed or expected conditions against a risk profile for a given stressor to benefit fully from the risk assessment approach. Changes to the framework terminology were suggested as well as nested feedback loops to allow for iterative processes where new information becomes available. The proposed guidelines incorporate the learning from the case study application as well as feedback from a peer review process. The guidelines incorporate the suggested actions under each phase as well as notes providing the rationale for each step. Three case study outlines were provided to assist users with the interpretation of the guidelines in different applications. The proposed guidelines are applied in an ecological Reserve determination case study, which specified the ecological water quality requirements. The study found that a risk-based approach was followed in the development of the water resource management policy, but the Reserve determination method is generally hazard based, with site specific modifications of the target values being allowed on a conservative basis. The case study highlighted a lack of readiness of water resource managers to accommodate scientific results expressed as probability distributions in support of management decisions. The thesis is concluded with a discussion of the key learning points of the ecological risk assessment development process. The evaluation highlights the move from stating and testing a null hypothesis to stating the risk hypothesis and evaluating the stated conditions against a risk profile. Several implementation challenges are highlighted, with specific recommendations made for adopting the proposed guidelines.
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Mao, Feng. „Ecological water quality assessment and science-driven policy : investigating the EU Water Framework Directive and river basin governance in China“. Thesis, University of Cambridge, 2015. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.708638.

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Fox, Alison Mary. „The efficacy and ecological impact of the management of submerged vegetation in flowing water“. Thesis, University of Glasgow, 1987. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.290361.

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Al, Zahed Khalid. „Coastal zone management in Dubai with reference to ecological characterization along Dubai Creek“. Thesis, St Andrews, 2008. http://hdl.handle.net/10023/541.

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Bücher zum Thema "Ecological water management"

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Peiris, Kapila. Ecosystem based indigenous water management. Colombo: National Science Foundation, 2008.

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Reddy, V. Ratna. Water security and management: Ecological imperatives and policy options. New Delhi: Published by Academic Foundation in collaboration with Centre for Economic and Social Studies, 2009.

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Reddy, V. Ratna. Water security and management: Ecological imperatives and policy options. New Delhi: Published by Academic Foundation in collaboration with Centre for Economic and Social Studies, 2009.

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Academic Foundation (New Delhi, India) und Centre for Economic and Social Studies, Hyderabad., Hrsg. Water security and management: Ecological imperatives and policy options. New Delhi: Published by Academic Foundation in collaboration with Centre for Economic and Social Studies, 2009.

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Karl-Otto, Rothhaupt, Fischer Philipp, Tóth László G, Cantonati Marco, Mörtl Martin, Wantzen Karl M und SpringerLink (Online service), Hrsg. Ecological Effects of Water-Level Fluctuations in Lakes. Dordrecht: Springer Netherlands, 2008.

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IWMI-TATA Water Policy Program. Partners' Meet. Elixir of life: The socio-ecological governance of drinking water. Herausgegeben von Raju K. V, IWMI-TATA Water Policy Program und Institute for Social and Economic Change. Bangalore: Books for Change, 2006.

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Secretariat of the Convention on Biological Diversity. Water, wetlands, and forests: A review of ecological, economic, and policy linkages. Montreal, Quebec, Canada: Secretariat of the Convention on Biological Diversity, 2010.

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Malesu, Maimbo M. Green water management handbook: Rainwater harvesting for agricultural production and ecological sustainability. Nairobi: SearNet Secretariat, World Agroforestry Centre, 2007.

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Woelfle-Erskine, Cleo. The essential guide to creating rain gardens: Capturing rain for your own water-efficient garden. Portland, Or: Timber Press, 2012.

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Ware, Chris. Ecological summaries of plants commonly encountered during minimum flow and level determinations. Palatka, Fla: St. Johns River Water Management District, 2001.

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Buchteile zum Thema "Ecological water management"

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Grigg, Neil S. „Watersheds as Social-Ecological Systems“. In Integrated Water Resource Management, 139–49. London: Palgrave Macmillan UK, 2016. http://dx.doi.org/10.1057/978-1-137-57615-6_7.

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Balah, Mohamed Abdelaziz. „Ecological Management of Weeds in Desert Regions“. In Springer Water, 291–315. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-73161-8_11.

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Friedman, Jonathan M., Michael L. Scott und Gregor T. Auble. „Water Management and Cottonwood Forest Dynamics Along Prairie Streams“. In Ecological Studies, 49–71. New York, NY: Springer New York, 1997. http://dx.doi.org/10.1007/978-1-4757-2703-6_3.

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Rieger, John, John Stanley und Ray Traynor. „Water and Soil“. In Project Planning and Management for Ecological Restoration, 99–114. Washington, DC: Island Press/Center for Resource Economics, 2014. http://dx.doi.org/10.5822/978-1-61091-566-3_8.

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Caravaggio, Nicola, und Martina Iorio. „Management of Water Resources in the Amazon Region“. In Sustainable Ecological Engineering Design, 279–92. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-32646-7_19.

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Mitchell, Michael, Catherine Allan, Jehangir F. Punthakey, C. Max Finlayson und Mobushir R. Khan. „Improving Water Management in Pakistan Using Social-Ecological Systems Research“. In World Water Resources, 249–71. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-65679-9_13.

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de Molenaar, J. G. „The Impact of Agrohydrological Management on Water, Nutrients, and Fertilizers in the Environment of the Netherlands“. In Ecological Studies, 275–304. New York, NY: Springer New York, 1990. http://dx.doi.org/10.1007/978-1-4612-3252-0_17.

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Kume, Takashi, und Erhan Akça. „Making Meaning of Traditional Agricultural Knowledge: Ground Water Management in Arid Areas of Turkey“. In Ecological Research Monographs, 11–32. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-2327-0_2.

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Benítez-Torres, Jorge Arturo, Adriana Roé-Sosa und Leonel Ernesto Amábilis-Sosa. „Enhancing Environmental Services in Candelaria River by Restoring Ecological Connectivity“. In Water Availability and Management in Mexico, 151–70. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-24962-5_7.

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Nienhuis, P. H. „Water and values: ecological research as the basis for water management and nature management“. In Living Rivers: Trends and Challenges in Science and Management, 261–75. Dordrecht: Springer Netherlands, 2006. http://dx.doi.org/10.1007/1-4020-5367-3_17.

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Konferenzberichte zum Thema "Ecological water management"

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Nestler, John M., R. Andrew Goodwin und Daniel P. Loucks. „Coupled Ecological Modeling for Improved Water Resources and Ecosystem Management“. In Joint Conference on Water Resource Engineering and Water Resources Planning and Management 2000. Reston, VA: American Society of Civil Engineers, 2000. http://dx.doi.org/10.1061/40517(2000)126.

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Marcinkevage, A. C., und E. H. Herricks. „A Process-Based Ecological Model for River Network Management“. In World Water and Environmental Resources Congress 2005. Reston, VA: American Society of Civil Engineers, 2005. http://dx.doi.org/10.1061/40792(173)598.

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Steinschneider, Scott, Austin Polebitksi, David Ahlfeld, Casey Brown und Richard Palmer. „Coordinated Reservoir Management Planning for Large-Scale Ecological Restoration“. In World Environmental And Water Resources Congress 2012. Reston, VA: American Society of Civil Engineers, 2012. http://dx.doi.org/10.1061/9780784412312.340.

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Suen, Jian-Ping, Ching-Nuo Chen und Chih-Heng Tsai. „Creating Diverse Habitat Environment in Ecological Water Resources Management“. In World Environmental and Water Resources Congress 2008. Reston, VA: American Society of Civil Engineers, 2008. http://dx.doi.org/10.1061/40976(316)528.

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Saito, Laurel, R. Blair Hanna, John Bartholow und Brett Johnson. „Linking Hydrodynamic and Ecological Models at Shasta Lake“. In 29th Annual Water Resources Planning and Management Conference. Reston, VA: American Society of Civil Engineers, 1999. http://dx.doi.org/10.1061/40430(1999)210.

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Chunyan, Wang. „Improvement of water ecological restoration plants on drinking water source“. In 2014 International Conference on Economic Management and Social Science (ICEMSS 2014). Paris, France: Atlantis Press, 2014. http://dx.doi.org/10.2991/emss-14.2014.62.

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Ruan, Benqing, Fengran Xu, Yulong Liu und Chunling Zhang. „Ecological Co-Conservation and Sharing Mechanism for Sustainable Watershed Management“. In World Environmental and Water Resources Congress 2008. Reston, VA: American Society of Civil Engineers, 2008. http://dx.doi.org/10.1061/40976(316)312.

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Zhai, Yuhong, und Deshan Tang. „The Golden Key to Water Ecological Protection“. In 2017 2nd International Conference on Education, Management Science and Economics (ICEMSE 2017). Paris, France: Atlantis Press, 2017. http://dx.doi.org/10.2991/icemse-17.2017.57.

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9

Loftin, Hunter, Michael Clar, Eldon Gimmell und RaEd EL-Farhan. „Conceptual Ecological and Physical Framework for Evaluating Receiving Water Impacts“. In Joint Conference on Water Resource Engineering and Water Resources Planning and Management 2000. Reston, VA: American Society of Civil Engineers, 2000. http://dx.doi.org/10.1061/40517(2000)107.

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10

Nietch, Chris, Mike Borst und Scott Struck. „Nutrient-Based Ecological Considerations for Stormwater Management Basins: Ponds and Wetlands“. In World Water and Environmental Resources Congress 2005. Reston, VA: American Society of Civil Engineers, 2005. http://dx.doi.org/10.1061/40792(173)208.

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Berichte der Organisationen zum Thema "Ecological water management"

1

Pruitt, Bruce, K. Killgore, William Slack und Ramune Matuliauskaite. Formulation of a multi-scale watershed ecological model using a statistical approach. Engineer Research and Development Center (U.S.), November 2020. http://dx.doi.org/10.21079/11681/38862.

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The purpose of this special report is to provide a statistical stepwise process for formulation of ecological models for application at multiple scales using a stream condition index (SCI). Given the global variability of aquatic ecosystems, this guidance is for broad application and may require modification to suit specific watersheds or stream reaches. However, the general statistical treatise provided herein applies across physiographies and at multiple scales. The Duck River Watershed Assessment in Tennessee was used, in part, to develop and test this multiscale, statistical approach; thus, it is considered a case example and referenced throughout this report. The findings of this study can be utilized to (1) prioritize water-sheds for restoration, enhancement, and conservation; (2) plan and conduct site-specific, intensive ecosystem studies; and (3) assess ecosystem outcomes (that is, ecological lift) applicable to future with and without restoration actions including alternative, feasibility, and cost-benefit analyses and adaptive management.
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2

Wyndham, Amber, Emile Elias, Joel Brown, Michael Wilson und Albert Rango. Drought Vulnerability Assessment to Inform Grazing Practices on Rangelands of Southeastern Colorado’s Major Land Resource Area 69. USDA Southwest Climate Hub, Juli 2018. http://dx.doi.org/10.32747/2018.6947062.ch.

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Increased climate variability, including more frequent and intense drought, is projected for the southwestern region of the United States. Increased temperatures and reduced precipitation lower soil water availability, resulting in decreased plant productivity and altering species composition, which may affect forage quality and quantity. Reduced forage quality and increased heat stress attributable to warmer temperatures could lead to decreased livestock performance in this system, which is extensively used for livestock grazing. Mitigating the effects of increasing drought is critical to social and ecological stability in the region. Reduced stocking rates, change in livestock breeds and/or grazing practices are general recommendations that could be implemented to cope with increased climatic stress. Ecological Sites and their associated state–and-transition models (STMs) are tools to help land managers implement and evaluate responses to disturbances. The projected change in climate will vary depending upon geographic location. Vulnerability assessments and adaptation strategies are needed at the local level to inform local management decisions and help ameliorate the effects of climate change on rangelands. The United States Department of Agriculture (USDA) Southwest Climate Hub and Natural Resources Conservation Service (NRCS) worked together to produce this drought vulnerability assessment at the Major Land Resource Area (MLRA) level, based on ecological sites and state-and-transition models that will help landowners and government agencies to identify and develop adaptation options for drought on rangelands. The assessment illustrates how site-specific information can be used to help minimize the effects of drought on rangelands and support informed decision-making for the selection of management adaptations within MLRA 69.
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3

Wyndham, Amber, Emile Elias, Joel R. Brown, Michael A. Wilson und Albert Rango. Drought Vulnerability Assessment to Inform Grazing Practices on Rangelands in Southeast Arizona and Southwest New Mexico’s Major Land Resource Area 41. United States. Department of Agriculture. Southwest Climate Hub, August 2018. http://dx.doi.org/10.32747/2018.6818230.ch.

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Increased climate variability, including more frequent and intense drought, is projected for the southwestern region of the United States. Increased temperatures and reduced precipitation lower soil water availability, resulting in decreased plant productivity and altered species composition, which may affect forage quality and quantity. Reduced forage quality and increased heat stress attributable to warmer temperatures could lead to decreased livestock performance in this system, which is extensively used for livestock grazing. Mitigating the effects of increasing drought is critical to social and ecological stability in the region. Reduced stocking rates and/or a change in livestock breeds and/or grazing practices are general recommendations that could be implemented to cope with increased climatic stress. Ecological Sites (ESs) and their associated state-and-transition models (STMs) are tools to help land managers implement and evaluate responses to disturbances. The projected change in climate will vary depending upon geographic location. Vulnerability assessments and adaptation strategies are necessary at the local level to inform local management decisions and help to ameliorate the effects of climate change on rangelands. The USDA Southwest Climate Hub and the Natural Resources Conservation Service (NRCS) worked together to produce this drought vulnerability assessment at the Major Land Resource Area (MLRA) level: it is based on ESs/STMs that will help landowners and government agencies to identify and develop adaptation options for drought on rangelands. The assessment illustrates how site-specific information can be used to help minimize the effects of drought on rangelands and to support informed decision-making for selecting management adaptations within MLRA 41.
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4

Wyndham, Amber, Emile Elias, Joel R. Brown, Michael A. Wilson und Albert Rango. Drought Vulnerability Assessment to Inform Grazing Practices on Rangelands of Southeastern Colorado’s Major Land Resource Area 69. United States. Department of Agriculture. Southwest Climate Hub, Januar 2018. http://dx.doi.org/10.32747/2018.6876399.ch.

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Increased climate variability, including more frequent and intense drought, is projected for the southwestern region of the United States. Increased temperatures and reduced precipitation lower soil water availability resulting in decreased plant productivity and altering species composition which may affect forage quality and quantity. Reduced forage quality and increased heat stress attributable to warmer temperatures could lead to decreased livestock performance in this system, which is extensively used for livestock grazing. Mitigating the effects of increasing drought is critical to social and ecological stability in the region. Reduced stocking rates, change in livestock breeds and/or grazing practices are general recommendations that could be implemented to cope with increased climatic stress. Ecological Sites (ESs) and their associated state and transition models (STMs) are tools to help land managers implement and evaluate responses to disturbances. The projected change in climate will vary depending on geographic location. Vulnerability assessments and adaptation strategies are needed at the local level to inform local management decisions and help ameliorate the effects of climate change on rangelands. The USDA Southwest Climate Hub and Natural Resources Conservation Service (NRCS) worked together to produce this drought vulnerability assessment at the Major Land Resource Area (MLRA) level based on ESs/STMs that will help landowners and government agencies identify and develop adaptation options for drought on rangelands. The assessment illustrates how site-specific information can be used to help minimize the effects of drought on rangelands and support informed decision-making for selecting management adaptations within MLRA 69.
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5

Wyndham, Amber, Emile Elias, Joel Brown, Michael Wilson und Albert Rango Rango. Drought Vulnerability Assessment to Inform Grazing Practices on Rangelands in Southeast Arizona and Southwest New Mexico’s Major Land Resource Area 41. USDA Southwest Climate Hub, August 2018. http://dx.doi.org/10.32747/2018.6947060.ch.

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Annotation:
Increased climate variability, including more frequent and intense drought, is projected for the southwestern region of the United States. Increased temperatures and reduced precipitation lower soil water availability, resulting in decreased plant productivity and altered species composition, which may affect forage quality and quantity. Reduced forage quality and increased heat stress attributable to warmer temperatures could lead to decreased livestock performance in this system, which is extensively used for livestock grazing. Mitigating the effects of increasing drought is critical to social and ecological stability in the region. Reduced stocking rates and/or a change in livestock breeds and/or grazing practices are general recommendations that could be implemented to cope with increased climatic stress. Ecological Sites (ESs) and their associated state-and-transition models (STMs) are tools to help land managers implement and evaluate responses to disturbances. The projected change in climate will vary depending upon geographic location. Vulnerability assessments and adaptation strategies are necessary at the local level to inform local management decisions and help to ameliorate the effects of climate change on rangelands. The USDA Southwest Climate Hub and the Natural Resources Conservation Service (NRCS) worked together to produce this drought vulnerability assessment at the Major Land Resource Area (MLRA) level: it is based on ESs/STMs that will help landowners and government agencies to identify and develop adaptation options for drought on rangelands. The assessment illustrates how site-specific information can be used to help minimize the effects of drought on rangelands and to support informed decision-making for selecting management adaptations within MLRA 41.
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6

Wyndham, Amber, Emile Elias, Joel Brown, Michael Wilson und Albert Rango. Drought Vulnerability Assessment to Inform Grazing Practices on Rangelands of Southeastern Colorado’s Major Land Resource Area 69. USDA Southwest Climate Hub, März 2018. http://dx.doi.org/10.32747/2018.6965584.ch.

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Annotation:
Increased climate variability, including more frequent and intense drought, is projected for the southwestern region of the United States. Increased temperatures and reduced precipitation lower soil water availability resulting in decreased plant productivity and altering species composition which may affect forage quality and quantity. Reduced forage quality and increased heat stress attributable to warmer temperatures could lead to decreased livestock performance in this system, which is extensively used for livestock grazing. Mitigating the effects of increasing drought is critical to social and ecological stability in the region. Reduced stocking rates, change in livestock breeds and/or grazing practices are general recommendations that could be implemented to cope with increased climatic stress. Ecological Sites (ESs) and their associated state and transition models (STMs) are tools to help land managers implement and evaluate responses to disturbances. The projected change in climate will vary depending on geographic location. Vulnerability assessments and adaptation strategies are needed at the local level to inform local management decisions and help ameliorate the effects of climate change on rangelands. The USDA Southwest Climate Hub and Natural Resources Conservation Service (NRCS) worked together to produce this drought vulnerability assessment at the Major Land Resource Area (MLRA) level based on ESs/STMs that will help landowners and government agencies identify and develop adaptation options for drought on rangelands. The assessment illustrates how site-specific information can be used to help minimize the effects of drought on rangelands and support informed decision-making for selecting management adaptations within MLRA 69.
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7

Bowles, David, Michael Williams, Hope Dodd, Lloyd Morrison, Janice Hinsey, Tyler Cribbs, Gareth Rowell, Michael DeBacker, Jennifer Haack-Gaynor und Jeffrey Williams. Protocol for monitoring aquatic invertebrates of small streams in the Heartland Inventory & Monitoring Network: Version 2.1. National Park Service, April 2021. http://dx.doi.org/10.36967/nrr-2284622.

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The Heartland Inventory and Monitoring Network (HTLN) is a component of the National Park Service’s (NPS) strategy to improve park management through greater reliance on scientific information. The purposes of this program are to design and implement long-term ecological monitoring and provide information for park managers to evaluate the integrity of park ecosystems and better understand ecosystem processes. Concerns over declining surface water quality have led to the development of various monitoring approaches to assess stream water quality. Freshwater streams in network parks are threatened by numerous stressors, most of which originate outside park boundaries. Stream condition and ecosystem health are dependent on processes occurring in the entire watershed as well as riparian and floodplain areas; therefore, they cannot be manipulated independently of this interrelationship. Land use activities—such as timber management, landfills, grazing, confined animal feeding operations, urbanization, stream channelization, removal of riparian vegetation and gravel, and mineral and metals mining—threaten stream quality. Accordingly, the framework for this aquatic monitoring is directed towards maintaining the ecological integrity of the streams in those parks. Invertebrates are an important tool for understanding and detecting changes in ecosystem integrity, and they can be used to reflect cumulative impacts that cannot otherwise be detected through traditional water quality monitoring. The broad diversity of invertebrate species occurring in aquatic systems similarly demonstrates a broad range of responses to different environmental stressors. Benthic invertebrates are sensitive to the wide variety of impacts that influence Ozark streams. Benthic invertebrate community structure can be quantified to reflect stream integrity in several ways, including the absence of pollution sensitive taxa, dominance by a particular taxon combined with low overall taxa richness, or appreciable shifts in community composition relative to reference condition. Furthermore, changes in the diversity and community structure of benthic invertebrates are relatively simple to communicate to resource managers and the public. To assess the natural and anthropo-genic processes influencing invertebrate communities, this protocol has been designed to incorporate the spatial relationship of benthic invertebrates with their local habitat including substrate size and embeddedness, and water quality parameters (temperature, dissolved oxygen, pH, specific conductance, and turbidity). Rigid quality control and quality assurance are used to ensure maximum data integrity. Detailed standard operating procedures (SOPs) and supporting information are associated with this protocol.
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8

Bedford, Philip, Alexis Long, Thomas Long, Erin Milliken, Lauren Thomas und Alexis Yelvington. Legal Mechanisms for Mitigating Flood Impacts in Texas Coastal Communities. Herausgegeben von Gabriel Eckstein. Texas A&M University School of Law Program in Natural Resources Systems, Mai 2019. http://dx.doi.org/10.37419/eenrs.mitigatingfloodimpactstx.

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Flooding is a major source of concern for Texas’ coastal communities. It affects the quality of infrastructure, the lives of citizens, and the ecological systems upon which coastal communities in Texas rely. To plan for and mitigate the impacts of flooding, Texas coastal communities may implement land use tools such as zoning, drainage utility systems, eminent domain, exactions, and easements. Additionally, these communities can benefit from understanding how flooding affects water quality and the tools available to restore water bodies to healthy water quality levels. Finally, implementing additional programs for education and ecotourism will help citizens develop knowledge of the impacts of flooding and ways to plan and mitigate for coastal flooding. Land use tools can help communities plan for and mitigate flooding. Section III addresses zoning, a land use tool that most municipalities already utilize to organize development. Zoning can help mitigate flooding, drainage, and water quality issues, which, Texas coastal communities continually battle. Section IV discusses municipal drainage utility systems, which are a mechanism available to municipalities to generate dedicated funds that can help offset costs associated with providing stormwater management. Section V addresses land use and revenue-building tools such as easements, eminent domain, and exactions, which are vital for maintaining existing and new developments in Texas coastal communities. Additionally, Section VI addresses conservation easements, which are a flexible tool that can enhance community resilience through increasing purchase power, establishing protected legal rights, and minimizing hazardous flood impacts. Maintaining good water quality is important for sustaining the diverse ecosystems located within and around Texas coastal communities. Water quality is regulated at the federal level through the Clean Water Act. As discussed in Section VII, the state of Texas is authorized to implement and enforce these regulations by implementing point source and nonpoint source pollutants programs, issuing permits, implementing stormwater discharge programs, collecting water quality data, and setting water quality standards. The state of Texas also assists local communities with implementing restorative programs, such as Watershed Protection Programs, to help local stakeholders restore impaired water bodies. Section VIII addresses ecotourism and how these distinct economic initiatives can help highlight the importance of ecosystem services to local communities. Section VIX discusses the role of education in improving awareness within the community and among visitors, and how making conscious decisions can allow coastal communities to protect their ecosystem and protect against flooding.
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