Distribution and Transformation of Nutrients in Large-scale Lakes and Reservoirs PDF Download
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Author: Zhenyao Shen
Publisher: Springer Science & Business Media
ISBN: 3642349641
Category : Science
Languages : en
Pages : 190
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Book Description
"Distribution and Transformation of Nutrients and Eutrophication in Large-scale Lakes and Reservoirs: The Three Gorges Reservoir" presents key findings on early eutrophication in large-scale lakes and reservoirs, providing readers with an overview of lake management problems and the tools that can be applied to solve them. The broad spectrum of available tools is presented in detail, including environmental technological methods, ecotechnological methods and the application of models to determine the best management strategy. The book is intended for environmental engineers and researchers in the fields of environmental science and ecological chemistry. Professor Zhenyao Shen, Professor Junfeng Niu and Associate Professor Ying Wang work at the School of Environment, Beijing Normal University, China. Dr. Hongyuan Wang works at Chinese Academy of Agricultural Sciences, China. Dr. Xin Zhao works at Changjiang River Scientific Research Institute, China.
Author: Zhenyao Shen
Publisher: Springer Science & Business Media
ISBN: 3642349641
Category : Science
Languages : en
Pages : 190
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Book Description
"Distribution and Transformation of Nutrients and Eutrophication in Large-scale Lakes and Reservoirs: The Three Gorges Reservoir" presents key findings on early eutrophication in large-scale lakes and reservoirs, providing readers with an overview of lake management problems and the tools that can be applied to solve them. The broad spectrum of available tools is presented in detail, including environmental technological methods, ecotechnological methods and the application of models to determine the best management strategy. The book is intended for environmental engineers and researchers in the fields of environmental science and ecological chemistry. Professor Zhenyao Shen, Professor Junfeng Niu and Associate Professor Ying Wang work at the School of Environment, Beijing Normal University, China. Dr. Hongyuan Wang works at Chinese Academy of Agricultural Sciences, China. Dr. Xin Zhao works at Changjiang River Scientific Research Institute, China.
Author: Zhenyao Shen
Publisher: Springer
ISBN: 9783642349652
Category : Science
Languages : en
Pages : 183
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Book Description
"Distribution and Transformation of Nutrients and Eutrophication in Large-scale Lakes and Reservoirs: The Three Gorges Reservoir" presents key findings on early eutrophication in large-scale lakes and reservoirs, providing readers with an overview of lake management problems and the tools that can be applied to solve them. The broad spectrum of available tools is presented in detail, including environmental technological methods, ecotechnological methods and the application of models to determine the best management strategy. The book is intended for environmental engineers and researchers in the fields of environmental science and ecological chemistry. Professor Zhenyao Shen, Professor Junfeng Niu and Associate Professor Ying Wang work at the School of Environment, Beijing Normal University, China. Dr. Hongyuan Wang works at Chinese Academy of Agricultural Sciences, China. Dr. Xin Zhao works at Changjiang River Scientific Research Institute, China.
Author: Zhenyao Shen
Publisher:
ISBN: 9787308104906
Category : Eutrophication
Languages : en
Pages : 183
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Book Description
Author: Ismail M. M. Rahman
Publisher: BoD – Books on Demand
ISBN: 9535126202
Category : Science
Languages : en
Pages : 130
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Book Description
Water stress in plants is caused by the water deficit, as induced possibly by drought or high soil salinity. The prime consequence of water stress in plants is the disruption in the agricultural production, resulting in food shortage. The plants, however, try to adapt to the stress conditions using biochemical and physiological interventions. The edited compilation is an attempt to provide new insights into the mechanism and adaptation aspects of water stress in plants through a thoughtful mixture of viewpoints. We hope that the content of the book will be useful for the researchers working with the plant diversity-related environmental aspects and also provide suggestions for the strategists.
Author: Taylor Maavara
Publisher:
ISBN:
Category : Biogeochemical cycles
Languages : en
Pages : 175
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Book Description
The damming of rivers represents one of the most far-reaching human modifications to the flows of water and associated matter from land to sea. Globally there are over 70 000 large dams whose reservoirs store more than seven times as much water as natural rivers. Due to increasing demands for energy, irrigation, drinking water, and flood control, the construction of dams will continue into the foreseeable future. Indeed, there is currently an ongoing boom in dam construction, particularly focused in emerging economies, which is expected to double the fragmentation of rivers on Earth. Essential nutrient elements such as phosphorus (P), nitrogen (N), silicon (Si), and carbon (C) are transported and transformed along the land-ocean aquatic continuum (LOAC), forming the basis for freshwater food webs in lakes, rivers, wetlands, reservoirs, and floodplains, and ultimately for marine food webs in estuarine and coastal environments. The dam-driven fragmentation of the rivers along the LOAC will significantly modify global nutrient and C fluxes via elimination from the water column in reservoirs. In this thesis, I quantify in-reservoir elimination and transformation fluxes for phosphorus (P), silicon (Si), and organic carbon (OC), with the goal of determining (1) how much Si, P, and organic C (OC) are retained or eliminated globally due to river damming, (2) how damming modifies the balance of productivity (heterotrophy vs. autotrophy) in river systems worldwide, (3) to what extent damming changes nutrient speciation or reactivity along the LOAC, and (4) if reservoirs retain or eliminate certain nutrients more efficiently than others, and if so, how this decoupling changes nutrient ratios delivered to coastal zones. I address these research questions at the reservoir scale, by quantifying nutrient elimination in Lake Diefenbaker, Saskatchewan, and through the development of spatially explicit global nutrient and carbon models. In Chapter 2, I present a reservoir-scale field study of reactive silicon dynamics in Lake Diefenbaker, a reservoir in Canada's central prairie province of Saskatchewan. I use a year-round dataset of surface water samples and sediment cores to construct a Si budget for the reservoir, including an estimation of the amount of Si buried in the reservoir annually. I use this study to illustrate the differences in retention of Si relative to N and P, and put forth the hypothesis that river damming results in a decoupling of nutrient cycling. This study acts as an introduction to the concept of differential nutrient retention in reservoirs, which I go on to show at the global scale for Si, P, and C in reservoirs in Chapters 3, 4, and 5. Following Chapter 2, I address my research questions by developing a mechanistic approach to global scale biogeochemical modelling. This approach yields spatially explicit results, which allows for the quantification of regional watershed and coastal trends, as well as lumped continental changes. In Chapter 3, the modelling approach itself is introduced, through application to the Si cycle. I show, via a meta-analysis comparing the distribution of physical and chemical parameters of published reservoir Si budgets to reservoirs worldwide, that the existing literature Si budgets are severely limited in their ability to represent the dataset of global reservoirs. I then introduce the mechanistic approach by developing a biogeochemical box model representing Si dynamics in reservoirs. I assign rate expressions to transformation fluxes and input/output fluxes, which are constrained as uniform distributions between limits that encapsulate possible global ranges. Using a Monte Carlo approach, I allow the model to randomly select each rate constant independently for 6000 iterations, generating a database of hypothetical Si dynamics in reservoirs worldwide. I use this generated dataset to establish expressions relating Si retention to water residence time, which I apply to an existing database of global reservoirs. Ultimately I develop a global estimate of dissolved and reactive Si burial in reservoirs for year 2000. Chapters 4 and 5 use the same modelling approach presented in Chapter 3, but applied to riverine P and organic carbon (OC) fluxes. Because the cycles of P and OC have been studied in more detail than Si in the literature, it is possible to constrain higher order probability density functions (PDFs) for many rate constants. In the case of OC, it also becomes possible to use a statistically significant semi-empirical approach to calculate a number of fluxes, as expressions to predict OC dynamics have been established from globally applicable datasets. Using the upstream-catchment area-normalized Global-NEWS model's watershed yields as input to each reservoir, I use the 1970, 2000, 2030 and 2050 model predictions to estimate historical and predict future P and OC elimination by dams. In Chapter 4, I show that damming retains 12% of the global total P load to watersheds in year 2000, potentially rising to 17% by 2030. In Chapter 5, I show that global OC mineralization in reservoirs exceeds carbon fixation (P
Author: National Research Council
Publisher: National Academies Press
ISBN: 9780309045346
Category : Technology & Engineering
Languages : en
Pages : 580
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Book Description
Aldo Leopold, father of the "land ethic," once said, "The time has come for science to busy itself with the earth itself. The first step is to reconstruct a sample of what we had to begin with." The concept he expressedâ€"restorationâ€"is defined in this comprehensive new volume that examines the prospects for repairing the damage society has done to the nation's aquatic resources: lakes, rivers and streams, and wetlands. Restoration of Aquatic Ecosystems outlines a national strategy for aquatic restoration, with practical recommendations, and features case studies of aquatic restoration activities around the country. The committee examines: Key concepts and techniques used in restoration. Common factors in successful restoration efforts. Threats to the health of the nation's aquatic ecosystems. Approaches to evaluation before, during, and after a restoration project. The emerging specialties of restoration and landscape ecology.
Author: Stephen Derrill Shivers
Publisher:
ISBN:
Category :
Languages : en
Pages : 256
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Book Description
Freshwater ecosystems, which include lakes and reservoirs, are important sites for biogeochemical cycling on both a regional and global scale. Reservoirs affect the storage and transformation of nutrients as water moves through a watershed transporting municipal and agricultural runoff. Water quality is often a major concern because reservoirs provide a reliable source of water for human consumption and are used for recreational fishing and boating; both can be threatened by the accumulation of excessive nutrients. Because reservoirs attract many different users, they can also facilitate the spread of invasive species. The goal of this research project was to investigate how abiotic and biotic factors affect nutrient processing within a reservoir. The study area features extensive coverage by the invasive plant Hydrilla verticillata, which affects water quality within the reservoir through nutrient uptake and storage. Therefore, this study quantified the spatial coverage of submerged aquatic vegetation (SAV) using annual vegetation surveys between 2012 and 2014. Coverage changed dramatically by decreasing from 35.6 km2 to 18.3 km2. High precipitation and flooding during early spring increased turbidity and reduced light availability needed for growth. These high flows through the reservoir resulted in decreased SAV coverage and changes in nutrient storage. This study also investigated how these changes in SAV coverage affected nutrient cycling and organic matter processing through a water quality monitoring program that quantified nutrient concentrations in the inflows and outflow of the lake. Concentrations of NO3-N were lowest during the period of lowest SAV coverage. Consequently, flooding affected the coverage of SAV, which was driving nutrient cycling within the reservoir. To investigate the effects of Hydrilla and two other invasive species in the reservoir (Corbicula fluminea and Pomacea maculata), a mesocosm experiment was designed featuring different combinations of these species. The experiment demonstrated strong effects on nitrogenous compounds with Hydrilla reducing inorganic N, Pomacea converting stored N to available particulate N, and Corbicula mitigating the effects of Pomacea by reducing total N. Because Pomacea was recently introduced to the lake and the extent and rate of spread was unknown, snail egg mass surveys were completed during 2013 and 2014 to determine the spatial extent of the Pomacea population. Presence of Pomacea was found to be extensive in the reservoir and range expansion occurred in the second year of surveys. The expanding snail population has the potential to alter.
Author: Chuanfu Zang
Publisher: Frontiers Media SA
ISBN: 2832518818
Category : Science
Languages : en
Pages : 201
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Book Description
Author: North American Lake Management Society
Publisher: University of Wisconsin Press
ISBN:
Category : Business & Economics
Languages : en
Pages : 400
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Book Description
Written for the lake user, this third edition testifies to the success and the leadership of EPA's Clean Lakes Program.
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 126
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Book Description
